Notes&Notes for MRCP partI&II_3rd_2022 001 - Pages 1-25 001 Pages 1-25 M R C P ( G L A S G O - U K ) , M R C P - I R E L A N D for MRCP, part 1 & 2 3rd edition. 2022 Updated 2022 Third edition Notes & Notes For MRCP By Dr. Yousif Abdallah Hamad Volume 1 Foreword With the grace of the Almighty Allah, I have introduced the third edition of the popular book, the Notes & Notes for MRCP Part & 2. The MRCP exam requires a wide range of information, particular thinking, and question directed experience. This book is directed mainly at those who need comprehensive revision of the topics which commonly appear in the written MRCP exams. It will be helpful to go through these topics before you start solving the best of the five questions; it is also recommended to go quickly over this book in the last few weeks before the day of your exam. This new edition contains the new published guidelines. I hope you will find the maximum benefits from this book to get through MRCP written exams. To practice the best of five questions we advise you to join the best website for MRCP passonexam.com For any enquiry or comment, please do not hesitate to contact me. “The mind is not a vessel to be filled, but a fire to be kindled.” ― Plutarch. March - 2022 Dr. Yousif Abdallah Hamad Internal medicine specialist – Sudan medical counsel MRCPS- Glasgow- UK MRCP- Ireland Dryousif23 @gmail.com https://www.facebook.com/dryousif23 The 10 Golden Tips for MRCP written exams you will ever need For MRCP, do not read hard; read smart. Three to six months is usually enough for preparation. Practice the best of the five questions as much as possible. The few days before the exam date, stop revising questions and concentrate on your MRCP notes and top tips. Remember, you are getting ideas and concepts from the questions. Time factor in the exam room is the leading killer after poor preparation. Manage your time wisely. Read the end of the question first; if you can answer it without reading the whole scenario, it will save your time for the other tuff question (long scenario, .what is the action of imatinib?) Take care for any single word in the question, e.g. (the initial test, the diagnostic test, the best test, the next step) Practice, practice and practice. Contents Chapter 1 Endocrinolog & Metabolism Antidiuretic hormone (ADH) (Vasopressin) Syndrome of inappropriate ADH secretion (SIADH) (↑↑ ADH) ................................... Diabetes insipidus (DI) ........................... Water deprivation test ............................ Polyuria - Hyponatraemia ................. Hypopituitarism ...................................... Growth hormone (GH) .......................... Growth hormone deficiency (GHD) ...... Acromegaly ............................................ Laron›s syndrome ................................... Nelson syndrome (post adrenalectomy syndrome) Pituitary adenoma .................................... Pituitary apoplexy ..................................... Hyperprolactinaemia ................................ Physiological effects of thyroid hormones Calcitonin ................................................. Hypothyroidism ........................................ Pendred›s syndrome - Riedel›s thyroiditis Sick euthyroid syndrome - Subclinical hypothyroidism Abnormal thyroid function - Post-partum thyroiditis Subacute (De Quervain›s) thyroiditis Subclinical hyperthyroidism ..................... Thyrotoxicosis .......................................... Toxic multinodular goitre (TNG) (Plummer›s disease) Toxic thyroid adenoma (solitary toxic nodule) Graves› disease ........................................... Antithyroid drugs ...................................... Radioactive iodine therapy (RAI) ............. Thyroidectomy ....................................... Amiodarone and the thyroid gland Thyroid eye disease ............................... Thyroid storm (crisis) ............................... Thyroid cancer ......................................... Thyroid nodule and fine-needle aspiration Calcium metabolism ............................... Hypercalcaemia ............................................... Familial hypocalciuric hypercalcaemia (FHH) Hypocalcaemia ............................................... Magnesium (Mg) ..................................... Hypomagnesaemia ................................. Hypermagnesaemia ............................... Vitamin D (calciferol) ............................... Vitamin D deficiency ................................. Phosphate................................................ Hypophosphataemia................................ Hyperparathyroidism................................. Primary hyperparathyroidism.................... Secondary hyperparathyroidism............... Tertiary hyperparathyroidism..................... Hypoparathyroidism ................................. Pseudohypoparathyroidism...................... Pseudo pseudohypoparathyroidism.......... Osteomalacia............................................ Osteopetrosis - Osteoporosis................ Glucocorticoid-induced osteoporosis........ Osteoporosis: assessing fracture risk....... Osteoporosis: management...................... Adrenal gland: Basics............................... Premature adrenarche.............................. Dehydroepiandrosterone sulphates (DHEAS) Cortisol............................................................ Aldosterone..................................................... Adrenal hyperandrogenism.............................. Hyperaldosteronism: Overview................. Primary hyperaldosteronism..................... Aldosterone receptor antagonists.............. Adrenal incidentaloma............................... Congenital adrenal hyperplasia (CAH) Glucocorticoid remediable aldosteronism (GRA) Pseudohyperaldosteronism.................................. Syndrome of Apparent Mineralocorticoid Excess (SAME) Phaeochromocytoma................................ Primary hypoadrenalism (Addison›s disease)......... Chapter 1 Endocrinolog & Metabolism Addisonian crisis...................................... Secondary hypoadrenalism....................... Corticosteroids.......................................... Cushing›s syndrome (Hypercortisolism) Pancreatic Hormones - Glucose transporters Glycaemic index (GI)........................................ Metabolic syndrome......................................... Pre-diabetes or impaired glucose regulation (IGR)........ Diabetes mellitus: Type 1 overview........... Diabetes mellitus: management of type 1................. Diabetes mellitus: Type 2 overview........... Glycosylated haemoglobin (HbA1c).......... Diabetes mellitus: management of type 2 Biguanides (metformin)............................. Sulphonylureas......................................... Meglitinides............................................... Thiazolidinediones (glitazones, insulin sensitizers) Insulin: Basics......................................... Insulin therapy.......................................... Glucagon-like peptide-1 (GLP-1).............. Glucagon-like peptide-1 (GLP-1) analogs Dipeptidyl peptidase-4 (DPP-4) inhibitors (gliptins) Sodium-glucose cotransporter 2 inhibitors (gliflozins) Alpha-glucosidase inhibitors..................... Diabetic ketoacidosis (DKA): Overview Diabetic ketoacidosis (DKA): Management Hypoglycaemia......................................... Diabetes mellitus: early morning hyperglycemia Hypoglycaemia unawareness (HU)........... Hyperosmolar hyperglycaemic state (HHS) Diabetes mellitus: hypertension management Post prandial pain in diabetics................... Diabetic retinopathy.................................. Diabetic neuropathy.................................. Diabetic autonomic neuropathy................ Diabetic amyotrophy................................. Diabetic foot.............................................. Diabetic neuropathic arthropathy (Charcot foot) Necrobiosis lipoidica diabeticorum......... Diabetes mellitus: DVLA........................... Insulinoma................................................ Glucagonoma........................................... Monogenic diabetes: Maturity-onset diabetes of the young ( MODY)................ Latent autoimmune diabetes of adulthood (LADA) Mitochondrial diabetes............................. Diabetes in pregnancy.............................. Gestational diabetes mellitus (GDM)........ Pre-existing diabetes in pregnancy........... Obesity: overview..................................... Obesity: management (step-wise approach) Lipid disorders: Overview........................ Familial Combined Hyperlipidaemia (type IIB) Remnant hyperlipidaemia (type III).......... Familial hypertriglyceridaemia.................. Familial hypercholesterolaemia (FH)........ Secondary hypertriglyceridaemia............. Hyperlipidaemia: management................. Lipid-lowering agents............................... Statins...................................................... Fibrates.................................................... Ezetimibe................................................. Nicotinic acid (niacin )............................. Cholestyramine........................................ Tangier disease......................................... Abetalipoproteinemia................................ Gynaecomastia......................................... Physiological changes during pregnancy – endocrine Physiological effects of LH, FSH, and sex hormones Dihydrotestosterone (DHT)........................ Polycystic ovarian syndrome (PCOS) Hirsutism.................................................. Hypertrichosis.......................................... Amenorrhoea............................................ Premature ovarian failure.......................... Menopause............................................... Hormone replacement therapy (HRT)....... Selective Estrogen Receptor Modulators (SERMs) Chapter 1 Endocrinolog & Metabolism Androgen insensitivity syndrome.............. Disorders of sex hormones...................... Menstrual cycle......................................... Hypogonadism.......................................... Chapter 2 Pulmonology Lung anatomy........................................... Diaphragmatic paralysis (Phrenic nerve palsy) Lung physiology........................................ Oxygen Dissociation Curve....................... Pulmonary function tests........................... Obstructive vs. Restrictive lung diseases Transfer factor........................................... Transfer coefficient of carbon monoxide (KCO) Arterial Blood Gas (ABG).......................... Chest x-ray............................................... Pleural calcification - Solitary pulmonary nodules Alveolar-arterial (A-a) oxygen gradient..... Finger clubbing......................................... Respiratory failure.................................... Bronchial Asthma..................................... Acute severe asthma................................ Chronic Obstructive Pulmonary Disease(COPD) COPD: stable management..................... Non-invasive ventilation (NIV).................. Invasive ventilation.................................. Long-term oxygen therapy (LTOT)........... Pulmonary embolism (PE)....................... Recurrent pulmonary emboli.................... Pulmonary embolism in pregnancy: diagnosis and management..................... Fat embolism............................................ Community-acquired pneumonia (CAP) Klebsiella Pneumonia............................... Legionella pneumonia (Legionnaires› disease) Mycoplasma pneumoniae......................... Aspiration pneumonia............................... Psittacosis (Chlamydia psittaci pneumonia) (Atypical pneumonia).................................. Delayed puberty........................................ Multiple endocrine neoplasia..................... Autoimmune polyendocrinopathy syndrome (APS) (Polyglandular syndrome)..................... Pseudomonas pneumonia........................ Hospital-acquired pneumonia (HAP)........ Pneumocystis Jirovecii pneumonia (PCP) Coronavirus disease 2019 (COVID-19) Aspergillosis: Types.................................. Allergic bronchopulmonary aspergillosis (ABPA) Aspergilloma............................................. Invasive aspergillosis (IA)......................... Alpha-1 antitrypsin (A1AT) deficiency....... Acute respiratory distress syndrome (ARDS) Altitude related disorders.......................... Bronchiectasis.......................................... Cystic fibrosis (CF)................................... Occupational asthma................................ Hypersensitivity pneumonitis (HP)............ Pneumoconiosis........................................ Asbestos and the lung.............................. Pleural mesothelioma............................... Silicosis..................................................... Berylliosis.................................................. Coal workers› pneumoconiosis (CWP)..... Primary ciliary dyskinesia (PCD).............. Kartagener›s syndrome............................ Lung cancer: General overview................. Lung cancer: paraneoplastic features....... Lung cancer: stepwise investigations....... Performance status for patient of lung cancer and COPD Staging lung carcinoma............................. Treatment of lung cancer........................... Lung cancer induced superior vena cava obstruction (SVCO).................................. Pancoast tumor........................................ Lung metastases....................................... Chapter 2 Pulmonology Carcinoid lung tumour............................... Lung fibrosis: Causes................................ Idiopathic pulmonary fibrosis (IPF) ........... Bronchiolitis obliterans (BO)..................... Post-extubation stridor (PES).................... Obstructive sleep apnoea (OSA)............... Obesity hypoventilation syndrome (OHS) Pneumothorax........................................... Pleural effusion.......................................... Chylothorax............................................... Haemothorax............................................. Eosinophilic Pulmonary Diseases............. Acute eosinophilic pneumonia................... Chapter 3 Gastroenterology Achalasia................................................... Dysphagia.................................................. Oesophageal disorders............................. Gastro-oesophageal reflux disease (GORD) Barrett›s oesophagus................................ Oesophagitis in immunosuppressive patients Eosinophilic oesophagitis......................... Oesophageal cancer.................................. Pharyngeal pouch..................................... Acute upper gastrointestinal bleeding (UGIB) Oesophageal varices................................ Esophageal Rupture.................................. Hiccup........................................................ Helicobacter pylori..................................... Peptic ulcer................................................ Zollinger-Ellison syndrome........................ Somatostatin.............................................. Somatostatinoma....................................... Gastric MALT lymphoma........................... Gastroparesis............................................ Gastric cancer............................................ Gastrointestinal stromal tumour (GIST) Chronic eosinophilic pneumonia................ Tropical pulmonary eosinophilia................ Loffler›s syndrome..................................... Cryptogenic organising pneumonia (COP) Pulmonary hypertension (PH)................... Sarcoidosis................................................ Lofgren›s syndrome................................... Yellow nail syndrome................................. Hepatopulmonary syndrome (HPS).......... Pulmonary alveolar microlithiasis (PAM) Pulmonary Alveolar Proteinosis (PAP) Carbon monoxide poisoning..................... Smoking cessation.................................... Menetrier›s disease................................... Dyspepsia.................................................. Malabsorption............................................ Jejunal villous atrophy............................... Coeliac disease......................................... Whipple›s disease..................................... Tropical Sprue........................................... Irritable bowel syndrome (IBS).................. Malnutrition................................................ Lactose intolerance................................... Functional constipation............................. Energy from food....................................... Protein losing enteropathy......................... Enteral feeding.......................................... Refeeding syndrome................................. Melanosis coli............................................ Mesenteric ischaemia (ischaemic colitis) Small bowel bacterial overgrowth syndrome (SBBOS) Spontaneous bacterial peritonitis (SBP) Abdominal tuberculosis (Tubercular peritonitis) VIPoma...................................................... Volvulus.................................................... Chapter 3 Gastroenterology Imaging in bowel obstruction..................... Radiology: pneumoperitoneum................. Dumping syndrome................................... Small bowel lymphoma............................. Acute pancreatitis..................................... Systemic inflammatory response syndrome (SIRS) Pancreatic pseudocysts............................ Chronic pancreatitis................................... Pancreatic cancer..................................... Ascending cholangitis............................... Gallstones (Cholelithiasis)........................ Functional gall bladder pain...................... Choledochal cysts..................................... Sphincter of Oddi dysfunction.................... Post-cholecystectomy syndrome.............. Bile-acid malabsorption............................ Primary biliary cirrhosis............................. Primary sclerosing cholangitis (PSC)........ Cholangiocarcinoma................................. Hepatomegaly............................................ Hepatosplenomegaly................................. Liver function test...................................... Liver biopsy................................................ Acute liver failure....................................... Ascites....................................................... Liver cirrhosis............................................ Liver transplant.......................................... Portal hypertension.................................... Hepatic encephalopathy............................ Hepatorenal syndrome (HRS)................... Wilson›s disease....................................... Hyponatraemia in Patients with chronic liver disease Alcohol...................................................... Alcohol induced hypoglycemia................. Alcohol - drinking problems: management Disulfiram.................................................. Alcoholic liver disease.............................. The common abnormalities in chronic alcohol dependence Alcoholic ketoacidosis............................... Non-alcoholic fatty liver disease (NAFLD) (Non-alcoholic steatohepatitis (NASH) Liver abscess............................................ Hydatid cysts............................................. Drug-induced liver disease........................ Budd-Chiari syndrome............................... Gilbert›s syndrome.................................... Crigler-Najjar syndrome............................ Dubin-Johnson syndrome......................... Autoimmune hepatitis................................ Ischaemic hepatitis................................... Physiological liver changes during pregnancy Gilbert›s & Dubin-Johnson syndrome...... HELLP syndrome...................................... Obstetric cholestasis................................. Acute fatty liver of pregnancy (AFLP)....... Haemochromatosis................................... Hepatocellular carcinoma (HCC)............... Carcinoid syndrome.................................. hepatic metastases.................................... Hepatitis A (HAV)....................................... Hepatitis B................................................. Hepatitis B and pregnancy........................ Hepatitis C................................................ Hepatitis D................................................ Hepatitis E................................................. Hepatitis histology..................................... Colorectal cancer (CRC)........................... Colorectal cancer: screening.................... Colorectal cancer: referral guidelines....... AJCCC (American Joint Committee) Staging of Colorectal Cancer.................... Dysplastic colonic polyps.......................... Peutz-Jeghers syndrome.......................... Capsule endoscopy.................................. Pseudomyxoma peritonei......................... Villous adenoma........................................ Chapter 3 Gastroenterology Carcinoid tumours..................................... Diverticular disease................................... Meckel›s diverticulum............................... Intussusception......................................... Aorto-enteric fistulae (AEF)....................... Angiodysplasia.......................................... Anal fissure............................................... Anal fistula................................................. Crohn’s disease........................................ Crohn›s-like enterocolitis with mycophenolate mofetil Ulcerative colitis....................................... Inactive (quiescent) colitis......................... Ulcerative colitis: colorectal cancer........... Inflammatory bowel disease: key differences IBD: histology........................................... Microscopic colitis (Collagenous colitis and Lymphocytic colitis)............................ Collagenous colitis.................................... Lymphocytic colitis.................................... Toxic megacolon (Toxic dilatation of the colon) Radiation enteritis.................................... Gastroenteritis.......................................... Diarrhoea.................................................. Biochemical abnormalities in persistent vomiting Giardiasis.................................................. Clostridium perfringens.............................. Bacillus cereus.......................................... Shigella...................................................... Yersinia enterocolitica................................ Gastrointestinal parasitic infections........... Exotoxins and endotoxins......................... Pseudomembranous colitis (Clostridium difficile) Gastroenteritis (GI).................................... Scombrotoxin food poisoning.................... Perforated viscus...................................... Endoscopy in patients on antiplatelet or anticoagulant therapy................................ Third edition Notes & Notes For MRCP part 1 & 11 Dr. Yousif Abdallah Hamad Endocrinology & Metabolism Updated 2022 By Chapter 1 Endocrinolog & Metabolism Pituitary gland conditions Antidiuretic hormone (ADH) (Vasopressin) Overview • Synthesized in the supraoptic nucleus of the hypothalamus. • Stored and secreted from the posterior pituitary gland • it contains arginine, so called arginine vasopressin (AVP) • Vasoconstrictive effects at higher levels • Increase of urea reabsorption in the collecting duct: increases the corticomedullary gradient and facilitates urine concentration • ACTH release Functions Antidiuresis: Act on V2 receptors → ↑↑ transcription and insertion of water (Aquaporin-2) channels into the apical membrane of distal convoluted tubule and collecting duct epithelial cells → ↑↑ water permeability → ↑ water reabsorption (retain water in the body) → excretion of more concentrated urine, i.e., antidiuresis. Act on V1 receptors → Increase smooth muscle contraction (Vasoconstriction, uterine, GI and indirectly ↓coronary artery blood flow). Increase release of von Willebrand & factor VIII., (Desmopressin used for haemophilia A & Von Willebrand disease). Increase platelet aggregation, (prothrombotic at high dose). Vasopressin receptors Receptor Second messenger Location Action Agonist ♦Terlipressin  ↑ splanchnic VC  ↓ esophageal varices bleeding. ♦ Felypressin  prolong the action of local anesthesia (safer than epinephrine in cardiac patients) V3 or (V1b) V 1 or (V1a) ♦ vascular smooth muscle, ♦ platelet, ♦hepatocytes, ♦ myometrium G proteincoupled, phosphatidyli nositol/ calcium anterior pituitary gland G proteincoupled, phosphatidyli nositol/ calcium Renal basolateral membrane of collecting duct, V2 Adenylate cyclase/ cAMP Extra renal (vascular endothelium) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ♦vasoconstriction, ♦ myocardial hypertrophy, ♦ platelet aggregation, ♦ glycogenolysis, ♦ uterine contraction releases ACTH, prolactin, endorphins Anti-diuresis (Insertion of aquaporin2 channels) ♦ Vasopressin (weak , short acting , given SC or IM) ♦ Desmopressin (more potent, long acting, given intra-nasally) Desmopressin (used for haemophilia A & Von Willebrand disease) ↑↑ release of von Willebrand & factor VIII. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Factors increase secretion of vasopressin (stimulatory factors): • Increased osmolality of plasma (The main stimulus). • Reduced extracellular volume, hypovolaemia, blood loss, and hypotension (less sensitive stimulus). • decreased thirst perception and reduced fluid intake. • Advancing age • Angiotensin II • Hypoglycemia • Increased pain • Opiates • Nicotine • Antineoplastic drugs • Carbamazepine Factors decreases secretion of vasopressin (inhibitory factors): • genetic conditions (Wolfram syndrome), • tumours (Craniopharyngioma, Germinoma), • inflammatory conditions (Sarcoidosis, Histiocytosis). • Ethanol (alcohol)  ↓↓ calcium-dependent secretion of AVP • Atrial natriuretic peptide, by inhibiting Angiotensin II-induced stimulation of AVP secretion • Cortisol MRCPI-part-1- January 2018: H/O RTA + rapid pulse and low BP + low Na. • What is the most likely explanation for this patient's hyponatremia?  Physiologic ADH (vasopressin) secretion  Hyponatremia that develops after massive hemorrhage is likely dilutional.  When baroreceptors detect decreases in effective arterial volume, such as after massive blood loss, they cause antidiuretic hormone (ADH) to be released from the pituitary gland to increase renal reabsorption of free water, diluting serum sodium levels and causing hyponatremia. • What is the appropriate management of this patient?  normal saline.  Management of hypovolemic hyponatremia includes volume repletion with normal saline.  Correction of hypovolemia removes the stimulus to release ADH, causing free water excretion by the kidneys, which leads to rapid correction of serum sodium levels.  volume repletion with normal saline must occur at a slow rate, because rapid correction of hyponatremia can cause central pontine myelinolysis. May 2016 exam -part-1: Which adaptive mechanism that prevent dying from dehydration?  Increase of aquaporin-2 in the collecting duct.  ADH (vasopressin)  ↑ aquaporin-2 expression  ↓ water excretion  protect against dehydration Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism MRCPUK-part-1-january-2018: You are reviewing a patient with a history of cranial diabetes insipidus. He is passing 4–6 litres of urine per day. Expression of which channel is likely to be decreased most in the collecting duct?  Aquaporin 2  It is found in the apical membranes of collecting duct principal cells.  Aquaporin 2 gene expression is increased by vasopressin, which leads to increased re-absorption of free water. Expression is therefore downregulated in response to cranial diabetes insipidus. Syndrome of inappropriate ADH secretion (SIADH) (↑↑ ADH) Definition • The syndrome of inappropriate secretion of antidiuretic hormone (SIADH) is a disorder of impaired water excretion caused by the inability to suppress the secretion of antidiuretic hormone (ADH) leading to euvolaemic, hypotonic hyponatraemia. Causes Category Examples Malignancy • Small cell lung cancer (The most common cause) • Less common head and neck cancer, olfactory neuroblastoma Neurological • Stroke, subarachnoid haemorrhage, subdural haemorrhage • Meningitis/encephalitis/abscess Infections • Pneumonia, tuberculosis, symptomatic HIV, Drugs • Sulfonylureas , Thiazides • SSRIs, tricyclics, mono-amine oxidase uptake inhibitors, phenothiazines • carbamazepine • vincristine , vinblastine • cyclophosphamide, chlorpropamide • omeprazole Other causes • Surgical procedures • porphyrias (SIADH is associated with acute intermittent porphyria) Mechanisms • ↑↑ (ADH) ↑↑ water retention  Euvolemic hyponatraemia (dilutional effects)  low plasma osmolality + high urine osmolality with an elevated urine sodium (above 20 mmol/L) • Osmotic fluid shifts → Cerebral edema and ↑ intracranial pressure Features • Symptoms of hyponatremia (usually asymptomatic until the sodium level falls below 120 mmol/l)  Mild: anorexia, nausea, vomiting, headache, muscle cramps (the earliest symptoms of acute hyponatremia are nausea and vomiting.)  Moderate: muscle weakness, lethargy, confusion  Severe: seizures, altered consciousness • Normotensive • Symptoms of the underlying condition Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnostic criteria: SIADH can only be diagnosed when the following criteria are satisfied: The patient is clinically euvolaemic (no clinical evidence of fluid overload (oedema) or dehydration) ↓ Plasma sodium (<134 mmol/l) → hypoosmolality (<280 mOsmol/kg) ↑ Urine sodium (>20 mmol/l) and osmolality (>100 mOsmol/kg) → concentrated urine Normal thyroid, adrenal, and renal function.  It is important to note that normal thyroid is referring to primary hypothyroidism. Euthyroid sick syndrome does not preclude the diagnosis of SIADH. Diagnostic criteria Diagnostic criteria for SIADH Clinical and/or laboratory findings Hyponatremia ↓ Serum sodium < 135 mEq/L Hypoosmolality ↓ Serum osmolality < 275 mOsm/kg Concentrated urine ↑ Urine osmolality > 100 mOsm/kg Elevated urinary sodium ↑ Urine sodium concentration > 20 mEq/L Euvolemia  No signs of hypovolemia  No signs of hypervolemia (e.g. oedema) No alternative causes  Normal thyroid, adrenal, and renal function → Other causes of euvolemic hypotonic hyponatremia have been excluded (e.g., hypothyroidism, hypercortisolism, AKI)  It is important to note that normal thyroid is referring to primary hypothyroidism. Euthyroid sick syndrome does not preclude the diagnosis of SIADH. Differential diagnosis • Cerebral salt wasting (CSW)  hypovolaemia , hyponatraemia and grossly elevated urine sodium (>100) in patient with head injury.  it treated with replacing fluid and sodium losses, whereas SIADH treated with fluid restriction SIADH patients are usually euvolemic, normotensive, and have no edema. A hyponatremic patient with edema should raise suspicion of other conditions (e.g. congestive heart failure) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Management Restriction of water intake is the initial treatment of choice for hyponatraemic patients with SIADH who are not at imminent risk of seizures or coma. This precipitates a gradual rise in serum sodium, not greater than the recommended maximum of 8–10 mmol/day. • Sever acute symptomatic hyponatraemia: (who present with neurologic abnormalities, e.g. seizures or ↓ conscious level).  hypertonic (3%) saline given via continuous infusion  Infusion of hypertonic (3%) saline is reserved for patients with acute severe life-threatening hyponatraemia, usually where sodium is less than 120 mmol/l and there are significant neurological features (i.e. seizures or GCS less than 11).  correction must be done slowly to avoid precipitating central pontine myelinolysis  The sodium serum levels may increase by a maximum of 10 mmol/L within 24 hours or 0.5 mmol/L per hour. • Mild acute OR chronic hyponatraemia: (Na+ ≥ 120 and NO neurological signs)  1st line → fluid restriction (the initial treatment of choice)  Restriction of fluid to a daily intake of less than 800 mL/day.  patients with subarachnoid hemorrhage are an exception since fluid restriction may promote cerebral vasospasm.  2nd line → demeclocycline  it is a semi-synthetic tetracycline antibiotic →reduces the responsiveness of the collecting tubule cells to ADH (by inducing nephrogenic diabetes insipidus)  3rd line → ADH (vasopressin) receptor antagonists have been developed (ie. tolvaptan)  Side effects → hepatotoxicity, excessive thirst SIADH initial treatment: • If there is obvious precipitant (eg: drug) → stop the precipitant agent • where there is no obvious precipitant → fluid restriction → demeclocycline Diabetes insipidus (DI) Diabetes insipidus is characterised by a high plasma osmolality and a low urine osmolality Definition • The passage of large volumes (>3 L/24 hr) of dilute urine (< 300 mOsm/kg) due to deficiency of or insensitivity to antidiuretic hormone (ADH). Types and mechanisms of DI Cranial DI: caused by a deficiency of antidiuretic hormone (ADH) (the most common type) Nephrogenic DI: caused by insensitivity to ADH (rare) Primary polydipsia (dipsogenic DI): caused by a primary defect in osmoregulation of thirst. Gestational DI: caused by degradation of vasopressin by a placental vasopressinase. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes of cranial DI • Primary  Idiopathic (the most common primary cause)  Hereditary (rare): Wolfram's syndrome (DIDMOAD) : association of cranial Diabetes Insipidus, Diabetes Mellitus, Optic Atrophy and Deafness. • Secondary  Brain tumors (especially craniopharyngioma) and cerebral metastasis  Neurosurgery: usually after the removal of large adenomas  Traumatic brain injury, pituitary bleeding, subarachnoid hemorrhage  Pituitary ischemia (e.g., Sheehan syndrome, ischemic stroke)  Infection (e.g., meningitis)  Sarcoidosis Wolfram’s syndrome or the DIDMOAD syndrome is characterised by diabetes insipidus, diabetes mellitus, optic atrophy, and deafness Causes of nephrogenic DI • Genetic: two forms: vasopressin-2 receptor (V2 ADH) mutation  the more common form, X linked (usually male are affected) mutations in the aquaporin-2 gene → ↓water reabsorption in the distal tubule.  less common form , autosomal recessive • Electrolytes:  hypercalcaemia  hypokalaemia → desensitization of renal tubules to (ADH) → ↑ water excretion • Drugs: the commonest precipitants  tetracycline (demeclocycline)  lithium → enters the principal cells of the collecting duct through the epithelial sodium channels (ENac) → inhibits signalling pathways that involve glycogen synthase kinase type 3 beta (GSK3beta) → dysfunction of aquaporin-2 water channel → nephrogenic DI. • Tubulo-interstitial disease: obstruction, sickle cell trait, pyelonephritis, Sjögren's syndrome. • Pregnancy (combined renal hyposensitivity to ADH, increased placental elimination of ADH, lowered thirst threshold and effect of fluid retention) Hypokalaemia is a rare cause of polyuria and polydipsia Nephrogenic DI is the most common adverse effect of lithium and occurs in up to 40% of patients Features • Polyuria  urine output is > 50 ml/kg per day (3000 ml for a 60-kg female).  Nocturia → Restless sleep, daytime sleepiness (In the absence of nocturia, diabetes insipidus is very unlikely) • Polydipsia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Diagnosis In suspected DI the most appropriate next investigation is → Urine and plasma osmolality (non-invasive first step) • High plasma osmolality  plasma osmolality >305 mOsmol/kg  serum [Na] >145 mmol/L • Low urine osmolality  urine osmolality <200 mOsm/kg  urinary [Na] 20-60 mmol/L  urinary specific gravity <1.005. • Water deprivation test with response to desmopressin (The patient is deprived of fluids for up to eight hours or 5% loss of body weight, following which desmopressin (DDAVP®) 2 micrograms (IM) is given).  CDI → ↓ urine osmolality and ↑ serum osmolality CORRECTED by Desmopressin administration (plasma osmolality normalizes and urine osmolality rises).  NDI → low urine osmolality and elevated serum osmolality, with no significant response to desmopressin. • CT scan or MRI of the head: If CDI is diagnosed, to rule out brain tumors Management • Central DI  Mild CDI (urine output 3-4 litres/24 hours) → increase oral water intake.  oral or nasogastric water is the replacement fluid of choice as this route provides a good buffer against rapid changes in serum sodium.  If the urine output continues to be greater than 250 ml/hr → Desmopressin (Synthetic ADH) is the drug of choice. • Nephrogenic DI → correct the underlying cause (e.g. stop the responsible drug)  Thiazide diuretic (eg, hydrochlorothiazide), amiloride (K- sparing diuretic) → act on Distal Convoluted Tubule and inhibit the NaCl cotransporter and thus exaggerate the hypovolemia and increase an already activated renin–angiotensin–aldosterone system (RAAS) further. This mechanism stimulates proximal tubule sodium and water reabsorption resulting in less volume delivery to the collecting tubules where ADH work.  NSAIDs (indomethacin) → inhibit prostaglandin synthesis, which has antagonistic effects on ADH.  Amiloride is the drug of choice for lithium – induced nephrogenic DI → blocks the epithelial sodium channel (ENac) in the collecting duct where lithium enter and causes DI. Rate of hypernatraemia correction • Symptomatic patients with acute hypernatraemia (developed within 48h) → 5mmol/L in the first hour (or until symptoms improve) and is limited to 10mmol/L per 24h. • No or mild symptoms → the rate of correction should not exceeding 0.5mmol/L/h and is limited to 10mmol/L/24h. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Fluid status in DI • Total body water: decrease • Extracellular fluid: increase • Intracellular fluid: decrease DI → losing hypotonic fluid in the urine → ↑ osmolarity of the extracellular fluid → water will flow out of the intracellular compartment and into the extracellular compartment → ↑extracellular fluid volume and ↓intracellular fluid volume. Which part of the nephron is most affected in diabetes insipidus? Cortical and medullary collecting tubules If there is hypovolaemic hypernatraemia ((hypotension, tachycardia, poor skin turgor)): The first step is to restore volume with isotonic fluids (0.9% saline). Water deprivation test Overview • The diagnostic test to confirm Dl is a water deprivation test. • The goal of water restriction is to raise the plasma sodium to at least 145 mEq/L and plasma osmolality to 295 mOsmol/kg to stimulate enough ADH release to concentrate urine in normal subjects. If water restriction does not raise the Na and osmolality to this level, hypertonic saline infusion may be necessary. • Normal plasma osmolality is 285-305 mosmol/kg. • The normal 24-hour urine osmolality is, on average, 500-800 mOsm/kg of water. Method • Prevent patient drinking water (for a period of 8 h or until 5% of body weight is lost). • Ask patient to empty bladder • Patients should be weighed hourly. • Test urine volume and osmolality every hour • Test sodium and plasma osmolality every two hours • Water deprivation continues until one of the following occurs: Urine osmolality rises and reaches a normal value (> 600 mOsmol/kg) → DI ruled out and primary polydipsia confirmed  Where urine osmolality reaches levels above 600 mOsmol/kg without desmopressin, then the diagnosis is primary polydipsia. No change in urine osmolality despite a rising plasma osmolality (> 290 mOsmol/kg) Plasma osmolality > 295–300 mOsmol/kg or sodium ≥ 145 meq/L • In the latter two situations → administer desmopressin (a synthetic ADH analog) 2 μg intramuscular  Monitor urine osmolality testing every 30 minutes for 2 hours  In CDI: Urine osmolality rises (> 600) after desmopressin administration (renal ADH receptors are intact).  In NDI: Urine osmolality remains low after desmopressin administration (defective renal ADH receptors). Chapter 1 Endocrinolog & Metabolism Classification of causes of diabetes insipidus on basis of water deprivation and DDAVP® response Primary polydipsia (psychogenic polydipsia ) • Hyponatremia (< 137 meq/L) • Plasma osmolality: low- normal (255–280 mOsmol/kg) • Very low urine osmolality (< 250 mOsmol/kg) Lab findings on presentation Water deprivation test results • Plasma osmolality: normal (275– 290 mOsmol/kg) • Urine osmolality: rises, reaches normal value (> 600 mOsmol/kg) This result shows that both ADH release and effect are intact. Desmopressin administration results • Water deprivation test results confirm diagnosis; no need to administer desmopressin Classification of causes of diabetes insipidus on basis of water deprivation and DDAVP® response Urine osmolality after fluid Urine osmolality after DDAVP® (mOsm/kg) Likely diagnosis deprivation (mOsm/kg) <300 800 Cranial DI <300 <300 Nephrogenic DI 800 800 Primary/psychogenic polydipsia <300 800 Partial cranial DI or nephrogenic DI or PP or diuretic abuse A dramatic improvement in the ability of the kidneys to concentrate urine following the administration of DDAVP points towards a diagnosis of cranial diabetes insipidus Differentiate psychogenic polydipsia from CDI and NDI: • Patients with this disorder ingest and excrete up to 6L of fluid/day and are often emotionally disturbed. • Unlike patients with CDI and NDI, they do not have nocturia, nor does increased thirst wake them at night. • Patients with acute psychogenic polydipsia can concentrate their urine during a water deprivation test but chronic water intake diminishes medullary tonicity in the kidney. • Patients with long-standing polydipsia are not able to concentrate their urine to maximal levels during water deprivation, a response similar to that of patients with partial central diabetes insipidus. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad CDI NDI • Mild hypernatremia (> 150 mEq/L) • High-normal plasma osmolality(280–290 mOsmol/kg) or slightly elevated • Low urine osmolality  Partial DI: 300–500 mOsmol/kg  Complete DI: < 300 mOsmol/kg • Plasma osmolality: rises (> 290 mOsmol/kg) • Urine osmolality: no change • Plasma osmolality: normalizes (275– 290 mOsmol/kg) • Urine osmolality rises • Plasma osmolality remains elevated • Urine osmolality remains low • However, unlike central diabetes insipidus, patients of psychogenic polydipsia show no response to exogenous ADH after water deprivation. This response resembles nephrogenic diabetes insipidus, but ADH levels are low in psychogenic polydipsia and high in nephrogenic polydipsia. Polyuria Definition • defined as a urine output exceeding 3 L/day Causes Common (>1 in 10) Infrequent (1 in 100) • diuretics, caffeine & alcohol • diabetes mellitus • lithium • heart failure • hypercalcaemia • hyperthyroidism Thiazide diuretic abuse • polyuria and polydipsia of recent onset + high calcium, glucose and hypokalaemia, with an elevated bicarbonate. ↑Serum Osmolality > 300 Hyponatraemia (serum sodium less than 135 mEq/L). Prevalence • Occurs in up to 30% of hospitalised patients Classifications • based on severity:  Mild hyponatraemia : serum sodium between 130 and 135 mmol/l  Moderate hyponatraemia: serum sodium between 125 and 129 mmol/l  Profound hyponatraemia: serum sodium <125 mmol/l • based on time of development:  Acute hyponatraemia: hyponatraemia that is documented to exist < 48 h.  Chronic hyponatraemia: hyponatraemia that is documented to exist ≥ 48 h.  If hyponatraemia cannot be classified, we consider it being chronic Mechanisms of causes water excess sodium depletion Pseudohyponatraemia: (isotonic hyponatraemia)  Causes  Hyperglycaemia  hyperlipidaemia (increase in serum volume)  hyperproteinemia (e.g. myeloma)  taking blood from a drip arm.  exclude hyperglycaemic hyponatraemia by measuring the corrected serum Na+ Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Rare (1 in 1000) Very rare (<1 in 10 000) • chronic renal failure • primary polydipsia • hypokalaemia • diabetes insipidus Chapter 1 Endocrinolog & Metabolism  adding 2.4 mmol/l to the measured serum sodium for every 5.5 mmol/l incremental rise in serum glucose concentration above a standard serum glucose concentration of 5.5 mmol/l.  corrected Na+ = measured Na+ + 2.4 x (serum glucose mmol – 5.5/5.5mmol)  Non-hypotonic hyponatraemia does not cause brain oedema and is managed differently from hypotonic hyponatraemia. Causes of hyponatraemia Pseudohyponatraemia is characterised by a normal measured serum osmolarity, however the calculated osmolarity (based on an erroneously low plasma sodium result) is reduced. This results in a raised osmolar gap Urinary sodium > 20 mmol/l Urinary sodium < 20 mmol/l Sodium depletion, renal Patient often loss (patient often euvolaemic hypovolaemic) • diuretics • diuretic stage of renal failure • Addison's • SIADH (urine osmolality > 500 mmol/kg) • hypothyroidism • secondary hyperaldosteronism: heart failure, cirrhosis • reduced GFR: renal failure • IV dextrose, • psychogenic polydipsia Features • Fatigue, Muscle weakness • Gait disturbance, Falls • Cerebral oedema  Disorientation, Seizures Investigations • Urinary sodium and osmolarity levels aid making a diagnosis.  urinary sodium  Reduced urinary sodium excretion [less than 30 mmol/l] may indicate total body sodium depletion even if plasma sodium levels are normal.  may be misleading in the presence of renal impairment or diuretic therapy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sodium depletion, Water excess (patient often hypervolaemic and extra-renal loss (hypovolaemic) oedematous) • diarrhoea, vomiting, sweating • burns, adenoma of rectum Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • ascertain volume status as this will determine management.  Hypovolaemic hyponatraemia  Diagnosis may supported by an elevated urea suggesting dehydration.  rehydration with sodium chloride 0.9% or a balanced crystalloid (Hartmann's)  avoid rapid Na correction to reduce the risk of central pontine myelinolysis.  The rate of Na correction should not exceed 8 mEq/L per day.  Euvolaemic hyponatraemia  check urine and serum osmolality. Does the patient meet the criteria for SIADH?  treat the underlying cause where possible in SIADH  fluid restriction (500-750mls/day)  monitor fluid balance and perform daily weights  consider demeclocycline or tolvaptan (under specialist supervision). Both inhibit the action of antidiuretic hormone.  Hypervolaemic hyponatraemia  fluid and salt restriction  consider diuretics  treat the underlying cause (e.g. cardiac failure) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Hyponatraemia: correction Acute hyponatraemia • predisposing factors to acute hyponatraemia:  Over consumption of fluids,  Post-operative hyponatraemia is not uncommon and is likely to be due to a combination of SIADH which develops in the post-op period and the infusion of inappropriate IVIs.  prolonged race duration and inadequate training • Pathophysiology  When hyponatraemia develops over a short duration the ability of the brain to adapt is exceeded and cerebral oedema can result which may lead to confusion, seizures and coma. As a result, patients may die from brain herniation. • Features  hyponatraemic encephalopathy which is life threatening and presented with a fit. • Treatment of Hyponatraemia with severe symptoms  Hypertonic saline (3%) boluses are the most appropriate treatment to improve neurological status in such patients.  150mls of 3% hypertonic saline over 20 mins  check the serum sodium after 20 min while repeating an infusion of 150 ml 3% hypertonic saline for the next 20 min.  repeat therapeutic twice or until a target of 5 mmol/l increase in serum sodium is achieved  The target sodium by which one should elevate the sodium is 5 mmol/l over the first hour.  limit the increase in serum sodium to a total of 10 mmol/l during the first 24 h and an additional 8 mmol/l during every 24 h thereafter until the serum sodium concentration reaches 130 mmol/l  Decompressive craniotomy would help alleviate raised intracranial pressure due to cerebral oedema however is not an appropriate first line treatment. Hypopituitarism Definition • Deficiency of one or more anterior pituitary hormones.  GH deficiency → growth retardation (during childhood), ↓ bone density, muscle atrophy, hypercholesterolemia  Prolactin deficiency → lactation failure following delivery  FSH/LH deficiency → hypogonadotropic hypogonadism (secondary hypogonadism)  TSH deficiency → secondary hypothyroidism  ACTH deficiency → secondary adrenal insufficiency • Hypopituitarism becomes symptomatic when more than 80% of pituitary cells are damaged. Acute hyponatraemia is that which occurs within a duration of 48 hours. 002 - Pages 26-50 002 Pages 26-50 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes • Intrasellar/parasellar masses  Nonsecretory pituitary macroadenomas (≥ 10 mm in diameter) are the most common cause of hypopituitarism among adults (∼ 40% of cases).  Less common: internal carotid artery aneurysms, meningiomas, craniopharyngiomas, • Pituitary apoplexy  results in acute hypocortisolism and hypothyroidism, can present with sudden hypotension and hypovolemic shock • Sheehan syndrome: postpartum necrosis of the pituitary gland. Usually occurs following postpartum hemorrhage but can also occur even without clinical evidence of hemorrhage. • Traumatic brain injury (especially around the skull base) • Infiltration of the pituitary and/or hypothalamus  Hemochromatosis, Sarcoidosis  Infections: meningitis, TB • Empty sella syndrome • Iatrogenic  Hypophysectomy  Pituitary irradiation • Congenital  deficiency of hypothalamic hormones: GnRH deficiency (Kallman syndrome) Features (depends on which hormone is deficient). • Growth hormone deficiency: The first hormone to fall is the growth hormone  in children →short stature  in adults → tiredness, weight gain • ACTH deficiency → weight loss, weakness, Postural hypotension, chronic hyponatremia, hypoglycemia • TSH deficiency → weight gain, cold intolerance, lethargy, constipation, dry skin • FSH/LH deficiency  Women → primary amenorrhea (delayed puberty), secondary amenorrhea, irregular menstrual cycles, infertility  The presence of regular menstrual cycles in women rules out hypogonadism.  Men → delayed puberty, loss of libido, infertility, testicular atrophy. • Intrasellar/parasellar masses (e.g., pituitary macroadenomas, craniopharyngiomas) can manifest with headache, visual field defects (bitemporal hemianopsia), and/or diplopia • Pituitary apoplexy → Severe headache, bilateral hemianopia, diplopia (due to damage to CN III), sudden hypotension. • PRL deficiency is rare, except in Sheehan’s syndrome → failure of lactation • Houssay phenomenon: Amelioration of diabetes mellitus in patients with hypopituitarism due to reduction in counter-regulatory hormones. In the majority of cases, the development of hypopituitarism follows a characteristic order, with secretion of GH, then gonadotrophins being affected first, followed by TSH and ACTH secretion at a later stage. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Investigations • Insulin stress test  the gold standard dynamic test for the diagnosis of ACTH and GH deficiency in patients with suspected hypopituitarism.  a weight-based dose of intravenous insulin to achieve a hypoglycaemia level below 2.2 mol/l. With normal pituitary function GH and cortisol should rise  Contraindications: epilepsy, ischaemic heart disease and adrenal insufficiency • central/secondary adrenal insufficiency: low morning cortisol level + Low to normal ACTH • thyroid function tests → secondary hypothyroidism:↓ or normal TSH with ↓ serum free T4 and ↓ serum free T3 • MRI brain Management • Hydrocortisone: the most important replacement therapy to be started first to avoid the possibility of precipitating an adrenal crisis.  Fludrocortisone is only necessary in patients with adrenal insufficiency who are unable to maintain normal blood pressure control. • Thyroxine replacement: should be begun after commencing hydrocortisone because levothyroxine increases the clearance of cortisol and may precipitate an adrenal crisis. • GH therapy: licensed for treatment of symptoms with reduced quality of life on adult growth hormone deficiency assessment (AGHDA) questionnaire score. • Testosterone: the most appropriate treatment to prevent the progression of bone loss • In addition to pituitary hormone replacement, the underlying cause of hypopituitarism should be treated. Patients with TSH deficiency should not be treated with levothyroxine until ACTH deficiency has been ruled out and/or treated because levothyroxine increases the clearance of cortisol and may precipitate an adrenal crisis Growth hormone (GH) Secretion • Hypothalamus → release Growth hormone releasing hormone (GHRH) → stimulates the somatotrophs in the anterior pituitary gland → release GH. • Secreted in a pulsatile manner. The highest level of GH is seen around midnight during the sleep period. • GHRH uses two second messengers cAMP and IP3/Ca2+ to stimulate growth hormone release. Which signaling pathways does growth hormone (GH) use?  Tyrosine kinase receptor Mechanism of action • Direct action via tyrosine kinase receptor on target tissues, such as skeletal muscle, liver, or adipose tissue  ↓ Glucose uptake into cells (↑ insulin resistance) → ↑Blood insulin levels  ↑ Lipolysis  ↑ Protein synthesis in muscle  ↑ Amino acid uptake • Indirect action via insulin-like growth factor 1 (IGF-1), primarily secreted by the liver  Growth stimulation  Anabolic effect on body Growth hormone (GH) counteracts in general the effects of insulin on glucose and lipid metabolism but shares protein anabolic properties with insulin. GH along with cortisol and adrenalin (called counter-regulatory hormones) tell the body to increase the availability of glucose – so it counters the effect of insulin. GH regulation ↑ GH secretion ↓ GH secretion • Deep sleep • Fasting → Hypoglycaemia • Alpha adrenergic activity • Stress • Exercise • Ghrelin the "hunger hormone” • Amino acids (Arginine) • Pregnancy • Increased age • Glucose • Chronic glucocorticoid therapy • Sex steroids (estrogen or testosterone) • Puberty • CKD • Thyroid hormone, thyroxine • Estrogen, testosterone • Short-term glucocorticoid exposure • An increase in GH levels is seen in patients with Type 1 DM, while in patients with Type 2 DM the levels may be increased, normal or decreased. • GH levels increase in malnutrition in contrast to a decrease in IGF-1 levels. • In poorly controlled diabetics GH levels are invariably raised whilst normal or low levels of IGF-I are found, indicating a dissociation between the two factors. Conditions associated with GH disorders • GH deficiency: resulting in short stature • excess GH: acromegaly Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Somatostatin • Beta adrenergic activity • Hyperglycaemia (initially) • Obesity • Free fatty acids • Hypothyroidism • IGF-1 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Growth hormone deficiency (GHD) Causes • Pituitary tumours or their treatment, (e.g. surgery, cranial irradiation) is the most common cause. • Any other cause of hypopituitarism (see hypopituitarism topic) Features • In infancy are hypoglycemia and micropenis is the primary manifestations • In early childhood: growth failure is the primary manifestation. causes premature fusion of the epiphyseal portion of the bone. • In adults  ↑↑ fat mass  ↓↓ lean body mass  ↓↓ bone mineral density (BMD) → osteopenia/osteoporosis  ↓↓ energy, ↓↓quality of life (QoL)  ↓↓ sweating → Dry skin  ↑↑ greater mortality , ↑↑cardiovascular risk  ↑↑ insulin resistance  Dyslipidaemia (↑LDL). Diagnosis • Decreased serum insulin-like growth factor-1 (IGF-1) levels: may be normal in up to 50%. • Dynamic tests of GH secretion  Insulin tolerance test (ITT): the gold standard for the diagnosis  insulin-induced hypoglycaemia → GH response of less than 9 mU/L (3 ng/ml) → GHD  Causes of false positive test: Obesity →↓ GH response to insulin → false positive test  Contra-indications to ITT:  seizures (eg: in epilepsy)  IHD, Abnormal ECG  basal cortisol levels <100 nmol/L  Glycogen storage disease  Elderly (due to high risk of hypoglycaemia)  Alternative test if ITT is contraindicated:  arginine-GHRH stimulation test  glucagon-GH-releasing hormone stimulation test • Two tests of GH stimulation test are required before making the diagnosis. Treatment → Subcutaneous injections of recombinant human growth hormone. • Criteria for GH treatment: only if all the following three criteria are met 1- Severe GH deficiency, defined as a peak GH response of less than 9 mU/litre (3 ng/ml) during an insulin tolerance test. 2- Impairment of Quality of Life (QoL): 'Quality of life assessment of growth hormone deficiency in adults' (QoL-AGHDA) score ≥ 11. 3- Treatment for other pituitary hormone deficiencies Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Adverse effects of GH replacement • Sodium and water retention  Weight gain  Carpal tunnel syndrome • Hyperinsulinaemia • Arthralgia (possibly due to intra-articular cartilage swelling) • Myalgia • Benign intracranial hypertension (resolves on stopping treatment) Contraindications to GH replacement • Active malignancy • Benign intracranial hypertension • Pre-proliferative/proliferative retinopathy in diabetes mellitus Which treatment is most appropriate for patients with preserved pituitary function and deficiencies in growth hormone (GH) and adrenocorticotrophic hormone (ACTH)? • Cortisol replacement therapy only.  GH deficiency can be caused by hypoadrenalism. Concomitant cortisol and GH replacement therapies are not appropriate because cortisol alone may be sufficient to restore GH secretion. MRCP-UK. SCE .Sample question patients with childhood-onset GHD who are candidates for GH therapy after adult height achievement. What is the most appropriate next step in management? → should be retested for GHD Acromegaly Approximately 30% of growth hormone (GH) secreting pituitary tumours is associated with mutation of the Gs protein alpha subunit Definition • Acromegaly is the clinical condition resulting from prolonged excessive GH and hence IGF1. Epidemiology • Most cases are diagnosed at 40–60 years. Causes • Pituitary adenoma (95%) • ectopic GHRH or GH production by tumours e.g. pancreatic  mechanism: GH secreting tumours → mutation in the alpha sub-unit of the stimulatory guanosine triphosphate (GTP) binding protein → persistent elevation of cyclic adenosine monophosphate (cAMP) → production of excess growth hormone. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Features • Headaches • Visual field loss (attributable to optic chiasmal compression) , diplopia (due to cranial nerve palsy) • Increase in shoe size • Increased sweating : due to sweat gland hypertrophy • Hands: spade-like hands • Face: general coarse facial appearance, prognathism, , eyes, bitemporal hemianopia • Mouth: large tongue → Sleep apnea , interdental spaces Macroglossia: Causes • Hypothyroidism • Acromegaly • Amyloidosis • Duchenne muscular dystrophy • Mucopolysaccharidosis (e.g. Hurler syndrome) • Down's syndrome Complications • Hypertension (40%). • Insulin resistance and impaired glucose tolerance (40%)/diabetes mellitus (20%). • Obstructive sleep apnoea: due to soft tissue swelling in nasopharyngeal region. • ↑ risk of colonic polyps and colonic carcinoma • ↑ Ischaemic heart disease and cerebrovascular disease. • ↑ Congestive cardiac failure and possible ↑ prevalence of regurgitant valvular heart disease. • Cardiomyopathy → heart failure • Osteoarthritis, Arthralgia, Pseudogout • Carpal tunnel syndrome: Positive Tinel's sign • 6% of patients have MEN-1, hypercalcemia → primary hyperparathyroidism → MEN 1. Investigations • Serum insulin-like growth factor 1 (IGF-1)  IGF-1 measurement is the most appropriate initial investigation  May also be used as a screening test , sometimes used to monitor disease  Normal IGF-1 levels rule out acromegaly  If ↑ IGF-1 → conduct OGTT with baseline GH → measure GH after 2 hours:  if GH suppressed → acromegaly ruled out  if GH not suppressed: confirmed acromegaly → conduct pituitary MRI  Growth hormone (GH) levels vary during the day and are therefore not diagnostic. • Oral glucose tolerance test (OGTT) with serial GH measurements.  The definitive test  Lack of suppression of GH to < 1 μg/L following documented hyperglycemia during an oral glucose load.  False +ves: Chronic renal and liver failure, malnutrition, diabetes mellitus, heroin addiction, adolescence (due to high pubertal GH surges). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Assess for other pituitary functions • Pituitary MRI: usually demonstrates the tumour (98%) • If no pituitary tumor detected → serum GHRH + radiology of the chest and abdomen to detect ectopic GHRH-secreting tumor (usually a GHRH-secreting carcinoid of lung or pancreas.) • Associated laboratory features  Serum calcium: GH stimulates renal 1α-hydroxylase→↑ 1,25Dihydroxycholecalciferol (DHCC) → hypercalcaemia → hypercalciuria (which occurs in 80%) →↑likelihood of renal stones.  elevated Phosphate levels  Raised prolactin in 1/3 of cases → galactorrhoea In active acromegaly with associated diabetes mellitus → There is insulin resistance Acromegaly → ↑risk of colon cancer → regular colonoscopy screening, starting at the age of 40 years. Management Trans-sphenoidal surgery is first-line treatment for acromegaly in the majority of patients • Surgery: transsphenoidal adenomectomy  first-line treatment for acromegaly in the majority of patients  the percentage likelihood of cure from surgery: > 85% for microadenomas and 40–50% for macroadenomas • Medication: In patients with inoperable tumors or unsuccessful surgery, medication and radiotherapy are indicated to reduce tumor size and limit the effects of GH and IGF-1.  Somatostatin analogs (e.g., octreotide, lanreotide, pasireotide)  first line medical therapy.  side effects: gallstone disease  Dopamine agonists (e.g., bromocriptine, cabergoline):  less effective than somatostatin analogues.  may be helpful if there is coexistent secretion of PRL → significant tumour shrinkage.  Cabergoline is more effective than bromocriptine  GH receptor antagonists (e.g., pegvisomant)  Indicated for somatostatin non-responders. Third-line treatment when surgery, radiotherapy and somatostatin analogues are not effective.  Very effective - decreases IGF-1 levels in 90% of patients to normal  Pre-operative: may improve metabolic risk factors for surgery, such as hypertension and hyperglycaemia  Monitoring: liver function tests → discontinue pegvisomant if the transaminases are greater than 3-fold elevated. Octreotide can be used as an adjunct to surgery in patients with acromegaly Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Radiotherapy  Indications: residual tumor mass following surgery, and if medical therapy is unavailable, unsuccessful, or not tolerated.  stereotactic radiotherapy (SRT) is preferred over conventional radiation therapy  Side effects: Danger of hypopituitarism → do annual hormonal testing Long acting somatostatin analogue • Mode of action → ↓↓meal-time related superior mesenteric artery blood flow • One intra-muscular injection should be given every 14 days. • Common side effects : pain at injection site, GIT disturbances , Cholelithiasis, Sinus bradycardia , Hypoglycaemia, hyperglycaemia Which test is the best way to monitor for recurrence after trans-sphenoidal surgery for resection of a growth hormone-secreting pituitary adenoma? • Insulin-like growth factor 1(IGF-1) Prognosis • Left ventricular failure is the most common cause of death if treatment is unsuccessful Laron's syndrome Definition • an autosomal recessive disorder characterized by an insensitivity to (GH), usually caused by a mutant growth hormone receptor. Features • short stature • Reduced risk of developing acne, cancer and diabetes mellitus type II. • Seizures are frequently seen secondary to hypoglycemia. • low levels of insulin-like growth factor (IGF-1) and its principal carrier protein, insulin-like growth factor binding protein 3. Treatment • injections of recombinant IGF-1. • Not respond to growth hormone treatment due to a lack of GH receptors. Nelson syndrome (post adrenalectomy syndrome) Aetiology • bilateral adrenalectomy in patients with a previously undiscovered pituitary adenoma • occurs in 30% of patients adrenalectomised for Cushing's disease. Pathophysiology • Bilateral adrenalectomy → no endogenous cortisol production → no negative feedback from cortisol on hypothalamus → increased CRH production → uncontrolled enlargement of preexisting ACTH-secreting pituitary adenoma → increased secretion of ACTH and melanocyte-stimulating hormones (MSH) → symptoms of pituitary adenoma and ↑ MSH. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Headaches, bitemporal hemianopia (mass effect) • Cutaneous hyperpigmentation: arises from the MSH products of the proteolysis of POMC, which also produces ACTH. Diagnosis • High levels of beta-MSH and ACTH • Pituitary adenoma on MRI confirms the diagnosis. Treatment • Surgery (e.g., transsphenoidal resection) and/or pituitary radiation therapy (e.g, in the case of tumor residues after surgery) Monitoring • ACTH levels • serial pituitary imaging. Pituitary adenoma Epidemiology • Small pituitary tumours (<4 mm) are common and have been reported in up to 10% of MRIs in the general population. • Only a small fraction of such tumours are associated with clinical features suggestive of pituitary disorder. Classifications • According to size:  Microadenoma: ≤ 10 mm  Macroadenoma: > 10 mm • According to hormone secretion  Secretory pituitary adenomas (60%): hormone secretion → hyperpituitarism  Lactotroph adenoma: Prolactinoma 35–40%.  Somatroph adenoma: Growth hormone (acromegaly) 10–15%.  Corticotroph: ACTH adenoma (Cushing’s disease) 5–10%.  Thyrotroph: TSH adenoma <5%  Non-secretory pituitary adenomas 'chromophobe' : Non-functioning 30–35%.  Which nonfunctioning pituitary adenoma subtype is characterized by a high recurrence rate, invasion, and increased risk of hemorrhagic infarction?  Corticotroph adenoma Prolactinomas are the most common pituitary adenomas Features: depends on the tumor size and whether the tumor produces hormones • Secretory microadenomas → hyperpituitarism according to which hormone is secreted • Secretory macroadenomas → hyperpituitarism + mass effects (e.g., headache, bitemporal hemianopsia, diplopia) • Non-secretory microadenomas → Asymptomatic • Non-secretory macroadenomas → Hypopituitarism + mass effects (e.g., headache, bitemporal hemianopsia, diplopia) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Mass effects  Superior extension → firstly compression of the optic apparatus and later the hypothalamus.  Lateral extension → compression or invasion of the cavernous sinus can compromise third, fourth, or sixth cranial nerve functions, manifest as diplopia in 5 to 15% of pituitary tumour patients. Diagnostics • Hormone assays  Basal prolactin levels  Insulin-like growth factor-1 (IGF-1)  24-hour urine cortisol  Thyroid function tests • Cranial contrast MRI (initial test) : reveals an intrasellar mass  CT scan may be considered • Perimetry: to assess visual field defects Treatment • Non-secretory pituitary microadenomas (incidentalomas) → no treatment (only follow-up with serial MRI) • Prolactinomas (PRL is usually >6000mU/ml )  First-line: dopamine agonists (e.g., cabergoline, bromocriptine) → shrink pituitary adenoma.  Second-line: trans-sphenoidal hypophysectomy ± adjuvant radiotherapy • Other pituitary adenomas  First-line: transsphenoidal hypophysectomy  Second-line: Medications ± pituitary irradiation Differentiate between non-functioning adenoma and macroadenoma: • Although stalk compression with a non-functioning tumour may cause hyperprolactinaemia the concentrations of prolactin are usually below 2000 mU/L and galactorrhoea would be rare. Except Prolactinomas, all other functioning adenomas are treated primarily by surgery ( i.e.; for secondary hyperthyroidism, acromegaly etc). If the CT scan shows a pituitary tumour with suprasellar extension, which structures is likely to be compressed? • Optic chiasm  The optic chiasm lies 5-10 mm above the diaphragm sellae and anterior to the stalk.  Adenomas > 1.5 cm frequently have suprasellar extension, and the MRI will show compression and upward displacement of the optic chiasm. The presence of an elevated prolactin level along with secondary hypothyroidism and hypogonadism is indicative of stalk compression due to pituitary adenoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pituitary apoplexy Definition • Sudden hemorrhage into the pituitary gland. Most commonly occurs in patients with a preexisting pituitary adenoma which may be asymptomatic before presentation. Predisposing factors • pituitary adenomas (most common) Features • Features of raised intracranial pressure (↑↑ICP)  Sudden-onset retro-orbital headache, similar to that seen in subarachnoid haemorrhage  vomiting  visual disturbance: diplopia due to pressure on the oculomotor nerves • Features of pituitary insufficiency  The main initial problem is ↓↓ ACTH, → ↓↓ cortisol → features of an 'Addisonian crisis', i.e. hypotension, hyponatraemia, hyperkalaemia and hypoglycaemia.  Subacutely, there can be ↓ TSH and gonadotropins (LH and FSH). Diagnosis • Magnetic resonance imaging Treatment • Urgent steroid replacement • Indications for neurosurgical decompression:  severe neuro-ophthalmic signs (e.g. severely reduced visual acuity, severe and persistent or deteriorating visual field defects or deteriorating level of consciousness)  Ocular paresis because of involvement of III, IV or VI cranial nerves in the cavernous sinus in the absence of visual field defects or reduced visual acuity is not an indication for immediate surgery. Resolution will typically occur within days or weeks with conservative management • Over the long-term → corticosteroid, testosterone and thyroid hormone replacement. Prognosis • Nearly 80% of the patients will need some form of hormone replacement after apoplexy.  Growth hormone deficiency is the most commonly observed deficit after apoplexy and is present in almost all patients but rarely replaced. Sudden-onset retro-orbital headache, vomiting, visual disturbance and hormonal dysfunction should lead you to consider a diagnosis of pituitary apoplexy Pituitary Incidentaloma • Asymptomatic, pituitary tumors that are detected on MRI or CT scans done for other reasons without hormonal hyper- or hyposecretion and has a benign natural history. • The most appropriate strategy →observation and repeat scanning. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Hyperprolactinaemia The first test to do when seeing anyone with hyperprolactinaemia is to exclude pregnancy, as it is the most common cause. Prolactin hormone overview • Secreted by lactotrophic cells of the anterior pituitary gland • Effects on females: ↑ breast tissue growth and lactation, ↓ ovulation, ↓GnRH secretion, amenorrhea, galactorrhea, ↓libido • Effects on males: ↓ spermatogenesis and ↓ libido. • Stimulated by thyrotropin-releasing hormone (TRH) • Inhibited by hypothalamic dopamine and γ-aminobutyric acid (GABA). Epidemiology • Hyperprolactinemia is the most common form of hyperpituitarism. • Post-mortem studies show microadenomas in 10% of the population. • Microprolactinomas are commoner than macroprolactinomas • More common in females Pathophysiology Which hormones are expected to be low in hyperprolactinaemia? • Hyperprolactinaemia suppresses the release of gonadotropin-releasing hormone (GRH), which leads to reduced production of luteinising hormone (LH) and follicle-stimulating hormone (FSH). Causes • Physiological: Pregnancy, Sexual intercourse, Nipple stimulation/suckling, Stress. • Pituitary tumour:  Prolactinomas. the most common cause (∼ 50%) of pathological hyperprolactinemia  Microprolactinoma → prolactin level usually of 1,000-3,000 mU/L.  Macroprolactinoma: prolactin level usually greater than 3000 mU/L. Prolactin → ↓GNRH → hypogonatrophic hypogonadism (↓LH and FSH → ↓ estrogen, ↓ testosterone) Causes of raised prolactin – the Ps pregnancy prolactinoma physiological polycystic ovarian syndrome primary hypothyroidism Phenothiazines, metoclopramide, domperidone Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Mixed GH/PRL-secreting tumour. Acromegaly (1/3 of patients)  Macroadenoma compressing stalk.  Empty sella.  Multiple endocrine neoplasia (MEN): Occur in 20% of patients with MEN-1 (prolactinomas are the commonest pituitary tumour in MEN-1). MEN type 1should be considered in presentation with microprolactinoma and recurrent dyspepsia (gastrinomas, insulinomas, carcinoid). • Hypothalamic disease: mass compressing stalk (craniopharyngioma, meningioma, neurofibromatosis). • Infiltration : sarcoidosis, Langerhans cell histiocytosis. • Stalk section: head injury, surgery. • Cranial irradiation. • Drug induced: → ↓dopamine release → ↓dopamine inhibition effect on prolactin → ↑ prolactin release. (Levels less than 1000 are most likely to be drug related)  Dopamine receptor antagonists (metoclopramide most common, domperidone).  Neuroleptics (perphenazine, flupentixol, fluphenazine, haloperidol, thioridazine, chlorpromazine, trifluoperazine, risperidone, sulpiride).  Antidepressants (tricyclics, selective serotonin reuptake inhibitors, monoamine oxidase inhibitors, sulpiride, amisulpride, imipramine, clomipramine, amitriptyline, pargyline, clorgiline).  Cardiovascular drugs — verapamil, methyldopa, reserpine.  Opiates  Cocaine  Protease inhibitors — e.g. ritonavir, indinavir, zidovudine. • Oestrogens. • Others— bezafibrate, omeprazole, H2 antagonists. • Metabolic:  Hypothyroidism: TRH increases PRL.  Chronic renal failure: reduced PRL clearance.  Severe liver disease — disordered hypothalamic regulation. • Other:  Polycystic ovarian syndrome (PCOS): can make differential diagnosis of menstrual problems difficult.  Chest wall lesions—zoster, burns, trauma (stimulation of suckling reflex).  Temporal lobe seizures, due to close proximity to the hypothalamus. • No cause found: ‘Idiopathic’ hyperprolactinaemia. • Macroprolactinemia (‘big’ PRL)  aggregates of prolactin and antibodies (in particular, antiprolactin autoantibodies) that range in size from approximately 150 to 170 kilo Dalton (kD). The most common form of native prolactin in serum is 23 kD in size  These complexes are immunologically detectable but not biologically active, so they appear to cause no clinical abnormality. Typically, there is hyperprolactinaemia with regular ovulatory menstrual cycles. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Can be misdiagnosed and treated as prolactin hypersecretion  Detection  Misdiagnosis can be avoided by asking the laboratory to pretreat the serum with polyethylene glycol to precipitate the macroprolactin before the immunoassay for prolactin.  Gel filtration chromatography (gold standard). Quetiapine, clozapine, aripiprazole, and olanzapine are antipsychotics, with little or no effect on prolactin (lower binding affinity to D2 receptors). Cranial irradiation may initially cause hyperprolactinaemia but a low PRL is typical after a year. A patient presented with elevated oestradiol and prolactin with suppressed (LH/FSH) and recent amenorrhoea. what is the most likely diagnosis? • Pregnancy Features of excess prolactin • Hyperprolactinaemia (microadenomas and macroadenomas)  Men: impotence, loss of libido, erectile dysfunction, rarely galactorrhoea  Women: amenorrhoea, galactorrhoea, reduced libido • Mass effects (macroadenomas only):  Headaches and visual field defects (uni- or bitemporal field defects).  Hypopituitarism.  Invasion of the cavernous sinus may lead to cranial nerve palsies. • Long-term risk of d ↓BMD. Investigations • Serum prolactin (PRL)  stress of venepuncture may cause mild hyperprolactinaemia, so 2–3 levels should be checked, preferably through an indwelling cannula after 30min  Serum PRL <2,000mU/L is suggestive of a microprolactinoma or a non-functioning macroadenoma compressing the pituitary stalk.  Serum PRL >4,000mU/L is diagnostic of a macroprolactinoma.  Hook effect:  Very high prolactin concentrations can interfere with immunoassay systems resulting in falsely low prolactin determination. this is due to "hook effect" which describes the inhibition of immune complex formation by excess antigen concentrations.  this is an important consideration in patients with large pituitary adenomas when the clinical suspicion of prolactinoma is strong, as in patients with amenorrhoeagalactorrhoea or longstanding hypogonadism.  appropriate dilution of the serum in such cases helps in accurate estimation of serum prolactin concentration. • Thyroid function and renal function: Hypothyroidism and chronic renal failure are causes of hyperprolactinaemia. • MRI of the brain: the most accurate diagnostic test. Be aware MRIs do not rule out small microadenomas. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Levels of prolactin • < 1000 → drug-induced prolactinaemia • 1000 -- 3000 mU/l → microprolactinoma. • > 3000 → macroprolactinoma. Treatment of prolactinomas • Dopamine agonist (DA) (Cabergoline and Bromocriptine)  Dopamine agonists are first-line treatment for prolactinomas, even if there are significant neurological complications  they are able to normalize the prolactin levels, restore gonadal function and reduce tumor size  A meta-analysis suggested that cabergoline is more efficacious than bromocriptine in normalising prolactin and has a better side effect profile and is therefore the treatment of choice.  If patient is asymptomatic, there is no absolute requirement for treatment.  Side effects:  Both pergolide and cabergoline may be associated with pericarditis, cardiac valve regurgitation, pericardial effusion and pulmonary hypertension.  Ropinirole may be an appropriate alternative in this case, otherwise surgery would be the next most appropriate step.  Although cabergoline in higher doses used for Parkinson’s disease can cause right-sided cardiac fibrosis, there is no evidence for this using the lower doses necessary for the control of PRL levels.  Contraindications  cardiac valve fibrosis  pulmonary fibrosis. • Pituitary surgery  rarely required in prolactinomas and is generally reserved for patients intolerant of or resistant to dopamine agonist therapy. • Radiotherapy can be used to reduce the chance of tumour recurrence, but is rarely required. Prolactinomas in pregnancy • Risk of pregnancy  The main concern for the mother is adenoma growth with potential mass effect and visual loss  The risk of tumor enlargement during pregnancy is found to depend on tumor size:  3% for microprolactinomas  32% for macroprolactinomas that were not previously operated on • Before pregnancy: For women with macroadenomas  1st line: dopamine agonist  2nd line (if size does not decrease ) : transsphenoidal surgery  pregnancy is not recommended in women with drug resistant large macroprolactinomas and they should not conceive even if the tumor is intrasellar, until the size is reduced by transsphenoidal surgery. Dopamine agonists (e.g. cabergoline, bromocriptine) are first-line treatment for prolactinomas, even if there are significant neurological complications Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • During pregnancy  If possible, stop dopamine agonists as soon as the pregnancy is confirmed except in: invasive macroprolactinomas or pressure symptoms.  There is no evidence that DA is teratogenic, but Once pregnancy is established, DA is not necessarily required, and so most physicians recommend stopping it for the duration.  It is clearly not needed to treat hypogonadism and it is not needed to control size of adenoma as microprolactinomas almost never spontaneously increase in size.  In case the patient becomes symptomatic with visual disturbance or progressive headaches, an MRI without gadolinium (not a CT) should be performed to assess changes in tumor size.  evidence of macroadenoma growth on MRI; performed for severe headaches or visual field abnormalities) → cabergoline or bromocriptine  If treatment is required bromocriptine has the most safety data (the first drug of choice in symptomatic pregnant). Cabergoline may be considered if the adenoma does not respond to bromocriptine • Breastfeeding  Asymptomatic: Breastfeeding is not contraindicated, but dopamine agonists should not be used, because they impair lactation.  woman who has visual field impairment: should not breastfeed and should be treated with a dopamine agonist Cabergoline VS Bromocriptine Comparison Cabergoline Bromocriptine Dopamine receptors D2 selectively D2 and other dopamine receptors long acting (once or twice weekly → better tolerability and patient compliance) Short acting (requires multiple doses per day) Effectiveness in lowering the prolactin More effective in lowering the prolactin Less effective Safety during pregnancy Less data about safety Less teratogenicity than cabergoline Thyroid and parathyroid conditions Physiological effects of thyroid hormones Thyroid hormones production • The thyroid utilises tyrosine and iodine to manufacture thyroxine and T3. • Iodide is taken into the thyroid follicular cells by active transporters and then oxidised to iodine by thyroid peroxidase. • Organification occurs when iodine is attached to tyrosine molecules which themselves are attached to thyroglobulin, forming monoiodotyrosine (MIT) and diiodotyrosine (DIT). The coupling of 2 molecules of DIT forms thyroxine. • Maternal TRH readily crosses the placenta; maternal TSH and T4 do not. • An enzyme called 5’-deiodinase in the blood removes an iodine molecule to convert T4 to the biologically active T3. So T4 can be considered a prohormone: it must be Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad converted to T3 to exert any of its effects on the body. This conversion occurs throughout the body. In contrast, T4 can only be produced in the thyroid. • Peripheral metabolism of thyroxine is the most common source of T3. • Peripheral conversion is inhibited by glucocorticoids, β-blockers, and propylthiouracil(PTU) • T4 is much more abundant than T3 in the bloodstream. T3 is more biologically active than T4. • T3 has a much shorter half-life. T3 is more readily broken down by 5’-deiodinase. • The half-life of T3 is about one day (∼ 20 hours), whereas the half-life of T4 is about one week (∼ 190 hours). This longer half-life makes T4 suitable for use as a depot form that can be used replacement therapy. • Thyroid peroxidase first oxidizes iodide to iodine. Then, it attaches iodine to thyroglobulin. Then, it combines monoiodotyrosine (MIT) and diiodotyrosine (DIT) or two molecules of DIT to make T3 and T4, respectively. • Excess iodide inhibits thyroid peroxidase. This is called the Wolff-Chaikoff effect. Thyroid binding globulin (TBG) • In the blood, more than 99% of T3 and T4 are bound to thyroid binding globulin (TBG) and thus not biologically active. The small unbound is called free T3 and T4. This is the biologically active form. • TBG levels are increased during pregnancy and with oral contraceptive use because estrogen promotes liver TBG synthesis. In these patients, bound and total thyroid hormones are elevated while free T3 and T4 remain normal. Causes of altered concentration of TBG • ↑TBG • ↓TBG • Pregnancy • OCP and other sources of oestrogens • Tamoxifen • Hepatitis A; chronic active hepatitis • Biliary cirrhosis • Acute intermittent porphyria • Newborn state • Genetically determined • Androgens • Large doses of glucocorticoids • Cushing’s syndrome • Chronic liver disease • Severe systemic illness • Active acromegaly • Nephrotic syndrome • Genetically determined • Drugs, e.g. phenytoin • Factitious thyrotoxicosis Thyroid hormone receptors • The thyroid hormone receptor is a nuclear receptor. • The action of T3 requires entry into the nucleus, where the thyroid hormone receptors are found in cells throughout the body. • The TRH receptor uses the Gq pathway, while the TSH receptor uses the Gs pathway. Regulations • TRH binds to a Gq receptor on anterior pituitary tissue → activate membrane-bound phospholipase C →↑ inositol triphosphate (IP3) →↑intracellular calcium → activates protein kinase C →↑release of TSH. • TSH binds to a Gs receptor on thyroid gland tissue → activate adenylate cyclase → promotes conversion of ATP to cAMP, which acts as a second messenger →↑synthesis and secretion of T3/T4. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Functions of thyroid hormones: 7 B s • Brain maturation • Bone growth (synergism with GH) • β-adrenergic effects. β1receptors in heart CO, HR, SV, contractility; β-blockers alleviate adrenergic symptoms in thyrotoxicosis • Basal metabolic rate (via Na+/ K+ ATPase O2 consumption, RR ,body temperature) • Blood sugar ( glycogenolysis, gluconeogenesis) (Enhance insulin sensitivity ) • Break down lipids ( lipolysis) • Stimulates surfactant synthesis in Babies What is the defect Which responsible for thyroid hormone dyshormonogenesis?  Defect in iodine organification Thyrotropin is a glycoprotein hormone (glycosylated) Calcitonin Overview • Polypeptide hormone • Produced by the parafollicular cells (also known as C-cells) of the thyroid, Calcitonin receptor • found on osteoclasts, and in the kidney and regions of the brain, • is a G protein-coupled receptor, which is coupled by Gs to adenylate cyclase and thereby to the generation of cAMP in target cells. • It may also affect the ovaries in women and the testes in men. Action • ↓bone resorption. Reduce blood calcium (Ca2+), opposing the effects of parathyroid hormone (PTH). • Calcitonin-gene related peptide causes vasodilatation. • Calcitonin lowers blood Ca2+ levels in two ways: Major effect: Inhibits osteoclast activity in bones Minor effect: Inhibits renal tubular cell reabsorption of Ca2+ and phosphate, allowing them to be excreted in the urine Regulation • Secretion of calcitonin is stimulated by:  ↑serum [Ca2+]  gastrin and pentagastrin. Calcitonin escape phenomenon • Despite high serum calcitonin levels, which mechanism best explains the normal calcium levels in a patient with thyroid nodule ?  High levels of calcitonin down regulates its receptor  Calcitonin's primary function is to act on osteoclasts and decrease serum calcium levels.  Huge amounts of calcitonin are secreted in medullary carcinoma of the thyroid, or when calcitonin is used therapeutically to treat certain medical conditions, such as Paget's disease, osteoporosis, and hypercalcemia. Its effects on Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad osteoclasts disappear after one week of therapy. This is called the 'calcitonin escape phenomenon'.  The biochemical basis for the 'calcitonin escape phenomenon' is the down regulation of its receptor.  Whenever the levels of calcitonin become high, they down regulate the receptor by rapid and prolonged down regulation of calcitonin receptor messenger RNA. To remember that calcitonin keeps the calcium in the bones, think: Calci-bone-in! Hypothyroidism Epidemiology • Affects around 1-2% of women in the UK • Around 5-10 times more common in females than males. Causes • Hashimoto's thyroiditis  Autoimmune disease, Associated with HLA-DR3  Most common cause  10 times more common in women  May cause transient thyrotoxicosis in the acute phase  Early in the course of disease, T4 and TSH levels are normal and there are high levels of thyroid peroxidase antibodies and, less commonly, antithyroglobulin antibodies.  Thyroid radioiodine uptake may be increased because of defective iodide organification, together with a gland that continues to trap iodine.  Associated with  Other autoimmune diseases: IDDM, Addison's, pernicious anaemia, coeliac disease.  Turner's syndrome, Down's syndrome  Thyroid lymphoma  Features  Features of hypothyroidism (eg hair loss, hoarse voice and periorbital oedema )  Goitre: firm, non-tender  Antibodies  anti-thyroid peroxidase (anti TPO) also known as (Anti-microsomal antibodies)  anti-thyroglobulin antibodies (anti-Tg ) • Dietary iodine deficiency  Common in parts of central Africa, where the diet is poor in iodine and access to sea fish is relatively difficult. Uncommon in the developed world.  Iodine daily requirement: according to WHO recommendations  Age >12 and adults → 150 microgram  Pregnant and lactating women → 200 microgram  It may present as goitre without hypothyroidism, or in severe cases can progress to frank hypothyroidism.  Urinary iodide excretion is the next investigation to establish the diagnosis  As more than 95% of dietary iodide is excreted in urine, a 24 hour urinary excretion of iodide is an excellent index of dietary iodine intake and can unmask an iodide deficiency state. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Postpartum thyroiditis (subacute lymphocytic thyroiditis) • De Quervain’s thyroiditis (subacute granulomatous thyroiditis) • Riedel thyroiditis: a dense fibrosis that replaces normal thyroid parenchyma • Iatrogenic: after treatment of hyperthyroidism with anti-thyroid drugs, thyroidectomy or radioiodine. • Drug- induced  Amiodarone  Lithium → goitre in up to 40% and hypothyroidism in about 20%. • Secondary (central) hypothyroidism (rare):  TSH is not appropriately elevated inspite of low T4.  pituitary disorders → ↓ TSH levels → ↓ T3/T4 levels • Tertiary hypothyroidism: hypothalamic disorders → ↓ TRH → ↓ TSH → ↓ T3/T4 levels Features • Symptoms related to decreased metabolic rate  Fatigue, decreased physical activity  Cold intolerance  Hair loss, brittle nails, and cold, dry skin  Weight gain (despite poor appetite)  Hypothyroid myopathy  Woltman sign: a delayed relaxation of the deep tendon reflexes  Entrapment syndromes (e.g., carpal tunnel syndrome) • Symptoms related to decreased sympathetic activity  Decreased sweating  Cold skin (due to decreased blood flow)  Constipation (due to decreased gastrointestinal motility)  Bradycardia • Symptoms related to generalized myxedema  puffy appearance  Myxedematous heart disease (dilated cardiomyopathy, bradycardia, dyspnea)  Hoarse voice, difficulty articulating words  Pretibial and periorbital edema: due to accumulation of glycosaminoglycans and hyaluronic acid within the reticular layer of the dermis. complex protein mucopolysaccharides bind water → nonpitting edema • Symptoms of hyperprolactinemia  Abnormal menstrual cycle; secondary amenorrhea; menorrhagia  Galactorrhea  Decreased libido, erectile dysfunction, delayed ejaculation, and infertility in men • Further symptoms  Impaired cognition; somnolence, depression Investigations • Thyroid function tests  TSH: Best initial screening test. Normal TSH levels generally rule out primary hypothyroidism and hyperthyroidism  FT4 • Anti-TPO antibodies  present in 10% females without thyroid pathology Hashimoto's thyroiditis = Hypothyroidism + Goitre + Anti-TPO Hashimoto's thyroiditis is associated with thyroid lymphoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Associated laboratory manifestations • Euvolaemic hyponatraemia often resulting from inappropriate production of antidiuretic hormone. • Creatine kinase: increased in hypothyroid myopathy • Macrocytic anemia • Glucose intolerance • Dyslipidaemia  ↓thyroid hormones → ↓ use of glucose and FFAs as fuel → hyperlipidemia and glucose intolerance.  The predominant lipid picture in hypothyroidism is mixed dyslipidaemia ( ↑LDL , ↑ triglycerides )  may well resolve following the appropriate replacement with thyroxine.  Hypothyroidism is a risk factor for statin induced myopathy, therefore before increase statin dose it is important to correct thyroid profile • Slightly raised bilirubin: In hypothyroidism, the activity of bilirubin UDP-glucuronyl transferase is decreased, resulting in a reduction in bilirubin excretion. • Hyperprolactinemia → Hyperprolactin (hyperPRL) hypogonadism  Hypothyroidism→ ↑↑TRH (thyrotropin-releasing factor) → act as prolactin-releasing factor→ release of prolactin and hyperprolactinaemia. • Hypercarotenaemia (high blood levels of beta-carotene) → yellowing of the skin (xanthoderma). • Clinically silent pericardial effusion is common in untreated hypothyroidism (Pericardial or pleural effusions) Anti-TPO antibodies are present in 10% females without thyroid pathology Thyrotropin is a glycoprotein hormone (glycosylated) If the thyroid peroxidase (TPO) antibodies during early gestation are strongly positive. What is the chance of developing hypothyroidism in the post-partum period? → 50% Management • Levothyroxine: BNF recommends the initial starting dose as following:  For patients with cardiac disease, or patients over 50 years: 25mcg od with dose slowly titrated.  For other patients: 50-100mcg od • Follow-up: following a change in thyroxine dose TFT should be checked after 8-12 weeks • Target: TSH value 0.5-2.5 mU/l . If you made a diagnosis of Hashimoto's, what is the next best step in the management? • Rule out Addison's, short synacthen test even if the sodium is normal. Addison's may coexist with Hashimoto's, masked by the hypothyroid. Treating hypothyroid will unmask the Addison's and precipitate adrenal crisis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Monitoring Monitoring of thyroid status Thyroid-stimulating hormone (TSH) is the most sensitive indicator of thyroid status. • Normal TSH result suggests → adequate thyroxin replacement & euthyroidism • ↑↑ (TSH) with normal (T4) suggest → poor compliance • ↓↓ (TSH) with normal - high (T4) suggests → over-replacement Causes of persistently elevated TSH levels despite adequate thyroxine therapy: • Compliance (the commonest cause) • Drugs interaction such as:  rifampicin  calcium supplements (e.g. calcium carbonate)  Amiodarone  ferrous sulphate (give at least 2 hours apart)  Omeprazole,  Hormone replacement therapy (HRT) → ↑ thyroid binding proteins→ ↓ free thyroid hormone → requiring an increase in thyroxine dose.  Treatment with estrogens may necessitate a dose increase.  Glucocorticoids interfere with thyroid hormone metabolism and the dose of levothyroxine may need to be reduced. • Malabsorption syndromes like coeliac disease • Nephrotic syndrome Complications • Myxedema coma  Definition: potentially life-threatening decompensation. usually occurs in the elderly who are typically non-compliant.  Features : impaired mental status; hypothermia; bradycardia, myxedema  Treatment:  Intravenous thyroid hormones : levothyroxine ; PLUS liothyronine  Treatment with hydrocortisone is recommended until Addison’s disease can be excluded, as just giving thyroid hormone alone may precipitate an adrenal crisis.  rewarming. • Primary thyroid lymphoma  Hashimoto thyroiditis is the most common cause of hypothyroidism and the only known risk factor for primary thyroid lymphoma.  Almost all primary thyroid lymphomas are non-Hodgkin large B-cell lymphomas. • Hashimoto's encephalopathy  Extremely rare  Considered to be part of an autoimmune encephalitis.  Often, the condition presents prior to the development of hypothyroidism and patients can be entirely euthyroid yet with quite profound neurological dysfunction.  Result in altered mental state, myoclonus and ataxia.  Should be suspected in TSH derangement however there may be no clinical evidence of thyroid dysfunction.  The next laboratory tests should be → Anti-thyroid peroxidase antibodies  It is a steroid responsive encephalopathy Iron reduces the absorption of thyroxine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad A history of an acutely painful, left-sided goitre in euthyroid and apyrexial patient with normal labs and no prior history of thyroid disease ? • Haemorrhage into a cyst Pendred's syndrome signs of deafness and hypothyroidism  Pendred's syndrome Definition • Pendred syndrome is an autosomal recessive disorder that results in the reduced activity of pendrin. • Pendrin is importance for:  Iodide transport in the thyroid gland: defect → hypothyroidism with goiter.  Electrolyte homeostasis in the inner ear: defect → sensorineural hearing loss  Maintain sodium chloride balance in the distal nephron: defect → if treated with a thiazide diuretic that inhibits NCC, severe hypovolemia and metabolic alkalosis develop. Features • Hypothyroidism with goiter • Sensorineural deafness • Hypovolemia and metabolic alkalosis in response to thiazide diuretics. Diagnosis • genetic testing (Pendred's syndrome (PDS) gene, chromosome 7), (SLC26A4) • audiometry and MRI imaging to look for characteristic one and a half turns in the cochlea, compared to the normal two and a half turns. Treatment • thyroid hormone replacement • cochlear implants. Riedel's thyroiditis Definition • A chronic autoinflammatory disease, characterized by conversion of regular thyroid parenchyma to diffuse fibrous growth that may extend into the surrounding tissue. Features • Typically presents as a painless, hard, solid thyroid enlargement (described as stony or woody.) • Extension beyond the thyroid differentiates this from the fibrosing variant of Hashimoto thyroiditis. • Associated hypothyroidism (although most patients are euthyroid), absence of cervical adenopathy and slow course are differentiate this from anaplastic thyroid cancer. • Complications →Fibrotic invasion of adjacent anatomic structures (e.g. Hypoparathyroidism) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Diagnosis • Open surgical biopsy is essential for the correct diagnosis. • IgG4 levels are elevated in over 95% of cases. Treatment • Steroids and tamoxifen to inhibit connective tissue proliferation. • wedge resection of the thyroid isthmus to alleviate tracheal obstruction is still the preferred surgical therapy Sick euthyroid syndrome Definition • A decrease in thyroid hormone levels that occurs in severe illness despite normal thyroid gland function. • Now referred to as non-thyroidal illness. Pathology • Increase in 51 deiodinase Type 3 levels Causes • Any sever ill ness disease or organ failure • Common in intensive care patients Feature • Low T4 and T3. • TSH are typically low, but may be low-normal or normal. Management • Changes are reversible upon recovery from the systemic illness. • the most appropriate next step in management → repeat thyroid function tests in 3 months Subclinical hypothyroidism Subclinical hypothyroidism in a patient younger than 70: • TSH > 10mU/l  Start levothyroxine replacement • TSH 4-10mU/l  repeat the test in six months. Diagnosis • TSH levels above the range but with normal levels of thyroxine (T4) and triiodothyronine (T3). Epidemiology • found in 8–10% of the population, • more common in young women and increases with age. Significance • may be associated with an increased risk of cardiovascular disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Adverse pregnancy outcome: ↑risk of severe preeclampsia, placental abruption, preterm birth  subclinical hypothyroidism with positive anti-thyroid peroxidase (TPO) antibodies tend to have the highest risk of adverse pregnancy outcomes Indications for treatment • TSH > 10 • Hypothyroid symptoms (regardless TSH level) • Pregnancy or pregnancy planned in the near future Management • TSH is between 4 - 10mU/L (on 2 separate occasions 3 months apart).  If symptomatic  < 65 years:  give a 6-month trial of levothyroxine  If there is no improvement in symptoms, stop levothyroxine  In older people (especially ˃ 80 years) →follow a 'watch and wait' strategy, generally avoiding hormonal treatment'  If asymptomatic → observe and repeat thyroid function in 6 months • TSH is > 10mU/L (on 2 separate occasions 3 months apart) →start treatment (even if asymptomatic) Monitoring • Monitoring untreated subclinical hypothyroidism and monitoring after stopping treatment  With features suggesting underlying thyroid disease, such as previous thyroid surgery or raised levels of thyroid autoantibodies → once a year  Without features suggesting underlying thyroid disease → once every 2 to 3 years. 003 - Chapter 1 003 Chapter 1 Chapter 1 Endocrinolog & Metabolism Abnormal thyroid function Abnormal thyroid function tests Test Possible cause High TSH + low free T4 Primary hypothyroidism Low TSH + elevated free T4 and free T3 Primary hyperthyroidism Low or normal TSH + low T4 Secondary hypothyroidism Low TSH and normal free T4 T3 toxicosis (approximately 5% of thyrotoxicosis) Low TSH and normal free T4 and free T3 • Subclinical hyperthyroidism • Recovery from thyrotoxicosis • Excess thyroxine replacement • Non-thyroidal illness High TSH and high free T4 and free T3 • TSH-secreting pituitary tumour (2ry poor compliance) High TSH and Normal free T4 • Poor compliance with thyroxine • Subclinical hypothyroidism High free T4 and low normal free T3, normal TSH Low or normal TSH and low normal free T4 and free T3 • Non-thyroidal illness • Central hypothyroidism • Isolated TSH deficiency Normal TSH and low free T4 • Steroid therapy Low TSH and low free T4 • Sick euthyroid syndrome (non-thyroidal illness) _Post-partum thyroiditis Definition • thyroid dysfunction occurring within the first 6 months after delivery. Course of disease • Hyperthyroid status followed by a hypothyroid phase at three to six months, followed by spontaneous recovery in one third of cases. In the remaining two-thirds, a single-phase pattern or the reverse occurs. Features • characteristic sequence of three phases: hyperthyroidism, followed by hypothyroidism, and then recovery Pathophysiology • The exact aetiology is unknown but lymphocytic infiltration of the thyroid is typical, suggesting auto-immunity. Prevalence • occurs in approximately 5-7% of females Risk factors • Common in whom thyroid peroxidase (TPO) antibodies were positive prior to delivery • twice common in patients with type 1 diabetes mellitus. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad hyperthyroidism) • Thyroid hormone resistance • Heterophile antibodies, leading to spurious measurements of free T4 and free T3 • Thyroxine replacement therapy (including • Amiodarone Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Investigations • Thyroid peroxidase (TPO) antibodies are found in 90% of patients Management • the thyrotoxic phase is not usually treated with anti-thyroid drugs as the thyroid is not overactive.  Symptomatic treatment using  beta-blockers for relief of tremor or anxiety.  Propranolol is typically used for symptom control • the hypothyroid phase is usually treated with thyroxine  withdrawal period after 6 months to measure recovery of thyroid function.  Stop thyroxine and reassess thyroid function in approximately one month. Prognosis • Recurrence of thyroiditis is common in subsequent pregnancies • in up to 40% permanent hypothyroidism develops. Subacute (De Quervain's) thyroiditis Basics • Subacute thyroiditis also known as De Quervain's thyroiditis and subacute granulomatous thyroiditis • It is associated with HLA-B35 Pathophysiology • Occur after viral infection • thyroid inflammation drives increased release of stored thyroid hormone, rather than the clinical picture being due to overproduction of T3 and T4. Features Tender goitre, hyperthyroidism and raised ESR + globally reduced uptake on technetium thyroid scan is typical (De Quervian) • typically presents with hyperthyroidism symptoms  triphasic course of transient thyrotoxicosis, followed by hypothyroidism, followed by a return to euthyroidism.  The thyrotoxic phase is due to thyroid follicular damage and release of preformed hormone • painful goitre,  The thyroid enlargement is typically rapid, occurring over a period of days.  The thyroid gland will be firm, enlarged bilaterally or unilaterally due to extravasation of colloid from the follicles causing a granulomatous reaction. • raised temperature (e.g. flu-like symptoms) Investigations • Hyperthyroidism  As the condition resolves patients become hypothyroid and then euthyroid. • raised ESR (>50 and usually 100) , elevated CRP. • Thyroid ultrasound: shows  areas of hypoechoic echotexture  decreased or normal vascular flow by Doppler. Thyrotoxicosis with tender goitre = Subacute thyroiditis ( De Quervain's thyroiditis) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • thyroid scintigraphy: globally reduced uptake on iodine-131 scan  the most helpful investigation in establishing the diagnosis  Radioactive iodine uptake scan  Radioiodine uptake is typically less than 1% at 24 hours (Tc 99m uptake is similarly low). Management • usually self-limiting - most patients do not require treatment • symptomatic control.  Symptoms of hyperthyroidism:  should be managed with beta blockade as required,  no role for thionamides.  thyroid pain may respond to aspirin or other NSAIDs • steroids (Prednisolone )  in more severe cases, particularly if hypothyroidism develops Prognosis • The hypothyroidism is usually mild but persists for 2 - 4 months. • return to normal thyroid function in >90% of patients • A few patients (~5%) remain hypothyroid and need long-term thyroid hormone replacement. • Recurrences are uncommon. Subclinical hyperthyroidism Definition • normal serum free thyroxine and triiodothyronine levels • with a thyroid stimulating hormone (TSH) below normal range (usually < 0.1 mu/l) Causes • usually occurs in the setting of thyroid overactivity due to Graves' disease or autonomously functioning thyroid nodules sufficient to suppress pituitary TSH secretion but insufficient to cause an elevation of circulating hormones. • multinodular goitre, particularly in elderly females • excessive thyroxine may give a similar biochemical picture Complications • Cardiovascular (atrial fibrillation) • Bone metabolism (osteoporosis) • impact on quality of life • increase the likelihood of dementia Patient with subclinical hyperthyroidism with measurable TSH and no features of exogenous thyroid dysfunction can be managed conservatively Subclinical hyperthyroidism: normal FT4 and FT3 with a suppressed TSH level with nonspecific symptoms In De Quervain’s thyroiditis, treatment is aimed at reducing inflammation with NSAIDS or steroids in severe cases (e.g. prednisolone 20–40 mg/day for two weeks and titrated down). T3 levels should be performed where tests show normal T4 with suppressed TSH Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • Observation  Repeat measurement of TSH (with serum FT4 and FT3)  TSH levels often revert to normal - therefore levels must be persistently low to warrant intervention • therapeutic trial of low-dose antithyroid agents for approximately 6 months in an effort to induce a remission • indication for definitive therapy:  presence of an unmeasurable TSH (sustained TSH suppression (<0.1 mU/l)) and/or  exogenous thyroid dysfunction  symptoms of hyperthyroidism,  osteoporosis  a DEXA scan is appropriate next line management to quantify the osteoporosis risk and inform the decision as to whether or not to treat the sub-clinical hyperthyroidism.  atrial fibrillation, or  unexplained weight loss  The American Association of Clinical Endocrinologists recommends that treatment is considered in patients with a persistently low TSH level if they are older than 65 years or are at risk of osteoporosis or heart disease. Prognosis • Progression to overt hyperthyroidism occurs in 1-3 % of elderly patients per year. Thyrotoxicosis Causes • Graves' disease (50-60% of cases of thyrotoxicosis) • Toxic nodular goitre • Toxic adenoma (Plummer's disease) • Thyroiditis  Subacute granulomatous thyroiditis (de Quervain thyroiditis)  Subacute lymphocytic thyroiditis (e.g., postpartum thyroiditis) • Acute phase of Hashimoto's thyroiditis (Hashitoxicosis): later results in hypothyroidism. Transient thyrotoxicosis in patients with early Hashimoto's disease resulting from the initial destruction of the thyroid gland and subsequent release of thyroid hormones. Positive thyroid peroxidase antibodies and negative TSH receptor antibody • Amiodarone therapy • β-hCG-mediated hyperthyroidism (hydatidiform mole, choriocarcinoma) • Secondary thyrotoxicosis : thyrotoxic with an abnormally 'normal' TSH.  TSH-producing pituitary adenoma  Ectopic TSH (e.g. struma ovarii, ovarian teratomas can produce exogenous TSH causes secondary hyperthyroidism. can be visualized with a pelvic ultrasound or abdominal CT.)  Negative neck ultrasound and neck exam in the setting of hyperthyroidism and low radioiodine uptake. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Factitious hyperthyroidism: Exogenous thyrotoxicosis, diagnosed by:  Undetectable thyroglobulin ( a precursor of thyroid hormones, indicates an external source of thyroid hormone)  Radioactive uptake thyroid scan  endogenous causes of thyrotoxicosis → increased radioactive uptake  In thyrotoxicosis factitia, uptake is globally reduced. • T3 thyrotoxicosis  associated with 5% of cases of thyrotoxicosis.  suppressed TSH , low or normal T4 and fT4, high fT3 • Excess iodine ingestion  Kelp is a very rich source of iodine. Treatment is withdrawal of the kelp with monitoring of thyroid function. Iodine excess • Jod-Basedow phenomenon:  Hyperthyroidism following iodine excess (e.g., after IV contrast administration, due to intake of amiodarone or other iodine-containing drugs, etc.)  Mechanism: occurs due to either overactivation of the entire thyroid gland or, more commonly, autonomous nodules within the gland after iodine repletion without adequate feedback control from the pituitary gland. • Wolff-Chaikoff effect  Hypothyroidism following iodine excess (opposite effect to Jod-Basedow phenomenon)  Mechanism: excess iodine inhibits thyroid peroxidase → decreases T3/T4 production Thyrotoxicosis factitia (thyroxin abuse): The combination of low thyroglobulin, decreased uptake on scintigraphy and raised T4 Feature • General  Heat intolerance  Excessive sweating because of increased cutaneous blood flow  Weight loss despite increased appetite  Frequent bowel movements (because of intestinal hypermotility)  Weakness, fatigue  Onycholysis: a separation of the nail from the nail bed.  Infiltrative dermopathy, especially in the pretibial area (pretibial myxedema) • Goiter: Diffuse, smooth, nontender goiter; often audible bruit • Eyes  Lid lag: caused by adrenergic overactivity, which results in spasming of the smooth muscle of the levator palpebrae superioris  Lid retraction: “staring look”  Lid retraction and lag are signs of sympathetic overactivity, and occur in any thyrotoxic state (thyroxine potentiates the action of catecholamines).  Graves ophthalmopathy (exophthalmos, edema of the periorbital tissue) T3 thyrotoxicosis should always be considered in patients with suppressed TSH and normal T4 levels, especially when patients are symptomatic. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Decreased libido • Cardiovascular  Palpitations, tachycardia , irregular pulse (due to atrial fibrillation/ectopic beats)  caused by increased beta-adrenergic tone.  Atrial fibrillation (AF) occurs in 10% to 25% of patients with hyperthyroidism  Hypertension with widened pulse pressure  Systolic pressure is increased due to increased heart rate and cardiac output.  Diastolic pressure is decreased due to decreased peripheral vascular resistance. • Endocrinological  Female: oligo/amenorrhoea, anovulatory infertility, dysfunctional uterine bleeding  Male: gynecomastia, decreased libido, infertility, erectile dysfunction • Musculoskeletal  Fine tremor of the outstretched fingers  Hyperthyroid myopathy: Typically affects proximal muscles (e.g., hip flexors, quadriceps) more than distal muscles. Serum creatine kinase levels are most often normal  Osteopathy: osteoporosis due to the direct effect of T3 on osteoclastic bone resorption • Neuropsychiatric  Anxiety, Restlessness, Insomnia  Hyperreflexia Investigations • Thyroid function tests: low TSH, plus high T4 and T3.  The most sensitive test to diagnosis hyperthyroidism is TSH level (initial screening test).  In primary hyperthyroidism the TSH should always be suppressed by negative feedback  Non-suppressed (TSH) suggests → excessive TSH production by the pituitary gland → the possibility of a thyrotroph adenoma → do MRI scan pituitary gland  T3 is more sensitive because occasional cases of isolated T3 toxicosis can occur. • TSH receptor antibody (TRAb): for suspected Graves disease without characteristic features • Thyroid ultrasound with Doppler  first-line for pregnant/lactating patients, palpable nodules or suspected thyroiditis  Increased perfusion: either diffuse (Graves’ disease, toxic adenoma) or nodular (toxic MNG)  Decreased perfusion: destructive causes of hyperthyroidism (e.g., subacute thyroiditis or postpartum destructive thyroiditis) • Thyroid scintigraphy: Radioactive iodine uptake measurement (RAIU test)  first-line for most patients with uncertain diagnoses, e.g., suspected thyroid adenoma or toxic MNG  Assess functional status of thyroid nodules  Hot nodule: Hyperfunctioning tissue takes up large amounts of radioactive iodine  Cold nodule: Non-functioning nodules do not take up any radioactive iodine and appear "cold”, but the surrounding normal thyroid tissue takes up radioactive iodine and appears "warm"  Identify ectopic thyroid tissue  Contraindications: pregnant or breastfeeding women Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • General laboratory findings  Serum glucose levels typically increase in patients with hyperthyroidism.  Hypocholesterolemia due to increased LDL receptor expression.  Serum cholesterol: decreased total cholesterol, LDL, and HDL  CBC in thyrotoxic Graves’ disease is most likely to show:  Mild leukopenia with relative lymphocytosis (mild neutropenia and lymphocytosis)  Normochromic anaemia  Rarely, thrombocytopenia.  High bone turnover and osteoporosis may be associated with thyrotoxicosis. Bone turnover involves increased osteoclastic and osteoblastic activity, leading to elevated alkaline phosphatase levels derived from bone.  Increased levels of sex hormone-binding globulin (SHBG) Which blood tests is most sensitive in establishing whether there is excess thyroid activity? • Free T3 level Management • Treatment of hyperadrenergic symptoms: beta blockers (first line)  Propranolol is effective in controlling all symptoms prior to initiation of specific therapy (e.g. carbimazole, which will have a more delayed effect on symptoms).  If there are contraindications to beta blockers, e.g., severe asthma, Raynaud phenomenon , consider CCBs: verapamil OR diltiazem • Antithyroid drugs (ATDs)  Most patients: methimazole  Thyroid storm or first trimester of pregnancy: propylthiouracil  Duration of therapy for Graves’ disease: typically 12–18 months  Contraindications to ATDs, e.g., liver disease • Radioactive iodine ablation (RAIA)  destruction of thyroid tissue via radioactive iodine (iodine-131)  Indicated for Toxic MNG, toxic adenoma and failure of antithyroid drugs (ATDs) in Graves disease.  Contraindicated in pregnant/breastfeeding women and moderate to severe Graves ophthalmopathy. • Thyroid surgery  The efficacy of antithyroid drugs and RAIA has reduced the need for thyroid surgery.  Indications: Large goiters (≥ 80 g) or obstructive symptoms, suspected thyroid malignancy and Graves ophthalmopathy. Secondary thyrotoxicosis: • Thyrotoxic with an abnormally 'normal' TSH. • Pituitary adenoma • Prior to pituitary surgery → restoration of euthyroidism with somatostatin analogues. In acute thyrotoxicosis, stop aspirin as it can worsen the storm by displacing T4 from thyroid binding globulin Thyrotoxicosis is associated with reversible cardiomyopathy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management of thyrotoxicosis in pregnancy Suspect a molar pregnancy or choriocarcinoma if severe hyperthyroidism manifests during pregnancy Transient thyrotoxicosis and/or hyperemesis gravidarum • Supportive therapy • Management of dehydration, and hospitalization if needed. • Anti-thyroid drugs (ATDs) are not recommended, though β-blockers may be considered. • Early pregnancy (1st trimester) → Propylthiouracil (PTU)  Due to the small risk of fetal abnormalities with carbimazole it is recommended to use PTU in the first trimester during organogenesis and then carbimazole in trimester 2 + 3.  Propylthiouracil (PTU) is highly protein bound making it less likely to cross the placenta or breast milk.  Carbimazole has rarely been associated with aplasia cutis of the neonate • Late pregnancy (2nd + 3rd trimester) → Carbimazole  Propylthiouracil associated with hepatotoxicity  Despite this the BNF states both drugs may be used in pregnancy. • Postpartum Patients  Carbimazole is recommended by European Thyroid Association Guideline during lactation, given the concerns about PTU-mediated hepatotoxicity. • Contraindications  Block-and-replace regimes should not be used in pregnancy  Radioiodine therapy is contraindicated • Monitoring and targets  Maternal free thyroxine levels should be kept in the upper third of the normal reference range to avoid fetal hypothyroidism  In women being treated with anti-thyroid drugs (ATDs) in pregnancy, FT4/TT4 and TSH should be monitored approximately every 4 weeks. • Thyroid-stimulating hormone receptor antibodies  In a patient with a past medical history of Graves' disease who is clinically and biochemically euthyroid who is planning pregnancy: check thyroid-stimulating hormone receptor antibodies (as it can cross the placenta and cause foetal problems.): If they are positive, then treatment should be initiated to control the antibody levels, despite the normal TSH and T4. Due to the small risk of fetal abnormalities with carbimazole it is recommended to use PTU in the first trimester during organogenesis and then carbimazole in trimester 2 + 3. A 10 weeks pregnant C/O anxiety and an inability to sleep. Blood results show: total thyroxine (T4) 160 nmol/l (normal range 70–140 nmol/l), free T4 27 pmol/l (9–25 pmol/l) and thyroid-stimulating hormone (TSH) 0.2 mU/l. Which management of choice in this patient? • Observe and repeat thyroid function tests in one month • Diagnosis: Physiological hyperthyroidism Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Hyperthyroidism with non-suppressed TSH • Elevated free T4 and free T3 + non-suppressed TSH (normal or elevated) = think of either :  TSH-secreting pituitary tumour OR  Thyroid hormone resistance • TSH-secreting adenoma  ↑Alpha subunit: the next investigation to differentiate it from thyroid hormone resistance. elevated alphaSU: TSH ratio (usually 1:1). A molar ratio of Alpha - subunit to TSH of > 5.7 is considered diagnostic.  Pituitary MRI should be done to look for a pituitary mass.  Treatment: Trans-sphenoidal resection of the tumour is the therapy of choice. • Thyroid hormone resistance  Mechanism: THB gene defects,  Features: Usually clinically euthyroid with only goitre. Sometimes: goitre with short stature, hyperactivity, attention deficits, learning disability,  Diagnosis: gene sequencing (sequencing the thyroid hormone receptor gene) can confirm diagnosis in 85%.  Treatment: Most cases require no treatment. If needed, it is usually B-adrenergic blockers MRCPUK-part-1-September 2007 exam: Pregnant lady investigated for excessive sweating and tremor. Blood tests reveal the following: TSH < 0.05 mu/l. T4 =188 nmol/l. What is the most appropriate management? Propylthiouracil Toxic multinodular goitre (TNG) (Plummer's disease) Definition • multiple autonomously functioning thyroid nodules that secrete excess thyroid hormones. Epidemiology • second most common cause of hyperthyroidism in the Western world, after Graves disease. • most common cause of hyperthyroidism in elderly and in areas of endemic iodine deficiency. • Develops in 10% of patients with a long-standing nodular goiter • Sex: ♀ > ♂ • Age: often > 60 years Pathophysiology • Iodine deficiency → ↓ T4 → thyroid cell hyperplasia to compensate for the low levels of T4 → ↑thyroid cell replication → somatic mutations of the TSH receptor → further growth → clonal proliferation → multiple nodules. • Somatic mutations of the TSH receptors and G α protein → activation of cyclic adenosine monophosphate (cAMP) cascade of the inositol phosphate pathways → functional autonomy of the thyroid • Multiple somatic mutations of TSH receptor occur in long-standing goiters (> 60% of cases) → autonomous functioning of some nodules (toxic MNG) → hyperthyroidism (due to ↑ release of both T3 and T4) Features • goiter with multiple palpable nodules • thyrotoxicosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Pemberton sign is the obstruction of the thoracic inlet by extending the arms over the head, and can be positive in cases of multinodular goiter. Diagnosis • Ultrasonography is a highly sensitive to detect nodules • Thyroid scintigraphy → patchy uptake  Increased radioiodine uptake by multiple hyperfunctioning (hot) nodules  Decreased uptake (suppression) by the rest of the gland and intervening parenchyma • CT of the chest → is the investigation of choice to determine the degree of retrosternal involvement • Histopathology of resected tissue: patches of enlarged follicular cells distended with colloid and with flattened epithelium Thyroid nuclear scintigraphy • Toxic nodular goiter (TNG) → patchy uptake. • Graves’ disease → homogeneous diffuse uptake. • Thyroiditis → low uptake. Treatment • The treatment of choice is radioiodine therapy  Recurrence of multinodular goitre after RAI → The next best step is a further dose of RAI after 6 months of the first RAI therapy. • Surgical therapy is usually reserved for young individuals, patients with 1 or more large nodules or with obstructive symptoms, patients with dominant nonfunctioning or suspicious nodules, patients who are pregnant, patients in whom radioiodine therapy has failed, or patients who require a rapid resolution of the thyrotoxic state. Toxic thyroid adenoma (solitary toxic nodule) Overview • Typically, a single large thyroid nodule accompanied by clinical and biochemical hyperthyroidism. • This nodule is almost always benign Pathophysiology • Gain-of-function mutations of TSH receptor gene in a single precursor cell → autonomous functioning of the follicular cells of a single nodule → focal hyperplasia of thyroid follicular cells → toxic adenoma • The autonomous nodule overproduces thyroid hormones → hyperthyroidism → decrease in pituitary TSH secretion → suppression of hormone production from the rest of the gland Diagnosis • Thyroid iodine uptake scan:  Hot area surrounded by extranodular thyroid tissue.  Thyroid tissue surrounding a toxic adenoma typically has suppressed function. • In the absence of any thyroid auto-antibodies which argue against both Graves' disease and Hashitoxicosis, the most likely diagnosis is a solitary toxic nodule. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Treatment • Initial treatment  Control symptoms with beta-blockers and thioamides until euthyroidism is achieved, followed by tapering of beta-blockers • Definitive treatment  Non-pregnant, non-lactating adult with no mass effect:  1st line → Radioactive iodine therapy  2nd line → subtotal thyroidectomy  Non-pregnant, non-lactating adult with mass effect:  1st line → subtotal thyroidectomy  Pregnant or lactating;  1st line → anti-thyroid drugs  2nd line → subtotal thyroidectomy Graves' disease Overview • Graves' disease is the most common cause of thyrotoxicosis. • typically seen in women aged 30-50 years. • associated with the presence of HLA-DR3 and HLA-B8 • 50% of patients with Graves disease have a family history of autoimmune disorders • Triggers: Physical or psychological stress and pregnancy Pathophysiology • B and T cell-mediated autoimmunity → production of stimulating immunoglobulin G (IgG) against TSH-receptor (TRAb; type II hypersensitivity reaction) → ↑ thyroid function and growth → hyperthyroidism and diffuse goiter • there are antibodies to the TSH receptor mimicking the action of endogenous TSH. Binding to the TSH receptor then activates adenyl cyclase and results in increased secretion of thyroid hormones (Antibodies overstimulating adenyl cyclase) Features • General features of thyrotoxicosis • Specific features seen in Graves' but not in other causes of thyrotoxicosis  Eye signs (30% of patients): exophthalmos, ophthalmoplegia  Pretibial myxedema ( commonly described as orange peel skin present on both shins) → pathognomonic  raised, indurated pinkish patches.  may appear years before, or after, hyperthyroidism.  Thyroid acropachy (a dermopathy characterized by soft-tissue swelling of the hands and clubbing of the fingers). Radiographic imaging of affected extremities typically demonstrates periostitis, most commonly the metacarpal bones.  Thyroid bruit: presence of goitre is not necessary, although usually there is a small palpable goitre.  Anti-TSH receptor stimulating antibodies (90%) → specific for Graves' disease  Globally increased uptake on thyroid scan. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The most likely associate of Graves' disease is vitiligo occurring in approximately 7% of cases. Triad of Graves disease Diffuse goiter (smooth, uniformly enlarged goiter) Ophthalmopathy (Exophthalmos) Dermopathy (pretibial myxedema): non-pitting edema and firm plaques on the anterior/lateral aspects of both legs Management • Treatment of hyperadrenergic symptoms → Beta blockers: first line: propranolol • Anti-thyroid drugs (ATDs)  ATD titration  carbimazole is started at 40mg and reduced gradually to maintain euthyroidism  typically continued for 12-18 months  fewer side-effects than those on a block-and-replace regime  Long-term remission following antithyroid drugs is of the order of 15%, with the vast majority relapsing. Thus, frequently, radio-iodine is advocated as a primary treatment - particularly for multi-nodular or toxic solitary nodules.  Block-and-replace  carbimazole is started at 40mg  thyroxine is added when the patient is euthyroid  treatment typically lasts for 6-9 months  this approach is associated with 50% long term remission rate (the relapse rate after treatment is 50%) • Radioiodine iodine (RAI) treatment: in refractory cases to medical management • Surgery: less commonly used and usually reserved for patients with large goitre, compressive symptoms or intolerance to antithyroid drugs and difficulties in administering radioiodine The principal test used to follow the immediate effect of treatment of hyperthyroidism is the serum free T4 concentration. Measurement of serum TSH can be misleading in the early follow-up period because it can remain low for weeks or even months, even when the patient is biochemically euthyroid or even hypothyroid, Which factor can be used as a predictor of relapse of hyperthyroidism before pharmacologic treatment is discontinued? Positive thyroid-stimulating autoantibody test. (This is a good predictor of relapse, but rates of relapse are still high when thyroid-stimulating autoantibodies disappear). Pregnant woman with a history of Grave’s disease should have thyroid stimulating hormone binding antibody titres measured even if euthyroid as the antibodies can cross the placental barrier Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Antithyroid drugs Agents • Methimazole, Carbimazole, Propylthiouracil • Methimazole is the active metabolite of carbimazole Mechanism of action • Inhibits thyroid hormone production via inhibition of thyroid peroxidase → blockade of iodide oxidation, organification, coupling (Inhibition of the iodination of tyrosine) • Propylthiouracil also lowers peripheral conversion of T4 to T3 by inhibiting 5'-deiodinase. Onset of action • Slow onset of action (3–4 weeks) • Methimazole has a faster onset of action and fewer side effects than propylthiouracil Adverse effects • Carbimazole-induced agranulocytosis (the major complication)  defined as neutrophil count less than 0.5 ×109/L  the incidence of leukopenia/neutropenia with carbimazole is less than 1%.  should be stopped if neutrophil count below 1.5 ×109/L (1.5-7).  In fact, a mild decrease in WBC can also occur with hyperthyroidism.  If neutrophil count are just below normal →The most appropriate treatment would be to continue the carbimazole.  Treatment  thionamides should be withdrawn  appropriate antibiotics (broad spectrum cephalosporin)  occasionally, granulocyte colony-stimulating factor (G-CSF) is required when white count fails to respond. • Hepatotoxicity (seen with propylthiouracil use) • Teratogenicity: increased risk of congenital malformations with carbimazole and methimazole (e.g., aplasia cutis)  Neonatal hypothyroidism will occur in approximately 10% of babies, because carbimazole crosses the placenta and switches off the fetal thyroid axis. The goitre that occurs is transient and will disappear following delivery  also, propylthiouracil cross the placenta but less freely than carbimazole , although thyroxine does not. • Allergy/hypersensitivity  pruritic rash (particularly with methimazole)  ANCA-associated vasculitis (propylthiouracil) As methimazole and carbimazole are teratogenic, propylthiouracil is recommended in the first trimester. After the first trimester, switch back to carbimazole or methimazole because of the hepatotoxic effects of propylthiouracil. Interaction • Carbimazole effect is potentiated by the liver enzyme-inhibitor (eg: erythromycin) Carbimazole (CBZ) VS Propylthiouracil (PTU) Carbimazole (CBZ) Propylthiouracil (PTU) Action ↓thyroid peroxidase ↓thyroid peroxidase + ↓51 deiodinase type 1 → ↓peripheral conversion of T4 to T3 Potency More (15 times as potent as PTU) Less Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Carbimazole (CBZ) Propylthiouracil (PTU) Structure less protein bound, more transfer across placenta more protein bound, less transfer across placenta Teratogenicity Associated with aplasia cutis Less associated with aplasia cutis Major side effects Agranulocytosis Hepatotoxicity use in pregnancy 2nd and 3rd trimester 1st trimester Radioactive iodine therapy (RAI) Definition: destruction of thyroid tissue via radioactive iodine (iodine-131) Indications • Graves’ disease refractory to medical management • Toxic multinodular goitre Preparation before RAI • Anti-thyroid drugs is often used prior to RAI due to the risk of early deterioration of thyrotoxicosis. This depletes the intrathyroidal stores of hormone to prevent reexacerbation of thyrotoxicosis in the weeks following treatment due to release of preformed thyroid hormone. • Carbimazole needs to be stopped at least 7 days prior to radioiodine to ensure appropriate uptake. • Avoid excess iodine for 7 days prior to RAI. Procedure • Single oral dose of iodine-131 • The recommended dose of RAI is typically between 500 - 800 MBq Advice post procedure • Patients should be advised to keep babies, children under five, pregnant women and pets at arm’s length for two to three weeks • Females are advised to avoid pregnancy for at least 6 months after radioactive iodine treatment • Males are advised not to cause a pregnancy for 6 months after radioactive iodine Advantages • Goitre shrinkage may occur in up to 30% following RAI. Adverse effects • Thyrotoxic symptoms  Mild thyrotoxic symptoms after radioiodine occur in about one-third of patients,  About 4% of patients develop a clinically significant radiation-induced thyroiditis. Should be treated symptomatically with beta blockers. • Hypothyroidism  Early post-radioiodine hypothyroidism might be transient.  Hypothyroidism is the most common adverse effect.  Proportion of patients who become hypothyroid  depends on the dose given, but as a rule the majority of patient will require thyroxine supplementation after 5 years Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  approximately 80% will have long-term hypothyroidism following radioiodine. • Flare of Graves' eye disease (↑↑ thyroid eye disease in 15% of patients with Grave's disease)  patients with thyroid eye disease should be treated with steroids for one to two weeks prior to starting radioiodine therapy. Contraindications • Pregnancy • Breastfeeding • Active thyroid eye disease (unless providing steroid cover) • Radioiodine therapy should be avoided until 8 weeks following CT contrast administration. the iodine in the CT contrast medium competes with the radioactive iodine (I131) for binding sites →↓ thyroid uptake of radioiodine. Thyroidectomy Indications • Large goiters (≥ 80 g) or obstructive symptoms • thyroid malignancy • Graves’ disease with severe ophthalmopathy Complications • Transient hypoparathyroidism  due to local trauma at the time of surgery  occur in 8 – 10% of cases (the most likely post-operative complication)  Rarely becomes permanent hypoparathyroidism in fewer than 1% of patients.  Usually presents 24-48 hours postoperatively • permanent hypoparathyroidism seen in 1-2% • Infection is seen in 1-2% • Bleeding is less common, seen in around 0.5% or less • Permanent recurrent laryngeal nerve palsy occurs in 1% of patients;  Recurrent laryngeal nerve injury leads to a hoarse voice, because of paralysis of the posterior cricoarytenoid muscle, which is responsible for opening the vocal cord.  superior laryngeal nerve palsy affects more patients (3-4% in case series). Which structures is most closely related to the recurrent laryngeal nerve? • Inferior thyroid artery • The superior thyroid artery runs closest to the superior laryngeal nerve. Radioiodine therapy is the treatment of choice for patients with a relapse of Graves’ disease in the absence of contraindications, such as pregnancy and active severe Graves ophthalmopathy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Amiodarone and the thyroid gland Overview • Amiodarone, a class III antiarrhythmic drug can induce thyroid dysfunction (both hypo- and hyperthyroidism), which is due to amiodarone's high iodine content and its direct toxic effect on the thyroid. Amiodarone contains 75 mg of iodine per 200 mg tablet (40% iodine by weight). • Around 1 in 6 patients taking amiodarone develop thyroid dysfunction • Amiodarone has a wide tissue distribution, very long half-life (100 days) , very lipophilic, and can result in prolonged effects even after stopping therapy for several months. Amiodarone-induced hypothyroidism (AIH) • Epidemiology  Amiodarone-induced hypothyroidism is the commonest side effect associated with amiodarone treatment in iodine replete areas (in contrast to amiodarone induced thyrotoxicosis more commonly seen in iodine depleted areas). • Pathophysiology  High iodine content of amiodarone causing a Wolff-Chaikoff effect (an autoregulatory phenomenon where thyroxine formation is inhibited due to high levels of circulating iodide)  Amiodarone inhibits the peripheral conversion of T4 to T3 (normal T4 , ↓ T3 , ↑ TSH). • Management  Same as for primary hypothyroidism.  Doses larger than normal, is often required  Amiodarone should only be discontinued if it fails to control the underlying arrhythmia. Amiodarone is most likely to cause a false increase in which of these laboratory values? Free T4. (Amiodarone can cause a reduced peripheral conversion of T4 to T3). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Amiodarone-induced thyrotoxicosis (AIT) Amiodarone-induced thyrotoxicosis (AIT) may be divided into two types: Differentiating between the two forms of Amiodarone-Induced Thyrotoxicosis (AIT) AIT type 1 AIT type 2 Epidemiology Most often seen in iodine-deficient areas. Most common in Europe and North America Pathophysiology Amiodarone contains↑ iodine → ↑ thyroid hormone synthesis (JodBasedow effect ) ↑ release of T4 and T3 due to a destructive thyroiditis history Occurs in patients with underlying thyroid pathology, such as a nodular goitre or Graves’ disease. Occurs in patients without underlying thyroid disease. Goitre Present Absent Color Doppler ↑ Blood flow ↓ Blood flow Iodine-131 uptake scan normal or high Minimal or none IL-6 levels Low or normal Markedly elevated Management Carbimazole Corticosteroids ± Antithyroid Differentiation between type 1 and type 2 • Colour flow Doppler is most likely test to differentiate between Amiodarone induced thyrotoxicosis (AIT) type 1 and type 2. It appears to be superior to IL-6 which may be markedly elevated in AIT type 2, however may also be raised by concurrent non-thyroidal illness. AIT initial management • Usually Type 1 AIT is treated with high doses of anti-thyroid drugs to block thyroid hormone synthesis. Type 2 thyrotoxicosis is treated with glucocorticoids. • Due to practical difficulties to distinguish between the 2 types, often a combination of steroids and thioamides is the best first-line management used for treatment of AIT.  A rapid response suggests type 2 AIT; thionamides can be tapered.  A poor initial response suggests type 1 AIT; the steroids can be tapered, and the patient can be treated for type 1 AIT. Withdrawal of the amiodarone in AIH & AIT • For AIH: continue amiodarone , treat with thyroid hormone. Amiodarone should only be discontinued if it fails to control the underlying arrhythmia. • For type I AIT:  Amiodarone should not be discontinued until hyperthyroid symptoms are well controlled with thionamides, since worsening hyperthyroid symptoms due to increased T3 levels may occur when the amiodarone is discontinued. • For type 2 AIT:  Amiodarone should be stopped, if possible (if the patient does not have a lifethreatening arrhythmia that requires amiodarone therapy. In cases such as VT, this decision should be considered carefully in conjunction with a cardiologist, so the next management step will be Start carbimazole 40 mg od.  Discontinuation of the drug has no immediate benefit. Even if amiodarone is stopped, thyrotoxicosis persists for up to 8 months because of the drug's long half-life. The presence of markedly elevated serum IL-6 and low thyroidal radioiodine uptake in a patients without underlying thyroid disease suggests the presence of amiodarone-induced thyroiditis as the etiology of thyrotoxicosis. Thyroid eye disease Feature Assessment Frequency Lid lag / lid retracted Measure lid fissure width 50-60% Grittiness, discomfort, periorbital oedema, pain, excessive tears. Proptosis (aka exophthalmos) this is where the eye bulges out of its socket. Extraocular muscle dysfunction –typically causes diplopia (double vision) when looking up and out. Corneal involvement, causing exposure keratitis Flourescin staining <5% Loss of sight due to optic nerve compression Visual acuity tests, visual field tests. CT/MR scan Overview • Also called Graves’ Ophthalmopathy or Graves’ eye disease • Graves' eye disease can occur in euthyroid, hypothyroid or hyperthyroid setting. • Thyroid eye disease affects between 25-50% of patients with Graves' disease. • In about 10% of patients, the signs will only be unilateral. • Ophthalmopathy may occur before the onset of hyperthyroidism, or as late as 20 years afterward. • Risk factors for the development of Graves' orbitopathy include genetics, female sex, smoking, and prior radioiodine therapy. Graves' eye disease can occur in euthyroid, hypothyroid or hyperthyroid setting. Definitions • Exophthalmos (also known as proptosis) is the protrusion of one eye or both anteriorly out of the orbit. • Lid retraction: When looking at the patient from the side, you see that the eyes are proptosed. • Lid lag: When the patient follows your finger, moving downwards from above, the sclera can temporarily be seen above the iris. Pathophysiology • TSH autoantibodies are present in the orbital cavity; bind TSH receptor antigen (autoimmune reaction) on cells; lymphocytic infiltration into the orbital tissues → inflammation and release of cytokines from CD4+ T cells → stimulates fibroblasts to secrete glycosaminoglycans (hyaluronic acid); expansion of retro-orbital tissue → infiltrative ophthalmopathy (exophthalmos). the most likely underlying pathogenesis → Excessive fibroblast proliferation • in case of reduced vision with colour desaturation, the most likely mechanism is → Optic nerve compression • Hyperthyroidism → stimulates the beta receptors of the third cranial nerve → stimulates the levator palpebrae superioris muscle →Pull up the eyelid →lid lag and lid retraction Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Self-assessment score by patient 40% Exophthalmometry or evaluation on MR/CT scan. 20% Hess chart + CT/MR to detect muscle size 10% <1% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Which eye signs are specific to Graves’ disease? Eye signs specific to Graves’ disease Eye signs found in most thyrotoxic states • Proptosis • Ophthalmoplegia • Chemosis • Periorbital oedema Both lid lag and lid retraction reflect enhanced sensitivity to circulating catecholamines and may therefore be found in most thyrotoxic states. Prevention • Avoid smoking • Patients with thyroid eye disease are generally treated with steroids for one to two weeks prior to starting radioiodine therapy. Radioiodine treatment →↑↑ thyroid eye disease → malignant exophthalmos. Prednisolone may help reduce the risk. • In patients with thyroid eye disease undergoing radioiodine treatment, post-radioiodine hypothyroidism should be avoided, because of the risk of worsening Grave’s eye disease. For this reason, patients are stabilised on a block replace regimen before moving to radioiodine therapy. Smoking is the most important modifiable risk factor for the development of thyroid eye disease Investigations • Thyroid function tests: ↓ TSH and ↑ free T3/T4; ↑ TSH receptor antibodies • Noncontrast CT scan of the orbits: the initial image of choice  assess the risk of future optic nerve compression by enlarged extraocular muscle at the orbital apex.  measure the of proptosis and retroocular fat accumulation  helpful in the differential diagnosis • MRI of her orbits: certainly demonstrate retro-orbital and extraocular muscle inflammation. Management • Eye protection: local measures (e.g. artificial tears (saline eye drops), raising the head of the bed at night). topical lubricants to prevent corneal inflammation caused by exposure • Mild orbitopathy: local measures are usually effective to relieve eye symptoms, and no additional treatment is needed. • Moderate-to-severe orbitopathy → glucocorticoids is the initial therapy. • Avoid smoking • Treat hyperthyroidism (if present): by thionamides, radioiodine, or surgery.  Radioactive iodine ablation (RAIA) can be used for patients with active mild disease. Moderate-to-severe is a contraindication to radioiodine therapy.  Although radioiodine could exacerbate Graves’ ophthalmopathy, radioiodine treatment can safely be given to patients with inactive Graves’ ophthalmopathy with steroid cover, provided hypothyroidism is avoided. • For sight-threatening (malignant exophthalmos, diplopia and loss of colour vision)  The initial treatment is IV glucocorticoids (dexamethasone, 4 mg IV)  Surgical orbital decompression may be necessary: performed 1-2 weeks after IV glucocorticoids if the response is poor. Indications of urgent review by an ophthalmologist • Unexplained deterioration in vision • Awareness of change in intensity or quality of colour vision in one or both eyes  Impaired perception of colour implies → acute progressive neuropathy. • History of eye suddenly 'popping out' (globe subluxation) • Obvious corneal opacity • Cornea still visible when the eyelids are closed • Disc swelling If there is active Grave’s eye disease, then radioiodine therapy is not recommended as it can worsen the eye disease Thyroid storm (crisis) In a patient with thyroid storm with high heart rate over 170bpm and low blood pressure the most urgent management is IV beta-blocker Overview Thyrotoxic storm is treated with beta blockers, propylthiouracil and hydrocortisone • An acute exacerbation of hyperthyroidism that results in a life-threatening hypermetabolic state. • Thyroid storm is a rare but life-threatening acute exacerbation of thyrotoxicosis. • Associated with a significant mortality rate (30-50%) • It is typically seen in patients with established thyrotoxicosis and is rarely seen as the presenting feature. • Iatrogenic thyroxine excess does not usually result in thyroid storm. Precipitating factors • Any acute stressful condition such as surgery or trauma • Acute infections • Acute iodine load e.g. CT contrast media Clinical features include • Altered mental status (confusion, agitation) • Fever > 38.5C • Tachycardia • Nausea, vomiting, and diarrhea • Jaundice • Hypertension • Multisystem decompensation: heart failure, respiratory distress, prerenal failure, abnormal liver function test. Diagnosis • Low/undetectable TSH, elevated free T3/T4 (but may not be grossly elevated) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Postpartum • When antithyroid drugs are being withdrawn. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Management • Transfer the patient to the Intensive Care Unit • Symptomatic treatment  Tachycardia: beta blockers, first-line → propranolol  Hypotension and hypovolemia: fluid resuscitation  Hyperpyrexia → Paracetamol  Agitation → chlorpromazine (also can be useful in treating the hyperpyrexia because of its effect in inhibiting central thermoregulation) • Antithyroid drugs in thyroid storm  Inhibition of thyroid hormone synthesis: First line → propylthiouracil  Inhibition of thyroid hormone release (through the Wolff-Chaikoff effect): First line → Potassium iodide solution given at least 1 hour after antithyroid drugs  Inhibition of peripheral conversion of T4 to T3: Glucocorticoids → First line: hydrocortisone, alternative: dexamethasone  Inhibition of enterohepatic circulation of thyroid hormones: bile acid sequestrants → cholestyramine  Plasmapheresis and peritoneal dialysis may be effective in cases resistant to the usual pharmacological measures. In thyroid storm, treat acutely with propylthiouracil rather than carbimazole Treatment of thyroid storm, five ‘Bs’: 1. Block synthesis (i.e. antithyroid drugs); 2. Block release (i.e. iodine); 3. Block T4 into T3 conversion (i.e. high-dose propylthiouracil, propranolol, corticosteroid); 4. Beta-blocker. 5. Block enterohepatic circulation (i.e. cholestyramine). _Thyroid cancer Epidemiology • accounts for <1% of all cancer • commonest in adults aged 40–50 • ♀ are affected more than ♂. Causes • Genetic factors  Medullary carcinoma: associated with MEN2 (RET gene mutations)  Papillary carcinoma: associated with RET/PTC rearrangements and BRAF mutations  Follicular carcinoma: associated with PAX8-PPAR-γ rearrangement and RAS mutation  Undifferentiated/anaplastic carcinoma: associated with TP53 mutation • Ionizing radiation; associated with papillary carcinoma Iodine in CT contrast media can precipitate thyrotoxicosis or thyroid storm Classification • There are five main types of thyroid carcinoma and their properties are given below: Cell type Frequency Behaviour Spread Prognosis Often young females present as "cold nodules" on isotope scanning Papillary 80% Follicular 10% More common in females Haematogenous Good Often familial. Cancer of parafollicular cells (c cell), secrete calcitonin, part of MEN-2 Medullary cell 5% *almost always non-Hodgkin lymphomas Associated with Hashimoto's *often elderly women. lymphoma 2% Aggressive, Not responsive to treatment, can cause pressure symptoms Anaplastic ∼ 1–2% Papillary carcinoma is the most Prevalent type of thyroid cancer, it features Palpable lymph nodes, and it has the best Prognosis compared to all other types of thyroid cancer. Medullary thyroid carcinoma (MTC) • C cells derived from neural crest and not thyroid tissue • Systemic effects of calcitonin → flushing/diarrhoea • The best screening and diagnostic test: pentagastrin stimulation test . It measures calcitonin levels at 2 and 5 minutes after pentagastrin infusion , and a rise in calcitonin is suggestive of medullary thyroid carcinoma. • Investigations to exclude MEN 2 should be done:  serum calcium to exclude hyperparathyroidism  metanephrines to exclude phaeochromocytoma. Exclusion of phaeochromocytoma is crucial before thyroidectomy → abdominal MRI, because any major surgery can precipitate hypertensive crisis due to release of massive amounts of catecholamines.  genetic testing for RET mutation • Need geniting screening. Germline RET mutation carriers should undergo thyroidectomy before 5 years of age. Thyroid lymphoma • Associated with preexisting chronic autoimmune (Hashimoto's) thyroiditis • The best choice of therapy is combined chemotherapy with local radiation therapy. Features • May be asymptomatic • Thyroid nodule: Firm to hard, Typically painless • Features of local infiltration or compression: recent onset of: hoarseness of voice, dyspnea or dysphagia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Local – Lymph node mets predominate excellent Local and mets Poor Locally invasive Poor Haematogenous Very Poor Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Diagnosis • Thyroid ultrasound:  the initial investigation of choice in small non-symptomatic thyroid mass  sonographic signs of thyroid cancer  Solid or mostly solid hypoechoic nodule(s)  Irregular margins  Microcalcifications  taller than wide • Fine-needle aspiration cytology (FNAC): Confirmatory test  The appropriate investigation after ultrasound • Thyroid scintigraphy → decreased or no radiotracer uptake (i.e., hypofunctioning or nonfunctioning nodules, referred to as cold nodules) • Thyroid cancer tumor markers  Follicular or papillary thyroid cancer: Thyroglobulin (Tg): precursor of thyroid hormones; produced exclusively by the thyroid gland. Indicated after total thyroidectomy or RAIA therapy  Medullary carcinoma: Calcitonin: A hormone secreted by parafollicular cells, which is the tissue of origin of medullary carcinoma  supportive diagnostic marker  monitor response to therapy Follicular thyroid carcinoma VS follicular adenoma. • Fine-needle aspiration (FNA) biopsy alone cannot distinguish • The actual diagnosis of follicular thyroid cancer requires histologic evaluation of the thyroid after surgery and the identification of tumor capsule and/or vascular invasion. • Follicular carcinoma invades the thyroid capsule and vasculature, unlike a follicular adenoma. Pathology • Papillary thyroid carcinomas:  Psammoma bodies (concentric lamellar calcifications)  “Orphan Annie” eyes nuclei (empty-appearing large oval nuclei with central clearing)  Nuclear grooves • Follicular carcinoma  Uniform follicles  Vascular and/or capsular invasion • Medullary carcinoma  Ovoid cells of C cell origin and therefore without follicle development  Amyloid in the stroma (stains with Congo red) • Anaplastic thyroid carcinoma  Undifferentiated giant cell (i.e., osteoclast-like cell) “Papi and Moma adopted Orphan Annie:” papillary thyroid cancer is histologically characterized by psammoma bodies and Orphan Annie-eye nuclei. Medullary thyroid cancer - calcitonin is used for screening, prognosis and monitoring Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Medullary carcinoma is composed of C-cells producing Calcitonin and is characterized by amyloid aCCumulation staining with Congo red. Which proto-oncogenes is most associated with papillary carcinoma of the thyroid? • Trk is a proto-oncogene, mutation of which leads to activation of tyrosine kinase receptors. • Trk activation is thought to play a role in the pathogenesis of papillary thyroid carcinoma Management: Surgical resection is the primary treatment for thyroid cancer. • Total thyroidectomy +/- neck dissection as needed (e.g., in patients with regional lymph node spread) • Hemithyroidectomy: Indications  Small, well-differentiated thyroid carcinoma with all of the following characteristics:  Intrathyroidal tumors (i.e., no evidence of extrathyroidal extension)  No nodal or distant metastasis  No high-risk patient factors  Preferred option in tumors < 1 cm in size  An alternative to total thyroidectomy in tumors 1–4 cm in size  Contraindications  Intrathyroidal tumor ≥ 4 cm  Extrathyroidal spread  Distant or nodal metastasis • Adjuvant therapy  Well-differentiated thyroid cancer  Radioactive iodine ablation (RAIA): conducted 4– 6 weeks after total thyroidectomy to destroy remaining thyroid tissue or metastases  TSH suppression therapy: → thyroxine after completion of RAIA  Poorly differentiated thyroid cancer: adjuvant radiation therapy and/or chemotherapy • Post-operative thyroid replacement therapy (thyroxine)  The aim: titrate the thyroxine dose to suppressed TSH levels:  in high risk thyroid cancers: TSH levels should be less than 0.1 mU/L  In intermediate risk cancers: TSH can be maintained between 0.1- 0.5  In low risk thyroid cancer target TSH to be in 0.5-2.0 range.  Most patients will require 175 or 200 µg daily. • Post-operative follow-up  yearly thyroglobulin (Tg) levels to detect early recurrent disease (thyroid is the only source of thyroglobulin).  The most appropriate investigation at annual follow-up for papillary thyroid cancer.  Ultrasound scan is the most sensitive investigation for the detection of locally recurrent papillary carcinoma.  Other investigations should be considered if ultrasound scan is negative or distant metastases are suspected. (SCE. Questions sample. Mrcpuk.org ). Chapter 1 Endocrinolog & Metabolism Thyroid cancer treatment → Thyroidectomy and neck dissection with postoperative radioiodine ablation Thyroid cancer associated with Graves' disease is not uncommon and usually due to papillary carcinoma and must be considered in suspicious/expanding nodules rather than attributing purely to Graves' disease. • hyperthyroidism with prominent nodule which is 'cold' on uptake scanning is highly suggestive of thyroid carcinoma and the mostly likely diagnosis is Graves' disease (periorbital puffiness and thyroid bruit) associated with papillary thyroid carcinoma. The association of Horner's syndrome and a thyroid nodule suggest invasion of the sympathetic chain and suggest that this thyroid nodule is malignant. Which familial condition carries an increased risk of papillary carcinoma of the thyroid ? • Gardner's syndrome (intestinal tumours & lipomas. Also Osteomas & fibromas ). carries an increased risk of papillary carcinoma Which test is most useful in the assessment of airflow obstruction due to the retrosternal goitre? • Flow volume curve Thyroid nodule and fine-needle aspiration Epidemiology • About 50% of the general population have single or multiple thyroid nodules, whereas the incidence of thyroid malignancy is 2–4%. Thyroid ultrasound • Ultrasonographic criteria associated with higher risk of malignancy: Low echodensity (Hypoechogenicity) Microcalcifications: the most predictive feature of malignancy Irregular borders (poorly-defined margin) Increased intranodular vascularity: (↑↑marginal blood flow → benign adenoma, ↑↑ intranodular blood flow → thyroid cancer) Absence of a halo Taller-than-wide configuration on transverse view • Referral of a thyroid nodule: (British Thyroid Association (BTA) guidelines) Same day Urgent Non-Urgent Managed by GP Stridor associated with thyroid lump Palpable cervical lymph nodes Rapidly enlarging (days-weeks) Presence of risk factors for thyroid cancer Hoarseness of voice Nodule in a child Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Patient with hyper or hypothyroidism refer to endocrinologist No change in size over years Lump enlarging over months No known risk factors Sudden pain and enlarged mass (bleeding in a cyst) <1cm, incidental thyroid nodule 004 - Pages 76-100 004 Pages 76-100 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Ultrasound "U" classification of thyroid nodules Classification Criteria U1 (normal) no nodules U2 (benign) hyperechoic or isoechoic with a halo cystic change with ring down artiifact (colloid) microcystic or spongiform appearance peripheral egg-shell calcification peripheral vascularity U3 (indeterminate) solid homogenous markedly hyperechoic nodule with halo (follicular lesions) hypoechoic with equivocal echogenic foci or cystic change mixed or central vascularity U4 (suspicious) solid hypoechoic (compared with thyroid) solid very hypoechoic (compared with strap muscles) hypoechoic with disrupted peripheral calcification lobulated outline U5 (malignant) solid hypoechoic with a lobulated or irregular outline and microcalcification (papillary carcinoma) solid hypoechoic with a lobulated or irregular outline and globular calcification (medullary carcinoma) intranodular vascularity taller than wide axially (AP>ML) characteristic associated lymphadenopathy • The need for Fine Needle Aspiration Cytology (FNAC) according to US: U1-2 not requiring FNAC, unless the patient has a statistically high risk of malignancy U 3 - 5 FNAC should be done Fine needle aspiration (FNA) • the gold standard diagnostic tool for thyroid nodules. but follicular neoplasia can only be diagnosed histologically. Chapter 1 Endocrinolog & Metabolism • Diagnostic categories from FNAC (The royal college of pathologist classification) Category Action Thy 1 Non-diagnostic. Inadequate Repeat sampling, using US if necessary Thy 2 Non-neoplastic Two samples, 3–6 months apart, showing benign appearances are indicated to exclude neoplasia. If rapid growth/pressure effects/high risk, diagnostic lobectomy may be indicated Thy 3 (Thy3f) (i) Follicular lesions Lobectomy (diagnostic hemithyroidectomy) (because follicular adenoma or follicular carcinoma cannot be distinguished on cytology alone) with completion thyroidectomy if malignant (up to 20% risk of malignancy) Thy 3 (Thy3a) (ii) atypical features, other suspicious findings Many Thy3a cases reflect suboptimal specimens → Discussion at thyroid cancer MDT → Repeat FNAC Thy 4 Suspicious of malignancy Surgical excision for differentiated tumour (80% risk of malignancy) (diagnostic hemithyroidectomy) Thy 5 Diagnosis of malignancy Surgical excision for differentiated thyroid cancer (>95% risk of malignancy). Radiotherapy/ chemotherapy for anaplastic thyroid cancer, lymphoma/metastases Calcium metabolism Overview • The average adult store of calcium is approximately 1–2 kg. • Recommended daily dietary calcium requirement: 1 – 1.5 g per day. • Bones are the major storage site of calcium (99%) • Plasma Ca2+ exists in three forms: Ionized/ free (~45%,active form): The most important form in regulation of body functions Bound to albumin (∼40%) Bound to anions (∼15%) Actions of the Hormones Involved in Calcium Homeostasis HORMONE EFFECT ON BONES Parathyroid hormone →↑Ca++, ↓PO4 levels in blood ↑Ca++resorption and PO4 excretion, activates 1-hydroxylation → ↑ conversion of 25hydroxycholecalciferol to 1,25dihydroxycholecalciferol Calcitriol (vitamin D) ↑Ca++,↑PO4 levels in blood ↑osteoclastic activity Indirect effects via ↑calcitriol from 1hydroxylation ↑osteoclastic activity ↑Ca++ and PO4 absorption Calcitonin causes ↓Ca++, ↓PO4 levels in blood when hypercalcemia is present Inhibits osteoclast resorption Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad EFFECT ON GUT EFFECT ON KIDNEYS ↑renal tubular reabsorption of Ca++ and PO4 No direct effects Promotes Ca++ and PO4 excretion Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Effects of pH and albumin changes on Ca2+ homeostasis • Ca2+ competes with H+ to bind to albumin • ↑ pH (less H+) → albumin binds more Ca2+ → ↓ionized Ca2+ (eg, cramps, pain, paresthesias, carpopedal spasm) →↑ PTH • ↓pH (more H+) → albumin binds less Ca2+ →↑ionized Ca2+ → ↓PTH • Even if the total extracellular fluid (ECF) calcium stays constant, the bound percentage can vary, increasing with alkalosis and decreasing with acidosis. So if the free concentration percentage falls, hypocalcemia symptoms may occur even though the total measured ECF calcium has not changed. • Hypoproteinemia (due to, e.g., nephrotic syndrome, liver cirrhosis, severe malnutrition, malabsorption) → ↓ total Ca2+ level but ionized Ca2+ level is unaffected; → factitious hypocalcemia (Pseudohypocalcemia) To remember the effect pH has on PTH, think: ↑ pH = ↑ PTH and ↓ pH = ↓ PTH. Absorption • intestinal absorption of calcium is facilitated by →1,25 dihydroxy-vitamin D, which stimulates the microvillous membrane of the enterocyte to synthesise the calcium-binding carrier protein necessary for active calcium ion absorption. • 99% of filtered calcium is reabsorbed in the kidneys, around 55% in the proximal convoluted tubule Excretion • Calcitonin is the most important factor regulating calcium excretion. • Calcitonin is secreted by the parafollicular cells of the thyroid gland and responds to raised calcium levels by inhibiting bone resorption and increasing renal excretion • calcium excretion is heavily influenced by sodium excretion. Low-sodium diets tend to decrease Ca excretion and vice versa. • The concentration of calcium in urine reflects serum calcium. Hypercalcaemia Definition • Corrected calcium of more than 2.6 mmol/l. hyperparathyroidism →↑Ca++, ↓PO4 levels 90% of hypercalcemia are caused by primary hyperparathyroidism and li Thiazides cause hypercalcaemia, might unmask underlying primary hyperparathyroidism (PHPT), as they cause mild hypercalcemia by reducing urinary calcium excretion. All patients should maintain a daily total calcium intake (diet plus supplement) of 1000 mg (for ages 19 to 70 years) to 1200 mg (for women ages 51 through 70 years and all adults 71 years and older) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Causes • Primary hyperparathyroidism (normal or ↑ PTH, ↑ serum Ca++, ↓PO4): the commonest cause • Malignancy  Hypercalcaemia occurs in 20% to 30% of patients with cancer.  Most common cause: paraneoplastic production of PTHrP (e.g., squamous cell carcinomas of the lung, head, and neck; breast, ovarian, bladder, and renal cancer; lymphoma and leukemia)  Osteolytic metastases (e.g., multiple myeloma, breast cancer, lymphoma and leukemia, renal cancer) → Skeletal survey is the best initial investigation to contribute to the underlying diagnosis  Paraneoplastic production of 1,25-dihydroxyvitamin D: e.g., lymphoma.  suppressed PTH , hypercalcaemia without hypophosphataemia. phosphate will be low in PTHrP-mediated hypercalcaemia. • Familial hypocalciuric hypercalcaemia: autosomal dominant mutations in the calcium sensing receptor gene, leading to calcium hyposensitivity (↑ serum Ca++, ↑ or normal PTH, ↓urine Ca++). • Vitamin D intoxication: due to ↑ supplementation, ↑sun exposure →↑ vitamin D production → ↑vitamin D (1,25 OH cholecalciferol), ↑ serum Ca++, normal or ↓ PTH) • Drug induced  Thiazides → ↓ excretion → hypercalcaemia (but furosemide → hypocalcaemia)  calcium containing antacids  lithium →↑release of PTH  Vitamin A toxicity (including analogs used to treat acne)  Theophylline toxicity • Tertiary hyperparathyroidism: Usually seen in patients with ESRD  Renal failure → chronic secondary hyperparathyroidism → autonomous (unregulated) activation of one or more parathyroid gland. (Note that secondary hyperparathyroidism is a response to hypocalcaemia, not a cause of hypercalcaemia). • Hyperthyroidism: ↑ serum Ca++, normal or ↓ PTH, ↓ TSH • Milk-alkali syndrome: ↑ serum Ca++, normal or ↓ PTH  Cased by consumption of large amounts of calcium carbonate  Presents with a triad of hypercalcemia, metabolic alkalosis (↑bicarbonate), and acute kidney injury • Sarcoidosis → activated pulmonary macrophages → ↑vitamin D →↑intestinal absorption of Ca → ↑Ca • Prolonged immobilisation: ↑ serum Ca++, nondetectable PTH  Lack of weight-bearing activities → osteoclast activation → bone demineralization → hypercalcemia • Paget's disease: ↑ serum Ca++, nondetectable PTH • Williams' syndrome: a rare genetic disease affecting chromosome 7 and characterised by hypercalcaemia, unusual "elfin" appearance, with a low nasal bridge, anxiety and learning disability. • Acromegaly • Dehydration • Addison's disease • Infections: HIV, histoplasmosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Differentiate between hypercalcaemia in primary hyperparathyroidism and malignancy: • in primary hyperparathyroidism  Parathyroid hormone is elevated or normal  calcium level is often < 3 mmol/l  Hypercalcaemia is often asymptomatic and might have been present for months or years.  Chronic symptoms are more consistent with hyperparathyroidism, whereas more recent onset of symptoms suggests malignancy. • in malignancy  patients are usually acutely ill  often with neurological symptoms  calcium level is usually > 3 mmol/l  Parathyroid hormone is suppressed  Cancer (eg lung, breast or myeloma) is often clinically apparent. Features • Bones: Bone pain, malaise , fatigue, muscle weakness • Stones: Nephrolithiasis • Groans: abdominal pain, constipation, peptic ulcer disease, pancreatitis • Thrones: polydipsia and polyuria • Pyschic moans: impaired concentration, confusion, hyporeflexia, depression • Cardiovascular manifestations: short QT interval → ↑ risk of cardiac arrhythmias. Mechanism of volume depletion in hypercalcaemia • ↑calcium → ↓effect of ADH on the collecting duct → nephrogenic diabetes insipidus. • ↑calcium → osmotic diuresis. The presentation of hypercalcemia includes stones (nephrolithiasis), bones (bone pain, arthralgias), thrones (increased urinary frequency), groans (abdominal pain, nausea, vomiting), and psychiatric overtones (anxiety, depression, fatigue). Hypercalcemia can cause pancreatitis. Hypocalcemia in patients with pancreatitis suggests pancreatic necrosis. Management • Supportive care  Hydration  Identify and treat the underlying cause  Reduce dietary intake of calcium  Avoid; thiazides; lithium • Severe hypercalcemia (Ca++ >3.5 mmol/L) and symptomatic moderate hypercalcemia (Ca++ 3.0–3.5 mmol/L):  Start IV fluid therapy with 0.9% NaCl. the initial management of hypercalcaemia  Loop diuretics in association with saline infusion to increase calcium excretion.  It may be useful in patients who cannot tolerate aggressive fluid rehydration (e.g. heart failure and renal impairment) or if more rapid lowering of serum calcium is desired,  Bisphosphonates (I.V) to inhibit osteoclast activity → ↓ bone turnover.  The most appropriate next step after hydration  take 2-3 days to work with maximal effect being seen at 7 days Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Options include pamidronate disodium and zoledronic acid, which are both administered as a single dose.  Calcitonin to inhibit osteoclast activity and enhance urinary excretion of calcium.  quicker effect than bisphosphonates  Refractory hypercalcaemia of malignancy may be treated with subcutaneous calcitonin if therapy with fluids and pamidronate fails  calcitonin use is limited by its transient effect, association with anaphylaxis and availability.  Steroids in sarcoidosis  Consider haemodialysis for refractory life-threatening hypercalcemia or if other therapies are contraindicated Thiazide diuretics enhance Tubular calcium upTake: Discontinue them in hypercalcemia. Loop diuretics Lose calcium: They may be used to treat fluid overload in patients with hypercalcemia. Familial hypocalciuric hypercalcaemia (FHH) Pathophysiology • autosomal dominant inactivating mutation in the CaSR gene → decreased sensitivity of G-coupled calcium-sensing receptors in parathyroid glands and kidneys; higher reabsorption of Ca2+ in the kidney → hypocalciuria with mild hypercalcemia and normal or increased PTH levels Features • Usually asymptomatic (often diagnosed incidentally) • Neonatal hypocalcemia in children of mothers with FHH (e.g., paresthesias, muscle spasms, seizures) Diagnosis • Hypercalcemia and inappropriately normal or increased PTH • Hypocalciuria • a two-step diagnostic procedure is recommend (The diagnostic sensitivity of this setup is 98%)  First, the calcium/creatinine clearance ratio is measured from a 24-h urine.  Second, all patients with calcium/creatinine clearance ratio of 0.020 or less are tested for mutations in the CASR gene ( Request calcium sensing receptor mutational analysis) • No evidence of end organ damage (normal renal function, absence of nephrolithiasis, no evidence of bone disease) Treatment • No treatment necessary Hypocalcaemia Causes • Vitamin D deficiency (osteomalacia) (Osteomalacia causes hypocalcaemia associated with a low serum phosphate) • Chronic renal failure • Hypoparathyroidism (e.g. post thyroid/parathyroid surgery) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Pseudohypoparathyroidism (target cells insensitive to PTH) (short fourth finger, round face, and mental retardation) • Rhabdomyolysis (initial stages) • Magnesium deficiency: (Magnesium is needed to release PTH from the gland)  Hypomagnesemia → ↓ PTH secretion or induces PTH resistance → hypocalcemia  Causes:  ileostomies →magnesium loss through stomas → hypomagnesaemia →↓PTH → hypocalcaemia that is resistant to an increased provision of calcium  end organ PTH resistance  Long term alcoholism → significant falls in magnesium → persistently decreased calcium despite replacement  Omeprazole and PPI → ↑GI magnesium losses → hypomagnesaemia → impairs the calcium sensing on the parathyroid cells → hypoparathyroidism →hypocalcaemia. • Hyperphosphatemia: Phosphate binds with the calcium and lowers it.  ↓ Renal excretion of phosphate (e.g., impaired renal function)  Increased phosphate intake (e.g., oral supplements, enemas)  Increased tissue breakdown (e.g., tumor lysis syndrome, rhabdomyolysis, crush injury) • Fat malabsorption: This binds calcium in the gut. • Massive blood transfusion  anticoagulant citrate in the bags → citrate accumulation in blood → chelates (binds to) circulating ionized calcium ( iCa) → ↓plasma iCa. • Acute pancreatitis may also cause hypocalcaemia. • Contamination of blood samples with EDTA may also give falsely low calcium levels • Pseudohypocalcemia: Due to gadolinium contrast agent or hypoalbuminemia • Hyperventilation: Redistribution of calcium • Drug induced: e.g: Loop diuretics increase renal calcium excretion. Hypocalcemia is most often due to hypoparathyroidism or vitamin D deficiency (e.g., malabsorption, chronic kidney disease).  ↓↓ calcium and phosphate + ↑↑alkaline phosphatase → Osteomalacia  normal calcium and phosphate + ↑↑alkaline phosphatase → Paget's disease  Serum biochemistry is normal in osteoporosis, although alkaline phosphatase can be elevated following a fracture. As extracellular calcium concentrations are important for muscle and nerve function many of the features seen in hypocalcaemia seen as a result of neuromuscular excitability Features • Tetany: increased neuromuscular excitability (when caused by respiratory alkalosis = hyperventilation-induced tetany): muscle twitching, cramping and spasm  Paresthesias: typically tingling or pins-and-needles sensation in extremities and/or in the perioral area  carpopedal spasm (wrist flexion and fingers drawn together)  Bronchospasm, laryngospasm Magnesium deficiency causes hypocalcaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Seizure • If chronic: depression, cataracts • Maneuvers to elicit latent tetany on physical exam  Trousseau sign: ipsilateral carpopedal spasm occurring several minutes after inflation of a blood pressure cuff. seen in around 95% of patients with hypocalcaemia and around 1% of normo-calcaemic people  Chvostek sign: short contractions (twitching) of the facial muscles elicited by tapping the facial nerve below and in front of the ear. seen in around 70% of patients with hypocalcaemia and around 10% of normo-calcaemic people • Hyperreflexia • ECG changes  Common: Corrected QT interval prolongation  Rare: Atrial fibrillation or torsade de pointes Parathyroid hormone is the single most useful test in determining the cause of hypocalcaemia Signs of neuromuscular irritability (e.g., paresthesias, spasms and cramps) are the most characteristic features of hypocalcemia. Diagnosis • Confirm true hypocalcemia: Measure total and ionized calcium • Serum intact PTH: the best initial study • Laboratory findings in hypocalcemia Findings Conditions Low PTH , ↑Phosphate Hypoparathyroidism (e.g., postsurgical) High PTH, ↑Phosphate Hyperphosphatemia Pseudohypoparathyroidism High PTH, ↑Phosphate, ↑Creatinine Chronic kidney disease High PTH, ↓ Magnesium Malabsorption or alcoholism Management • Mild and/or chronic hypocalcemia: no symptoms or only mild neuromuscular irritability (e.g., paresthesias): Oral calcium supplementation • Severe and/or symptomatic hypocalcemia: e.g., tetany, seizures, prolonged QT interval, serum calcium ≤ 7.5 mg/dL (< 1.9 mmol/L)  intravenous calcium gluconate, 10ml of 10% solution over 10 minutes. intravenous calcium chloride is more likely to cause local irritation  ECG monitoring • Treatment of the underlying condition  Hypoparathyroidism → Calcium and vitamin D supplementation  Secondary to loop diuretics: consider discontinue loop diuretic and change medication to thiazides.  Vitamin D deficiency: vitamin D supplementation  Hypomagnesemia-induced hypocalcemia: magnesium supplementation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad IV calcium can trigger life threatening arrhythmias in patients simultaneously receiving cardiac glycosides (digoxin or digitoxin). Daily calcium intake of between 700 and 1200mg should be advised Magnesium (Mg) Overview • Mg is the second most abundant intracellular cation in the body (after potassium) • 99% of total body magnesium is intracellular or bone-deposited, with only 1% present in the extracellular space. • Normal plasma magnesium → (0.7-0.9 mmol) • Dietary magnesium is absorbed by the ileum of the small intestine, stored mainly in the bones, and excreted by the kidneys. Dietary sources of magnesium • green vegetables, fruits, fish, fresh meat, and cereals. Recommended daily intake of magnesium • Adult females: 280 mg/day normally, increased to 350 mg/day during pregnancy and lactation • Adult males: 350 mg/day Magnesium homeostasis • About 60% of magnesium in the serum is free, whereas 33% is bound to proteins, • Magnesium status is regulated by the intestines, which control absorption; the kidneys, which control excretion; and bone, which is the major storage site. • Intestinal absorption and renal excretion are mediated by the selective magnesium channel TRPM6. • magnesium uptake and release from tissues outside the intestines and kidneys is controlled by TRPM7. • most of the absorption taking place in the colon. • Hormones such as glucagon, catecholamines, and parathyroid hormone (PTH) can mobilise magnesium from bone and other tissues. • hormones such as insulin, antidiuretic hormone (ADH), and thyroid hormone promote magnesium uptake and storage. • The main controlling factors in magnesium homeostasis → GIT absorption and renal excretion.  Renal reabsorption  the major site of reabsorption is the loop of Henle,  Unlike most ions, the majority of magnesium is not reabsorbed in the proximal convoluted tubule (PCT). the thick ascending limb (TAL) of the loop of Henle is the major site of reabsorption (60-70%).  In the TAL, magnesium is passively reabsorbed with calcium through paracellular tight junctions  Claudins are the major components of tight-junction strands in the TAL, where the reabsorption of magnesium occurs  In the distal convoluted tubule (DCT), magnesium is reabsorbed via an active, transcellular process that is thought to involve TRPM6  The TRPM6 channel is embedded in the membrane of epithelial cells of large intestine, distal convoluted tubules, lungs, and testes. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Uses for magnesium include: • polymorphic ventricular tachycardia (torsade de pointes), • acute asthma • prevention/treatment of seizures in pre-eclampsia. • Magnesium salts can be given as laxatives Hypomagnesaemia Definition • magnesium below 0.7 mmol/L Causes • Gastrointestinal  Inadequate intake (e.g., anorexia nervosa, prolonged fasting): the most common cause  Malnutrition  Malabsorption  Gastric bypass surgery, small bowel bypass surgery, short bowel syndrome  Vomiting, nasogastric suction  Acute and chronic diarrhea  Chronic inflammatory bowel disease  Acute pancreatitis  Intestinal fistula  Total parenteral nutrition  Refeeding syndrome • Renal  Diuresis  ATN  Congenital conditions  Bartter syndrome  Gitelman syndrome  Familial hypomagnesemia with hypercalciuria and nephrocalcinosis  Congenital magnesium wasting • Endocrine  SIADH  Hyperaldosteronism  Hyperparathyroidism  Hyperthyroidism • Intracellular shift  Post myocardial infarction  Post parathyroidectomy  Recovery from diabetic ketoacidosis (K+ and PO4- also enter cells)  Refeeding syndrome (PO4- also enters cells),  Acute pancreatitis. Replace magnesium before correcting hypokalaemia. Hypomagnesaemia prevents potassium absorption Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Drug- induced:  Diuretics  Ciclosporin and cisplatin→↓renal reabsorption and ↑renal excretion of Mg2+  Insulin → ↑ intracellular uptake of Mg2+ → hypomagnesaemia.  Antibiotics such as aminoglycosides, gentamicin, and tobramycin inhibit renal reabsorption in the loop of Henle.  cardiac glycosides, Digitalis →↑intracellular sodium and calcium → displacement and loss of magnesium.  Amphotericin B  Colorectal cancer treatment with cetuximab/panitumumab → inhibits extracellular growth factor receptor (EGFR) →↓ TRPM6 → hypomagnesemia.  Omeprazole (PPIs) → ↓ intestinal Mg2+ absorption through TRPM6 and produce renal magnesium wasting by an unknown mechanism. hypomagnesaemia → hypoparathyroidism → hypocalcaemia.  The reasons for this are unclear, but it may be due to reduced uptake of Mg2+ ions in the gut. Omeprazole reduces acid production and raises stomach PH. An acid environment can aid release of metal ions from their binding sites in food molecules which facilitate absorption. • Metabolic acidosis  Osmotic diuresis, which occurs in diabetic ketoacidosis, leads to renal magnesium wasting.  Chronic metabolic acidosis → ↓renal TRPM6 expression in the DCT → ↓ Mg reabsorption →↓ serum Mg. • Hypercalcaemia  Hypercalcemia → activation of calcium-sensing receptor (CaSR) → ↓ Mg reabsorption  Calcium competes with magnesium for uptake in the loop of Henle, and an increase in the filtered calcium load can impair magnesium reabsorption. • Burns • Chronic alcohol use • Genetic diseases  Hypomagnesemia with secondary hypocalcemia (HSH):  Autosomal recessive  caused by mutations in the TRPM6 gene → ↓↓ intestinal magnesium reabsorption→↓↓ serum magnesium → ↓↓ (PTH) → ↓↓ serum calcium levels (hypocalcemia).  manifests in early infancy with generalized convulsions refractory to anticonvulsant treatment or with other symptoms of increased neuromuscular excitability, such as muscle spasms or tetany.  Laboratory evaluation reveals extremely low serum magnesium and serum calcium levels. Chapter 1 Endocrinolog & Metabolism Features General • lack of appetite. • Lethargy • fatigue Neuromuscular hyper-excitability • muscle weakness including fasciculations • changes in personality • paraesthesia • tetany • seizures Complications • Cardiac arrest • Seizures Investigation • Serum magnesium level do not accurately reflect total body magnesium status. only 1% of magnesium is found in the extracellular fluid • There is no accurate laboratory test to determine total body magnesium • Urine Mg excretion is a useful guide. When there is inadequate intake or malabsorption, the kidneys would normally conserve Mg, giving urine Mg concentrations <7 mmol/24 hours. The reference range is around 2-7 mmol/24 hours. Treatment • Repletion should be considered in all patients with symptoms consistent with hypomagnesemia, including patients with normal serum magnesium levels. • <0.4 mmol/l  intravenous replacement is commonly given. An example regime would be 40 mmol of magnesium sulphate over 24 hours • 0.4 mmol/l  oral magnesium salts (10-20 mmol orally per day)  diarrhoea can occur with oral magnesium salts Parenteral administration of magnesium can reduce serum calcium levels, which can worsen preexisting hypocalcemia. Hypermagnesaemia Overview • Mg above the reference range 0.7-1.5 mmol/L. • Hypermagnesaemia is much less common than hypomagnesaemia and is often iatrogenic in cause. Causes • Iatrogenic: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Cardiac • arrhythmias (ECG features similar to those of hypokalaemia) typically QT prolongation. • exacerbates digoxin toxicity Electrolytes • ↓Mg →↓PTH secretion + ↑PTH resistance → hypocalcaemia • Hypokalemia ( in 40-60%) (↓Mg →↑renal potassium wasting) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Treatment with magnesium sulphate to prevent/treat seizures in patients with eclampsia or pre-eclampsia  Treatment with Mg containing antacids  Use of citrate-glucuronic acid solutions to dissolve renal calculi either through bladder irrigation or via a nephrostomy tube  Over-zealous IV treatment of hypomagnesaemia  Chronic use of Mg-containing enemas. • Other causes:  Acute or chronic renal failure  release of Mg from tissues,  Mg in dialysate,  Mg in phosphate binding drugs  Familial hypocalciuric hypercalcaemia. Lithium can cause hypermagnesaemia Features • Mild hypermagnesaemia (1.5-2.5 mmol/L) - symptoms uncommon • Moderate hypermagnesaemia (2.5-5.0 mmol/L) - symptoms develop including hypotension, prolonged PR and QRS intervals on ECG, areflexia • Severe hypermagnesaemia (>5.0 mmol/L) - at risk of respiratory paralysis through inhibition of acetylcholine release and cardiac arrest. Treatment • If mild/moderate and iatrogenic, often it is enough to identify and stop the cause. • In an emergency, dialysis or administration of IV calcium glucuronate (10 ml of 10%) will reduce the effects of hypermagnesaemia. Vitamin D (calciferol) Sources • Vitamin D2 (ergocalciferol): plants • Vitamin D3 (cholecalciferol): dairy products, can be synthesised by the skin from sunlight (the main natural source). Vitamin D synthesis Liver: cholesterol → 7-dehydrocholesterol (provitamin D3) Enzyme: cholesterol dehydrogenase Skin  Storage of 7-dehydrocholesterol  Cleavage of 7-dehydrocholesterol via irradiation with UV light → cholecalciferol (in the stratum basale) Liver: hydroxylation of cholecalciferol to 25-hydroxyvitamin D (25-OH D3, calcidiol) Kidneys: 1α-hydroxylase hydroxylates 25-hydroxyvitamin D → 1,25-dihydroxyvitamin D Transport to target cells: vitamin D-binding protein (DBP) Storage: as 25-hydroxycholecalciferol, mainly in adipose tissue (25-OH D3) Active form: 1,25-dihydroxyvitamin D (1,25-(OH)2 D3, calcitriol) Regulation of vitamin D synthesis: via regulation of 1α-hydroxylase activity in proximal convoluted tubule Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • ↓ Calcium, ↓ phosphate, and ↑ PTH → ↑ 1α-hydroxylase activity → ↑ 1,25-dihydroxyvitamin D biosynthesis • ↑ Calcium, ↑ phosphate, and ↑ 1,25-dihydroxyvitamin D (feedback inhibition) → ↓ 1αhydroxylase activity → ↓ 1,25-dihydroxyvitamin D biosynthesis Functions • ↑plasma calcium and plasma phosphate  ↑ intestinal absorption of magnesium and phosphate  vitamin D → ↑calbindin (an intestinal transporter of calcium) → ↑calcium absorption from the small intestine.  ↑ renal tubular reabsorption of calcium and phosphate • ↑ osteoclastic activity • ↑calcium deposition in the extracellular matrix of bone. • Suppression of synthesis of type 1 collagen. This is balanced by upregulation of osteocalcin, the balance of these changes is an increase in bone mineralisation. • Vitamin D is recognised to modulate cytokine production and may have a role in the treatment of inflammatory disorders in the future. One example is decreased production of IL6 in response to vitamin D supplementation. Vitamin D deficiency Definition • serum 25-hydroxyvitamin D <50 nanomole/L (<20 nanograms/mL). Epidemiology • The most common nutritional deficiency worldwide • In UK around 5 % of adults and 8 - 24% of children may have low vitamin D status. Features and complications: • Rickets: seen in children  Radiographs of the limbs will demonstrate epiphyseal widening with metaphyseal fraying. • Osteomalacia: seen in adults  It classically presents in the female Asian population whose clothing offers little exposure to sunlight.  Proximal myopathy is often a presenting feature of osteomalacia  increasing falls  The phosphate and calcium are usually low normal, and the alkaline phosphatase is high  Elevated PTH (secondary hyperparathyroidism to maintain the normal calcium.) • Symptoms of hypocalcemia (e.g., tetany) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnosis Measurement of serum 25-OH vitamin D is the best way of estimating vitamin D status. Serum Vit D Response Optimal: > 75nmol/l Nothing Adequate: 50--75nmol/l provide reassurance and give advice on maintaining adequate vitamin D levels through safe sunlight exposure and diet Insufficiency: 30-49nmol/l treatment is advised in patients with fragility fracture, osteoporosis, symptoms suggestive of vitamin D deficiency, reduced exposure to sunlight, raised PTH, conditions associated with malabsorption Deficiency: < 30nmol/l treatment recommended Treatment (loading doses followed by regular maintenance therapy). • Loading dose:  a total of approximately 300,000 IU vitamin D, given either as separate weekly or daily doses over 6 to 10 weeks  Regimes include:  50,000 IU given weekly over 6 weeks OR  4,000 IU given daily over 10 weeks • Maintenance dose  vitamin D in doses equivalent to 800–2000 IU daily (occasionally up to 4,000 IU daily), given either daily or intermittently at higher doses. • Assess his calcium intake:  co-prescription of a calcium supplement may be required if the nutritional intake is less than 800mg daily.  In patients with good calcium intake and normal serum calcium, giving oral calcium may lead to adverse cardiovascular outcomes, due to accelerated tissue and vascular calcification. Adverse effects • Vitamin D toxicity (hypercalciuria and hypercalcemia)  Causes  Oversupplementation  Granulomatous disorders (e.g., sarcoidosis): due to increased 1α-hydroxylase activation in epithelioid macrophages → increased 1,25-dihydroxyvitamin D synthesis  Clinical features  Hypercalcemia, hypercalciuria  Loss of appetite  Stupor Vitamin D supplementation • The following groups should be advised to take vitamin D supplementation:  all pregnant and breastfeeding women should take a daily supplement containing 10µg of vitamin D  all children aged 6 months - 5 years. Babies fed with formula milk do not need to take a supplement if they are taking more than 500ml of milk a day, as formula milk is fortified with vitamin D Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  adults > 65 years  Current NOS guidelines recommend that all people over the age of 65 take a daily supplement containing 10mcg (400 IU) of vitamin D.  people who are not exposed to much sun should also take a daily supplement • Testing for vitamin D deficiency:  Advised in the following situations (NOS guidelines)  patients with bone diseases that may be improved with vitamin D treatment e.g. known osteomalacia or Paget's disease  patients with bone diseases, prior to specific treatment where correcting vitamin deficiency is appropriate e.g, prior to intravenous zoledronate or denosumab  patients with musculoskeletal symptoms that could be attributed to vitamin D deficiency e.g. bone pain ? osteomalacia  Testing for vitamin D deficiency is not necessary in the following:  Patients with osteoporosis → should always be given calcium/vitamin D supplements  People at higher risk of vitamin D deficiency → should be treated anyway Phosphate Phosphate overview • Normal range: 3.0–4.5 mg/dL (1.0–1.5 mmol/L) • Daily phosphate requirement: 1-2 g, but typical intake is higher, 3-6 g, mostly through meats and grains. • Foods that are rich in phosphate include: dairy products, (Cheddar cheese), fibre rich foods, chocolate, and processed meats. • Absorption occurs mainly in the jejunum • Storage  85% of the body's phosphate is found in the bone matrix.  Outside of bone, phosphate is mainly found in the intracellular space (esp. in soft tissue cells). • Importance  Component of many important molecules, including creatine phosphate, membrane phospholipids, DNA, ATP/ADP, 2,3-DPG, and NADP • Excretion  All circulating phosphate is not bound to proteins, so all of it can be filtered, and the kidney is the only way it is excreted.  The majority (70%) of filtered phosphate is reabsorbed by type 2a sodium phosphate cotransporters located on the apical membrane of the renal proximal tubule. Impaired expression or function of these transporters is associated with nephrolithiasis.  kidney failure leads to high serum phosphate levels (hyperphosphatemia) that can cause secondary bone fractures and bone pain (renal osteodystrophy). • Phosphate homeostasis  Vitamin D stimulates intestinal absorption and release of phosphate from bones.  PTH stimulates renal phosphate excretion by inhibiting its reabsorption in the kidneys. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hypophosphataemia Definition • serum phosphate level of less than 2.5 mg/dL (0.8 mmol/L). Causes and Mechanisms: The 4 major mechanisms of hypophosphataemia are: Redistribution of extracellular phosphate into cells (Transcellular phosphate shifts)  hyperventilation → respiratory alkalosis → activating phosphofructokinase → moves phosphate into cells → stimulates intracellular glycolysis.  Glycolysis leads to phosphate consumption as phosphorylated glucose precursors are produced.  Any cause of hyperventilation (eg, sepsis, anxiety, pain, heatstroke, alcohol withdrawal, diabetic ketoacidosis [DKA], hepatic encephalopathy, salicylate toxicity, neuroleptic malignant syndrome [NMS]) can precipitate hypophosphatemia. Decreased intestinal absorption  chronic diarrhea  malabsorption syndromes  severe vomiting  nasogastric (NG) tube suctioning  Alcohol use disorder Increased urinary loss. (the most common cause of hypophosphatemia)  primary and secondary hyperparathyroidism.  Osmotic diuresis, such as seen in hyperosmolar hyperglycemic syndrome (HHS)  Fanconi syndrome (proximal tubule dysfunction)  X linked hypophosphataemic rickets  Oncogenic hypophosphataemic osteomalacia Pseudohypophosphatemia  Mannitol What types of medications can impair gut phosphate absorption? • Antacids, specifically those that are aluminium or magnesium based. Fanconi syndrome is a genetic disorder of the renal proximal tubule whereby various substances—including glucose, bicarbonate, potassium, and phosphate—are unable to be reabsorbed, causing their loss in the urine. It can lead to growth defects and bone disorders. Features • Cardiac: arrhythmias • Musculoskeletal: Osteomalacia (fatigue, muscle pain and weakness, respiratory muscle weakness). severe hypophosphatemia (< 2.5 mg/dL) is associated with elevated serum alkaline phosphatase. • Neurological: paresthesia, altered mental state, seizures • Hematological: anemia, haemolysis, and thrombocytopenia • Impaired immunity (WBC and platelet dysfunction) • Hypophosphatemia →↓ 2,3-diphosphoglycerate (2,3-DPG), (a glycolytic intermediate in red blood cell metabolism that has higher affinity for deoxygenated hemoglobin than for Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism oxygenated hemoglobin) →↑ affinity of hemoglobin (Hb) for oxygen → shifting the dissociation curve to the left → impairing red blood cell release of oxygen to tissues Why is hypophosphatemia a problem in patients with respiratory failure? • Limited release of oxygen to tissues because of 2,3-DPG depletion and respiratory muscle weakness. Diagnosis and evaluation • Summary of the clinical work-up for a patient with hypophosphatemia (FEpo4 indicates fractional excretion of phosphate and UA, urinalysis). MRCPUK- part-1-Sep 2017: what is the mechanism of Hypophosphataemia during treatment of DKA? • Shift from extracellular to intracellular space MRCPUK-part-1-Sep 2017: what is the mechanism of Hypophosphataemia in alcoholic patients after hospital admission ? • Shift from extracellular to intracellular space. The alcoholic patient often has chronic phosphate depletion, and, after admission to the hospital, is prone to severe hypophosphatemia resulting from redistribution of extracellular phosphate into the cells.  Two factors may contribute to this shift: I.V therapy with dextrose-containing solutions or refeeding → ↑Glucose → ↑ insulin release → ↑ phosphate uptake by the cells alcohol withdrawal → hyperventilation → acute respiratory alkalosis → intracellular alkalosis → stimulates intracellular phosphofructokinase →↑ glycolysis → movement of phosphate into cells. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hyperphosphataemia Causes and mechanisms • Decreased phosphate excretion (Renal failure, Hypoparathyroidism) • Increased tissue breakdown (e.g., tumor lysis syndrome, rhabdomyolysis, crush injury) → shifts intracellular phosphate to extracellular space • Increased phosphate intake (e.g., phosphate-containing enemas) • Pseudohypoparathyroidism • Vitamin D intoxication • Bisphosphonates (have also been shown to cause hypophosphatemia) • Features • Often asymptomatic • High PO43- levels cause the formation of an insoluble compound with calcium, which can lead to:  Hypocalcemia  Nephrolithiasis  Calcifications in the skin • ↓calcium + ↑ phosphate levels seen in:  renal failure, hypoparathyroidism, and pseudohypoparathyroidism • ↑calcium + ↑phosphate seen in:  vitamin D intoxication (↓PTH + ↑ vitamin D)  milk-alkali syndrome (↓PTH + ↓vitamin D) Management • Treat the underlying cause. • Discontinue phosphate intake (dietary or medication). • Give phosphate binders (e.g., aluminium hydroxide, calcium carbonate). • Consider dialysis (especially in severe cases of hyperphosphatemia in patients with renal failure). Hyperparathyroidism Classification Type PTH Serum Ca Serum Phos Causes Primary Normal High low parathyroid adenoma Secondary High Normal or low High CRF → ↓ vit D →↓ gut Ca2+ absorption →↓Ca2+ → ↑PTH CRF →↓phosphate excretion → hyperphosphatemia. Causes of ↓Ca2+ : • renal failure (most common) • insufficient vit D, • insufficient Ca2+ in the diet, • excessive Mg2+ in the diet Tertiary High High High hyperplasia of the glands, and loss of response to ca2+. occurs after years of secondary hyperparathyroidism PTH is raised, calcium is raised and so is phosphate, whilst eGFR is significantly deceased Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Primary hyperparathyroidism Mechanism of PTH effects: • Reabsorbs calcium at distal tubule • Excretes phosphate at proximal tubule  A mnemonic to remember this is PTH = “Phosphate Trashing Hormone.” • Activates vitamin D from 25 to the 1,25 dihydroxy form  increased activity of renal 1-α-hydroxylase (which converts inactive 25hydroxycholecalciferol into active 1, 25-dihydroxycholecalciferol), • Reabsorbs both calcium and phosphate from bone In exams primary hyperparathyroidism is stereotypically seen in elderly females with an unquenchable thirst and an inappropriately normal or raised parathyroid hormone level. Pathophysiology • PTH indirectly stimulates osteoclasts by binding to its receptor on osteoblasts, inducing RANK-L and M-CSF synthesis Epidemiology • the most common cause of hypercalcemia • occurs in 0.1% of the population • most commonly found in women between 50 and 60 years of age • Two to three times more common in women than men. Causes • 80%: solitary adenoma • 15%: hyperplasia • 4%: multiple adenoma • 1%: carcinoma (PTH is grossly elevated) Pathophysiology: overproduction of Parathyroid hormone (PTH) by parathyroid chief cells • Effect of PTH on bone → ↑ bone resorption → ↑ release of calcium phosphate → ↑ calcium levels  Induces RANKL expression in osteoblasts → binding of RANKL to RANK on osteoclasts → activation of osteoclasts  Induces IL-1 expression in osteoblasts → activation of osteoclasts • Effect of PTH on the kidneys → ↑ phosphate excretion (phosphaturia) Features: 'bones, stones, abdominal groans and psychic moans' • The majority of patients are asymptomatic. • Cardiovascular system  Arterial hypertension → Left ventricular hypertrophy  Shortened QT interval on the ECG • Kidney  Nephrolithiasis, nephrocalcinosis → abdominal/flank pain (Stones)  Polyuria, polydipsia (thrones) • Musculoskeletal system (bones)  Bone, muscle, and joint pain  Pseudogout • GIT (abdominal groans)  Nausea, constipation (↑ calcium → ↓ smooth muscle contraction → constipation)  Gastric or duodenal ulcers Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Acute pancreatitis • Psychological symptoms: depression, fatigue, anxiety, sleep disorders (psychiatric overtones) "Stones, bones, abdominal groans, thrones, and psychiatric overtones!" Associations • Hypertension • Multiple endocrine neoplasia: MEN I and II  The association of primary hyperparathyroidism and a gastrinoma would suggest a diagnosis of multiple endocrine neoplasia type 1. • Osteitis fibrosa cystica  The cystic bone spaces seen on radiography are most likely osteitis fibrosa cystica, a condition in which brown, fibrous tissue fills bone cysts.  Consist of osteoclasts and hemosiderin (hemosiderin accumulates in bone cysts as a result of hemorrhage)  Subperiosteal thinning Investigations • Raised calcium, low phosphate  Hypophosphataemia is due to → reduced renal reabsorption of phosphate. • PTH may be raised or normal (A high or even normal PTH concentration in the presence of hypercalcaemia would support the diagnosis of hyperparathyroidism) • technetium-MIBI subtraction scan • Technetium (99mTc) sestamibi scanning  The most sensitive and specific technique for tumor localization  Only performed prior to surgery to determine the exact location of the abnormal glands • 24 hour urinary calcium may be useful if used in comparison to the serum calcium in order to distinguish familial hypocalciuric hypercalcaemia from primary hyperparathyroidism. • Urinary cAMP increases, because PTH works on the G protein pathway, Gs, which uses cAMP as a secondary messenger. The effect of PTH on calcium and phosphate Mechanism calcium Phosphate Excretion by kidneys Low High Absorption from gut High High Absorption from bone High High Net Serum concentration High Low The PTH level in primary hyperparathyroidism may be normal Phosphate is usually elevated or normal in bone metastases (this clue could differentiate primary hyperparathyroidism from cancer metastases ) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Treatment • Surgery  In cases of solitary adenoma: Only the respective gland is removed.  In cases of hyperplasia: All four glands are removed. • Parathyroidectomy: Indications:  Symptomatic patient (definitive signs and symptoms of hypercalcaemia- such as proximal weakness, gait disturbance, hyper-reflexia)  Asymptomatic + one of the following:  Age less than 50  Markedly elevated corrected serum calcium (above 3 mmol/l),  Serum albumin-adjusted calcium greater than 0.25 mmol/L above the normal range  24 hour total urinary calcium excretion greater than 10 mmol (400 mg)  Renal stones, or presence of nephrocalcinosis on ultrasound or CT.  Impaired renal function, creatinine clearance reduced by 30% or more  Presence of osteoporosis or osteoporotic fracture (Bone mineral density Tscore less than −2.5 at any site)  Unwillingness of patient to follow advice of medical surveillance. (Patient request; adequate follow-up unlikely). • Complication of parathyroidectomy : hungry bone syndrome  occur after parathyroidectomy if the hyperparathyroidism has been long standing.  Characterized by severe hypocalcemia despite a normal or increased serum concentration of parathyroid hormone  Upon removal of the parathyroid adenoma the hormone levels fall rapidly (they have a very short half-life) and the osteoclast activity is subsequently diminished, and the bones rapidly begin re-mineralisation - 'hungry bone syndrome'.  In addition to hypocalcemia, patients can also develop hypophosphatemia, hypomagnesemia, and hyperkalemia.  x-ray changes very similar to metastatic lytic lesions if left untreated. Bilateral hand radiographs in a middle-aged woman demonstrating generalised osteopenia, erosion of the terminal pharyngeal tufts (acro-osteolysis) and sub-periosteal resorption of bone particularly the radial aspects of the 2nd and 3rd middle phalanges. These changes are consistent with a diagnosis of hyperparathyroidism. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Secondary hyperparathyroidism Secondary hyperparathyroidism (sHPT): Hypocalcemia results in reactive hyperplasia of the parathyroid glands, develops due to decreased levels of calcium in the blood (reactive HPT).→ overproduction of PTH. Definition • Elevation of parathyroid hormone (PTH) in response to hypocalcemia induced by phosphate retention and reduced calcitriol synthesis as a consequence of reduced renal function • Because 2° HPT is a compensatory mechanism of the parathyroid glands, it commonly resolves with normalization of calcium and phosphorus homeostasis (eg, renal transplantation). Causes • Chronic kidney disease (most frequent cause) • Malnutrition • Vitamin D deficiency (e.g., reduced exposure to sunlight, nutritional deficiency, liver cirrhosis) Secondary hyperparathyroidism is due to the overproduction of PTH secondary to low calcium. Usually, this is seen in chronic renal failure or vitamin D deficiency. Pathophysiology • Secondary hyperparathyroidism: ↓ calcium and/or ↑ phosphate blood levels → reactive hyperplasia of the parathyroid glands → ↑ PTH secretion • Chronic kidney disease → impaired renal phosphate excretion → ↑ phosphate blood levels→ ↑ PTH secretion • In addition, CKD → ↓ biosynthesis of active vitamin D → ↓ intestinal calcium resorption and ↓ renal calcium reabsorption → hypocalcemia → ↑ PTH secretion Feature • ↓ Ca2+ , ↑ serum phosphate , ↑PTH • ↑ alkaline phosphatase (renal osteodystrophy). Management • Dietary phosphate restriction  In patients with chronic kidney disease (CKD), dietary phosphorus should be restricted to 800 to 1000 mg/day. • Calcium and vitamin D replacement • Phosphate binders (sevelamer): indicated when phosphorus levels are high. If phosphorus or PTH levels cannot be controlled despite dietary phosphorus restriction.  Mechanism of action: binds phosphate in the gut (sevelamer is nonabsorbable) → ↓ phosphate absorption → ↓ serum phosphate → ↓ PTH  Indication: hyperphosphatemia caused by chronic kidney disease • Calcimimetics (e.g., cinacalcet)  Mechanism of action: modulation of calcium-sensitive receptor (CaSR) in parathyroid glands → ↑ sensitivity of the receptor to circulating Ca2+ → inhibition of PTH release Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Indication  Primary hyperparathyroidism after failed parathyroidectomy  Hypercalcemia in hemodialysis patients with secondary hyperparathyroidism due to CKD  Parathyroid carcinoma with hypercalcemia • Parathyroidectomy is reserved for severe secondary hyperparathyroidism resistant to medical management (on maximal doses of cinacalcet, and still, the PTH level is high).  bone pain, fracture, or calciphylaxis. • Renal transplant is the optimal treatment for secondary HPT. Unlike primary hyperparathyroidism, secondary hyperparathyroidism is treated medically by correcting vitamin D deficiency. Tertiary hyperparathyroidism Epidemiology • tertiary HPT requiring surgical intervention occurs in 1–5% of patients with HPT after undergoing kidney transplant. Pathophysiology • Chronic renal disease → longstanding secondary hyperparathyroidism → hyperplasia of all four glands → refractory and autonomous secretion of PTH (secrete PTH regardless of Ca2+ level) → hypercalcemia. Causes • Caused by persistent secondary HPT Management • treatment of patients with tertiary HPT is surgical. • medical treatment is not curative and, generally, not indicated. • Cinacalcet should be only offered in patients who are unfit for surgery. Hypoparathyroidism Causes • Postoperative: most commonly occurs as the result of accidental injury to parathyroids (or their blood supply) during thyroidectomy, parathyroidectomy, or radical neck dissection • Autoimmune: second most common cause • Infiltration of parathyroid gland: ( e.g. Wilson disease, hemochromatosis) • Radiation-induced destruction • Gram-negative sepsis • Toxic shock syndrome • HIV infection • Congenital: Parathyroid gland aplasia or hypoplasia (DiGeorge syndrome) • Frequency increased in alcoholics, particularly in association with hypomagnesaemia.  Alcohol → Hypercalciuria & hypermagnesuria → hypocalcemia and ( & C ) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Symptoms of hypocalcemia, such as tetany (see hypocalcemia topic) • Hypocalcemia with low or inappropriately normal PTH • Hyperphosphatemia Treatment • Treat underlying disease • Calcium and vitamin D supplementation • Recombinant human PTH can reduce the amount of supplemental calcium and vitamin D required. Pseudohypoparathyroidism Definition • end-organ (i.e., bones and kidneys) resistance to parathyroid hormone (PTH) despite sufficient PTH synthesis due to a defective Gs protein α subunit Epidemiology • Occurs twice as frequently in females as in males. Inheritance • Autosomal dominant • Inherited from the mother (GNAS gene imprinting) Pathophysiology • mutations in GNAS1 → Defective Gs protein α subunit → missing activation of adenylate cyclase when PTH binds to Gs → resistance to PTH in kidney and bone tissue Types • type I: there is a complete receptor defect • type II : the cell receptor is intact. Features • Albright hereditary osteodystrophy (AHO)  Short stature, Round face  Obesity  Brachydactyly of the 4th and 5th fingers (short fourth and fifth metacarpals)  Intellectual disability  Subcutaneous calcification • Symptoms related to low calcium and high phosphate levels: Seizures, Numbness, tetany, Cataracts, Dental problems Diagnostics • Persistent hypocalcemia despite ↑ PTH levels • ↑ Phosphate levels • Alkaline phosphatase: high 005 - Chapter 1 005 Chapter 1 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Diagnosis is made by measuring urinary cAMP and phosphate levels following an infusion of PTH.  In hypoparathyroidism this will cause an increase in both cAMP and phosphate levels.  In pseudohypoparathyroidism type I neither cAMP nor phosphate levels are increased  whilst in pseudohypoparathyroidism type II only cAMP rises. Radiographic features • Musculoskeletal manifestations  soft tissue calcification  exostoses: short metaphyseal or more central and perpendicular to long axis of bone  broad bones with coned epiphyses • CNS / head and neck manifestations  basal ganglia calcification  sclerochoroidal calcification  deep white matter calcification Management • Calcium and vitamin D supplementation Pseudo pseudohypoparathyroidism • Similar phenotype to pseudohypoparathyroidism but inherited from the father and associated with normal biochemistry (normal calcium, PTH, and phosphate) Pseudohypoparathyroidism is when the defect is inherited from the mother while pseudo pseudohypoparathyroidism is inherited from the father. Osteomalacia The symptoms of proximal bone pain with hypocalcaemia and low phosphate suggest a diagnosis of osteomalacia ↓↓ Ca ↓↓ P ↓↓ vit D + ↑↑ ALP  osteomalacia Definition • Defective mineralization of osteoid, most commonly due to vitamin D deficiency. • Normal bony tissue but decreased mineral content. • If occurred in children (growth plates have not fused) called rickets. Pathophysiology • ↓vitamin D →↓serum Ca2+ →↑PTH secretion →↓serum phosphate → impaired mineralization. • Hyperactivity of osteoblasts →↑ALP. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Risk factors • Lack of sun exposure, e.g. people who spend more time inside and people who are cover themselves up (so that cholesterol cannot be converted to vitamin D in the skin). • Ethnic groups who are dark-skinned • Asians who eat chapattis (as the phytic acid in the chapattis chelates vitamin D and calcium) Causes • Vitamin D deficiency e.g. malabsorption, lack of sunlight, diet • Vitamin D resistant; inherited • Renal failure • Liver disease, e.g. cirrhosis • Drug induced e.g. anticonvulsants • Mercury poisoning or any heavy metal poisoning causes an acquired Fanconi syndrome with proximal (type 2) renal tubular acidosis. Features • Bone pain, particularly around the hips and lower back • Pathologic fractures • Muscle tenderness • Proximal myopathy → Waddling gait and difficulty walking • Symptoms of hypocalcemia Investigation • ↓ Calcium and ↓ phosphate • ↑ Alkaline phosphatase and ↑ PTH • x-ray:  children - cupped, ragged metaphyseal surfaces → Rickets  adults - Looser zones (pseudofractures): transverse bands of radiolucency indicating defective calcification of osteoid (Linear areas of low density) Differential diagnoses • Malignancy • Osteoporosis • Paget disease of the bone Treatment • Vitamin D deficiency: administration of vitamin D • Defective vitamin D metabolism or vitamin D‑independent forms: treatment of underlying disease May 2013 exam: A 58-year-old woman C/O aches and pains in her bones. Generally weak and lethargic. low calcium, phosphate and vitamin D levels combined with a raised alkaline phosphatase and parathyroid hormone level. What is the most appropriate management?  Start vitamin D3 supplementation (∆  osteomalacia) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Osteopetrosis Overview • also known as marble bone disease • rare disorder of defective osteoclast function resulting in failure of normal bone resorption • results in dense, thick bones that are prone to fracture • bone pains and neuropathies are common. • calcium, phosphate and ALP are normal • stem cell transplant and interferon-gamma have been used for treatment Osteoporosis In osteoporosis, there is decreased bone mass, but mineralization is normal. Definition • Loss of cortical bone mass which leads to bone weakness and increased susceptibility to fractures • Bone mineral density (BMD) = (T-score equal to or less than –2.5). • Normal bone mineralization and lab values (serum Ca2+ and PO4). Causes • Primary osteoporosis (most common form)  Type I (postmenopausal osteoporosis): postmenopausal women  Estrogen stimulates osteoblasts and inhibits osteoclasts.  ↓estrogen levels following menopause →↑bone resorption.  Type II (senile osteoporosis): gradual loss of bone mass as patients age (especially 70 years)  Idiopathic osteoporosis  Idiopathic juvenile osteoporosis  Idiopathic osteoporosis in young adults • Secondary osteoporosis  Drug-induced/iatrogenic  Most commonly due to systemic long-term therapy with corticosteroids (e.g., in patients with autoimmune disease)  Anticonvulsants (e.g., phenytoin, carbamazepine)  L-thyroxine  Anticoagulants (e.g., heparin)  Proton pump inhibitors  glitazones  Aromatase inhibitors (e.g., anastrozole, letrozole): used for breast cancer in postmenopausal women, converts androgens into estrogens.  Immunosuppressants (e.g., cyclosporine, tacrolimus)  Endocrine/metabolic: hypercortisolism, hypogonadism, hyperthyroidism, hyperparathyroidism, renal disease  Multiple myeloma  Excessive alcohol consumption  Immobilization Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Risk factors • female sex : ♀ > ♂ (∼ 4:1) • Advancing age • Family history of osteoporotic fracture • Low body mass index • History of glucocorticoid use • Rheumatoid arthritis • Current smoking • Malabsorption (e.g. Coeliac's), malnutrition (e.g., a vegan diet low in calcium and vitamin D), anorexia • Premature menopause (<45 years) (Early menarche and late menopause are associated with reduced risk of fracture) Feature • Asymptomatic (osteoporosis in the absence of fracture, does not cause pain). • Pathological fractures that are caused by everyday-activities (e.g., bending over, sneezing) or minor trauma (e.g. falling from standing height)  Common locations: vertebral (most common) > femoral neck > distal radius (Colles fracture) > other long bones (e.g., humerus)  Vertebral compression fractures  Commonly asymptomatic but may cause acute back pain and possible point tenderness without neurological symptoms  Multiple fractures can lead to decreased height and thoracic kyphosis. Diagnosis • DXA (dual-energy x-ray absorptiometry) scan  Definition: a noninvasive technique that calculates bone mineral density (BMD) by using two x-ray beams  Measurement sites: femoral neck and lumbar spine (femoral neck is the preferred site because of its higher predictive value for fracture risk)  Indications  General recommendation for women ≥ 65 years and men ≥ 70 years (onetime screening test)  In younger individuals, if additional risk factors are present: e.g., prolonged glucocorticoid use, low BMI (< 21 kg/m2), alcohol use, smoker, amenorrhea  Results: T-score is defined as the difference in standard deviations between the patient's BMD and the BMD of a young adult female reference mean.  Osteoporosis: T-score ≤ -2.5 SD  Osteopenia: T-score of -1 to -2.5 SD  Repeating a DXA scan  DXA scans are of limited value in assessing response to treatment.  Review DXA 2-5 years from previous scan if it is likely to influence management • Plain radiography  If osteoporosis is diagnosed: Radiographic assessment of the whole skeletal system is recommended, particularly if a fracture is already suspected or height loss has occurred.  Increased radiolucency is detectable in cortical bones once 30–50% of bone mineral has been lost  Osteoporosis can be diagnosed if vertebral compression fractures are present ; commonly an incidental finding because such fractures are typically asymptomatic Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Blood tests: Normal serum calcium, phosphate, and parathyroid hormone (PTH) levels • Investigations for secondary causes (e.g. osteomalacia, myeloma) • Assess the risk of subsequent fractures;  fracture risk assessment tools (FRAX or Q Fracture)  The use of FRAX for fracture risk assessment is preferred Osteoporosis diagnosis according to the WHO and International Osteoporosis Foundation criteria: diagnosis T score definition normal ( ≥ −1) hip BMD greater than the 1 SD below the young adult reference mean osteopaenia (−1 to −2.5) hip BMD between 1 and 2.5 DS below the young adult reference mean osteoporosis (≤ −2.5) hip BMD 2.5 SD or more below the young adult reference mean Severe osteoporosis (≤ −2.5 PLUS fracture) hip BMD 2.5 SD or more below the young adult reference mean + one or more fragility fractures Osteoporosis is diagnosed if T-score ≤ -2.5 SD and/or a fragility fracture is present. Glucocorticoid-induced osteoporosis Overview • Steroids cause osteoporosis by:  bone resorption,  ↓↓calcium absorption from the gut,  ↑↑urinary calcium excretion, • The dose?  The risk ↑↑ with prednisolone 7.5mg a day for 3 or more months. Management of patients at risk of corticosteroid-induced osteoporosis • The RCP guidelines divide patients into two groups.  age > 65 years or H/O previously fragility fracture → give bone protection.  Fragility fracture - defined by The WHO as resulting from a mechanical force equivalent to a fall from standing height or less which should not ordinarily cause a fracture.  age < 65 years → bone density scan T score Management Greater than 0 Reassure Between 0 and -1.5 Repeat bone density scan in 1-3 years Less than -1.5 Offer bone protection • The first-line treatment is alendronate and risedronate. Patients should also be calcium and vitamin D replete. • National Osteoporosis Guideline Group (NOGG) 2017 (UK): Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Women and men age ≥70 years with a previous fragility fracture or taking high doses of glucocorticoids (≥7.5 mg/day prednisolone), should be considered for bone protective therapy.  In other individuals fracture probability should be estimated using FRAX  Bone-protective treatment should be started at the onset of glucocorticoid therapy in individuals at high risk of fracture. Osteoporosis: assessing fracture risk Who should be assessed for fragility fracture? • All women aged ≥ 65 years and all men aged ≥ 75 years. • Younger patients + presence of risk factors, such as:  previous fragility fracture  current use or frequent recent use of oral or systemic glucocorticoid  history of falls  family history of hip fracture  other causes of secondary osteoporosis  low body mass index (BMI) (< 18.5 kg/m)  smoking  alcohol (> 14 units/week for women and > 21 units/week for men). Methods of risk assessment: NICE recommend using a clinical prediction tool such as FRAX or Q Fracture to assess a patient's 10-year risk of developing a fracture. • FRAX  Estimates the 10-year risk of fragility fracture in patients with clinical risk factors (CRFs)  valid for patients aged 40-90 years (˃ 90 already considered at high risk.)  based on international data so use not limited to UK patients  assesses the 11 factors: age, sex, weight, height, previous fracture, parental fracture, current smoking, glucocorticoids, rheumatoid arthritis, secondary osteoporosis, alcohol intake.  NICE recommend arranging a DEXA scan if FRAX (without BMD) shows an intermediate result  Interpreting the results of FRAX  If the FRAX assessment was done without a bone mineral density (BMD) measurement  low risk: reassure and give lifestyle advice  intermediate risk: offer BMD test  high risk: offer bone protection treatment  If the FRAX assessment was done with a bone mineral density (BMD) measurement:  low risk: Reassure  intermediate risk: consider treatment  high risk: strongly recommend treatment Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Q Fracture  estimates the 10-year risk of fragility fracture  developed in 2009 based on UK primary care dataset  can be used for patients aged 30-99 years (this is stated on the Q Fracture website, but other sources give a figure of 30-85 years)  includes a larger group of risk factors e.g. cardiovascular disease, history of falls, chronic liver disease, rheumatoid arthritis, type 2 diabetes and tricyclic antidepressants  Interpreting the results of FRAX  Patients are not automatically categorised into low, intermediate or high risk. Instead the 'raw data' relating to the 10-year risk of any sustaining an osteoporotic fracture. This data then needs to be interpreted alongside either local or national guidelines, considering certain factors such as the patient's age. • DEXA scan  NICE recommend against routinely measure BMD (i.e. a DEXA scan) to assess fracture risk without prior assessment using FRAX (without a BMD value) or Q Fracture  There are some situations where NICE recommend arranging DEXA scan directly to assess BMD rather than using one of the clinical prediction tools:  before starting treatments that may have a rapid adverse effect on bone density (e.g., sex hormone deprivation for treatment for breast or prostate cancer).  in people aged ˂ 40 years who have a major risk factor, such as history of multiple fragility fracture, major osteoporotic fracture, or current or recent use of high-dose glucocorticoids (more than 7.5 mg prednisolone or equivalent per day for ≥ 3 months). When should we reassess a patient's risk (i.e. repeat the FRAX/Q Fracture)? • if the original calculated risk was in the region of the intervention threshold for a proposed treatment and only after a minimum of 2 years, or • when there has been a change in the person's risk factors Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Osteoporosis: management Indications • History of fragility fractures in postmenopausal women  Age < 75 years + osteoporotic fragility fractures + confirmed osteoporosis (a T-score of - 2.5 SD or below)  Age ≥ 75 years + osteoporotic fragility fractures (a DEXA scan may not be required) • T-scores ≤ -2.5 • T-score between -1 and -2.5 with severely increased risk of fracture Bisphosphonates: e.g., alendronate, risedronate • The drug of choice for osteoporosis • Agents  Oral bisphosphonates (alendronic acid, ibandronic acid and risedronate sodium)  recommended only if the 10‑ year probability of osteoporotic fragility fracture is at least 1%.  Intravenous bisphosphonates (ibandronic acid and zoledronic acid)  recommended only if the 10‑ year probability of osteoporotic fragility fracture is at least 10% OR 1% + difficulty of taking oral bisphosphonates or these drugs are contraindicated or not tolerated. • Mechanism of action: inhibition of osteoclasts → bone resorption (reduce the risk of both vertebral and non-vertebral fractures) • First-line: alendronate  around 25% of patients cannot tolerate alendronate, usually due to upper gastrointestinal problems. • Second line (if alendronate not tolerated): risedronate or etidronate • Instructions for administration  Should be taken after an overnight fast and at least 30 minutes before the first food or drink (other than water) of the day or any other oral medicinal products or supplementation (including calcium).  With plenty of water (e.g. 200 ml of water)  Patients should not lie down for 30 minutes after taking the tablet. • Side effects  Hypocalcemia  Esophagitis, esophageal cancer  Osteonecrosis of the jaw: most common with intravenous zoledronic acid • Contraindicated in patients with a GFR less than 35 ml/min • Treatment review should be performed after 3 to 5 years  Continuation of bisphosphonate treatment beyond 3-5 years can generally be recommended in: individuals age ≥75 years, those with a history of hip or vertebral fracture, those who sustain a fracture while on treatment, and those taking oral glucocorticoids. • Treatment failure  NICE defines an unsatisfactory response to treatment when a patient has another fragility fracture despite adhering fully to treatment for longer than 1 year and there is evidence of a decline in BMD. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Bisphosphonates should be taken at least 30 minutes before meals, with plenty of water, and the patient should maintain an upright position for at least 30 minutes following intake to prevent esophagitis. Denosumab • Action  Human monoclonal antibody that inhibits RANK ligand on the surface of osteoclast precursors, which in turn inhibits the maturation of osteoclasts leads to reduced bone reabsorption. • Indication  High risk of fracture + unable to take bisphosphonate (intolerance or a contraindication)  Indicated in patients with impaired renal function or in whom bisphosphonates therapy failed • Administration  given as a single subcutaneous injection every 6 months. therefore, tolerated by patients who don’t want a daily subcutaneous injection • Side effects  Like bisphosphonates it is associated with osteonecrosis of the jaw, but not other adverse events such as reflux oesophagitis.  The risk of a dynamic bone disease may be less for denosumab versus bisphosphonates because it does not accumulate in bone. Teriparatide: parathyroid hormone analog • Mechanism of action:  Increased osteoblast activity (the main effect ) → increased bone growth  increased calcium absorption from the gut and reduced calcium excretion from the kidney. • Indication:  Severe osteoporosis (T-score ≤ -3.5) or for patients + unable to take bisphosphonate (intolerance, contraindication or unsatisfactory response)  age ≥ 65 years + T-score of ≤ –4.0 SD, or  age ≥ 65 years + T-score of ≤ –3.5 SD + more than two fractures, or  age 55–64 years + T-score of ≤ –4 SD + more than two fractures. • Advantages  Effective at reducing vertebral and non-vertebral fractures in post-menopausal women  reduces both pain and disability due to spinal fractures. It is the most appropriate choice to control both the immediate symptoms and for long-term prevention. • Administration  administered once daily by subcutaneous injection and therefore, not preferred by many patients, who don’t like injectables.  the maximum total duration of treatment restricted to 18 months. • Side effects  Hypercalcemia (usually transitory)  Increased risk of osteosarcoma in patients with:  Paget disease of the bone (or an unexplained elevation of alkaline phosphatase)  Prior cancers or radiation therapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Contraindications  pre-existing hypercalcaemia,  severe renal impairment, (eGFR < 30 mL/minute/ 1.73 m2)  severe hepatic impairment,  metabolic bone diseases other than primary osteoporosis (including hyperparathyroidism and Paget's disease of bone)  unexplained elevations of alkaline phosphatase  previous radiation treatment to the skeleton. Raloxifene - selective oestrogen receptor modulator (SERM) • Action  act as a weak oestrogen-receptor agonists in some systems and as oestrogen antagonists in others. • Indication  Secondary prevention of osteoporotic fragility fractures in postmenopausal women + contraindications to bisphosphonates or those who also require breast cancer prophylaxis.  In patients with breast cancer it should not be used for osteoporosis treatment or prevention until treatment of the breast cancer, including adjuvant treatment, has been completed.  Raloxifene is not recommended for the primary prevention of osteoporotic fragility fractures in postmenopausal women (NICE updated February 2018) • Advantage  increase bone density in the spine and proximal femur  may decrease risk of breast cancer • Disadvantages  reduce risk of vertebral fractures, but has not yet been shown to reduce the risk of non-vertebral fractures  less effective in preventing loss of bone mineral density versus bisphosphonates or denosumab.  may worsen menopausal symptoms  increased risk of thromboembolic events • Contraindications  history of venous thromboembolism (VTE)  hepatic impairment, cholestasis  severe renal impairment  unexplained uterine bleeding or endometrial cancer Strontium ranelate • Action  'Dual action bone agent' - increases deposition of new bone by osteoblasts (promotes differentiation of pre-osteoblast to osteoblast) and reduces the resorption of bone by inhibiting osteoclasts • Indication  Severe osteoporosis in men and postmenopausal women at increased risk of fractures [when other treatments are contra-indicated or not tolerated]  the European Medicines Agency in 2014 said it should only be used by people for whom there are no other treatments for osteoporosis due to increased risk of  cardiovascular and thromboembolic events Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Administration  The dose is 2 g once daily in water, preferably at bedtime.  Advice to avoid food for 2 hours before and after taking granules, particularly calcium-containing products e.g. milk; also preferably avoid concomitant antacids containing aluminium and magnesium hydroxides for 2 hours after taking granules. • Contraindications  Cerebrovascular disease  Current or previous venous thromboembolic event  Ischaemic heart disease  Peripheral arterial disease  Temporary or permanent immobilisation  Uncontrolled hypertension.  Severe renal impairment  Should be discontinued during treatment with oral tetracycline or quinolone antibiotics. Vitamin D and calcium supplementation • Vitamin D and calcium supplementation should be offered to all women unless the clinician is confident, adequate calcium intake and are vitamin D replete  1500 mg/day of calcium and 400-800 pg /day of vitamin D  Dietary intake of calcium should be:  800-1000 mg/day in childhood through early adulthood  1000-1200 mg/day in the middle years  1500 mg/day in the elderly (SCE. Sample questions. Mrcpuk.org): A 78-year-old woman k/c/o osteoporosis presented with acute mid-thoracic bone pain. She had p/h/o right wrist fracture. two previous episodes of vertebral fractures. On alendronic acid and calcium and vitamin D tablets regularly for 3 years. DXA scan of spine (L2–L4): T score –3.8. What is the most appropriate treatment?  teriparatide (SCE. Sample questions. Mrcpuk.org): What cell type in bone primarily senses strain and microdamage?  Osteocyte  Osteocytes derive from osteoblasts and have long cytoplasmic extensions, which detect strain in bone. Pathophysiology of bone diseases: • Osteoporosis → Decreased bone mass, but mineralization is normal. • Osteomalacia → Decreased bone mineralization (due to vitamin D deficiency) • Paget's disease → Disorder of bone remodeling (excessive bone resorption, followed by disorganized bone formation occurs, producing thickened but weak bone.) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Adrenal gland conditions Adrenal gland: Basics Adrenal cortex (mnemonic GFR - ACD) • zona Glomerulosa (on outside): mineralocorticoids, mainly Aldosterone • zona Fasciculata (middle): glucocorticoids, mainly Cortisol • zona Reticularis (on inside): androgens, mainly Dehydroepiandrosterone (DHEA) Adrenal medulla • The adrenal medulla secretes  all the adrenaline in the body  Small amounts of noradrenaline. • It essentially represents an enlarged and specialised sympathetic ganglion Noradrenaline metabolism • The action of noradrenaline released at sympathetic nerve endings is terminated by which mechanism?  The majority are re-uptaked by the axonal terminals → into the neurosecretory granules  Small amount is metabolised by monoamine oxidase (MAO)  Smaller quantities that escape into the circulation are metabolised by catechol-Omethyl transferase (COMT) Premature adrenarche Definition and pathophysiology • Premature maturation of the adrenal zona reticularis (adrenarche) → ↑androgen levels → onset of pubarche before age 8 years in girls and age 9 years in boys. Associated conditions • Associated with obesity, insulin resistance, and later development of PCOS and/or metabolic syndrome Epidemiology • Most common cause of precocious pubarche • ♀ > ♂ Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Features • Precocious pubarche: onset of pubic and/or axillary hair growth < 8 years in girls and < 9 years in boys • Adult-type body odor • Seborrhea, acne • Increased height for age with a linear growth rate • Other secondary sexual characteristics are absent (No breast development or testicular enlargement, or frank virilization.) Diagnosis • ↑ Serum androgen concentrations (DHEA-S, testosterone) • Advanced bone age Differential diagnosis • Idiopathic premature pubarche  Premature onset of pubarche most likely due to increased sensitivity of the pilosebaceous units to normal levels of androgen  No biochemical evidence of adrenarche (i.e., normal serum androgen concentrations)  Normal bone age Treatment • No treatment is needed besides reassurance. Premature puberty: signs of secondary sexual development occurring before the age of eight years in girls and the age of nine years in boys are considered premature and warrant careful evaluation. Dehydroepiandrosterone sulphates (DHEAS) Overview • The most abundant circulating adrenal steroid. • Hormone class: Androgen • Production site: Zona reticularis of the adrenal cortex • Function: Substrate in estrogen and testosterone synthesis: DHEA → converted to estrogen and testosterone in peripheral tissue. Most of the DHEA is converted to androstenedione. • Regulation of secretion: CRH → ↑ secretion of ACTH in the pituitary gland → ↑ secretion of androgens in the adrenal cortex • Decline with age Clinical significance • DHEAS is secreted exclusively by the adrenal glands and is therefore a good marker for adrenal androgen production. • A mildly elevated DHEAS level is common in women with PCOS. In contrast, DHEAS values above 700 ng/dL (7µg/ml, 18umol/L) are suggestive of adrenal neoplasm. • Loss of functioning adrenal tissue as in Addison's disease may result in symptoms secondary to androgen deficiency, such as loss of libido. • A trial of dehydroepiandrosterone (DHEA) is recommended in women with primary adrenal insufficiency who have low libido, low energy levels, or depressive symptoms despite glucocorticoid and mineralocorticoid replacement → increasing a sense of wellbeing May 2008 exam: Addison's disease C/O a decrease in her libido. On examination there is a slight loss of pubic hair. What is the most likely cause? Dehydroepiandrosterone (DHEA) deficiency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Cortisol Overview • Hormone class: Glucocorticoids • Production site: Zona fasciculata of the adrenal cortex • Regulation of secretion: CRH → ↑ secretion of ACTH in the pituitary gland → ↑ secretion of glucocorticoids in the adrenal cortex • Plasma cortisol levels in normal individuals show a circadian rhythm. • Levels are highest in the early morning and fall to their lowest levels during sleep at around midnight. • At what time of day is a random cortisol test most likely to be abnormal?  2400 hours Function • Metabolism: Cortisol plays an important role in the mobilization of energy reserves.  ↑ Gluconeogenesis to maintain blood glucose levels  ↑ Glycogen synthesis to maintain glucose storage  ↑ Protein catabolism  ↑ Lipolysis  ↑ Appetite  ↑ Insulin resistance • Immune system: anti-inflammatory and immunosuppressive effects (see “Pharmacodynamics of glucocorticoids”) • Wound healing: fibroblast inhibition → ↓ collagen synthesis → ↓ wound healing • Blood pressure: mild mineralocorticoid effect (stimulation of aldosterone receptors in high concentrations) and ↑ potassium excretion → ↑ blood pressure To remember the effects of cortisol, think “A BIG FIB”: increased Appetite, Blood pressure, Insulin resistance, Glucose production, and decreased Fibroblasts, Immunity, and Bone formation. Cortisol levels are increased in: • pregnancy • conditions of physical and emotional stress • oestrogens • oral contraceptives • amphetamines • cortisone • spironolactone. What is the immediate precursor in the production of cortisol? • 11-Deoxycortisol No need to evaluate cortisol secretion in critically ill patients • In a critically ill patient CRH, ACTH and cortisol levels increase rapidly as a haemostatic response to the illness. • acute illness →↓cortisol binding globulin and albumin →↑free cortisol levels (not truly reflective of adrenal hypersecretion) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Aldosterone Overview • Hormone class: Aldosterone is the major circulating mineralocorticoid • Production site: zona glomerulosa of the adrenal cortex. Action • ↑ Na+ reabsorption → water reabsorption and K+ secretion into the urine → ↑ blood pressure, hypokalemia, and ↑ pH level. Site of action: principal site: distal renal tubule Regulation of synthesis and secretion: • Stimulators  Hypovolemia →↓ renal perfusion (e.g., due to hypotension, stimulation of β1 receptors in the kidney) → triggers renin release → promotes the conversion of angiotensinogen (produced in the liver) to angiotensin I (AT I) , AT I is turned into angiotensin II via angiotensin-converting enzyme (highest concentration in the lungs where it is produced by vascular endothelial cells). Angiotensin II causes vasoconstriction and triggers the secretion of aldosterone.  Hyperkalemia • Inhibitors  Principle inhibitors  Hypervolemia  Hypokalemia  Negative feedback: ↑ systemic arterial blood pressure → ANP release from atrial myocytes → inhibition of renin release → vasodilation, natriuresis, and ↑ diuresis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad _Adrenal hyperandrogenism Causes Primary adrenal diseases • Premature adrenarche • Adrenal tumors (adenomas, carcinomas, bilateral macronodular adrenal hyperplasia) ACTH hypersecretion • Congenital adrenal hyperplasia (CAH) • ACTH-dependent Cushing's syndrome • Glucocorticoid resistance • Cortisone reductase deficiency Hyperprolactinemia Exogenous • Androgens Features • Virilization: the appearance of male secondary sexual characteristics in a female individual • Hirsutism: excessive male pattern hair growth (e.g., chin, upper lip, mid-sternum, abdomen, back, buttocks) • Male-pattern hair loss • Acne • Increased muscle mass • Voice deepening • Clitoromegaly • Rapid onset of virilization is suggestive of exogenous androgen intake or androgensecreting tumors Differential diagnosis of hyperandrogenism in females Diagnosis Characteristic finding PCOS: Most common (75–80% of cases) Polycystic ovaries on pelvic ultrasound Nonclassic CAH ↑ 17-Hydroxyprogesterone Congenital adrenal hyperplasia Ambiguous genitalia Cushing disease ↑ 24-hour urine free cortisol Hypothyroidism ↑ TSH Androgen-secreting tumor (e.g., Sertoli-Leydig cell tumor, adrenal) ↑ DHEA-S (> 700 μg/ dL) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Hyperaldosteronism: Overview Definition: Increased secretion of aldosterone from adrenal gland. Features and complications • Hypertension  ↑ Aldosterone → ↑ open Na+ channels in the cortical collecting ducts of the kidneys → ↑ Na+ reabsorption and retention → water retention → hypertension • ↓or normal K+  may be normal in up to 50% of cases  Diabetes insipidus: hypokalaemia → desensitization of renal tubules to antidiuretic hormone (ADH) → polyuria and polydipsia • Metabolic alkalosis  ↑ H+ secretion in the kidney in order to enable ↑ K+ reabsorption • ↑Aldosterone → reduce nitric oxide bioavailability → ↓ endothelium-dependent vasodilatation → ↑risk of cardiovascular events. • ↑Aldosterone → ↑ collagen synthesis → promotes myocardial fibrosis and cardiac remodeling →↑myocardial stiffness and ↑ left ventricular mass → ↑risk of ventricular arrhythmias and sudden cardiac death. • 1° hyperaldosteronism does not directly cause edema due to aldosterone escape mechanism. However, certain 2° causes of hyperaldosteronism (eg, heart failure) impair the aldosterone escape mechanism, leading to worsening of edema. Aldosterone escape • Inappropriately elevated aldosterone → sodium and water retention → volume expansion → secretion of atrial natriuretic peptide (ANP) and pressure natriuresis → compensatory diuresis → “escape” from edema formation and hypernatremia • In edematous disorders the aldosterone escape mechanism is impaired, resulting in worsening edema. General causes of hyperaldosteronism Primary hyperaldosteronism  Due to bilateral adrenal hyperplasia (most commonly) and adrenal adenoma (Conn's syndrome) (less commonly)  ↑aldosterone →↓renin → ↑aldosterone to renin ratio (ARR). Secondary hyperaldosteronism  Due to renovascular hypertension, fibromuscular dysplasia , juxtaglomerular cell tumors (renin- producing), and oedema (eg, cirrhosis, heart failure, nephrotic syndrome).  The raised aldosterone level is driven by raised renin levels.  ↓blood flow to the kidneys (e.g. due to renal artery stenosis, heart failure, and cirrhosis). → ↓renal perfusion → ↑renin → ↑aldosterone (aldosterone to renin ratio (ARR) will be normal). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Primary hyperaldosteronism Prevalence: 10–30% of all forms of hypertension Causes The most common → Bilateral idiopathic adrenal hyperplasia (70%). Common → adrenal adenoma, termed Conn's syndrome. Rare → Adrenal carcinoma Glucocorticoid deficiency - also called glucocorticoid-remediable aldosteronism → high ACTH levels → increased aldosterone production. Features • Hypertension: May present with untreated or resistant hypertension • Hypokalaemia, may leads to:  fatigue, muscle weakness, cramping, headaches, and palpitations.  polydipsia and polyuria from hypokalemia-induced nephrogenic diabetes insipidus.  Abdominal distention (ileus from hypokalemia)  seen in only 10-40% of patients • Patient with adrenal adenoma do not have features of hyperandrogenaemia like hirsutism as benign adrenal tumours produce cortisol but not the androgens. Absence of hirsutism and virilisation in a patient with other features of Cushing's syndrome favours adrenal adenoma but needs further investigations. • Electrolytes: Low/normal potassium. Normal/high sodium • ABG: Metabolic alkalosis  Aldosterone act on renal distal convoluted tubule → enhancing sodium reabsorption and potassium and hydrogen ion excretion → Metabolic alkalosis Screening • Indications of primary aldosterone screening (using aldosterone / renin ratio - after controlling for factors (including medicines) that may confound results): sustained HTN (>150/100 in 3 separate measurements taken on different days; HTN resistant to 3 antihypertensive drugs; HTN controlled with ≥ 4 medications; HTN + low potassium HTN + adrenal incidentaloma; HTN + sleep apnea; HTN + family history of early-onset hypertension or stroke before age 40; HTN + first-degree relatives of patients with primary aldosteronism. Investigations • Screening test: Aldosterone-to-renin ratio (ARR)  ↑aldosterone and ↓renin (aldosterone-to-renin ratios are typically ≥ 20).  used to screen for primary hyperaldosteronism and differentiate it from other causes of elevated aldosterone (e.g., secondary hyperaldosteronism). • Confirmatory testing if ARR screening test is positive to verify that aldosterone production is nonsuppressible (i.e., not regulated by the RAAS).  Oral sodium loading test Bilateral idiopathic adrenal hyperplasia is the most common cause of primary hyperaldosteronism Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Ensure high sodium intake for 3 days and collect 24-hour urine aldosterone on the last day.  Primary hyperaldosteronism is highly likely if urinary aldosterone > 12 mcg/day.  Saline infusion test  Draw baseline laboratory studies (e.g., PRA, Plasma aldosterone), infuse normal saline over 4 hours, and draw laboratory studies again.  Primary hyperaldosteronism is very probable in patients with aldosterone levels > 10 ng/dL.  Interpretation  Aldosterone suppression after interventions: primary hyperaldosteronism unlikely. Consider other diagnoses.  No aldosterone suppression after interventions: primary hyperaldosteronism confirmed • Determine the underlying cause (after confirmatory tests)  Adrenal CT  Recommended as initial imaging modality after confirmatory tests (preferred over MRI)  excludes large tumors and helps differentiate possible surgical candidates (e.g., unilateral adenoma) from nonsurgical candidates (e.g., bilateral adrenal hyperplasia).  Adrenal venous sampling (AVS)  AVS is the gold standard for biochemically differentiating unilateral aldosterone overproduction from bilateral aldosterone overproduction.  Indications: Both of the following criteria must be met.  Adrenal CT suggestive of unilateral hyperaldosteronism  Surgical intervention is desired and feasible  Procedure: catheterization of both adrenal veins and a peripheral vein (e.g., IVC) under fluoroscopy followed by a measurement of the aldosterone-tocortisol ratio of each vein  Findings  Unilateral disease: significant difference in the aldosterone-to-cortisol ratio between the right and left adrenal veins  Bilateral disease: little to no difference in ratios between the two adrenal gland veins  Genetic testing  for familial hyperaldosteronism type 1 (FH-I) (glucocorticoid remediable aldosteronism [GRA])  In patients < 20 years  in patients with a family history of PA or stroke at a young age (<40 years),  In very young patients, we suggest testing for germline mutations in KCNJ5 causing familial hyperaldosteronism type 3 (FH-III). Aldosterone-to-renin ratio (ARR): Approach • Eliminate confounding factors before testing  Correct hypokalemia (because low potassium suppresses aldosterone secretion)  Encourage normal salt intake (do not restrict salt intake)  Discontinue agents known to affect ARR and use an alternative agent.  Drugs need to be stopped: ACEi, ARB, diuretics, and β-blockers for 2 weeks (wash-out period) and spironolactone for 6 weeks.  alternative agent which can be used: Alpha-blockers (e.g. doxazosin), calcium channel blockers (e.g. amlodipine) and Hydralazine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Although ACEi are associated with false negative test results, in clinical practice the ARR can be assessed without stopping these agents. In fact, ACEi may actually improve the sensitivity of the test.  Alpha blockers such as doxazosin have the lowest effect on the reninangiotensin system • The blood sample should be taken in the morning during standing position (i.e. with the patient standing for 2 h)  Values obtained in the upright position are more sensitive than supine test results.  aldosterone is usually higher when the patient is erect than when supine (in bilateral hyperplasia) • Positive screening tests  Confirm diagnosis (e.g., oral sodium loading test or saline infusion test)  Identify subtype and etiology (e.g., via imaging, adrenal venous sampling, and/or genetic testing) • Negative screening tests  Consider repeating screening tests if the likelihood of primary hyperaldosteronism remains high.  Consider other causes of secondary hypertension. Agents known to affect renin levels include aldosterone receptor antagonists, ACE inhibitors, and potassium-wasting diuretics. Alternatives include alpha blockers and hydralazine. The effect of drugs on Aldosterone-to-renin ratio (ARR) • Drugs with no effect on ARR  Alpha-blockers  Calcium channel blockers  Hydralazine • Drugs result in false negative  ACE inhibitors & ARBs → ↑ renin & ↓ aldosterone  Diuretics → ↑ both renin & aldosterone • Drugs result in false positive  Beta-blockers & Methyldopa → ↓ renin Differential diagnosis • Hypertension is also a feature of Liddle syndrome and steroid 11β-hydroxylase deficiency, but aldosterone concentrations are low. • Secondary hyperaldosteronism:  ↑renin→ ↑aldosterone secretion (plasma renin activity is normal or increased). • Adrenal hyperplasia can be differentiated from adrenal adenoma by measuring aldosterone levels on awakening, and 2-4 hours later while standing:  In adenoma, aldosterone levels decline on standing 2-4 hours later.  in hyperplasia, levels increase. Management • Adrenal adenoma: surgery  Surgery is the treatment of choice for Conn's adenoma and leads to resolution of hypertension in around 70% of patients.  Aldosterone inhibition with spironolactone will bring the greatest additional reduction in blood pressure. • Bilateral adrenocortical hyperplasia: aldosterone antagonist e.g. spironolactone Chapter 1 Endocrinolog & Metabolism Prognosis • After removal of the adenoma the blood pressure is normal in 70% of patients at 1 year; • 50% of patients are still normotensive after 5 years. Bilateral hyperplasia vs adrenal adenoma bilateral hyperplasia adrenal adenoma idiopathic adrenal hyperplasia (IAH) Aldosterone-producing adenomas (APAs) Commonest common higher prevalence in African Americans, persons of African origin, and, potentially, other blacks. 4 times more prevalent in men than in women more common in women than in men, with a female-to-male ratio of 2:1. peaking in the sixth decade of life The typical patient with an APA is a woman aged 30-50 years. renin-angiotensin system (RAS)–mediated increase in aldosterone level occurs with upright posture. Loss of normal circadian rhythm of aldosterone secretion (normally: lowest around midnight, and highest in early morning) aldosterone-producing adrenal adenomas are commoner in young women, whereas bilateral adrenal hyperplasia tends to occur later and is commoner in men. Aldosterone receptor antagonists Agents: spironolactone, eplerenone Action • acts on the distal renal tubules as a competitive antagonist of aldosterone increasing sodium and water excretion and reducing potassium excretion (acts as a potassium-sparing diuretic) • → K+ enters cells in exchange for H+ → amplifies acidosis • onset of action: requiring 2 or 3 days for maximum effect Indications • Hypertension (especially if hypokalemia is also present) • Ascites/oedema due to congestive heart failure, nephrotic syndrome, or cirrhosis of the liver (mainly spironolactone) • Hyperaldosteronism (PCOS) • Nephrogenic diabetes insipidus (amiloride) • Hypokalemia • Hyperandrogenic states, e.g., polycystic ovary syndrome (spironolactone) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad have more severe hypertension, hypokalemia, and higher urinary aldosterone than IAH. decrease in the aldosterone level with upright posture preserved of normal circadian rhythm of aldosterone secretion Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Adverse effects • General side effects  Metabolic and electrolyte imbalances, such as hyperkalemia (most common), hyponatremia, and metabolic acidosis, can lead to cardiac arrhythmias  Gastrointestinal disturbances (nausea, vomiting, diarrhea) • Spironolactone-specific side effects: endocrine disturbances  Men: antiandrogenic effects (e.g., gynecomastia, erectile dysfunction)  Women: amenorrhea Adrenal incidentaloma Definition • asymptomatic adrenal mass detected on imaging not performed for suspected adrenal disease. Prevalence • occur in up to 10% of the population with imaging Approach • determine whether the incidentally discovered adrenal mass is:  Malignant  Functioning and associated with excess hormonal secretion. Differential diagnosis • Phaeochromocytoma (10–15%). • Adrenocortical carcinoma (5–12%). • Adrenal myelolipoma (5–10%). • Metastasis (2–10%; most prevalent breast, lung, kidney). • Cortisol-secreting adrenal adenoma causing Cushing’s syndrome or subclinical Cushing’s syndrome (5%). • Adrenal cysts (5%). • Ganglioneuroma (4%). Investigations Adrenal mass on CT: • Low density (Hounsfield Units ≤10) = high fat content = benign • High density (>20 HU) = suspicious (phaeochromocytoma/adrenocortical carcinoma/metastasis but also lipid-poor adenoma) • Exclude malignancy → Noncontrast CT  If the mass is homogeneous and low density (Hounsfield Units ≤10) (lipid-rich) and smaller than 4cm → benign adrenal mass → no further imaging is required  Surgery if there is any one of the following  Evidence of a syndrome of hormonal excess attributable to the tumour The most important thing to exclude, particularly in view of any further intervention, is a phaeochromocytoma (plasma free metanephrines) as catastrophic consequences can ensue following anaesthesia or surgical intervention. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Imaging features suggestive of malignancy: Mass diameter >4cm, high density (>20 HU).  If the adrenal mass is indeterminate on noncontrast CT and the results of the hormonal work-up do not indicate significant hormone excess, three options should be considered by a multidisciplinary team:  immediate additional imaging with another modality, there is little added benefit of MRI over CT in the examination of the adrenals  interval imaging in 6–12months (noncontrast CT)  If the lesion enlarges by more than 20% (in addition to at least a 5mm increase in maximum diameter) during this period → surgical resection  If the lesion enlarges by less than 20% → additional imaging after 6– 12months should be performed.  Surgery without further delay. • Exclude functional hormonal secretion  Exclude pheochromocytoma by measurement of plasma-free metanephrines (most sensitive and specific screening test) or alternatively urinary fractionated metanephrines (less specific)  The most important thing to exclude, as catastrophic consequences can occur following anaesthesia or surgical intervention.  Exclude cortisol excess by 1mg overnight dexamethasone suppression test  post dexamethasone serum cortisol levels ≤50nmol/L (≤1.8µg/dl) exclude autonomous cortisol secretion  Exclude primary aldosteronism aldosterone/renin ratio Treatment • Surgery for functional secreting adenoma or suspicious features on imaging • Observation and monitoring for asymptomatic, nonfunctioning unilateral adrenal mass and benign features on imaging. Congenital adrenal hyperplasia (CAH) CAH due to 11-beta hydroxylase deficiency can cause apparent mineralocorticoid excess syndrome (AMES) resulting in hypertension and hypokalemia Which of the following is the best investigation to monitor a patient with classic salt wasting congenital adrenal hyperplasia (CAH)?  17 hydroxyprogesterone (17 OHP) levels. Overview • Autosomal recessive disorder • Associated with HLA B47 • Affects males and females in equal numbers The criteria for surgical removal of an adrenal tumour is a diameter of 4cm or more as the risk of primary carcinoma with such size is of the order of 1 in 30. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Non-classic congenital adrenal hyperplasia is a cause of hyperandrogenism in up to 1 in 1000 females, particularly those of Hispanic, Yugoslavian or Eastern European Jewish descent. Pathophysiology • CAH is caused by autosomal recessive defects in enzymes that are responsible for the production of cortisol. • There are three subtypes of CAH:  21β-hydroxylase deficiency (∼ 95% of CAH)  11β-hydroxylase deficiency (∼ 5% of CAH)  17α-hydroxylase deficiency (rare) • Low levels of cortisol → lack of negative feedback to the pituitary → increased ACTH → adrenal hyperplasia and increased synthesis of adrenal precursor steroids • Non-classical forms result from milder enzyme dysfunction and therefore manifest later in life (adolescence or adulthood). Types • 21-hydroxylase deficiency (90%) most common cause  due to mutation of the CYP21A2 gene on chromosome 6  ↑ Testosterone → virilisation of female genitalia and precocious puberty in males  ↓ Aldosterone → salt-losing crises (hyponatremia) and hyperkalemia  ↓11-deoxycorticosterone  ↑17 hydroxy-progesterone (commonly used as a screening test) • 11-beta hydroxylase deficiency (5%)  ↑ Testosterone → virilisation of female genitalia and precocious puberty in males  ↓ Aldosterone  ↑ 11-deoxycorticosterone, ↑11-Deoxycortisol → Hypertension and hypokalaemia  11 Beta-hydroxylase is responsible for conversion of 11-deoxycorticosterone and 11-deoxycortisol to corticosterone and cortisol. As this enzyme is deficient, levels of these steroids accumulate.  11-deoxycorticosterone has aldosterone-like activity, and in high levels, it causes hypertension and hypokalaemia and inhibits the production of renin and consequently aldosterone.  Mild elevation of 17-OH steroids (not as great as that seen with 21-hydroxylase deficiency), occasionally an incorrect diagnosis of 21-hydroxylase deficiency may however be made. • 17-hydroxylase deficiency (very rare)  17-hydroxylase converts progesterone to 17-α-hydroxyprogesterone, which subsequently is converted to androstenedione, testosterone, and finally estradiol.  ↓Estradiol→ ↓menstrual cycle and ↓secondary sexual characteristics.  Progesterone accumulates and is pushed into the aldosterone synthesis pathway → hypertension and hypokalemia  ↑ Aldosterone → hypertension and hypokalemia  ↓ Testosterone → amenorrhea, no secondary sexual characteristics in females (non-virilising). Inter-sex in boys  ↑ 11-deoxycorticosterone patients with 11β-hydroxylase deficiency will present with increased blood pressure, hypokalemia and increased androgen levels, differentiating it from 17α-hydroxylase deficiency. Chapter 1 Endocrinolog & Metabolism A female born with virilisation but has elevated blood pressure likely has a deficiency in 11 beta-hydroxylase. • All 3 types of CAH cause → ↓ cortisol + ↑ ACTH • 11-deoxycorticosterone decreased only in the 21-hydroxylase deficiency (increased in other 2 types) • Testosterone decreased only in the 17-hydroxylase deficiency (increased in other 2 types) cortisol + ↑ ACTH + Ambiguous genitalia ↓ ↓Aldosterone + ↑ Aldosterone + testosterone ↑ ↓ testosterone 21-α hydroxylase 17-α hydroxylase deficiency deficiency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad CAH ↓ Aldosterone + ↑ testosterone ↑ 11-deoxycorticosterone 11-β hydroxysterone deficiency 006 - Pages 126-150 006 Pages 126-150 Feature Type XX (female) genotype XY (male) genotype • Hypotension 21β-hydroxylase deficiency • Clitoromegaly and/or male external genitalia along with a uterus and ovaries • Precocious puberty • Virilization, irregular menstrual cycles, infertility • Hypertension 11β-hydroxylase deficiency • Clitoromegaly and/or male external genitalia along with a uterus and ovaries • Precocious puberty • Virilization, irregular menstrual cycles, infertility • Hypertension 17α-hydroxylase deficiency • Normal female external genitalia at birth • Delayed puberty (primary amenorrhea) or sexual infantilism Classical CAH (C-CAH) Nonclassical CAH (NC-CAH) • The sever form • The milder form • Less common • more common • Early onset (during the neonatal period or early infancy) • Females present with ambiguous genitalia. • Salt-wasting type (∼ 67% of all classic forms) → “adrenal crises” : vomiting and shock. • Non-salt-wasting type (simple virilizing, ∼ 33% of all classic forms) → No signs of shock. • Males present with precocious puberty at age 2–4. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Hypotension • Normal male external genitalia at birth • Precocious puberty • Hypertension • Normal male external genitalia at birth • Precocious puberty • Hypertension • Female external genitalia with a blind-ending vagina and intra-abdominal testes at birth • Delayed puberty or sexual infantilism • Late onset (manifests during late childhood, adolescence, or adulthood) • Normal external genitalia • Symptoms of hyperandrogenism include hirsutism, acne, menstrual irregularity, androgenic alopecia, and impaired fertility Chapter 1 Endocrinolog & Metabolism • ACTH excess →hyperpigmentation (common feature in all forms of CAH) • Under- and over-treatment of CAH → Premature epiphyseal closure → short stature • Patients might complain of no other symptoms apart from primary amenorrhoea. • The clinical presentation may be indistinguishable from polycystic ovarian syndrome, with hirsutism being a dominant feature. Type 21β-hydroxylase deficiency Blood pressure Hypotension Hypertension Hypertension Acid-base disorders Metabolic acidosis Metabolic alkalosis Metabolic alkalosis 17-Hydroxyprogesterone Elevated Elevated Decreased 11-Deoxycorticosterone Decreased Elevated Elevated Corticosterone Decreased Decreased Elevated Potassium Elevated Decreased Decreased Diagnosis • Screening is conducted by measuring 17-hydroxyprogesterone → elevated  can help to distinguish between PCOS and non-classical CAH. • ACTH stimulation test (synacthen stimulation test )  can diagnose 21-OH deficiency when the plasma 17-OH progesterone are more than 30 nmol/L.  In individuals with borderline 17-hydroxyprogesterone levels, we recommend obtaining a complete adrenocortical profile after a cosyntropin stimulation test • Genotyping  only indicated when:  results of the adrenocortical profile after a cosyntropin stimulation test are equivocal, or  cosyntropin stimulation cannot be accurately performed (i.e., patient receiving glucocorticoid), or  for purposes of genetic counseling. • Normal ultrasound scan will rules out other causes of primary amenorrhoea (Turner syndrome and testicular feminization). Management • Glucocorticoid replacement  Hydrocortisone in neonates and children  Prednisolone or dexamethasone in adolescents and adults  steroids given in reverse circadian rhythm, i.e. a higher dosage at night and a lower dose in the morning (when steroids are given in higher doses at night → ACTH is suppressed → ↓ over-secretion of adrenal androgens and ↓the normal physiological steroid peak in the morning) • Symptomatic  If the main concern is infertility, ovulation induction is the treatment of choice.  If hirsutism is the presenting problem, then anti-androgens (such as flutamide) should be used. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 11β-hydroxylase 17α-hydroxylase deficiency deficiency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Restoring functional anatomy by surgery  minimally virilized girls: surgical options, include delayed surgery and/ or observation until the child is older  In severely virilized females (single urogenital opening) → early surgery to repair the urogenital sinus • Specific treatment  21β-hydroxylase deficiency  Lifelong fludrocortisone therapy (aldosterone substitution)  Sodium chloride (salt) supplements, especially during infancy and childhood  11β-hydroxylase deficiency  Spironolactone to block mineralocorticoid receptors  Reduced dietary sodium intake  17α-hydroxylase deficiency  Spironolactone to block mineralocorticoid receptors  Estrogen replacement therapy for female genotype; may be started in early puberty  Reduced dietary sodium intake  Salt-wasting CAH  Fluid resuscitation with intravenous normal saline  Intravenous dextrose in patients with significant hypoglycemia  Immediate administration of glucocorticoid replacement therapy  Nonclassic CAH  Women: combined oral contraceptives are first-line treatment (alternatively glucocorticoid therapy)  Men: usually no treatment required Monitoring of treatment • Efficacy of treatment is best monitored by 17-OH progesterone and androstenedione levels • Renin activity levels can be used to monitor the adequacy of mineralocorticoid and sodium replacement. The dose of glucocorticoids must be increased during severe infection, critical illness, and perioperatively to meet increased demands to prevent adrenal crisis. Glucocorticoid remediable aldosteronism (GRA) GRA should be suspected as the cause of primary aldosteronism when there is a positive family history and the onset of hypertension is before age 21 years. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Overview • GRA is a rare subtype of primary aldosteronism, also called familial hyperaldosteronism (FH) type I • Autosomal dominant mutation leads to ACTH responsive aldosterone production from the zona fasciculata rather than the zona glomerulosa. • It occurs because the regulatory portion of the 11b-OH gene binds to the aldosterone synthase gene. • usually associated with bilateral adrenal hyperplasia. Features • Strong family history of early resistant hypertension and haemorrhagic strokes is characteristic. • Elevated plasma aldosterone and suppressed renin • Hypokalaemia  potassium is normal in more than one-half of cases of GRA in contrast to the hypokalaemia frequently seen in primary aldosteronism. • Markedly increased levels of 18-oxocortisol and 18-hydroxycortisol. • Responsive to corticosteroid therapy. Complications • increased risk ruptured intracranial aneurysms → hemorrhagic stroke (higher than that reported in autosomal dominant polycystic kidney disease.) Diagnosis • dexamethasone suppression test • genetic testing (now preferred over dexamethasone suppression testing for making the diagnosis of GRA) Treatment • physiologic doses of a glucocorticoid will correct the overproduction of aldosterone by suppressing ACTH. The main clinical clues suggesting GRA in the normokalaemic, hypertensive patient are: family history of hypertension onset at a young age frequent development of marked hypokalemia after the administration of a thiazide diuretic (which increases sodium delivery to the aldosterone-sensitive potassium secretory site in the cortical collecting tubule). The combination of low renin, high aldosterone and raised urinary oxocortisol suggests glucocorticoid remediable aldosteronism (GRA). GRA is autosomal dominant, and therefore genetic testing is the most appropriate investigation. (SCE-question samples-mrcpuk.org) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pseudohyperaldosteronism Definition • Pseudohyperaldosteronism is characterized by a clinical picture of hyperaldosteronism with suppression of plasma renin activity and aldosterone. Feature  Hypertension  Salt retention  Hypokalaemia  Low renin and aldosterone concentrations Causes • Congenital adrenal hyperplasia • Exogenous mineralocorticoid • Cushing syndrome • Liddle syndrome • 11β-hydroxysteroid dehydrogenase deficiency • Glucocorticoid resistance • Excessive licorice ingestion: Excessive consumption of licorice can lead to inhibition of cortisol degradation → hypertension associated with hypokalemia. Syndrome of Apparent Mineralocorticoid Excess (SAME) Definition • AME is a rare form of pseudohyperaldosteronism characterized by very early-onset and severe hypertension, associated with low renin levels and hypoaldosteronism. Causes • Congenital deficiency of 11-beta-hydroxysteroid dehydrogenase type 2 (11-beta-HSD2) : Autosomal recessive mutation. • Acquired reduction of the activity of the (11 bHSD) enzyme caused by:  carbenoxolone  grapefruit juice  ↑ liquorice consumption (glycyrrhizic acid): black substance produced from the root of a plant used in medicine and sweets) Pathophysiology • With normal 11- beta-hydroxysteroid dehydrogenase type 2 (11-beta-HSD2) activity: 11-beta-HSD2 converts cortisol into cortisone (cortisone, unlike cortisol, does not activate mineralocorticoid receptors). • With 11-beta-HSD2 deficiency (or inhibition): ↓ cortisol conversion to cortisone → ↑ cortisol → ↑ mineralocorticoid receptor activity. Feature • Hypertension • Low birth weight • Failure to thrive • Muscle weakness • Polyuria and polydipsia due to nephrogenic diabetes insipidus • Renal failure • ↑ Ratio of free urinary cortisol (urinary tetrahydrocortisol) to free urinary cortisone. (AME patients create less cortisone) Chapter 1 Endocrinolog & Metabolism In Syndrome of Apparent Mineralocorticoid Excess, cortisol has the SAME action as aldosterone. Differential diagnosis • differentiate between AME and Liddle's Syndrome by administering a potassium-sparing diuretic:  Liddle's syndrome: only respond to a diuretic that binds the ENaC channel,  AME: respond to a diuretic that binds to ENaC or mineralcorticoid receptor. Treatment • Cessation of licorice ingestion • Spironolactone to decrease the mineralocorticoid effects • Thiazide in hypercalciuria or nephrocalcinosis • Corticosteroids: exogenous corticoids block ACTH and suppress the endogenous secretion of cortisol. Spironolactone (an aldosterone receptor antagonist) is effective in treating the syndrome of apparent mineralocorticoid excess but not Liddle syndrome! Phaeochromocytoma Pheochromocytoma = Episodic hypertension Pheochromocytoma is part of MEN II. Definition • Phaeochromocytoma is a rare tumors arising from chromaffin cells of the adrenal medulla and secreting catecholamines. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Chromaffin cells are modified post-ganglionic sympathetic cells that release catecholamines after stimulation by pre-ganglionic sympathetics. Overview • The majority of pheochromocytomas are benign, unilateral, catecholamine-producing tumors. • Tumors arise from chromaffin cells, which are derived from the neural crest. • Present in up to 1% of all hypertensive patients • The peak incidence is between ages 20 to 40. • Equal sex distribution • familial in 10% • bilateral in 10% • malignant in 10% • Localisation  ∼ 90% adrenal medulla (physiologically activated by acetylcholine)  ∼ 10% extra-adrenal in the sympathetic ganglia (most common site = organ of Zuckerkandl, adjacent to the bifurcation of the aorta)  ∼ 10% at multiple locations • 25% of pheochromocytomas are hereditary (germline mutations):  Multiple endocrine neoplasia type 2 (MEN 2A, MEN 2B)  Neurofibromatosis type 1 (NF1)  Von Hippel-Lindau disease (VHL) Features • Episodic hypertension (around 90% of cases, may be sustained)  Triggers for paroxysmal elevations in blood pressure: foods and beverages high in tyramine (e.g., red wine, aged cheese), surgery, pressure on the tumor (e.g., during massage), or certain drugs (e.g., beta blockers, MAOIs) • Paroxysmal  Throbbing headache (80%) the most common presenting feature  Diaphoresis (60%)  Palpitations, tachycardia (70%)  Pallor  Abdominal pain and nausea  Anxiety • Weight loss due to increased basal metabolism • Hyperglycemia • Signs of polycythemia, if EPO is secreted • Other features consistent with associated familial disorders:  MEN 2A: medullary thyroid cancer, pheochromocytoma, and parathyroid hyperplasia  MEN 2B: medullary thyroid cancer, pheochromocytoma, oral/intestinal neuromas, and marfanoid habitus  NF1: cutaneous neurofibromas, cafe-au-lait spots, and Lisch nodules  VHL: renal cell carcinoma, hemangioblastoma, angiomatosis, and pheochromocytoma 5 most important Problems (5 P’s) of Pheochromocytoma: increased blood Pressure, head Pain (headache), Perspiration, Palpitations, and Pallor Hypertensive crises can be triggered by palpation of the tumor on abdominal exam. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Investigations • Plasma free metanephrines test  The best initial test  The most sensitive test • 24 hr urinary collection of metanephrines  The most specific test (sensitivity 86%)  False positive urinary metanephrines can occur as a result of:  hypoglycaemia, stress, exercise, drugs such as methyldopa, dopamine agonists or ganglion-blocking antihypertensives, various foodstuffs including coffee, chocolate, bananas and citrus fruits.  The presence of noradrenaline alone usually indicates an extra-adrenal tumour.  Paragangliomas (exception—organ of Zuckerkandl) secrete noradrenaline only, as they lack PNMT. Phenylethanolamine-N-methyltransferase (PNMT) is necessary for methylation of noradrenaline to adrenaline and is cortisoldependent.  Small adrenal tumours tend to produce more adrenaline whereas larger adrenal tumours produce more noradrenaline  Tricyclic antidepressants and labetalol interfere with adrenaline measurements and should be stopped for 4 days  Plasma and urinary methoxytyramine levels are indicators of malignancy and can show isolated increases in patients with ‘biochemically negative’ malignant • Clonidine suppression tests  may be used to differentiate patients who have borderline catecholamine levels  Clonidine 300 micrograms orally—failure of suppression of plasma catecholamines into the normal range at 120 and 180min is suggestive of a tumour • Genetic testing: if MEN2A, MEN2B, NF1, or VHL is suspected • Immunohistochemical staining: positive for chromogranin, synaptophysin, and NSE • Adrenal/abdominal CT or MRI (after positive biochemistry tests to localize tumor)  The definitive methods for localisation  MRI: unlike most other adrenal tumours, demonstrates a distinctive ‘bright white’ signal on T2-weighted MRI. • Meta-iodo-benzyl guanidine (MIBG) scanning  demonstrates specific uptake in sites of sympathetic activity  used in cases where a tumour is confirmed biochemically but cannot be identified on CT or MRI.  Performed preoperatively to exclude multiple tumours.  Phenoxybenzamine may lead to false –ve MIBG imaging, so these scans should be performed before commencing this drug where possible. • 18F fluorodopamine PET scanning is superior to MIBG in localizing metastatic disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The image reveals a large left suprarenal mass. The appearances are typical of a which, unlike most other adrenal tumours, demonstrates a distinctive ‘bright white’ signal on T2-weighted MRI. Management • Initial management →The patient must be first stabilized with medical management:  Alpha-blocker (e.g. phenoxybenzamine), should be given first, before a betablocker.  beta-blocker (e.g. propranolol): Unopposed beta blockade should not be used in the management of phaeochromocytoma because of the risk of paradoxical increases in blood pressure • Laparoscopic tumor resection (adrenalectomy): treatment of choice  No-touch technique  Open surgical resection is reserved for large or invasive tumors.  Preoperative blood pressure management: combined alpha-adrenergic and beta-adrenergic blockade  First, a non-selective irreversible alpha-blocker is given : Phenoxybenzamine blocks alpha-1 and alpha-2 adrenoceptors equally and irreversibly  After sufficient alpha-adrenergic blockade, a beta-blocker may be started for additional blood pressure control and control of tachyarrhythmias. Prognosis • benign phaeochromocytoma →The 5-year survival rate is 95% • malignant phaeochromocytoma → The 5-year survival rate is 40% • Hypertension may persist in 25% patients who have undergone successful tumour removal. • SHB gene mutation patients are associated with a shorter survival. Primary hypoadrenalism (Addison's disease) Addison’s disease is associated with metabolic acidosis Primary hypoadrenalism is diagnosed by a short synacthen test and a failure to increase cortisol levels to above 500nmol/L Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Damage to the adrenal gland leads to the deficiency in all three hormones produced by the adrenal cortex: androgen, cortisol, and aldosterone. Clinical findings are noted after 90% of the adrenal cortex has been destroyed. • Hypoaldosteronism → hypotension (hypotonic hyponatremia and volume contraction), hyperkalemia, metabolic acidosis • Hypoandrogenism → Loss of libido + Impaired spermatogenesis (in men) • Hypocortisolism leads to:  ↑ ACTH → ↑ production of POMC (in order to increase ACTH production) → ↑ melanocyte-stimulating hormone (MSH) → hyperpigmentation of the skin (bronze skin)  ↑ ADH level → retention of free water → dilutional hyponatremia  ↓ Expression of enzymes involved in gluconeogenesis → ↓ rate of gluconeogenesis → hypoglycemia  Lack of potentiation of catecholamines action → hypotension Prevalence • Prevalence is around 5 per 100,000. • There is a female: male preponderance of 2:1 Causes • Autoimmune destruction of the adrenal glands  the commonest cause of hypoadrenalism in developed countries (80% of cases)  70% of patients have circulating anti-adrenal antibodies. • Associated with other autoimmune conditions such as  pernicious anaemia  thyroid disease  Type 1 diabetes  Vitiligo  Chronic active hepatitis. • Infectious (e.g. mycobacterial, fungal, HIV)  Adrenal tuberculosis (15% of cases)  the most common cause in developing countries.  In case with high ESR, TB adrenalitis should be considered  the best investigation → CT abdomen  reversible with anti-tuberculosis medications if given at an early  HIV: affect10% of patients with HIV, due to cytomegalovirus (CMV)  Fungal: Histoplasmosis: A systemic fungal infection caused by Histoplasma  Acute meningococcal sepsis due to Neisseria meningitidis → disseminated intravascular coagulation (DIC) → acute adrenal hemorrhage, also known as Waterhouse-Friderichsen syndrome.  Neisseria meningitidis is a gram-negative diplococcus that grows on chocolate agar.  purpuric rash classically appears on the trunk and extremities secondary to the DIC • Infiltration of the adrenal glands  Tumors (adrenocortical tumors, lymphomas, metastatic carcinoma)  Amyloidosis  Hemochromatosis • Vascular (eg, hemorrhage, emboli, thrombus) Pathophysiology  Anti-phospholipid syndrome (Hughes' syndrome) → haemorrhage through adrenal vein thrombosis → adrenal infarction  Anticoagulant overdose → bilateral hemorrhage in the adrenal glands → acute adrenal insufficiency. Flank pain, hypotension refractory to resuscitative efforts, and hypoglycemia indicate acute adrenal insufficiency due to heparin overdose.  Traumatic, iatrogenic (eg, surgery) • Drugs-induced adrenal insufficiency → Cortisol synthesis inhibitors  Antifungals: Ketoconazole, Fluconazole  Antibiotics: Rifampin  Antiepileptics: Phenytoin, Barbiturates Thinning of pubic and axillary hair is seen in females with Addison's disease due to reduced production of testosterones from the adrenal gland 0BMost cases of adrenal insufficiency are subclinical and only become apparent during periods of stress (e.g., surgery, trauma, infections), when the cortisol requirement is higher! Features Hormonal changes Clinical features Laboratory findings Hypoaldosteronism • Hypotension • Salt craving • Hyponatremia • Hyperkalemia • Normal anion gap metabolic acidosis Hypocortisolism • Gastrointestinal complaints (e.g., nausea, vomiting, diarrhea) • Weight loss, anorexia • Fatigue, lethargy, depression • Muscle aches • Weakness • Sugar cravings • Orthostatic hypotension Hypoandrogenism • Loss of libido • Loss of axillary and pubic hair Elevated ACTH • Hyperpigmentation of areas that are not normally exposed to sunlight (e.g., palmar creases, mucous membrane of the oral cavity) → pathognomonic This patient has buccal pigmentation which raises the possibility of adrenal insufficiency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Hypoglycaemia • Hyponatremia ↓ DHEA-S ↑ Melanocyte stimulating hormone (MSH)) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Investigations • Routine laboratory studies  AGB → Normal anion gap metabolic acidosis due to ↓ bicarbonate  CBC → normocytic normochromic anaemia, eosinophilia, lymphocytosis  Electrolytes → Na ↓, K ↑, Ca ↑  Blood glucose → Hypoglycemia • Endocrine studies: Use stepwise endocrine testing  Morning cortisol level: initial test  the diagnosis can be ruled out by a basal serum cortisol value in the upper end of the reference range or higher  cortisol ˃ 500 nmol/l makes Addison's very unlikely  < 100 nmol/l strongly suggest hypocortisolism.  100-500 nmol/l should prompt ACTH stimulation test to be performed  Random cortisol levels are of limited value, as cortisol secretion varies diurnally and with physiological stress.  Cortisol levels are influenced by cortisol-binding globulin (CBG) and albumin levels.  Morning ACTH level: obtain if morning cortisol is low  Primary adrenal insufficiency: elevated ACTH levels > 100 pg/mL  Secondary/tertiary adrenal insufficiency: ACTH levels low to normal  ACTH secretion is subject to diurnal variation, which is why a morning sample is desirable.  Exogenous glucocorticoids (via any route) can suppress ACTH secretion through negative feedback.  Standard-dose ACTH stimulation test (short Synacthen test, cosyntropin test): gold standard test to confirm the diagnosis of primary adrenal insufficiency  Method  Administration of 250 mcg exogenous ACTH to stimulate cortisol secretion  Measurement of cortisol levels before and 30 and 60 minutes after injection  Physiological response: exogenous ACTH → ↑ cortisol  If a patient is on prednisone, prednisolone, or dexamethasone, temporarily switch them to hydrocortisone and hold hydrocortisone 24 hours prior to testing.  Interpretation  In primary adrenal insufficiency: peak cortisol level < 18–20 μg/dL (< 500–550 nmol/L): no rise in cortisol level  In secondary/tertiary adrenal insufficiency: usually a rise in cortisol > 18–20 μg/dL (> 500–550 nmol/L)  Variant: low-dose (1 mcg) ACTH stimulation test  Uses a smaller dose of exogenous ACTH and is thought to better mimic physiological conditions  Studies show mixed results regarding its superiority to the standarddose test. short Synacthen test is definitive diagnostic test Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Adrenal autoantibodies: anti-21-hydroxylase: present in approximately 80% of cases. • Imaging  CXR: Screen for tuberculosis if an infective cause is suspected.  CT or MRI adrenal glands: Screen for adrenal hemorrhage and malignant or infiltrative disease. Primary hypoadrenalism • hyperprolactinaemia is reported and is glucocorticoid-responsive. • High plasma renin and angiotensin II. • High ACTH • High lipotropin • High plasma vasopressin Management • Replacement therapy:  Glucocorticoid → oral hydrocortisone.  Usually given in 2 or 3 divided doses. Patients typically require 20-30 mg per day, with the majority given in the morning dose  Medications and food interacting with hydrocortisone and cortisone acetate:  Drugs that affect hydrocortisone metabolism: need to increase the dose:  Anti‐epilepsy/barbiturates, Antituberculosis  Drugs that affect hydrocortisone metabolism: need to decrease the dose:  Grapefruit juice, Liquorice  Mineralocorticoid → fludrocortisone  Drugs that affect fludrocortisone (need to be avoided): Diuretics, Acetozolamide, Carbenoxolone, liquorice, NSAIDS  Drugs that affect fludrocortisone (need to increase the dose): Drospirenone‐ containing contraceptive  Essential hypertension in a patient with PAI should be treated by adding a vasodilator, not by stopping the mineralocorticoid replacement, although a dose reduction should be considered. • Patient education  During travelling  Patient’s with Addison's should be given a hydrocortisone injection kit when travelling to use it if unable to take oral hydrocortisone or vomiting. This can prevent Addisonian crisis  During an intercurrent illness  the glucocorticoid dose should be doubled  If unable to take the normal oral hydrocortisone then the patient should be advised to take IM hydrocortisone to avoid adrenal crisis . This is why all patients with Addison's disease should have IM hydrocortisone for these situations.  During shift work  Patients who work night‐time shifts will need to adjust their dose schedule according to the work pattern (e.g. 10 mg upon awakening before going to work, instead of taking the first dose at 07:00 h).doses should be taken from when waking  Glucocorticoid therapy should ideally mimic endogenous cortisol rhythm with the lowest level at time of falling asleep and highest at waking. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  When a patient shifts their daytime routine, such as working on night shifts or travelling, the patient should be advised to take their morning dose on waking and maintain the timing from there.  During an event of increased activity:  If significantly strenuous activity (e.g. marathon)  double the dose of glucocorticoid and mineralocorticoids  Mineralocorticoid therapy will be eventually required in adrenal insufficiency to counter intravascular volume depletion. It is important in the presence of increased fluid loss that the mineralocorticoid dose is adjusted. This is why doubling of the dose is advised.  If the patient was just on hydrocortisone then no additional fludrocortisone would be needed.  If less strenuous activity (such as a long hike, was planned)  increasing the dose of hydrocortisone by 5-10mg would be reasonable, without any change in fludrocortisone. This change would also apply for any day that increased activity is planned for.  During pregnancy  The doses of neither of the medications (hydrocortisone and fludrocortisone) should be preemptively increased in the first trimester. • A trial of dehydroepiandrosterone (DHEA) is recommended in women with primary adrenal insufficiency who have low libido, low energy levels, or depressive symptoms despite glucocorticoid and mineralocorticoid replacement. Waterhouse-Frederickson syndrome • adrenal failure due to bleeding into the adrenal glands (otherwise referred to as haemorrhagic adrenalitis) and is most commonly caused by meningococcal septicaemia. May 2008 exam: Addison's disease C/O a decrease in her libido. On examination there is a slight loss of pubic hair. What is the most likely cause? Dehydroepiandrosterone (DHEA) deficiency Wolman’s syndrome is characterised by: primary adrenal failure, hepatosplenomegaly, and steatorrhoea. Addisonian crisis Signs/symptoms of Addisonian crisis Neurological Haemodynamic Biochemical • syncope • confusion • lethargy • convulsions • hypotension • hypothermia • hyponatraemia • hyperkalaemia • hypoglycaemia A person with Addisons’ who vomits should take IM hydrocortisone until Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management of Addisonian crisis (medical emergency) • Intravenous fluids  1 litre normal saline infused over 30-60 mins or with dextrose if hypoglycaemic • I.V Corticosteroids  In a patient without a previous diagnosis of adrenal insufficiency → IV dexamethasone, as this will not interfere with cortisol assays needed for a short synacthen test, unlike hydrocortisone.  For patients with a previously known diagnosis of adrenal insufficiency → 100 mg IV hydrocortisone because diagnostic testing is not necessary. continue hydrocortisone 6 hourly until the patient is stable.  Mineralocorticoid (fludrocortisone) administration is not necessary in the acute setting because high cortisol exerts weak mineralocorticoid action. Secondary hypoadrenalism Definition • Adrenal hypofunction due to a lack of adrenocorticotropic hormone (ACTH) Pathophysiology • ↓ ACTH → hypoandrogenism and hypocortisolism • Aldosterone synthesis is not affected (mineralocorticoid production is controlled by RAAS and angiotensin II, not by ACTH). • If ↓ ACTH induced by ↓ CRH, then it is called tertiary adrenal insufficiency (↓ CRH → ↓ ACTH). Causes • Hypopituitarism: ↓ ACTH → ↓ endogenous cortisol  Pituitary tumors  Craniopharyngioma (in youngers)  Irradiation • Conditions that decrease CRH production (tertiary adrenal insufficiency): ↓ CRH → ↓ ACTH → ↓ cortisol release  The most common cause is sudden discontinuation of chronic glucocorticoid therapy (e.g., infection, trauma, surgery) during prolonged glucocorticoid therapy  Rarer causes include hypothalamic dysfunction (e.g., due to trauma, mass, haemorrhage, or anorexia). Secondary and tertiary adrenal insufficiency are far more common than primary adrenal insufficiency Feature • Symptoms and signs are similar to those of Addison disease • Differentiating features include:  Absence of hyperpigmentation because ACTH secretion is not increased.  Absence of mineralocorticoid deficiency (Aldosterone synthesis is not affected)  No dehydration or hypotension long Synacthen test can be used to distinguish primary adrenal failure from secondary adrenal failure Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Relatively normal electrolyte. Hyponatremia if it occurs, is due to increased vasopressin secretion → volume expansion → dilutional hyponatremia. Hyperkalemia is not present  Associated features of underlying cause, e.g. visual field defects if pituitary tumour.  Other endocrine deficiencies may manifest due to panhypopituitarism (↓thyroid and gonadal function and hypoglycemia). Adrenal crisis is likely if a patient is treated with thyroxine, without hydrocortisone replacement.  Hypoglycemia is more common in secondary adrenal insufficiency. Primary adrenal insufficiency → Pigments the skin. Secondary adrenal insufficiency → Spares the skin. Tertiary adrenal insufficiency is due to → Treatment (cortisol). Diagnosis Confirmatory Serum Testing for Secondary Adrenal Insufficiency Test Result ACTH Low (< 5 pg/mL) Cortisol Low (< 5 μg/dL [138 nmol/L]) ACTH stimulation test (short Synacthen test) Normal or subnormal Prolonged (24-h) ACTH stimulation test (Long Synacthen test) Cortisol should continue to rise for 24 h • Long Synacthen test (prolonged ACTH stimulation test for 24 h)  Aim:  To diagnose secondary (or tertiary, ie, hypothalamic) adrenal insufficiency.  Before the test:  The simple short test is usually done initially, because a normal response obviates the need for further investigation.  If short Synacthen test is subnormal (failure to respond to ACTH →↓ cortisol) and secondary adrenal insufficiency is suspected → do long Synacthen test  Because pituitary failure may cause adrenal atrophy and hence failure to respond to ACTH, the patient may need to be primed with long-acting ACTH 1 mg IM once/day for 3 days before the ACTH stimulation test if pituitary disease is suspected.  Method:  Cosyntropin 1 mg IM is given, and cortisol is measured at intervals for 24 h, typically at 1, 6, 12, and 24 h.  Interpretation:  In primary adrenal failure: No significant cortisol rise.  In secondary adrenal failure: gradually rises cortisol to a peak at 24 hours  Prolonged stimulation of the adrenal glands by ACTH in the long Synacthen test → gradually rises cortisol to a peak at 24 hours → confirm the diagnosis of secondary adrenal failure.  in some cases of long-standing adrenal atrophy due to secondary adrenal insufficiency, the adrenal glands will not respond even after 24 hours and will require several daily doses of depot Synacthen before an adrenal response is seen. • CT or MRI of the brain to rule out a pituitary tumor or pituitary atrophy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Corticosteroids Mechanism of action • Corticosteroids are hydrophobic small molecules and thus freely pass through cell membranes. They bind to inactive cytosolic glucocorticoid receptors, which then translocate to the nucleus to act as nuclear transcription regulators. Summary of effects of systemic corticosteroids • The relative glucocorticoid and mineralocorticoid activity of commonly used steroids is shown below: Minimal glucocorticoid activity, very high mineralocorticoid activity Glucocorticoid activity, high mineralocorticoid activity Predominant glucocorticoid activity, low mineralocorticoid activity Very high glucocorticoid activity, minimal mineralocorticoid activity Fludrocortisone Hydrocortisone Prednisolone Dexamethasone Betmethasone Side-effects • Glucocorticoid side-effects  endocrine:  impaired glucose regulation,  increased appetite/weight gain,  hirsutism,  hyperlipidaemia  Cushing's syndrome: moon face, buffalo hump, striae  musculoskeletal:  osteoporosis,  proximal myopathy,  avascular necrosis of the femoral head  immunosuppression:  increased susceptibility to severe infection,  reactivation of tuberculosis  psychiatric: insomnia, mania, depression, psychosis  gastrointestinal: peptic ulceration, acute pancreatitis  ophthalmic: glaucoma, cataracts  suppression of growth in children  intracranial hypertension • Mineralocorticoid side-effects  fluid retention  hypertension The pathogenesis of corticosteroid induced osteoporosis is multifactorial: Corticosteroids reduce osteoblastic activity, and the resulting osteoblast/osteoclast imbalance causes loss of bone. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Corticosteroids reduce intestinal calcium absorption and lower circulating sex steroid levels. Selected points on the use of corticosteroids: • patients on long-term steroids should have their doses doubled during intercurrent illness  For milder concurrent illnesses oral prednisolone is usually doubled for a few days.  For sever illness convert prednisolone temporarily to IV glucocorticoids, conventionally 50-100 mg of hydrocortisone six hourly.  Mineralocorticoid dose is always left unchanged. • the BNF suggests gradual withdrawal of systemic corticosteroids if patients have: received more than 40mg prednisolone daily for more than one week, received more than 3 weeks treatment or recently received repeated courses • Low dose i.v hydrocortisone  improve outcome in sepsis  More recent randomised controlled trials have suggested that there is a benefit in sepsis when lower physiological doses of steroids are given. • Lactose-containing methylprednisolone preparations should not be used in patients with cows' milk allergy • Corticosteroids are recognised to inhibit osteoblast activity and increase osteoblast apoptosis. This is thought to be a more important component in bone loss with respect to steroid induced osteoporosis versus any effect on osteoclasts. • Whilst corticosteroids do increase osteoclast activity, it is thought to be their effect on osteoblast activity which has a greater impact on bone mineral density. Steroid induced hypogonadism • Body builders may be involved in the illicit use of anabolic and androgenic steroids. These results are consistent with ongoing use of androgens. • The hypogonadism, if persistent, may be treated with human chorionic gonadotropin. Relative potencies of the glucocorticoids • It is important to know the relative potencies of the glucocorticoids. • 1 mg prednisolone is equivalent to 4 mg of hydrocortisone • Dexamethasone for instance is roughly 30 times more potent than hydrocortisone. Steroid doses equivalence • 1mg prednisolone = 4mg hydrocortisone • 1mg dexamethasone = 7mg prednisolone • Dexamethasone is roughly 30 times more potent than hydrocortisone. Anabolic steroids • Anabolic steroids can be taken orally (eg stanozolol) or may have to be injected because of their high first-pass metabolism (eg testosterone enantate) • Among their many unwanted effects, they increase the risk of cardiovascular disease:  blood pressure is elevated  blood lipid profiles change, with increased LDL-cholesterol and decreased HDLcholesterol  haematocrit is increased, leading to a prothrombotic tendency, although there is a protective decrease in plasma fibrinogen concentrations with prolonged use Abuse of androgenic steroids • The abuse of androgenic steroids amongst people who practise certain sports is quite common. • side effects  Paranoid delusions  aggressive behaviour.  Other side effects of these illicit drugs include: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acne Gynaecomastia (also increase in breast cancer risk) Hypertension Hypercholesterolaemia, and Hepatic tumours. Cushing's syndrome (Hypercortisolism) Pathological definition • Cushing's syndrome →hypercortisolism from any cause. • Cushing's disease → hypercortisolism caused by ACTH-secreting pituitary adenoma → the most common cause of Cushing's syndrome (75% of cases). Epidemiology • Commoner in ♀ (♀:♂, 3–15:1). • Age: most commonly, 20–40 years Causes • Exogenous (iatrogenic) Cushing syndrome Prolonged glucocorticoid therapy → hypercortisolism → decreased ACTH → bilateral adrenal atrophy Most common cause of hypercortisolism Dexamethasone poses a higher risk for development of iatrogenic Cushing disease. Shorter-acting agents, such as prednisone or hydrocortisone, are recommended alternatives. • Endogenous Cushing syndrome Primary hypercortisolism (ACTH-independent Cushing syndrome) (5–10%)  Autonomous overproduction of cortisol by the adrenal gland → ACTH suppression → atrophy of the contralateral adrenal gland  Adrenal adenomas  Adrenal carcinoma: abnormal liver function tests (LFTs) suggest metastases.  Adrenal hyperplasia Secondary hypercortisolism (ACTH-dependent Cushing syndrome)  Pituitary ACTH production (Cushing disease) (∼ 75%): Pituitary adenomas →ACTH secretion → bilateral adrenal gland hyperplasia  Ectopic ACTH production (∼ 15%) : Paraneoplastic syndrome (e.g. small cell lung cancer) → ↑ ACTH secretion → bilateral adrenal gland hyperplasia Small cell lung cancer accounts 50-75% of cases of ectopic ACTH Cushing's syndrome - hypokalaemic metabolic alkalosis The overnight dexamethasone suppression test is the best test to diagnosis Cushing's syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism characteristically associated with very low potassium levels. weight loss suggests there is an underlying malignancy → ectopic ACTH Pseudo-Cushing's (Alcohol-induced Cushing's syndrome) • Obese alcoholic consumer → ↑CRH secretion or impaired hepatic metabolism of cortisol→ cushingoid appearance → Induce false positive dexamethasone suppression test or 24 hr urinary free cortisol • Investigations Midnight serum cortisol: The most appropriate next step in the investigation of alcoholic patient after confirming hypercortisolism  The hallmark of true Cushing's syndrome is lack of diurnal variation in serum cortisol. However, in pseudo-Cushing's diurnal variation is normally maintained. Insulin stress test (insulin tolerance test)  used to differentiate between true Cushing's and pseudo-Cushing's  in pseudo-Cushing's the insulin tolerance test will demonstrate hypoglycaemia with a rise in ACTH and cortisol.  In Cushing's syndrome, this hypoglycaemia induced response is lost.  contraindicated in epilepsy, ischaemic heart disease, or hypoadrenalism. Raised MCV may point to alcoholism • Management: promote weight loss, and strict control of alcohol intake. Usually mild and disappears rapidly during abstinence from alcohol. Features • Skin Thin, easily bruising with ecchymoses  Cortisol breaks down proteins in bone and skin , so the free amino acids can be used to make sugar. This leads to bruising, striae, muscle wasting, and osteoporosis. Stretch marks (classically purple abdominal striae) Hirsutism, Acne: due to increased adrenal androgen levels Delayed wound healing Flushing of the face If secondary hypercortisolism: often hyperpigmentation (darkening of the skin due to an overproduction of melanin), especially in areas that are not normally exposed to the sun (e.g., palm creases, oral cavity)  Caused by excessive ACTH production because melanocyte-stimulating hormone (MSH) is cleaved from the same precursor as ACTH called proopiomelanocortin (POMC)  Not a feature of primary hypercortisolism • Neuropsychological: lethargy, depression, sleep disturbance, psychosis • Musculoskeletal Osteopenia, osteoporosis → pathological fractures, avascular necrosis of the femoral head , vertebral collapse Muscle atrophy/weakness (proximal myopathy) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Endocrine and metabolic Insulin resistance → hyperglycemia (see “Diabetes mellitus”) → mild polyuria in the case of severe hyperglycemia Dyslipidemia Fat redistribution: “moon face,” buffalo hump, truncal obesity, thin arms and legs ♂: Decreased libido ♀: Decreased libido, virilization, and/or irregular menstrual cycles (e.g., amenorrhea) • Other features Secondary hypertension (∼ 90% of cases): due to fluid and sodium retention Increased susceptibility to infections (due to immunosuppression) Peptic ulcer disease Cataracts  Most commonly → Posterior subcapsular cataract  The predominant feature of a posterior subcapsular cataract is glare when looking into bright lights, either from the sun or car headlights. Menstrual irregularity is found in 84% of female patients with Cushing syndrome • General laboratory findings Hyperglycemia (Diabetes mellitus may occur in 30%): Cortisol → ↑gluconeogenesis (from protein break down → free amino acids ) →↑glucose levels Hyperlipidemia Hypokalaemic Metabolic alkalosis: caused by increased urinary loss of H+ (acid) Leukocytosis Low oestradiol Diagnosis: confirm Cushing's syndrome (hypercortisolism) and then localise the lesion. • Tests to confirm Cushing's syndrome (hypercortisolism) : the two commonly used are: Overnight low dose (1 mg) dexamethasone suppression test (ODST)  Sensitivity and specificity are 98% (most sensitive)  Low sensitivity and specificity in obese subjects (75-80%) therefor (UFC) will be best than (ODST) in obese  If cortisol is suppressed → Cushing's disease is the likely cause.  If cortisol is not suppressed → either primary adrenal Cushing's syndrome (low/undetectable ACTH) or ectopic ACTH is the cause (high ACTH).  Causes of false-positive ODST (meaning that a diagnosis of Cushing is suggested incorrectly) cytochrome p450 inducers (Dexamethasone is metabolised by the cytochrome p450 system, specifically by the CYP3A4 isoenzyme). ↑oestrogen exposure (eg, pregnancy, oral contraceptives) →↑corticosteroid-binding globulin (CBG): need 6 weeks washout before the test  If ODST is not offered in a question, then 24 hour urinary free cortisol is the next best answer 24 hr urinary free cortisol (UFC) Can be useful for outpatient screening Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Due to false –ve rate of 10% it should not be used alone. should be followed by an overnight dexamethasone suppression test. If both of these tests are normal, then Cushing syndrome could be ruled out.  Factors lead to false +ves: Fenofibrate, carbamazepine, and digoxin. • Tests to localise the lesion (source of the hypercortisolism): The first step is to measure ACTH level:  ACTH level low: This means the origin is in the adrenal gland → Scan the gland with a CT or MRI.  ACTH level high: This means the origin is either in the pituitary gland or from the ectopic production of ACTH. The next step is a high-dose (8 mg) dexamethasone suppression test (to differentiate between Cushing disease and ectopic ACTH production)  If high-dose dexamethasone suppresses the ACTH → adequate suppression of cortisol levels to less than 50% of baseline: the origin is the pituitary. Scan the pituitary.  If high-dose dexamethasone does not suppress the ACTH (No cortisol suppression): the origin is an ectopic production of ACTH or a cancer that is making ACTH. Scan the chest for lung cancer or carcinoid.  Serum cortisol levels would remain unchanged with both lowlevel and high-level dexamethasone testing due to the lack of glucocorticoid receptors to facilitate negative feedback on the ectopic cells producing the ACTH. Anterior pituitary corticotrophs do have these receptors and, therefore, will be suppressed by any dose of dexamethasone.  The use of high-dose dexamethasone suppression testing is an area of debate, owing to its variable sensitivity and specificity. CRH stimulation test  ACTH and cortisol levels increase further: Cushing disease  No increase in ACTH or cortisol levels: ectopic ACTH production Inferior Petrosal sinus sampling (IPSS)  IPSS is the only test with sufficient diagnostic accuracy to differentiate Cushing's disease from ectopic ACTH production (the test of choice)  Patient with high ACTH without definitive lesions on MRI should undergo IPSS: Up to 40% of patients with Cushing's disease will not have visible lesions on pituitary/sellar MRI. (The overall sensitivity of MRI to diagnose Cushing disease is only 60% to 70%.)  It samples venous blood draining from the pituitary gland, using a femoral approach. A raised ACTH from here compared to the periphery suggests a pituitary cause.  Patients with an IPSS central/peripheral gradient of ACTH ˃2:1 or 3:1 after corticotrophin-releasing hormone (CRH) stimulation → Cushing's disease  Patients without high central/peripheral gradient of ACTH → ectopic ACTH → do CT of the chest, abdomen, and pelvis to look for a tumour secreting ACTH.  The most common tumours that secrete ACTH are bronchial or thymic carcinoids. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Dexamethasone suppression tests • The low-dose (1 mg) dexamethasone suppression test: used to confirm Cushing's syndrome (hypercortisolism) • The high-dose (8 mg) dexamethasone suppression test: used to differentiate between Cushing disease and ectopic ACTH production. If a 24-hour urine free cortisol is elevated (one evidence of hypercortisolism), and there is an inadequate suppression on 1 mg overnight dexamethasone test (confirmatory test for hypercortisolism) in a patient suspected of Cushing syndrome, the next step would be to measure ACTH (to localise the lesion) The following table summarizes the characteristics of the 3 sources of Cushing disease. Pituitary Tumor Ectopic ACTH Production Adrenal Adenoma ACTH High High Low High-dose dexamethasone Suppression No suppression No suppression Specific test MRI, Petrosal vein sampling Scan chest and abdomen Scan adrenals Treatment Removal Which techniques is the best in differentiating between ectopic Cushing's syndrome and pituitary dependent Cushing's disease?  Inferior petrosal sinus sampling  The high-dose dexamethasone suppression test can differentiate between the two forms of Cushing's syndrome, but is not as accurate as inferior petrosal sinus sampling. Which feature would favour benign adrenal adenoma as the cause of Cushing's syndrome over the other causes?  Absence of hirsutism and virilisation (adrenal adenoma produces cortisol but not the androgens) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Diagnostic steps in suspected Cushing's syndrome • Step 1 : Exclude exogenous corticosteroid use • Step 2 : Screen for hypercortisolism with 1 of the 4 high-sensitivity tests late-night salivary cortisol; 1 mg overnight low-dose dexamethasone suppression testing, 24-hour urinary free cortisol; or 48-hour 2 mg dexamethasone suppression testing. • Step 3: Exclude physiological causes of hypercortisolism (from history)  physical stress, malnutrition, alcoholism, depression, pregnancy, class III obesity (BMI 40 or above) or metabolic syndrome. • Step 4: If an initial screening test is positive , and physiological causes of hypercortisolism have been excluded: confirm hypercortisolism with at least 1 additional test of the 4 highsensitivity tests. • Step 5: Once endogenous hypercortisolism is confirmed, plasma ACTH should be measured.  If ACTH is suppressed, diagnostic testing should focus on the adrenal glands. → adrenal CT → adenoma.  If ACTH is not suppressed, pituitary or ectopic disease should be sought. Algorithm for the diagnosis of Cushing syndrome In the diagnosis of hypercortisolism, hormone analysis always precedes imaging because microadenomas of the pituitary do not always appear upon imaging. Furthermore, imaging can reveal inactive adrenal tumors (incidentalomas) and pituitary tumors in many healthy individuals. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Fit for surgery  Pituitary adenoma →Trans-sphenoidal hypophysectomy/adenomectomy is the initial treatment of choice.  Adrenocortical tumor: laparoscopic or open adrenalectomy  Laparoscopic adrenalectomy would be advised where pituitary surgery has failed.  The recurrence rate for Cushing's disease after surgery is 20-30% and depends on the size of the tumour with macroadenomas having a higher rate of relapse.  ACTH-secreting ectopic tumor: resection of the ectopic foci (e.g., bronchial carcinoid) • Unfit for surgery  Ketoconazole may be an effective treatment for patients unfit for surgery  Mitotane is an adrenolytic drug licensed for symptomatic treatment of advanced or inoperable adrenocortical carcinoma → improve the prognosis Which drug is most appropriate to improve metabolic parameters prior to surgery in pituitary-dependent Cushing's?  Metyrapone → inhibits 11-beta hydroxylase → inhibits cortisol production. What is the optimum time for the administration of hydrocortisone to a patient undergoing bilateral adrenalectomy for Cushing's disease?  Immediately following the removal of both adrenal glands. Perioperative management of a cortisol producing adenoma includes: • Peri and postoperative hydrocortisone with further assessment of postoperative cortisol secretion 007 - Chapter 1 007 Chapter 1 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism May 2008 exam: A 62-year-old man is investigated for hypertension and proximal myopathy. On examination he is noted to have abdominal striae. Which one of the following is most associated with ectopic ACTH secretion?  Small cell lung cancer Disorder Investigation of choice Cushing Overnight Dexamethasone Test Cushing- vs. Pseudo-cushing Insulin Stress Test Addison Short Synacthen Test Pheochromocytoma 24H Urinary metanephrines Acromegaly Oral Glucose Tolerance Test Diabetology Pancreatic Hormones • Islet A cells produce glucagon • Islet beta cells produce: insulin C peptide pro-insulin amylin GABA • Islet D cells produce somatostatin • F cells produce pancreatic polypeptide Glucose transporters Glucose entrance to the cells • To intestinal epithelial cells and proximal renal tubular cells → via Sodium/Glucose cotransporter (SGLT) • To all other cells of the body → Glucose Transporters (GLUTs). Sodium/glucose cotransporter (SGLT) • Glucose uptake into the enterocyte from the lumen of the GI tract occurs primarily via the sodium-dependent SGLT-1 secondary active transport mechanism.  SGLT-1 is a transporter found predominantly in the gut, and is responsible for glucose absorption.  The Na+-glucose cotransporter also transports galactose. Thus, when the cotransporter is congenitally defective, the resulting glucose and galactose malabsorption causes severe diarrhea that can be fatal if glucose and galactose are not removed from the diet. • Function  transport glucose actively across lumen against concentration gradient  energy provided by transport of sodium down its concentration gradient Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • location  small intestine (SGLT1)  2:1 Na+:Glu  proximal tubule of nephron (SGLT2)  1:1 Na+:Glu • Glucose exit from the enterocyte into the extracellular fluid occurs by facilitated diffusion and is mediated by the membrane transporter, Glut-2. Glucose Transporters (GLUTs). GLUT-1 • function  basal glucose uptake (GLUT1 and GLUT3 continually transport glucose into cells at an essentially constant rate.)  high affinity  transporters saturated at normal blood glucose levels  ensures glucose entry to cells • location  wide distribution in tissues in the body (brain, erythrocytes, endothelial cells, cornea etc.)  especially expressed in cells with barrier functions, such as Blood- Brain barrier, blood-retinal barrier, blood placental barrier, blood testes barrier  most importantly it is expressed in erythrocytes. GLUT-2 • GLuT 2 is a glucose transporter expressed in pancreatic beta cells. • It is a fundamental part of the glucose sensing apparatus in the pancreatic beta cells and helps trigger insulin release in response to increasing glucose concentrations in the extracellular fluid. • GluT 2 is also expressed in hepatocytes and may act as a glucose sensor in the portal vein system. • It may have a role in regulating glucagon secretion and feeding behaviour. • function  low affinity glucose uptake ( high-capacity but a low affinity transporter)  in the fasting state glucose does not enter cells  mediates glucose surplus storage in liver when blood glucose levels rise  facilitates insulin release in β-cells • location  hepatocytes  pancreatic β-cells  kidney  small intestines In healthy individuals, which glucose transporter is required for triggering insulin secretion in response to elevated blood glucose concentration?  GluT 2 GLUT-3 • function  high affinity glucose uptake  glucose preferentially accessed by neurons in low-glucose states • location  brain  neurons Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism GLUT-4 • GLUT-4 is the only glucose transporter that is responsive to circulating insulin levels.  ↑plasma glucose concentration  ↑circulating insulin  ↑expression of GLUT-4  ↑glucose transport into the cell.  The other types of glucose receptors (GLUT-1,2,3,&5) are not responsive to circulating insulin levels  exogenous insulin in the treatment of diabetes mellitus results in increased glucose uptake via the GLUT-4 transporter.  This high-affinity glucose transporter plays a crucial role in avoiding postprandial hyperglycemia, since insulin secreted by the pancreatic beta cells promotes glucose uptake into myocytes. • function  insulin-controlled uptake of glucose  basal level of glucose intake without insulin  presence of insulin ↑ translocation of transporters to the cell membrane  ↑↑↑ glucose uptake  also stimulated by exercise • location  adipocytes  myocytes  cardiomyocytes Which glucose transporter is responsible for assisting glucose across the plasma membrane in myocytes?  GLUT 4 Glut-5 • located on the apical portion of the enterocyte • function: entry of fructose into the cell. • GLUT-1 = BBB (Blood- Brain barrier) • GLUT-3 = "Brain" Glycaemic index (GI) Definition • The glycaemic index (GI) describes the capacity of a food to raise blood glucose compared with glucose in normal glucose-tolerant individuals. Classification • Carbohydrates can be scored from 0 to 100 where glucose has a GI of 100. • High GI index foods have a value of 70 or above, medium 56-69 and low <55. • Apples, peaches oranges and even chocolate are considered low GI (less than 55). • through different preparation, the GI can alter – mashed potatoes (70) and baked potatoes (85) have a high GI (above 70) whilst boiled potatoes have a moderate GI of 58. • Foods only appear if they contain carbohydrate hence meats, eggs and fish do not appear in the GI index. • Generally, the lower the GI index the ‘better’ the carbohydrate. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Classification Examples High GI White rice (87), baked potato (85), white bread (70) Medium GI Couscous (65), boiled new potato (62), digestive biscuit (59), brown rice (58) Low GI Fruit and vegetables, peanuts The risk of foods with a high GI • may be associated with an increased risk of obesity • the post-prandial hyperglycaemia associated with such foods may also increase the risk of type 2 diabetes mellitus. Metabolic syndrome Features of the metabolic syndrome are: • Diabetes or pre-diabetes. • Hypertension • Central adiposity • High triglycerides or low HDL cholesterol Definition • the co-occurrence of metabolic risk factors for both type 2 diabetes and cardiovascular disease (CVD) (abdominal obesity, hyperglycemia, dyslipidemia, and hypertension). Pathophysiology • the key pathophysiological factor is insulin resistance. Diagnostic criteria • WHO criteria (1999): Presence of insulin resistance (type 2 diabetes mellitus , impaired glucose tolerance, or impaired fasting glucose), Plus two of the following: blood pressure: > 140/90 mmHg dyslipidaemia: triglycerides: > 1.695 mmol/L and/or high-density lipoprotein cholesterol (HDL-C) < 0.9 mmol/L (male), < 1.0 mmol/L (female) central obesity: waist: hip ratio > 0.90 (male), > 0.85 (female), and/or body mass index > 30 kg/m2 microalbuminuria: urinary albumin excretion ratio > 20 mg/min or albumin: creatinine ratio > 30 mg/g • International Diabetes Federation criteria (2005): presence of central obesity (defined as waist circumference > 94cm for Europid men and > 80cm for Europid women, but can be assumed if BMI >30 kg/m²) Plus two of the following: Triglycerides: > 1.7 mmol/L, or specific treatment for this lipid abnormality HDL cholesterol: < 1.03 mmol/L in males and < 1.29 mmol/L in females, or specific treatment for this lipid abnormality. BP: > 130/85 mm Hg, or active treatment of hypertension Fasting glucose > 5.6 mmol/L, or previously diagnosed type 2 DM. Management • Aggressive lifestyle modification focused on weight reduction and increased physical activity • Long-term exercise upregulates expression of GLUT4, which may reduce hyperglycemia in patients with type 2 DM or metabolic syndrome. • Orlistat (an inhibitor of gastrointestinal lipases) with diet, reduces the risk of diabetes in an obese patients by 38% more than diet alone. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Alström syndrome (AS) • rare autosomal recessive disease • caused by mutations in the ALMS1 gene. • characterized by multiorgan dysfunction. • Key features are: • childhood obesity, hyperinsulinemia, early-onset type 2 diabetes, and hypertriglyceridemia. Thus, AS shares several features with the common metabolic syndrome, namely obesity, • blindness due to congenital retinal dystrophy, • sensorineural hearing loss. • dilated cardiomyopathy in over 60% of cases, • developmental delays in 50 % of cases. Pre-diabetes or impaired glucose regulation (IGR) Definition: • impaired glucose levels which are above the normal range but not high enough for a diagnosis of diabetes mellitus. Includes impaired fasting glucose (IFG) and impaired glucose tolerance (IGT). • Diabetes UK currently recommend using the term prediabetes when talking to patients and impaired glucose regulation (IGR) when talking to other healthcare professionals Incidence • Diabetes UK estimate that around 1 in 7 adults in the UK have prediabetes. Impaired fasting glucose (IFG) • Definition → fasting glucose greater than or equal to 6.1 but less than 7.0 mmol/l  Mechanism  due to hepatic insulin resistance  people with IFG should then be offered an oral glucose tolerance test (OGTT) to rule out a diagnosis of diabetes. Impaired glucose tolerance (IGT) • Definition  fasting plasma glucose less than 7.0 mmol/l and OGTT 2-hour value greater than or equal to 7.8 mmol/l but less than 11.1 mmol/l • Mechanism  due to muscle insulin resistance • Patients with IGT are more likely to develop T2DM and cardiovascular disease than patients with IFG Identification of patients with prediabetes: Who should be assessed for the risk of type 2 diabetes? • all adults aged 40 and over, • people of South Asian and Chinese descent aged 25-39, • adults with conditions that increase the risk of type 2 diabetes:  cardiovascular disease, stroke, hypertension,  obesity,  polycystic ovary syndrome,  history of gestational diabetes  mental health problems. Diagnosis normal Prediabetes Diabetes mellitus Fasting glucose ≤ 6 mmol/l ≥ 6.1 – 6.9 mmol/l impaired fasting glucose (IFG) 2h glucose during an OGTT < 7.8 mmol/l 7.8 -n 11 mmol/l Impaired glucose tolerance (IGT) HA1c < 42 mmol/mol < 6% 42 – 47 mmol/mol (6.0 – 6.4%) Complication • progression to type 2 diabetes mellitus (T2DM) • The risk of developing type 2 diabetes in patient with (IGT) → 60% over 6 years • ↑ risk of macrovascular disease (e.g. coronary artery disease). No risk of microvascular complications of diabetes such as retinopathy and nephropathy. Management The best way to reduce the incidence of type 2 diabetes in individuals with IGT is → Intensive lifestyle change • Lifestyle modification: weight loss, increased exercise, change in diet  intensive diet and lifestyle change (that results in loss of approximately 5% of initial body weight) can reduce progression from impaired fasting glucose (or impaired glucose tolerance) to frank type 2 diabetes by approximately 50%. • NICE recommend metformin for adults at high risk 'whose blood glucose measure (fasting plasma glucose or HbA1c) shows they are still progressing towards type 2 diabetes, despite their participation in an intensive lifestyle-change programme' Which drug classes is most well known as a cause of impaired glucose tolerance?  Atypical antipsychotics Both typical antipsychotics and antihypertensives (thiazides and beta blockers), have been shown in meta-analyses to be associated with impaired glucose tolerance and increased risk of type 2 diabetes. The risk is relatively larger for risperidone than thiazides & β.blocker MRCPUK- part- 1-September 2009 exam: The fasting glucose of asymptomatic patient comes back as 6.5 mmol/l. The test is repeated and reported as 6.7 mmol/l. How should these results be interpreted? Impaired fasting glycaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ≥ 7 mmol/l ≥ 11.1 mmol/l ≥ 6.5% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Diabetes mellitus: Type 1 overview Definition • Type 1 diabetes mellitus is a metabolic disorder characterised by hyperglycaemia due to absolute insulin deficiency. Epidemiology • 5% to 10% of all patients with diabetes. • more common in Europeans and less common in Asians. Pathophysiology • Genetic susceptibility and environmental triggers (often associated with previous viral infection) → autoimmune response (CD4 +T-cell mediated) with production of autoantibodies, e.g., anti-glutamic acid decarboxylase antibody (anti-GAD), anti-islet cell cytoplasmic antibody (anti-ICA) → progressive destruction of β cells in the pancreatic islets → absolute insulin deficiency → decreased glucose uptake in the tissues. • Type 1 diabetes becomes clinically evident upon destruction of approximately 70-80 % of beta cell mass. Risk factors • Genetic risks  HLA association (HLA DR4 > HLA DR3)  The familial risk of Type 1 diabetes:  Only 10% of patients have a positive family history  If both parents have type 1 DM → ≈ 40% (in offspring)  If the father has type 1 DM → 3–6%  If the mother has type 1 DM → 2-3%  If one identical twin has type 1 DM, the risk in the unaffected twin → 3050%.  If a sibling (brother or sister) has type 1 diabetes → 5–6% • Viral infections  Only congenital rubella infection has been definitively linked to an increased risk for type 1 diabetes.  Studies attempting to link other viruses to type 1 diabetes, including enterovirus and rotavirus, have had mixed results.  Enteroviruses may play a role in both protection from and susceptibility to type 1 diabetes. • Presence of autoantibodies → 50% risk of DM over five years. • Loss of first phase insulin response (postprandial insulin secretion in response to a meal, begins within 2 minutes of nutrient ingestion and continues for 10 to 15 minutes) → indicator of significant impending beta cell destruction → 100% risk of DM over two years. • Association with other autoimmune conditions  Hashimoto thyroiditis  Type A gastritis  Celiac disease  Primary adrenal insufficiency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Age of onset below 50 years • Diabetic ketoacidosis (DKA) is the first manifestation in one-third of cases • BMI below 25 kg/m2 • Rapid weight loss (the cardinal feature of absolute insulin deficiency.) • Classic symptoms of hyperglycemia (Polyuria, Polydipsia, Polyphagia) • Increased susceptibility to infections Weight loss is an indicator of type 1DM even if the patient is obese → insulin is the best treatment (SCE. Questions sample. Mrcpuk.org ) Diagnosis of DM: any one of the following • Fasting plasma glucose ≥126 mg/dL (7 mmol/L) on at least two occasions • Symptoms of hyperglycemia and a plasma glucose ≥200 mg/dL (11.1 mmol/L) • Plasma glucose ≥200 mg/dL (11.1 mmol/L) measured two hours after a standard glucose load in an oral glucose tolerance test • Glycated hemoglobin (A1C) ≥6.5%. Investigations for type 1 • C-peptide  ↓ C-peptide levels indicate an absolute insulin deficiency → type 1 diabetes  ↑ C-peptide levels may indicate insulin resistance and hyperinsulinemia → type 2diabetes • Antibodies detected in patients who later go on to develop type 1 DM:  Glutamic Acid Decarboxylase (GAD) antibody  found in 70-90% of type1 diabetics.  10 fold increases the risk of developing IDDM.  10% of adults who have been classified as having type 2 diabetes may have (ICA) or (GAD) antibodies, indicating autoimmune destruction of beta cells.  Islet Cell Antibodies (ICA): found in up to 60 - 80% of patients with type 1 diabetes Complications • Microvascular complications include retinopathy, nephropathy, and neuropathy. • Macrovascular complications include cerebrovascular, coronary artery, and peripheral vascular disease. Which feature is most closely associated with the imminent development of type 1 diabetes? → Loss of first phase insulin response Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Diabetes mellitus: management of type 1 Diet • Do not advise adults with type 1 diabetes to follow a low glycaemic index diet for blood glucose control. Insulin • Insulin injection regimen: offer multiple daily injection basal–bolus insulin regimens, rather than twice-daily mixed insulin regimens, as the insulin injection regimen of choice. • For basal insulin:  twice-daily insulin detemir is the regime of choice. Once-daily insulin glargine is an alternative.  once-daily ultra-long-acting insulin such as degludec, if there is a concern about nocturnal hypoglycaemia or for people who need help from a carer. • For mealtime insulin: offer rapid-acting insulin analogues injected before meals, rather than rapid-acting soluble human or animal insulins. • Insulin dose: normal insulin requirements are around 0.5–0.6 units/kg/day, split equally between background (basal) and mealtime (bolus) requirements • Insulin dose adjustments  During periods of illness: the TREND UK guidance advises that:  If blood glucose is less than 13 mmol/L and no ketones are present then insulin should be taken as normal.  If blood glucose is more than 13 mmol/L and ketones are present then insulin adjustment is needed. add 10% of the daily insulin dose as rapid acting insulin every four hours, and then four hourly glucose and ketone monitoring to guide ongoing dosage/management.  After alcohol or exercise → reduce evening basal insulin by 25–50%. Metformin • NICE recommend considering adding metformin if the BMI ≥ 25 kg/m² Referral indication for islet or pancreas transplantation • type 1 diabetes with recurrent severe hypoglycaemia that has not responded to other treatments • type 1 diabetes with suboptimal diabetes control who have had a renal transplant and are currently on immunosuppressive therapy. Monitoring • Frequency of self-monitoring of blood glucose  recommend testing at least 4 times a day, including before each meal and before bed.  more frequent monitoring is recommended if frequency of hypoglycaemic episodes increases; during periods of illness; before, during and after sport; when planning pregnancy, during pregnancy and while breastfeeding.  during periods of illness, blood glucose and ketones should be checked at least every 4 hours. In newly diagnosed adults with type 1 diabetes, the first-line insulin regime should be a basal–bolus using twice-daily insulin detemir. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Targets Test Targets HbA1c ≤ 48 mmol/mol (6.5%) fasting plasma glucose 5–7 mmol/litre on waking 4–7 mmol/litre before meals Post-prandial 5–9 mmol/litre (< 10) during surgery or acute illness 5–8 mmol/litre blood pressure 135/85 mmHg Impaired fasting glucose and impaired glucose tolerance • Impaired fasting glucose (IFG) is defined as fasting glucose ≥ 6.1 but < 7.0 mmol/l • Impaired glucose tolerance (IGT) is defined as fasting glucose < 7.0 mmol/l and OGTT 2-hour ≥ 7.8 mmol/l but < 11.1 mmol/l Diabetes mellitus: Type 2 overview Definition • Type 2 diabetes mellitus is a progressive disorder defined by deficits in insulin secretion and increased insulin resistance Epidemiology • greater incidence among those of black and South Asian origin. • Most are over 40yrs, but teenagers are now getting type 2 DM Genetics • Polygenic • No HLA associations. • Strong familial predisposition. Familial risks for developing diabetes  Concordance between identical twins is higher in type 2 diabetes mellitus than type 1  if one identical twin has type 2 diabetes, the risk in the unaffected twin → 60 – 100 %.  The incident diabetes risk in siblings and offspring of patients with type 2 diabetes is approximately 10%.  Pathophysiology • Peripheral insulin resistance  Obesity→ ↓Adiponectin (secreted by adipocytes and involved in lipid catabolism) → insulin resistance (inversely correlated with the risk for diabetes).  Central obesity → ↑free fatty acids → impaired insulin-dependent glucose uptake into hepatocytes, myocytes, and adipocytes  ↑Plasminogen activator inhibitor 1 (↑in obesity & ↓ in weight loss → insulin resistance → type 2 diabetes mellitus. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Beta cell dysfunction: accumulation of pro-amylin (islet amyloid polypeptide) in the pancreas → decreased endogenous insulin production  Amyloid deposition → ↓islet cell number and function.  The presence of amyloid polypeptide on pancreatic histology is highly suggestive of type 2 DM.  Beta cell function is reduced by up to 70% at the point of type 2 diabetes diagnosis.  The earliest manifestation of beta cell dysfunction occurs in the form of reduced and delayed postprandial early phase insulin secretion. • Alpha cell dysfunction →↑ plasma glucagon • Secondary diabetes (e.g. Haemochromatosis) Risk factors • Age, ethnicity and positive family history • Conditions associated with insulin resistance: e.g., severe obesity, dyslipidemia • Polycystic ovary syndrome • Physical inactivity • Hypertension • History of gestational diabetes Features • The majority of patients are asymptomatic. • Elderly patients may present in a hyperosmolar hyperglycemic state. • Symptoms of hyperglycemia (Polyuria, Polydipsia Polyphagia) • Prone to recurrent infections  DM → Impaired neutrophil chemotaxis and phagocytosis →immunosuppression → recurrent infections • 30% of patients presenting with acute coronary syndrome will have undiagnosed type 2 DM • Increased concentrations of C peptide are a marker of increased colorectal cancer risk Diagnosis: WHO criteria • Fasting plasma glucose ≥7.0 mmol/L (≥126 mg/dL), or • Plasma glucose ≥11.1 mmol/L (≥200 mg/dL) 2 hours after 75 g oral glucose, or • Glycosylated haemoglobin (HbA1c) ≥48 mmol/mol (≥6.5%), or • In a symptomatic patient, random plasma glucose of ≥11.1 mmol/L (≥200 mg/dL). • Repeat confirmatory test is required in asymptomatic patients. Beta cell mass • Compared with subjects with normoglycaemia,  beta cell mass is reduced by 50% in subjects with Impaired Fasting Glucose,  by 70% in subjects with Type 2 diabetes, and  over 90% in subjects with type 1 diabetes. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diabetes UK suggests :'People with IFG should then be offered an oral glucose tolerance test to rule out a diagnosis of diabetes. A result below 11.1 mmol/l but above 7.8 mmol/l indicates that the person doesn't have diabetes but does have IGT.' Which lipid abnormalities are most likely to be detected in a patient with type 2 diabetes? →Small dense LDL molecules Glycosylated haemoglobin (HbA1c) Indications • Diagnosis of diabetes mellitus and prediabetes state.  Normal level → < 42 mmol/mol (< 6%)  An HbA1c of 6.5% is recommended as the cut point for diagnosing diabetes.  Prediabetes → 42 – 47 mmol/mol (6.0 – 6.4%)  Diabetes mellitus → ≥ 6.5% • Measure of long-term glycaemic control in diabetes mellitus.  Reflects average blood glucose over the previous 2 - 3 months. Follow up intervals • NICE recommend 'HbA1c should be checked every 3-6 months until stable, then 6 monthly'. Methods of reporting : • Percentage vs mmol/mol  A new internationally standardised method for reporting HbA1c has been developed by the International Federation of Clinical Chemistry (IFCC). This will report HbA1c in mmol per mol of haemoglobin without glucose attached. HBA1c (%) IFCC-HbA1c (mmol/mol) • Estimated average glucose HBA1c (%) Average plasma glucose (mmol/l) 5.5 7.5 9.5 11.5 13.5 15.5 17.5 19.5 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Equations  New mmol/mol = [Old % – 2.15] x 10.929  Old % = [New mmol/mol divided by 10.929] + 2.15  Average plasma glucose = (2 * HbA1c) - 4.5 HbA1c targets • For diabetic patient on lifestyle + metformin → 48 mmol/mol (6.5%) • For diabetic patient on drug which may cause hypoglycaemia (e.g. lifestyle + sulfonylurea) → 53 mmol/mol (7.0%) Unexpected or discordant HA1C values • When there is a disparity between the A1C values and blood glucose values, we rely on the glucose values. • Use frequent glucose monitoring . Fructosamine or glycated albumin may be useful alternatives. The level of HbA1c therefore is dependent on: • red blood cell lifespan • average blood glucose concentration Falsely high A1C values • Low red cell turnover  vitamin B12  folate deficiency anemia. • Splenectomy : spleen removes old RBCs. Not having a spleen increases RBC life span. Falsely low A1C values • Rapid red cell turnover  Chronic hemolysis (eg, thalassemia, glucose-6-phosphate dehydrogenase deficiency);  patients treated for iron, vitamin B12, or folate deficiency; and patients treated with erythropoietin. • Blood transfusion (factitiously low A1C level) • Advanced chronic kidney disease , haemodialysis • Alcohol consumption • Sudden weight loss If A1C is higher than expected based on the mean glucose results • Do fingerstick blood glucose levels between meals or short-term use of continuous glucose monitoring (CGM) to evaluate glucose patterns. One explanation is that the postprandial glucose is higher than pre-prandial test results that patients typically obtain. • Exclude factors, which can falsely elevate the A1C (eg, low red cell turnover). If the A1C is lower than expected based on the mean glucose results • Do fingerstick blood glucose monitoring or CGM to detect nocturnal hypoglycemia, hypoglycemic unawareness, and/or frequent episodes of hypoglycemia. it is possible that blood glucose levels are low during times when testing is not being performed (such as undetected nocturnal hypoglycemia). • Exclude factors, which can falsely decrease the A1C (eg, rapid red cell turnover). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diabetes mellitus: management of type 2 General aim of management • Reduce the incidence of macrovascular (ischaemic heart disease, stroke) and microvascular (eye, nerve and kidney damage) complications. Risk factor modification • Blood pressure  target is < 140/80 mmHg (or < 130/80 mmHg if end-organ damage is present)  ACE inhibitors are first-line • Antiplatelets  should not be offered unless a patient has existing cardiovascular disease • Lipids  only patients with a 10-year cardiovascular risk > 10% (using QRISK2) should be offered a statin.  The first-line statin of choice is atorvastatin 20mg on HbA1c targets • HbA1c should be checked every 3-6 months until stable, then 6 monthly • NICE encourage us to consider relaxing targets on 'a case-by-case basis, with particular consideration for people who are older or frail, for adults with type 2 diabetes' • According to NICE guidelines, the HbA1c targets are now dependent on treatment: • Lifestyle or single drug treatment Management of T2DM HbA1c target Lifestyle alone or + metformin 48 mmol/mol (6.5%) Includes any drug which may cause hypoglycaemia (e.g. lifestyle + sulfonylurea) 53 mmol/mol (7.0%) Be aware that there are other possible reasons for a low HbA1c level, for example, deteriorating renal function or sudden weight loss. Self-monitoring of blood glucose • Indications  person is on insulin or oral medication that may increase their risk of hypoglycaemia while driving or operating machinery.  evidence of hypoglycaemic episodes or to confirm suspected hypoglycaemia.  pregnant, or planning to become pregnant.  when starting treatment with oral or intravenous corticosteroids Patient who is taking metformin for T2DM: • if the HbA1c < 58 mmol/mol (7.5%): titrate up metformin and encourage lifestyle changes to aim for a HbA1c of 48 mmol/mol (6.5%). • if the HbA1c rises to 58 mmol/mol (7.5%): add a second drug Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Lifestyle modification • Dietary advice  Encourage high‑ fibre, low‑ glycaemic‑ index sources of carbohydrate, such as fruit, vegetables, wholegrains and pulses  Include low‑ fat dairy products and oily fish  Control the intake of foods containing saturated and trans fatty acids.  limited substitution of sucrose‑ containing foods for other carbohydrate in the meal plan is allowable, but that they should take care to avoid excess energy intake.  Discourage use of foods marketed specifically at people with diabetes • Losing weight  Initial target weight loss in an overweight person is 5-10% • Physical activity Drug treatment • First line  offer standard release metformin  titrate up metformin and encourage lifestyle changes to aim for a HbA1c of 48 mmol/mol (6.5%),  If gastrointestinal side effects are not tolerated, then a trial of modified release metformin would be appropriate.  If metformin is not tolerated at all then a dipeptidyl peptidase-4 inhibitor, sulfonylurea or pioglitazone would be indicated. • Second line  should only add a second drug if the HbA1c rises to 58 mmol/mol (7.5%)  there is more flexibility in the second stage of treating patients (i.e. after metformin has been started) - you now have a choice of 4 oral antidiabetic agents  Second line for patient who tolerates metformin:  add one of the: Sulfonylurea, Gliptin, pioglitazone or SGLT-2 inhibitor (dual therapy)  If despite the dual therapy, the HbA1c remains above 58 mmol/mol (7.5%) or increased then triple therapy with one of the following combinations should be offered:  metformin + gliptin + sulfonylurea  metformin + pioglitazone + sulfonylurea  metformin + sulfonylurea + SGLT-2 inhibitor  metformin + pioglitazone + SGLT-2 inhibitor  OR insulin therapy should be considered  Second line if metformin is not tolerated or contraindicated:  Consider one of the: Sulfonylurea, Gliptin or pioglitazone  if the HbA1c has risen to 58 mmol/mol (7.5%) then add one of the following (Dual therapy):  gliptin + pioglitazone  gliptin + sulfonylurea  pioglitazone + sulfonylurea  if despite this the HbA1c rises to, or remains above 58 mmol/mol (7.5%) then consider insulin therapy • Third line  If triple therapy is not effective, not tolerated or contraindicated then NICE advise that we consider combination therapy with metformin, a sulfonylurea and a glucagonlike peptide1 (GLP1) mimetic if:  BMI ≥ 35 kg/m² and specific psychological or other medical problems associated with obesity or Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  BMI < 35 kg/m² and for whom insulin therapy would have significant occupational implications or weight loss would benefit other significant obesity related comorbidities. Starting insulin • If HbA1c remains > 58 mmol/mol (DCCT = 7.5%) inspite of maximum tolerated oral therapy, then consider human insulin • Metformin should be continued. In terms of other drugs NICE advice: 'Review the continued need for other blood glucose lowering therapies' • NICE recommend starting with human NPH insulin (isophane, intermediate acting) taken at bed-time or twice daily according to need. • Consider using insulin detemir or insulin glargine as an alternative to NPH insulin, if:  the person needs assistance to inject insulin, so as to reduce the frequency of injections from twice to once daily.  recurrent symptomatic hypoglycaemic episodes  the person need twice‑ daily NPH injections in combination with oral glucose‑ lowering drugs. • Consider starting both NPH and short‑ acting insulin (particularly if the person's HbA1c is 75 mmol/mol [9.0%] or higher), administered either: separately or as a pre-mixed (biphasic) human insulin preparation. • Consider pre-mixed (biphasic) preparations that include short‑ acting insulin analogues, rather than pre‑ mixed (biphasic) preparations that include short‑ acting human insulin preparations, if:  a person prefers injecting insulin immediately before a meal or  hypoglycaemia is a problem or  blood glucose levels rise markedly after meals. • For patients who are on pre-mixed (biphasic) insulin and uncontrolled blood glucose, consider:  further injection of short-acting insulin before meals OR  change to a basal bolus regimen with NPH insulin or insulin detemir or insulin glargine. Special considerations • If the patient is at risk from hypoglycaemia (or the consequences of) then a DPP-4 inhibitor or thiazolidinedione should be considered rather than a sulfonylurea • Meglitinides (insulin secretagogues) should be considered for patients with an erratic lifestyle • You can consider using sitagliptin or a thiazolidinedione instead of insulin if there would be employment (eg: truck driver), social, recreational, or personal issues. • In patients with diabetes starting thyroxine, doses of antidiabetic drugs including insulin may need to be increased. Diabetes associated with pancreatitis is due to damage to the endocrine pancreas and associated lack of insulin. the patient’s presentation: thin, with symptoms of insulinopaenia. As such, exogenous insulin replacement is the only appropriate intervention Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Which laboratory test results would be most significantly associated with an increased incidence of cardiovascular disease in type 2 diabetics? • Raised proinsulin levels January 2013 exam: A taxi driver with type 2 DM , on metformin and the dose was titrated up. His HbA1c one year ago was 75 mmol/mol (9%) and is now 69 mmol/mol (8.5%). His BMI 33 kg/m². What is the most appropriate next step in management? • Add sitagliptin ( because DPP-4 inhibitors are weight neutral & no risk of hypoglycaemia) September 2010 exam: H/O (T2DM) & bladder cancer on gliclazide and atorvastatin. A recent trial of metformin was unsuccessful due to gastrointestinal side-effects. He works as an accountant; is a non-smoker his BMI is 31 kg/m². HisHbA1c = 62 mmol/mol (7.8%) What is the most appropriate next step in management? • Add sitagliptin (Pioglitazone is contraindicated in bladder cancer and may contribute to his obesity. he does not meet the NICE body mass index criteria of 35 kg/m².) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Biguanides (metformin) Mechanism of action • Inhibits mitochondrial glycerophosphate dehydrogenase (mGPD) → ↓ hepatic gluconeogenesis and intestinal glucose absorption • Increases peripheral insulin sensitivity → ↑ peripheral glucose uptake and glycolysis Indications • type 2 diabetes mellitus • polycystic ovarian syndrome • non-alcoholic fatty liver disease Action of metformin in polycystic ovary syndrome: • metformin →↓ Insulin resistance → ↑peripheral glucose uptake → ↓ hyperinsulinaemia which implicated in pathogenesis of PCOS. Advantages • Glycemic efficacy: lowers HbA1c by 1.2–2% over 3 months • Weight loss • No risk of hypoglycemia • Beneficial effect on dyslipidemia • Reduce macrovascular complications and death (superior to sulphonylureas and insulin in terms of macrovascular risk, e.g. myocardial infarction). Adverse effects • Gastrointestinal upsets are common (nausea, anorexia, diarrhoea), intolerable in 20%  commonly occur if not slowly titrated up.  The BNF advises leaving at least 1 week before increasing the dose.  modified release preparations reduce the risk further.  High dose metformin interfere with the enterohepatic circulation of bile salts, leading to reduced reabsorption of bile salts from the ilieum → chronic diarrhoea . • Vitamin B12 deficiency  Associated with long-term treatment with metformin  The possibility of metformin-associated B12deficiency should be considered in patients on metformin who suffer cognitive impairment, peripheral neuropathy, subacute combined degeneration of the cord or anaemia. • Lactic acidosis with severe liver disease or renal failure  It is rare, although it remains important in the context of exams  The patients usually have severe renal impairment.  factors increases the risk of metformin lactic acidosis:  Tissue hypoxia, e.g. recent myocardial infarction, sepsis, acute kidney injury and severe dehydration. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  The (BNF) states that there should be a six week "cooling off" period post-MI before the commencement or recommencement of metformin.  Contrast radiography. : metformin should be discontinued on the day of the procedure and for 48 hours thereafter  Excess alcohol intake  Drugs: Cyclosporin, aminoglycosides, cimetidine (Metformin is excreted by the renal tubules and this process can be inhibited by cimetidine, but not the other H2 receptor antagonists).  The mainstay of treatment is rehydration.  correction of acidosis with 8.4% sodium bicarbonate.  Patients with resistant acidosis should be considered for haemodialysis, which also clears metformin.  Despite aggressive treatment, mortality still 50%. High dose (> 2 gm daily) interferes with enterohepatic circulation of the bile salts (Bile salt malabsorption) → diarrhoea Contraindications • Chronic kidney disease:  NICE recommend that the dose should be reviewed if the creatinine is > 130 mmol/l (or eGFR < 45 ml/min) (reduce the those and monitor renal function every three months) and stopped if the creatinine is > 150 mmol/l (or eGFR < 30 ml/min) (stage four chronic kidney disease (CKD 4) • Alcohol abuse is a relative contraindication→ ↑risk of lactic acidosis • Intravenous iodinated contrast medium • Heart failure (NYHA III and IV), respiratory failure, shock, sepsis • Alcoholism Sulphonylureas Mechanism of action • Block ATP-sensitive potassium channels (KATP) of the pancreatic β cells → depolarization of the cell membrane → calcium influx → insulin secretion Side effects • Life-threatening hypoglycemia; increased risk with the following :  Age over 65 years  Simultaneous intake of CYP2C9 inhibitors (e.g., amiodarone, trimethoprim, fluconazole)  Patients with renal failure  more common with long acting sulphonylureas such as chlorpropamide and glyburide (glibenclamide). • Weight gain • syndrome of inappropriate ADH secretion (SIADH) • bone marrow suppression • liver damage (cholestatic) • photosensitivity • Hematological changes: granulocytopenia, hemolytic anemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 159 • Chlorpropamide & tolbutamide → disulfiram-like reaction following alcohol intake (alcohol intolerance).  alcohol intake with Chlorpropamide & tolbutamide → inhibits aldehyde dehydrogenase (the enzyme responsible for the metabolism of acetaldehyde) → accumulation of toxic acetaldehyde → disulfiram-like effect (a drug used to treat alcoholism) → (facial flushing, erythema, paraesthesia of the extremities, nausea and vomiting, tachycardia, and hypotension). Contraindications • Pregnancy and breast feeding • Severe cardiovascular comorbidity • Severe liver and kidney failure • Obesity • Beta blockers (can mask hypoglycemic symptoms while lowering serum glucose levels) The combination of beta-blockers and hypoglycemia should be avoided: • Beta-blockers may mask the warning signs of hypoglycemia (e.g., tachycardia) and decrease serum glucose levels even further. Agents • Glibenclamide  long-acting sulfonylurea  associated with a greater risk of hypoglycaemia, therefore, should be avoided in the elderly, and shorter-acting alternatives, such as gliclazide or tolbutamide, should be used instead  Renally excreted: renal impairment →↑ risk of hypoglycaemia • Gliclazide  intermediate half-life of around 11 hours.  causes less hypoglycemia than other sulfonylureas.  extensively metabolised within the liver by CYP2C9. Renal clearance accounts for only 4% of total drug clearance. In CKD stage 1, 2, 3 (eGFR > 30 mL/min) gliclazide can be used safely. in patients with severe CKD → reduced dose can be used  gliclazide action can be potentiated predominantly by two mechanisms:  Displacement of the drug from plasma proteins to give freer (unbound) drug - some agents such as aspirin can do this, and  Interference with the hepatic metabolism of the drug.(e.g fluconazole ) • Glipizide  metabolized by the liver into inactive metabolites and therefore, renal insufficiency does not affect the drug's clearance.  the best choice of sulfonylureas in a patient with renal impairment (no need for dose adjustment). • Chlorpropamide  has a higher side effect profile  may produce a syndrome of inappropriate anti-diuretic hormone (ADH) secretion. Sulphonylurea provide microvascular benefits, but NO benefit was demonstrated for macrovascular outcomes (cardiovascular disease), in contrast to metformin. Sulphonylurea overdoses: In sulphonylurea overdoses, if the patient remains hypoglycaemic despite infusion of sufficient glucose, consider administration of octreotide (a somatostatin analogue which lowers insulin levels and thus raised blood glucose) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Meglitinides Meglitinides (nateglinide and repaglinide) → increase postprandial insulin release specifically Agents • Repaglinide • Nateglinide Action → closure of the β-cell K+-ATP channel. • Short-acting insulin secretagogues • Blockage of ATP-sensitive potassium (KATP) channels of the pancreatic beta cells → depolarization of the cell membrane → calcium influx → insulin secretion • Act like sulfonylureas but have a weaker binding affinity and faster dissociation from the SUR1 binding site of the pancreatic channel. Indications • useful for post-prandial hyperglycaemia or an erratic eating schedule, as patients take them shortly before meals Advantages • The shorter action of duration result in less weight gain compared to sulphonylureas. • Nateglinide is useful for shift workers and patients who tend to fast for a period of time because doses can be skipped when meals are missed. In these patient groups there may be a lower incidence of hyperglycaemia. • Repaglinide can be used even in CKD stages 4 and 5 without dose reduction. Adverse effects • weight gain and hypoglycaemia (less so than sulfonylureas) Thiazolidinediones (glitazones, insulin sensitizers) Mechanism of action: Peroxisome Proliferator Activated Receptor (PPAR) gamma agonists → increase peripheral insulin sensitivity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Agents • Pioglitazone • Rosiglitazone: was withdrawn in 2010 following concerns about cardiovascular side-effect profile. Pioglitazone metabolism • mainly by CYP2C8 cytochrome P450 enzyme pathway Mechanism of action • Agonists to the peroxisome proliferator-activated receptor-gamma (PPAR-gamma) receptor → ↑ transcription of genes involved in glucose and lipid metabolism → ↑ levels of adipokines such as adiponectin and insulin sensitivity → ↑ storage of fatty acids in adipocytes, ↓ products of lipid metabolism (e.g., free fatty acids) → ↓ free fatty acids in circulation → ↑ glucose utilization and ↓ hepatic glucose production.  Metformin also boosts insulin sensitivity, but pioglitazone has more effect on peripheral insulin resistance. PPAR-gamma receptor • an intracellular nuclear receptor. • Its natural ligands are free fatty acids • it is thought to control adipocyte differentiation and function. • activated by free fatty acids and thiazolinediones such as pioglitazone. Indications • may be considered as monotherapy in patients with severe renal failure and/or contraindications for insulin • NICE guidance advice that: only continue thiazolidinediones if there is a reduction of > 0.5 percentage points in HbA1c in 6 months Advantages • Glycemic efficacy: lowers HbA1c by 1% in 3 months • Favorable effect on lipid metabolism: ↓ triglyceride, ↓ LDL, ↑ HDL • No risk of hypoglycemia • associated with the lowest rate of secondary beta-cell failure. Sulfonylureas are associated with the highest rate Side effects • ↑ Risk of heart failure • ↑ Risk of bone fractures (osteoporosis). due to reduced osteoblast activity → reduced bone mineral density. • Fluid retention and edema  the risk of fluid retention is increased if the patient also takes insulin , or other drugs that cause fluid retention (for example, NSAIDs, calcium antagonists) • Weight gain • Rosiglitazone: ↑ risk of cardiovascular complications like cardiac infarction or death • Bladder cancer • liver impairment: monitor LFTs Contraindications • Congestive heart failure (NYHA III or IV) • Liver failure • Pioglitazone: history of bladder cancer or active bladder cancer; macrohematuria of unknown origin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Insulin: Basics Structure • Insulin is a peptide hormone , composed of 51 amino acids. It is a dimer of an A-chain and a B-chain, which are linked together by disulfide bonds. Production • Insulin is produced in the pancreatic beta cell by proteolytic cleavage from pro-insulin resulting in c-peptide which is secreted together with insulin in a 1:1 molar ratio. Secretion • Insulin is stored in secretory granules • Released by beta cells as a result of increased intracellular calcium. • Released in pulses about every 9-13 minutes.  This pulsing release mechanism is important because it is thought that this keeps cells sensitive to insulin.  this is one of the first things that disappears when insulin sensitivity disappears. • Secreted in response to hyperglycaemia C-peptide • a protein cleaved from proinsulin when it is activated. • has a longer half-life than insulin, and thus is a useful measure of insulin secretion (it is more accurate than measuring insulin itself). • The level of this can be measured in the urine. Insulin and C peptide are ↑ in insulinoma and sulfonylurea use, whereas exogenous insulin lacks C-peptide. Functions • Insulin binds to insulin receptors (a type of tyrosine kinase receptor) located in various tissues in the body → acts as an anabolic hormone in target tissues (e.g., liver, skeletal muscle, adipose tissue). • Carbohydrate metabolism  Stimulate Glycogenesis (glycogen synthesis from glucose by glycogen synthase, and glycogen branching enzyme. Triggered by high serum insulin concentrations.) in muscle and liver  Stimulate Glycolysis (converts glucose to pyruvate and produces ATP and NADH as byproducts.) in adipose and muscle  Inhibits Glycogenolysis (breakdown of glycogen by glycogen phosphorylase)  Inhibits Gluconeogenesis (produces glucose from noncarbohydrate substances such as amino acids, triglycerides, and glycerol.) (Insulin inhibit pyruvate carboxylase which used in gluconeogenesis)  Inhibits Production and release of glucagon • Lipid metabolism  Stimulate Lipid synthesis and triglyceride storage in adipose tissue  Inhibits Lipolysis (breakdown of lipids)  Inhibits Ketogenesis (production of ketone bodies by HMG-CoA synthase). Thiazolidinediones are associated with an increased risk of bladder cancer Pioglitazone may cause fluid retention Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Protein metabolism  Stimulate Protein synthesis in muscle tissue  Stimulate Uptake of amino acids  Inhibits Proteolysis • Increases cellular uptake of potassium (via stimulation of Na+/K+ ATPase pump) Insulin therapy Insulin types • Rapid-acting insulin analogues (Aspart, Lispro, Glulisine)  Onset: 5 mins  Peak: 1 hour  Duration: 3-5 hours  Reduces the chance of between-meal hypoglycaemia.  Useful for reducing postprandial hypoglycaemia because their profile is more in keeping with physiological insulin release.  If there is a pre-lunch hyperglycaemia, that means there is a significant postbreakfast peak in glucose levels. As such, the best management → breakfast time injection of rapid acting insulin. • Short-acting insulins (Actrapid, Humulin S)  Onset: 30 mins  Peak: 3 hours  Duration: 6-8 hours  may be used as the bolus dose in 'basal-bolus' regimes  “Standard insulin” for lowering blood glucose levels in an acute setting  Intravenous therapy available • Intermediate-acting insulins (Isophane [NPH])  Onset: 2 hours  Peak: 5-8 hours  Duration: 12-18 hours  NICE guidelines advise that, in general, a humane isophane insulin is the firstline recommended insulin in type 2 diabetic. • Long-acting insulins (Determir, Glargine)  Onset: 1-2 hours  Peak: Flat profile  Duration: Up to 24 hours  The main advantage → Reduced nocturnal hypoglycaemia  might be useful in someone who struggles to inject a twice a day NPH insulin to reduce the frequency of injections to once a day (e.g. someone who requires assistance to inject from a career or district nurse).  suitable for providing a basal level of insulin which attempts to mimic the normal physiological state.  In which situations does insulin glargine have the clearest advantage over isophane?  In patients with type-1 diabetes who have significant nocturnal hypoglycaemia on isophane  NICE only recommends use of insulin glargine in patients who have significant hypoglycaemia on isophane insulin  Detemir is the only long-acting insulin that is soluble in the bottle as well as under the skin, possibly allowing for more consistent absorption. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Detemir can be administered with other forms of insulin, unlike insulin glargine, which cannot be mixed with other insulins or IV fluids due to its acid vehicle.  Degludec a long-acting insulin.  Onset: ~1 hour  Half-life elimination: ~25 hours (has the highest half-life)  Time to peak: 9 hours Rapid-acting insulins are your favorite GAL (Glulisine, Aspart, Lispro). Intravenous insulin is the optimal management of high blood sugar in acute myocardial infarction. Insulin prescription • Starting dose  The guidelines recommend starting with either morning or evening long-acting insulin, or with bedtime intermediate acting insulin.  0.2 U/kg or a flat dose of 10 U is the recommended starting dose for intermediate acting insulin. • Targets  Fasting and pre-prandial glucose levels → 4-7 mmol/L .  Post-prandial glucose levels : less than 10 mmol/L.  In hospitalised patients the Joint British Diabetes Societies for Inpatient care (JBDS) suggest a target blood glucose of 6-10mmol/L • Monitoring  If patients are not using insulin, sulphonylureas or glinides (repaglinide or netaglinide), then the ADA/EASD consensus does not recommend selfmonitoring of blood glucose levels.  Once daily long-acting insulin taken at night is monitored using pre-breakfast fasting glucose measurements. If fasting levels are in range yet the HbA1c is elevated, postprandial monitoring is recommended. • Dose adjustment  Pre-prandial glucose: Mainly affected by the basal insulin dose  Postprandial glucose is mainly affected by meal intake and prandial insulin dose.  At least three consecutive, self-monitored fasting glucose readings should be used to adjust doses (i.e. three days minimum between dose adjustments).  Up-titration  increase 2 U of insulin every three days until fasting glucose is in the target range of 3.9-7.2 mmol/L. If the fasting plasma glucose is ˃10 mmol/L, → uptitration schedule of 4 U every three days can be used.  Down-titration  Reduce insulin dose in steps of 20% if hypoglycaemia occurs. • Insulin in renal failure  The dose of exogenous insulin is reduced 25% when eGFR is 10-50 mL/min and 50% when eGFR is < 10 mL/min Degludec A patient with recurrent admissions for DKA secondary to missing doses can be started on degludec to reduce readmission rate. Degludec has a much higher half-life than Detemir and therefore maintains a basal insulin level when the patient omits or forgets doses. This can prevent DKA. 008 - Pages 176-200 008 Pages 176-200 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad the most appropriate initial insulin regime for young patient after being diagnosed with new onset Type1 DM → Meal time Actrapid and insulatard at night. Insulin side-effects • Hypoglycaemia • Weight gain • Hypokalemia • Lipodystrophy at the injection site  typically presents as atrophy of the subcutaneous fat  can be prevented by rotating the injection site Mixtard- associated nocturnal hypoglycemia • This is because the insulatard component of the Mixtard peaks about 6 h after it has been given. This, along with some residual actrapid activity, gives an excess of insulin in the middle of the night, leading hypoglycaemia. • Split evening insulin so take actrapid before evening meal and insulatard before bedtime Hypoglycaemic episodes which occur during the day in a patient takes a basal bolus insulin regime of long-acting insulin (Insulatard®) and short- acting insulin (Actrapid®) with each meal: • the most appropriate next step → Refer for Dose Adjustment For Normal Eating education (DAFNE) • the next step after DAFNE, should hypos persist, would be continuous glucose monitoring, to learn more about fluctuations in serum blood glucose over the course of the day. • those patients who have problems with nocturnal hypoglycaemia → changing insulatard to insulin glargine What is the most appropriate initial advice with respect to adjusting prandial insulin dose? • 1 unit of insulin per 10 grams of dietary carbohydrate Glucagon-like peptide-1 (GLP-1) Incretins increase insulin release and decrease glucagon secretion from the pancreas. DPP-IV metabolizes GLP. Inhibiting DPP-IV maintains high levels of GLP. Incretin effect • Oral glucose load → ↑ glucagon-like peptide-1 (GLP-1), produced by the L-cells of the ileum →↑ insulin release (more than if the same load is given intravenously), ↓ glucagon secretion, slow gastric emptying (↑ feeling of satiety, ↓ weight) - this known as the incretin effect. • This effect is largely mediated by GLP-1 and is known to be decreased in T2DM. GLP-1 : Site of synthesis  Small intestinal L cells Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Glucagon-like peptide-1 (GLP-1) • Production  glucagon-like peptide-1 (GLP-1), a hormone produced by the L-cells of the ileum in response to an oral glucose load • Effects in glucose homeostasis  Glucose-dependent stimulation of insulin secretion  Reduction of gastric emptying  Reduction of inappropriate glucagon secretion  Weight loss • Regulation of GLP-1  Increasing GLP-1 levels, either by:  administration of an analogue (glucagon-like peptide-1, GLP-1 mimetics, e.g. exenatide) OR  inhibiting its breakdown (dipeptidyl peptidase-4 ,DPP-4 inhibitors - the gliptins), is therefore the target of two recent classes of drug. GLP is a confusing misnomer: Glucagon raises glucose and FFA levels. GLP decreases glucagon. Glucagon-like peptide-1 (GLP-1) analogs Agents: Exenatide, Liraglutide • Liraglutide VS Exenatide  Liraglutide is given once a day (long-acting) whereas Exenatide is given twice daily (has a half-life of around 2.5 hours)  Liraglutide can be used in renal impairment with an estimated glomerular filtration rate [eGFR] as low as 30 mL/min/1.73 m2. Exenatide are cleared via renal excretion and is therefore not recommended in patients with an eGFR < 30. Mechanism of action • Incretin effect: Oral glucose load → ↑ glucagon-like peptide-1 (GLP-1), produced by the L-cells of the ileum →↑ insulin release (more than if the same load is given intravenously), ↓ glucagon secretion, slow gastric emptying (↑ feeling of satiety, ↓ weight). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • GLP-1 agonists (Incretin mimetic drugs) →↑GLP-1 levels → ↑ insulin secretion, ↓ glucagon secretion, slow gastric emptying (↑ feeling of satiety, ↓ weight) • Metabolic effects  increase insulin secretion  inhibit glucagon secretion.  inhibits glucose production in the liver  slows gastric emptying →Suppresses appetite Indications • NICE state that: Consider adding exenatide to metformin and a sulfonylurea if:  BMI ≥ 35 kg/m in people of European descent and there are problems associated with high weight, or  BMI < 35 kg/m and insulin is unacceptable because of occupational implications or weight loss would benefit other comorbidities. Advantages • Improve glycaemic control: lowers HbA1c by 0.5–1.5% over 3 months • No risk of hypoglycemia • Promote weight loss (≈ 6% weight loss over a 6 month period). Administration • NICE like patients to have achieved a 1% reduction in HbA1c (11 mmol/mol) and 3% weight loss after 6 months to justify the ongoing prescription of GLP-1 mimetics. Adverse effects • nausea and vomiting (the major adverse effect). • Acute pancreatitis in some patients. The preferred pathway for glucose management according to the NICE guidelines is to add insulin to the combination of metformin and a sulphonylurea. However, where weight is of particular concern (BMI >35), exenatide may be considered as an alternative. It can also be used where insulin would interfere with a patient's occupation. When to choose exenatide as an alternative to insulin or sulphonylurea as first choice add-in options to metformin? • morbid obesity • or risk of hypoglycaemia, (eg : HGV drivers) Current NICE guidance suggests the use of GLP-1 mimetics only if BMI is above 35 and there are specific medical or psychological problems associated with high body weight. Sign guidelines 2017: For individuals with type 2 diabetes and established cardiovascular disease, GLP-1 receptor agonist therapies with proven cardiovascular benefit (currently liraglutide) should be considered. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Dipeptidyl peptidase-4 (DPP-4) inhibitors (gliptins) Agents • Vildagliptin, Sitagliptin, Saxagliptin, Linagliptin and Alogliptin Action • Incretin effect: Oral glucose load → ↑ glucagon-like peptide-1 (GLP-1), produced by the L-cells of the ileum → GLP-1 degradation via the enzyme DPP-4 → end of the GLP-1 effect. • DPP-4 inhibitors (Incretin mimetic drugs) bind to the GLP-1 receptors inhibiting the DPP-4 that breaks down GLP-1 →↑GLP-1 levels → ↑ insulin secretion, ↓ glucagon secretion, slow gastric emptying (↑ feeling of satiety, ↓ weight) Indications • Can be considered as monotherapy in patients who are intolerant of or have contraindications to metformin, or other glucose-lowering agents.  e.g linagliptin might be a good choice as initial therapy in a patient with chronic kidney disease or who is at particularly high risk for hypoglycemia. • Only recommended as second-line therapy with metformin if patients are at significant risk of hypoglycaemia or its consequences (e.g. older patients, those working at heights or heavy machinery, isolated patients) or if a sulphonylurea is not tolerated or contraindicated. • can be considered as add-on drug therapy for patients who are inadequately controlled on metformin, a thiazolidinedione, sodium-glucose co-transporter-2 (SGLT2) inhibitor, or a sulfonylurea. • NICE guidelines suggest that a DPP-4 inhibitor might be preferable to a thiazolidinedione if further weight gain would cause significant problems, a thiazolidinedione is contraindicated or the person has had a poor response to a thiazolidinedione • NICE guidelines recommend: continue DPP-4 inhibitor only if there is a reduction of > 0.5 percentage points in HBA1c in 6 months. Advantages • Oral preparation • Well tolerated with no increased incidence of hypoglycaemia • Do not cause weight gain • We can use them all in CKD but with dose adjustment (Only linagliptin does not need dose adjustment in any stage of CKD) • Linagliptin is preferred in patients with chronic kidney disease [eGFR] <30 mL/min/1.73 m2) Side effects • GI disturbance (nausea, flatulence, diarrhoea and constipation) (because DPP-4 inhibitor delays gastric emptying). • Acute pancreatitis (insufficient data) - still under investigation but is to be discontinued in the event of pancreatitis. • Saxagliptin associated with increased incidence of heart failure. • Increased risk of upper respiratory tract infections. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sodium-glucose cotransporter 2 inhibitors (gliflozins) Examples • Include canagliflozin, dapagliflozin and empagliflozin Mechanism of action • reversible inhibition of SGLT-2 in the proximal convoluted tubule of the kidney → ↓ glucose reabsorption → glycosuria and polyuria. Indications • Empagliflozin or canagliflozin may play a role in patients with overt cardiovascular diseases (CVD) or heart failure not reaching glycemic goals with metformin and lifestyle modifications • may have a role as a third agent in those who cannot or will not take insulin, when full doses of metformin and a sulfonylurea have not produced satisfactory metabolic control, or in patients in whom risk of hypoglycemia is high (frail, older adults) or in whom avoidance of weight gain is a priority. Advantages • Glycemic efficacy: lowers HbA1c by 0.6% over 3 months • Promotes weight loss (modest calorie spillage into the urine)  there for it is better than gliptins in obese patient who does not achieve control by metformin • ↓ Blood pressure (Sodium loss → fall in BP) • ↓ Risk of cardiovascular mortality in patients with type 2 DM and cardiovascular disease • Reduce uric acid, which may over the longer term reduce nephropathy progression • Do not usually cause hypoglycemia Adverse effects • Recurrent infections due to glucosuria  Recurrent urinary infections (↑ glucose in the urine (Glycosuria) → predispose to bacterial growth)  Genital infection (Vulvovaginal candidiasis): contra-indicated in patients with recurrent thrush.  Necrotizing fasciitis of the perineum • Diabetic ketoacidosis (patients may present with euglycaemic ketoacidosis)  SGLT-2 inhibitors →↑glucagon, →↑lipid oxidation →↑risk of ketoacidosis. • Increased risk of bone fracture  SGLT-2 inhibitors → ↑PTH →↑ ↑bone turnover →↑ risk of bone fracture.  SGLT-2 inhibitors → ↑ fibroblast growth factor (FGF-23) → ↓vitamin D →↑ ↓bone mineralisation. • Acute kidney injury • Dehydration → weight loss, orthostatic hypotension • Increased total cholesterol, (both HDL and LDL) • ↑ Risk of lower limb amputation: Empagliflozin is preferred rather than canagliflozin. Canagliflozin found to be associated with increased risk of lower limb amputation and fractures. Empagliflozin has been shown to reduce cardiovascular mortality Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Contraindications • Renal Impairment: eGFR <30 mL/minute/1.73 m2: Use is contraindicated. • Recurrent urinary tract infections (e.g., in patients with anatomical or functional anomalies of the urinary tract) Alpha-glucosidase inhibitors Overview • These are acarbose, miglitol and voglibose. • Not usually used as first-line therapy, because of modest efficacy and poor tolerance. Mechanism of action • inhibit the upper gastrointestinal enzymes (alpha-glucosidases) that convert complex polysaccharide carbohydrates into monosaccharides and thereby slow absorption of glucose and reduce postprandial blood glucose concentration. Advantages • They may be used as part of a combination regimen in people who consume highcarbohydrate diets and have high postprandial glucose levels. • reduction in risk of new onset type 2 diabetes and cardiovascular events. Side effects • Abdominal pain, flatulence and diarrhea (Using glucosidase inhibitors is like making a person lactose intolerant).  Mechanism of diarrhoea: Alpha-glucosidase inhibitors → block glucose absorption → the sugar remains in the bowel → bacteria eat the glucose, and cast off gas and acid. Diabetic ketoacidosis (DKA): Overview Epidemiology • Approximately 25% of patients with type 1 diabetes will first present in diabetic ketoacidosis Pathophysiology • Osmotic diuresis and hypovolemia  Insulin deficiency → hyperglycemia → hyperosmolality → osmotic diuresis and loss of electrolytes → hypovolemia • Metabolic acidosis with increased anion gap  Insulin deficiency → ↑ lipolysis → ↑ free fatty acids → hepatic ketone production (ketogenesis) → ketosis → bicarbonate consumption (as a buffer) → high anion gap metabolic acidosis Sign guidelines (November 2017): In individuals with type 2 diabetes and established cardiovascular disease, SGLT2 inhibitors with proven cardiovascular benefit (currently empagliflozin and canagliflozin) should be considered. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Lack of insulin → ↑cortisol, catecholamines and glucagon → ↑ fatty acid metabolism → ↑ beta-hydroxybutyrate → acetoacetate → urine ketone  Insulin withdrawal → initial acute rise in glucagon concentrations → Hepatic glucose production rises rapidly over the first 2 – 4 hours reaching a plateau after around 4 hours. • Intracellular potassium deficit  Insulin deficiency → hyperosmolality → K+ shift out of cells + lack of insulin to promote K+ uptake → intracellular K+ depleted → total body K+ deficit despite normal or even elevated serum K+ (Total body potassium is reduced by up to 500 mmol) 1BWhat is the primary cause of ketoacidosis in type 1 diabetes? • 2BLipolysis Causes • Precipitating factors leading to diabetic ketoacidosis (DKA) are:  Infection (30-40%) The most common precipitating factor  Non-compliance with treatment (25%)  Newly diagnosed diabetes (10-20%)  Alterations to insulin dose (13%)  Myocardial infarction (< 1%) • The drugs implicated in precipitating diabetes as well as diabetic ketoacidosis.  atypical antipsychotics such as olanzapine  thiazide diuretics  beta sympathomimetics, and  steroids. Features • abdominal pain • polyuria, polydipsia, dehydration • Kussmaul respiration (deep hyperventilation) • Acetone-smelling breath ('pear drops' smell) (Fruity odor) • serum sodium is falsely low due to the osmotic load of glucose. • Blood count:  Platelet secretory activity is often increased in DKA, but aggregation decreased.  Neutrophil count is also commonly raised and correlates with ketone body levels, so does not necessarily imply underlying infection. Diagnostic criteria: All of these must be present to make the diagnosis: • The ‘D’ – a blood glucose of >11.0 mmol/L or known to have diabetes mellitus • The ‘K’ a capillary or blood ketone of >3.0 mmol/L or significant ketonuria (2+ or more) • The ‘A’ – a bicarbonate of <15.0 mmol/L and/or venous pH <7.3 Association A raised amylase in the absence of frank pancreatitis is common in patients with diabetic ketoacidosis (DKA), No specific management is required, and amylase falls with rehydration and control of blood glucose. Very high glucose artificially drops sodium level → Pseudohyponatremia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Cause of hyperkalemia → transcellular shift of potassium out of the cell in exchange for hydrogen. Cause of ↓ total body K stores → excess loss of solutes with water in the urine. Cause of hypokalemia during DKA treatment → insulin drives potassium into cells with glucose. Assessment of severity : presence of one or more of the following may indicate severe DKA (suggest intensive care admission): • GCS < 12 • Oxygen saturation <92% on air • Systolic blood pressure <90 mmHg • Tachycardia ( ˃100) or bradycardia (˂ 60 bpm) • pH < 7 • Blood ketone > 6 mmol/L • Bicarbonate < 5 mmol/L • Anion gap >16 mmol/l. [Anion Gap = (Na+ + K+) – (Cl- + HCO3- )]. Normal values are 8-12 mEq/L. • Potassium < 3.5 mmol/L on admission Differential diagnosis • Alcoholic ketoacidosis  Ketoacidosis without a raised glucose in a person with alcoholism is virtually diagnostic of alcoholic ketoacidosis.  a careful history needs to be taken to differentiate it from euglycaemic DKA.  If alcoholic ketoacidosis is suspected, then ß-hydroxybutyrate should be measured and not urine ketones, because acetoacetate production can be suppressed in alcoholic ketoacidosis. • Starvation ketosis  ↓carbohydrate intake →↓insulin secretion, → lipolysis and ketosis.  because it is arises over a prolonged period,→ renal compensation → acid base and electrolyte disturbances are often minimal Diabetic ketoacidosis (DKA): Management Fluid replacement • Calculate fluid deficit  mild to moderate DKA (indicated by a blood pH of 7.1 or above) → 5% fluid deficit.  severe DKA (indicated by a blood pH below 7.1) → 10% fluid deficit.  Most patients with DKA are deplete around 5-8 litres. • Calculate maintenance fluid requirement  if they weigh less than 10 kg, give 2 ml/kg/hour  if they weigh between 10 and 40 kg, give 1 ml/kg/hour  if they weigh more than 40 kg, give a fixed volume of 40 ml/hour. • Choose appropriate fluids  Use 0.9% sodium chloride until the plasma glucose is below 14 mmol/litre. If the glucose falls below 14.0 mmol/L:  commence 10% glucose given at 125 ml/ hour alongside the 0.9% sodium chloride solution, so that the insulin infusion can be continued at a sufficient rate to clear ketones (for example, 6 units/hour, monitored for effect). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  In addition consider reducing the rate of intravenous insulin infusion to 0.05 units/kg/hr.  All fluids (except any initial bolus) administered with 40 mmol/litre potassium chloride unless they have renal failure. • Rate of fluid replacement  JBDS example of fluid replacement regime for patient with a systolic BP on admission 90mmHg and over: Fluid Volume 0.9% sodium chloride 1L 1000ml over 1st hour 0.9% sodium chloride 1L with potassium chloride 1000ml over next 2 hours 0.9% sodium chloride 1L with potassium chloride 1000ml over next 2 hours 0.9% sodium chloride 1L with potassium chloride 1000ml over next 4 hours 0.9% sodium chloride 1L with potassium chloride 1000ml over next 4 hours 0.9% sodium chloride 1L with potassium chloride 1000ml over next 6 hours  Slower infusion may be indicated in young adults (aged 18-25 years →↑risk of cerebral oedema), elderly, heart or kidney failure. Fluid deficit in DKA  Assume a 5% fluid deficit in children and young people in mild or moderate DKA (indicated by a blood pH of 7.1 or above)  Assume a 10% fluid deficit in children and young people in severe DKA (indicated by a blood pH below 7.1) Insulin • Insulin type  Soluble infusion → intravenous infusion at 0.1 unit/kg/hour.  If patient normally takes long acting insulin analogue (Lantus, Levemir) continue at usual dose and time. In those newly diagnosed, then a long acting basal insulin should be commenced, at a dose of 0.25 units/Kg subcutaneously once daily. • Best time for starting → NICE recommend to start insulin infusion 1–2 hours after beginning intravenous fluid therapy • Rate of infusion (fixed rate insulin regime, not a sliding scale).  0.1 unit/kg/hr based on estimate of weight  50 units human soluble insulin (Actrapid or Humulin S) made up to 50 ml with 49.5 ml 0.9% sodium chloride solution (i.e. 1 unit /ml).  Once the glucose drops to ˂14 mmol/L then in addition to adding a 10% dextrose infusion consider reducing the rate of intravenous insulin infusion to 0.05 units/kg/hr to avoid the risk of developing hypoglycaemia and hypokalaemia  Insulin infusion rate should only be increased if blood ketones are not falling at >0.5 mmol/h, venous bicarbonate not increased by 3.0mmol/L/hour or capillary blood glucose not reduced by 3.0mmol/L/hour. Correction of hypokalaemia • As a result of both acidosis and insulin deficiency there is a total body potassium deficit of up to 1000 mmol. • rehydration, insulin replacement and correction of acidosis resulting in further potassium loss with restoration of urine flow • hypokalemia is a major cause of death in ketoacidosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • JBDS potassium guidelines Potassium level in first 24 hours (mmol/L) Potassium replacement in mmol/L of infusion solution Over 5.5 Nil 3.5-5.5 Below 3.5 Senior review as additional potassium needs to be given Other treatment • Bicarbonate  The role of bicarbonate in DKA is controversial. Generally not recommended.  The acidosis usually corrects itself once the fluid and electrolyte balance is restored.  There is no evidence to support bicarbonate use in a patient with a pH greater than 7.0.  Intravenous bicarbonate should be given if the blood pH is lower than 6.9.  In practice for DKA, sodium bicarbonate is only really considered in the peri-arrest situation. • Low-molecular weight heparin  DKA increased risk of venous thromboembolism because of volume depletion, hyperglycaemia and their decreased conscious level. Monitoring • Blood glucose should be assessed every hour but testing for urine ketones can be performed every 4 hours. Assessment of treatment • Targets  Reduction of the blood ketone concentration by 0.5mmol/L/hour  Increase the venous bicarbonate by 3.0mmol/L/hour  Reduce capillary blood glucose by 3.0mmol/L/hour • If these targets rates are not achieved:  always check the insulin infusion pump malfunction (the correct insulin residual volume is present)  then the FRIII rate should be increased by 1 unit/hr increments hourly until the targets are achieved. • Expected time of DKA resolution  It is unusual for DKA not to have resolved by 24 hours with appropriate treatment • Indicators of DKA resolution: Resolution of DKA is defined as:  pH > 7.3 units.  bicarbonate > 15.0mmol/L; and  blood ketone level < 0.6mmol/L (rather than < 0.3mmol/L), in order to avoid restarting the FRIII if the ketone level rebounds upon discontinuation of the FRIII • Unreliable indicators of acidosis resolution  Glucose level is not an accurate indicator of resolution of acidosis in ketoacidosis, so the acidosis resolution should be verified by venous gas analysis.  Do not rely on bicarbonate alone to assess the resolution of DKA due to the possible hyperchloraemia secondary to large volumes of 0.9% sodium chloride infusion.  ↑↑ 0.9% sodium chloride infusion →↓HCO3 →hyperchloremic metabolic acidosis → difficulty is assessing whether the ketosis has resolved. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  hyperchloraemic acidosis may cause renal vasoconstriction → oliguria.  Do not rely on urinary ketone clearance to indicate resolution of DKA, because these will still be present when the DKA has resolved. Euglycaemic DKA • Definition: DKA in people known to have diabetes but where the glucose is normal, or not particularly raised. • Causes  partial treatment of DKA prior to admission  use of the sodium-glucose cotransporter (SGLT) inhibitor drugs (e.g. dapagliflozin, canagliflozin, empagliflozin) • Treatment: treated in exactly the same way as hyperglycaemic DKA.  1) Initiate glucose 10% straight away at 125 ml/hr because the glucose is ˂ 14 mmol/L  2) Begin with 0.1units/kg/hr insulin rate  3) If glucose falling despite 10% glucose reduce to 0.5 units/kg/hr to avoid hypoglycaemia SCE-question sample-mrcpuk.org : The non-improvement of the patient’s clinical status and biochemical findings suggest that the metabolic acidosis is due to another reason such as sepsis. The finding of a raised lactate concentration will provide further insights. Typical deficits in DKA in adults: • Water - 100ml/kg • Sodium - 7-10mmol/kg • Chloride - 3-5mmol/kg • Potassium - 3-5mmol/kg Resolution of DKA is defined as: • pH > 7.3 units. • bicarbonate > 15.0mmol/L; and • blood ketone level < 0.6mmol/L (rather than < 0.3mmol/L), in order to avoid re-starting the FRIII if the ketone level rebounds upon discontinuation of the FRIII At which time, a patient can be converted back to subcutaneous insulin? • After Resolution of DKA Metabolic treatment targets • Reduction of the blood ketone concentration by 0.5 mmol/L/hour • Increase the venous bicarbonate by 3.0 mmol/L/hour • Reduce capillary blood glucose by 3.0 mmol/L/hour • Maintain potassium between 4.0 and 5.5 mmol/L If these targets are not achieved, then the fixed rate intravenous insulin infusion (FRIII) rate should be increased by 1 unit/hr increments hourly until the targets are achieved. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Complications of DKA and its treatment • Cerebral oedema  The risk is highest in paediatric ( 1% ) and adolescent patients and is rarer in adults.  Mechanism  Exact pathogenic mechanism remains unknown – multifactorial  ↑glucose → ↑osmolar gradient results in water shift from the intracellular fluid (ICF) to the extracellular fluid (ECF) space and contraction of cell volume. Correction with insulin and I.V fluids → rapid reduction in osmolarity → reversal of the fluid shift → cerebral edema.  Features  headache  agitation or irritability  unexpected fall in heart rate  increased blood pressure.  deterioration in level of consciousness  abnormalities of breathing pattern, for example respiratory pauses  oculomotor palsies  pupillary inequality or dilatation.  Treatment  mannitol (20%, 0.5–1 g/kg over 10–15 minutes) or hypertonic sodium chloride (3% over 10–15 minutes) to induce osmotic fluid shifts.  urgent treatment should be started when cerebral oedema is suspected and not be delayed whilst awaiting imaging. • Thromboembolism • Acute respiratory distress syndrome • Arrhythmias secondary to hyperkalaemia/iatrogenic hypokalaemia • Acute kidney injury (AKI): Transient AKI may occur in up to 50% of adults. • Recovering DKA are at risk of hypophosphataemia  weakness following treatment for DKA.  often arises as a side effect of insulin with cells forming ATP and taking up free phosphate to achieve this. Prognosis • The mortality rate associated with the modern management of DKA → 1-2% • Specifically, mortality relates to cerebral oedema. (SCE- question samples.mrcpuk.org) A 26-year-old woman with DKA. After 24 hours of treatment with intravenous fluids, potassium and insulin, her normal subcutaneous insulin regimen was resumed. However, she felt nauseated and there was a concomitant increase in blood ketones to 3.5 mmol/L (<0.3). random plasma glucose: 7.3 mmol/L. What is the most appropriate next step in management? • start glucose 10% with fixed-rate intravenous insulin  A fixed-rate insulin infusion is recommended for faster resolution of DKA.  If the blood glucose is below 14 mmol/L, it is necessary to administer intravenous infusion of 10% glucose in order to avoid hypoglycaemia and permit the continuation of fixed-rate intravenous insulin. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hypoglycaemia Definition • In patients with diabetes: generally described as ≤ 3.9 mmol/L (≤ 70 mg/dL). • It can be defined as “mild” if the episode is self-treated and “severe” if assistance by a third party is required. Counter-regulatory responses in patients with hypoglycaemia and threshold for symptoms • There is considerable variability in the serum glucose level at which a person will experience symptoms of hypoglycemia. Usually occurred by the time serum glucose concentration is < 2.8 mmol/L (50 mg/dL). • Response mechanisms against hypoglycaemia in healthy patients:  The first response is → insulin release inhibition. This occurs when plasma glucose reaches approximately 4 mmol/L.  The second response is → counterregulatory hormone release (glucagon, adrenaline, noradrenaline, cortisol, and growth hormone). Occurs when glucose drops to 3.6-3.9 mmol/L. • Recurrent hypoglycemia in diabetic patients → hypoglycemia-associated autonomic failure (HAAF) → changes in the counterregulatory response (e.g., decreased epinephrine release) → lower glucose threshold needed to trigger symptoms → asymptomatic hypoglycemia (for this reason, the initial symptom of hypoglycemia in patients with HAAF is often confusion.) Epidemiology • between 30 to 40 % of patients with type 2 diabetes experience symptomatic hypoglycaemia. • The prevalence of severe hypoglycaemia is similar in patients with type 2 diabetes receiving insulin for more than 5 years to that in patients with type 1 diabetes Causes Diabetic patients: relative overdose of insulin or a noninsulin drug is the most common cause. • Insulin-related  Insulin excess or noninsulin drugs (e.g., sulfonylureas, meglitinides)  Increased sensitivity to insulin (weight loss, ↑activity/exercise)  Decreased insulin clearance (renal failure) • Glucose-related (missed meals, Exercise) • Acute illness (sepsis, organ failure) Nondiabetic patients • Endogenous hyperinsulinism or IGF ( insulinoma, Gastric bypass surgery (late dumping syndrome) • Exogenous hyperinsulinism (self-administration of insulin/sulphonylureas) • Critical illness (sepsis, organ failure) • Liver failure • Hormone deficiencies ( hypopituitarism, adrenal insufficiency) • Alcohol • Autoimmune causes  Insulin autoimmune syndrome (IAS)  Anti-insulin receptor autoantibodies: Usually associated with autoimmune diseases like Sjögren syndrome and SLE. • Drugs that cause hypoglycemia  Nonselective beta blockers Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Antimalarial drugs: quinine, chloroquine  Antibiotics: sulfonamides, trimethoprim-sulfamethoxazole, fluoroquinolones  Antifungal drugs: pentamidine, oxaline  Analgesics: indomethacin, propoxyphene/dextropropoxyphene  Antihypertensive drugs: ACE-inhibitors → improve insulin sensitivity.  Antiarrhythmics: cibenzoline, disopyramide  Low dose aspirin → ↓prostaglandin synthesis → stimulate beta cell  Others: IGF-1, lithium, mifepristone, heparin, 6-mercaptopurine Consider factitious disorder in patients with access to insulin and other diabetes medications (e.g., healthcare professionals), for whom there is no other obvious explanation for hypoglycemia. Beta blockers can mask signs of hypoglycaemia. Features • Neurogenic/autonomic  Increased sympathetic activity: tremor, pallor, anxiety, tachycardia, sweating, and palpitations  Increased parasympathetic activity: hunger, paresthesias, nausea, and vomiting • Neuroglycopenic  Agitation, confusion, behavioral changes  Fatigue  Seizure, focal neurological signs  Nocturnal hypoglycaemia →vivid dreams →REM sleep disruption → daytime weakness and somnolence.  Somnolence → obtundation → stupor → coma → death Diagnosis → Whipple triad:  Low plasma glucose concentration  Signs or symptoms consistent with hypoglycemia  Relief of symptoms when plasma glucose increases after treatment Standard work-up for hypoglycaemia: • Laboratory (not test-strip) blood glucose measurement • Insulin and C-peptide levels taken during the hypoglycaemic attack  Hypoglycaemia + hyperinsulinaemia → insulin is the cause of hypoglycaemia.  External insulin does not contain C-peptide, which is released from pancreatic islet with endogenous insulin.  ↑ Insulin + ↓ C-Peptide → insulin abuse  ↑ Insulin + ↑ C-Peptide → endogenous hyperinsulinism (e.g insulinoma, sulphonylurea) • Sulphonylurea level (serum or urine) • Liver function tests to rule out significant liver dysfunction • Blood alcohol and alcohol history • Cortisol levels, with or without Synacthen testing • Chest X-ray to exclude occult malignancy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Work-up for hypoglycaemia is not indicated in two occasions • If the Whipple triad is not confirmed, no further workup is indicated. • Hypoglycemia in diabetic patients is almost always due to acute illness and/or medications (e.g., insulin) and further workup is generally not indicated. If both C-peptide and insulin are raised → Suggests endogenous insulin secretion. • Request a plasma sulfonylurea screen is the most appropriate next step, and depending on the result of this, further investigation may be required. ↑ Insulin with ↓ C-Peptide level points to a diagnosis of insulin abuse →Exogenous insulin administration (as the C peptide is released with endogenous insulin). C-Peptide level ↑ with Sulfonylurea abuse Management • For patient who are able to swallow:  Oral glucose 15–20 g (Fast-acting carbohydrates such as glucose tablets, candy, or juice)  Chocolate is not recommended as it contains fat which shown to slow the absorption of quick acting carbohydrate.  Repeat capillary blood glucose measurement 10-15 minutes later. If it is still less than 4.0mmol/L, repeat step 1 (no more than 3 treatments in total).  If blood glucose remains less than 4.0mmol/L after 30-45 minutes or 3 cycles, Consider: 150-200ml of 10% I.V glucose over 15 minutes  Once blood glucose is above 4.0mmol/L and the patient has recovered, give a long acting carbohydrate (e.g. Two biscuits, One slice of bread/toast, 200-300ml glass of milk, Normal meal if due. • For patient who are unable to swallow (e.g. Glasgow Coma Scale Score ˂ 13):  If intravenous access can be obtained.  I.V glucose:  10% or 20% glucose solutions are preferred options:  give 75-100ml of 20% glucose over 15 minutes. Repeat capillary blood glucose measurement 10 minutes later. If it is still less than 4.0mmol/L, repeat.  give 150-200ml of 10% glucose over 15 minutes. Repeat capillary blood glucose measurement 10 minutes later. If it is still less than 4.0mmol/L, repeat  50% intravenous dextrose is not recommended by Joint British Diabetes Societies (JBDS): (hyperosmolarity →↑risk of extravasation injury, venous endothelium destruction and phlebitis).  if no intravenous access can be obtained → Glucagon (1 mg intramuscularly)  Glucagon acts on the liver by Activates adenylate cyclase → ↑ glycogenolysis and gluconeogenesis → rapid correction of hypoglycaemia Hypoglycaemic symptoms with normal blood glucose level • Adults who have poor glycaemic control may start to experience symptoms of hypoglycaemia above 4.0mmol/L. • adults who are experiencing hypoglycaemia symptoms but have a blood glucose level greater than 4.0mmol/L – treat with a small carbohydrate snack only e.g. 1 medium banana, a slice of bread or normal meal if due. (diabetologists-abcd.org.uk) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism MRCPUK-part-1-September 2011 exam: An 18-year-old girl is admitted with hypoglycaemia (RBS: 1.9 mmol). her father who has type 2 DM describes a number of similar episodes. Insulin15 mg/ml (6-10 mg/ml)Proinsulin22% (22-24%) C-peptide 0.15 nmol/l (0.2-0.4 nmol/l).What is the most likely diagnosis? Insulin abuse (The raised insulin with low c-peptide level points to a diagnosis of insulin abuse. C-peptide levels would be raised in a patient following sulfonylurea abuse) Hypoglycaemic episodes after regular exercise in patient who takes BD mixed insulin: • the most appropriate next step in his management is → transfer to a basal bolus regime where he can alter his short acting insulin dose just prior to planning exercise. Diabetes mellitus: early morning hyperglycemia Overview • The most common causes of morning hyperglycemia are nocturnal growth hormone secretion and hypoinsulinaemia. • There is no evidence to support the existence of Somogyi effect (nocturnal hypoglycemia leading to a surge of counterregulatory hormones, leading to hyperglycemia in the morning). The opposite is typically found, ie, patients with morning hyperglycemia typically have high, not low, blood glucose concentrations at night. Dawn phenomenon • Definition: A physiological increase of growth hormone (GH) levels in the early morning hours stimulates hepatic gluconeogenesis and leads to early-morning hyperglycemia • Diagnosis: measurement of nocturnal blood glucose → normal nocturnal glycemia, with early-morning hyperglycemia • Treatment: Long-acting insulin dose may be given later or increased under careful glycemic control. Hypoglycaemia unawareness (HU) Definition • Hypoglycemia unawareness (HU) is defined as onset of neuroglycopenia before the appearance of autonomic warning symptoms. Incidence • Occurs in approximately 40% of people with type 1 diabetes mellitus (T1DM) and with less frequency in T2DM. Mechanism • Recurrent hypoglycaemia → hypoglycemia-associated autonomic failure (HAAF) → failure of counter-regulatory hormones → inability to recognise impeding hypoglycaemia by symptoms. • Impaired awareness of the symptoms of plasma glucose levels below 3 mmol/litre is associated with a significantly increased risk of severe hypoglycaemia. • more common in patients with intensively controlled diabetes of long duration, leading to recurrent hypoglycaemia. • Alcohol inhibits gluconeogenesis, decreases peripheral hypoglycaemic responses and impairs perception of symptoms of hypoglycaemia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Symptoms and signs associated with progressive hypoglycemia Treatment • Optimizing insulin treatment, flexible insulin therapy using basal–bolus regimens → Avoidance of hypoglycemia • avoid hypoglycaemia in adults with type 1 by offering insulin pump and real‑ time continuous glucose monitoring. • In recurrent severe hypoglycaemia that has not responded to other treatments refer to islet cell transplantation. • NICE advise to avoid relaxing individualised blood glucose targets to address impaired hypoglycaemia awareness → use the recommended targets • The patient demonstrating hypoglycemia unawareness is required to stop driving for 3 months after a second episode of hypoglycaemia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Hyperosmolar hyperglycaemic state (HHS) Pathophysiology • Severe hyperglycemia → ↑ serum osmolality → osmotic diuresis → severe dehydration • In general, there is enough insulin in patients with type 2 diabetes to suppress ketogenesis, but insufficient to prevent hyperglycaemia and the hepatic resistance to glucagon. Overview • Occurs most commonly in elderly people with type 2 diabetes • Infection is the commonest precipitating factor (80%). • Mortality is higher than DKA (5% to 15%). Features • Osmotic features : Polyuria, polydipsia, • Dehydration: dry mucous membranes, poor skin turgor, hypotension. • Acute cognitive impairment (lethargy, disorientation, stupor) is common Diagnostic criteria • Hypovolaemia • Hyperglycemia ( ≥ 30 mmol/L) • ↑ Serum osmolality (> 320 mOsm/kg) • Normal serum pH and ketones (pH >7.3, bicarbonate >15mmolL and no significant ketonenaemia <3mmol/L) Management • Fluids  Fluid losses in HHS are estimated to be between 100 - 220 ml/kg (e.g. 10-22 litres in an individual weighing 100 kg).  The fluid of choice is 0.9% sodium chloride (NaCL)  Only switch to 0.45% (NaCL) if the osmolality is not declining despite adequate positive fluid balance. An initial rise in sodium is expected and is not itself an indication for hypotonic fluids.  Fluid replacement alone with 0.9% sodium chloride solution will result in falling blood glucose.  IV fluid replacement should aim to achieve a positive balance of 3-6 litres by 12 hours and the remaining replacement of estimated fluid losses within the next 12 hours. • Insulin  Low dose IV insulin (0.05 units/kg/hr) should only be commenced once the blood glucose is no longer falling with IV fluids alone OR immediately if there is significant ketonaemia (3β-hydroxy butyrate greater than 1 mmol/L or urine ketones greater than 2+)(e.g. mixed DKA / HHS picture). • Potassium  Patients with HHS are potassium deplete, decreased intracellular K+ (normal or increased serum K+).  less common problem in HHS than DKA but monitoring and replacement are essential  Potassium should be replaced or omitted as required  If potassium level in first 24 hr (mmol/L)→ No potassium replacement  If K : 3.5 – 5.5 → 40 mmol/L  If K below 3.5 → senior review as additional potassium required • Prophylactic anticoagulation: low molecular weight heparin (LMWH) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Targets • The fall in blood glucose should be no more than 5 mmol/L/hr • The rate of fall of plasma sodium should not exceed 10 mmol/L in 24 hours. • Rapid changes of serum osmolarity are dangerous and can result in cardiovascular collapse and central pontine myelinolysis (CPM). • Measure or calculate osmolality (2Na+ + glucose + urea) frequently to monitor treatment response Complication • Thrombotic events such as myocardial infarction, stroke or peripheral arterial thrombosis. • Cerebral oedema, seizures secondary to rapid reduction in serum osmolality. • Rapid correction of hyponatraemia, may lead to cerebral pontine myelinolysis _Diabetes mellitus: hypertension management Antihypertensive therapy is the single intervention most likely to reduce the overall risk of both microvascular and macrovascular events. • Lipid lowering therapy → prevent macrovascular events, but has no effect on microvascular events. • Lowering HbA1c only prevent → microvascular events. First-line antihypertensive drug • For most diabetics regardless the age → ACE inhibitor. • For African or Caribbean family origin: ACE inhibitor plus either a diuretic or a generic calcium-channel blocker. • For a woman for whom, there is a possibility of becoming pregnant → calcium-channel blocker • Because ACE-inhibitors have a renoprotective effect in diabetes they are the first-line antihypertensives recommended • If an ACE inhibitor or ARB cannot be used, alternative first-line agents include calcium channel blockers and diuretics. However, in patients with severely increased albuminuria, nondihydropyridine agents (eg, diltiazem, verapamil) are generally preferred over dihydropyridine drugs (eg, amlodipine, felodipine), since nondihydropyridine calcium channel blockers can reduce albuminuria. • The routine use of beta-blockers in uncomplicated hypertension should be avoided, particularly when given in combination with thiazides, as they may cause insulin resistance, impair insulin secretion and alter the autonomic response to hypoglycaemia. Targets: NICE recommend the following blood pressure (BP) targets for type 2 diabetics: • If end-organ damage (e.g. renal disease, retinopathy) < 130/80 mmHg • If NO end-organ damage < 140/80 mmHg ACE inhibitors are first-line for hypertension in diabetics, irrespective of the patients age Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Post prandial pain in diabetics Macrovascular atherosclerosis in diabetes → Post prandial pain • Diabetes, especially Type 2 diabetes, is associated with macrovascular disease. • Smoking is a further risk factor for macrovascular atherosclerosis. • After a meal splanchnic blood flow is increased. If the mesenteric artery is occluded the lack of blood flow to the bowel will produce ischaemic type pain. Diabetic retinopathy Definition • Diabetic retinopathy is the retinal consequence of chronic progressive diabetic microvascular leakage and occlusion. Epidemiology • The most common cause of visual impairment and blindness in adults aged 25-65 yearsold. • About 80% of patients with type I diabetes will have retinopathy 10 years after presentation. By contrast, in type II diabetes, where the time of onset is uncertain, up to 25% of patients will have retinopathy at the time of diagnosis. • Features of retinopathy usually do not appear in patients with type 1 diabetes for up to 5 years following diagnosis. Causes of rapid worsening of diabetic retinopathy • Pregnancy • Rapid improvement in blood glucose  suddenly dropped glucose levels → retinal artery vasoconstriction → rapid deterioration of retinopathy. • The risk of diabetic retinopathy significantly increased in smokers with type 1 diabetes while significantly decreased in smokers with type 2 diabetes (a meta-analysis published in 2018). Pathogenesis • Hyperglycaemia → ↑ retinal blood flow & abnormal metabolism in the retinal vessel walls → damage to endothelial cells & pericytes  Endothelial dysfunction → ↑ vascular permeability → exudates (seen on fundoscopy).  Pericyte dysfunction → predisposes to the formation of microaneurysms.  Retinal ischaemia → production of growth factors → Neovasculization Which factor has been shown to have an important role in regulating retinal capillary blood flow? • Contractile action of pericytes. • DM →↓ retinal pericytes (normally contractile action of pericytes regulates retinal capillary blood flow) → disordered blood flow regulation → ↑ retinal blood flow → ↑ shear stress on the vessel walls → retinopathy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The most likely cause of blurred vision in a newly diagnosed diabetic who was previously fit and well is → Osmotic changes in the lens. Features • Asymptomatic until very late stages of disease • Visual impairment • Progression to blindness Classification The earliest sign of diabetic retinopathy is the presence of microaneurysms on fluorescein angiography. Recently a new classification system has been proposed, dividing patients into those with nonproliferative diabetic retinopathy (NPDR) and those with proliferative retinopathy (PDR): Traditional classification New classification Background retinopathy • microaneurysms (dots) • blot haemorrhages (≤ 3) • hard exudates Pre-proliferative retinopathy • cotton wool spots (soft exudates; ischaemic nerve fibres) • 3 blot haemorrhages • venous beading/looping • deep/dark cluster haemorrhages • more common in Type I DM, treat with laser photocoagulation Mild NPDR • 1 or more microaneurysm Moderate NPDR • microaneurysms • blot haemorrhages • hard exudates • cotton wool spots, venous beading/looping and intra-retinal microvascular abnormalities (IRMA) less severe than in severe NPDR Severe NPDR • blot haemorrhages and microaneurysms in 4 quadrants • venous beading in at least 2 quadrants • IRMA in at least 1 quadrant Non-Proliferative Diabetic Retinopathy (NPDR) • Subtypes  Mild NPDR  1 or more microaneurysm  Moderate NPDR  Microaneurysms  blot haemorrhages  hard exudates  cotton wool spots, venous beading/looping and intra-retinal microvascular abnormalities (IRMA) less severe than in severe NPDR  Severe NPDR  blot haemorrhages and microaneurysms in 4 quadrants  venous beading in at least 2 quadrants  IRMA in at least 1 quadrant • Management  regular observation  if severe/very severe consider panretinal laser photocoagulation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Proliferative retinopathy • Features  More common in Type I DM, 50% blind in 5 years  Normal visual acuity is seen in proliferative retinopathy  Retinal neovascularisation (new vessels)- may lead to vitrous haemorrhage • Management  Urgent referral to an ophthalmologist (seen within one week)  laser photocoagulation: 90% effective in preventing loss of vision in type 1 diabetes.  Intravitreal anti-vascular endothelial growth factor (VEGF) injection  If severe or vitreous haemorrhage: vitreoretinal surgery. Maculopathy • More common in Type II DM • May occur in all stages of NPDR and PDR • Macular oedema is a common form of maculopathy: Occurs when there is abnormal leakage and accumulation of fluid in the macula from damaged blood vessels in the nearby retina. • Mechanism: Retinal vessel microangiopathy → blood leaks → retinal hemorrhages → retinal infiltration with lipids and fluid → macular edema • Features  Macular oedema, Hard exudates and macular ischemia.  The exudates can be arranged in a ring (circinate exudates) surrounding a point of capillary leakage. • Diagnosis: Can be shown on fluorescein angiography • Management  check visual acuity  responds to laser treatment at the point of leakage.  If there is a change in visual acuity then intravitreal vascular endothelial growth factor (VEGF) inhibitors. Cotton wool spots (CWS) is a pre-proliferative feature: represent infarcts of the nerve fibre layer of the retina. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diabetic Eye Screening Programme (NHS-2015) • Screening for diabetic retinopathy is offered to all people aged 12 and over with type 1 or type 2 diabetes. • Intervals between screening tests  For diabetics at low risk of sight loss: one year to two years.  For those at high risk of sight loss: one-year Treatment • Glycaemic control  Achievement of target HbA1c of 47.54 mmol/mol (6.5%) would be associated with significantly reduced progression of retinopathy.  Should be done gently and gradually (over several weeks) because suddenly drop glucose levels → retinal artery vasoconstriction → rapid deterioration of retinopathy. • Hypertensive control has been shown to be more effective than glycaemic control at reducing progression. • Indications for emergency referral to ophthalmologist:  sudden loss of vision  rubeosis iridis  pre-retinal or vitreous haemorrhage  retinal detachment. • Indication for urgent referral to the ophthalmologist (seen within one week)  Hard exudates in the macular region (evidence of clinically significant macular oedema)  proliferative retinopathy  Vitreous haemorrhage Prognosis • The percentage of irreversible loss of vision within 5 years if not treated:  3% in those with background retinopathy  20% for those with exudative  30% for those with pre-proliferative,  50% for those with proliferative retinopathy. Asymmetric diabetic retinopathy Asymmetric DM Retinopathy → suspect ocular ischemia (carotid artery disease) • Asymmetric diabetic retinopathy should always raise the suspicion that there is some other cause of ocular ischaemia on the worst-affected side, such as unilateral or asymmetrical carotid artery disease → do Carotid Doppler. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Hypertensive retinopathy The presence of flame and blot haemorrhages, cotton wool spots and blurring of the optic disc margins are typical of the retinal changes that are seen in advanced hypertensive retinopathy. Whilst some of these findings are also observed in diabetic eye disease (e.g. dot and blot haemorrhages, cotton wool spots), the absence of other features (e.g. hard exudates, venous beading) should alert the clinician to other possible diagnoses. Diabetic retinopathy during pregnancy Diabetic retinopathy may rapidly deteriorate during pregnancy; therefore needs dilated fundoscopy or photography every trimester (3 monthly). • Because of the increased risk of progression of the disease in pregnancy, conception should be delayed till the ocular disease is treated and stabilized and good diabetic control. Diabetic neuropathy Mechanism of neuropathy in diabetes (Nerve ischemia ) • Diabetes damages small blood vessels, which supply the nerve leads to nerve ischaemia. Overview • Chronic hyperglycaemia damages small blood vessels, which supply the nerve leads to nerve ischaemia. • Distal symmetric polyneuropathy is the most common form. • Sensory nerves are affected more than motor so often reflexes remain intact. • Diabetic peripheral neuropathy usually goes in parallel with retinopathy and nephropathy. • It is also slowly progressive and affects mainly the spinothalamic pathway. • The most distal portion of the longest nerves is affected first. Risk factors • poorly controlled hyperglycaemia • prolonged duration of diabetes (e.g., >10 years) • Older age (e.g., >70 years) • Tall stature (longer fibres are more vulnerable to injury). • Hypertension • Smoking • Dyslipidaemia with elevated triglycerides • co-existence of multiple CVD risk factors (type 2 diabetes) Features • Asymptomatic (Up to 50%), but the physical examination reveals mild to moderately severe progressive symmetric loss of sensation in the distal lower extremities (stocking glove sensory loss) • Pain is the most common symptom induced by the involvement of small fibres • Loss of sensation → painless injuries over pressure points, most commonly on the foot, over the metatarsal heads. • Autonomic features Symptoms and signs of distal symmetric polyneuropathy (DSPN) Large, myelinated nerve fibers Small, myelinated nerve fibers Function Pressure, balance Nociception, protective sensation Symptoms Numbness, tingling, poor balance Pain: burning, electric shocks, stabbing Ankle reflexes: reduced/absent Examination Vibration perception: reduced/absent (clinically 10 g monofilament (light pressure): diagnostic) reduced/absent Proprioception: reduced/absent Treatment: First-line: duloxetine, amitriptyline, gabapentin or pregabalin Large fiber involvement in neuropathy results in reduced proprioception, light pressure and vibration sensation and is the earliest clinically identifiable feature of peripheral sensory motor neuropathy. Short fiber neuropathy is a later manifestation of diabetic peripheral neuropathy, with symptoms including hyperparesthesia and superficial pain. Examination findings indicative of short fiber neuropathy include impaired thermosensation, reduced sweating and a cold foot • Duloxetine  Action: serotonin-norepinephrine reuptake inhibitor (SNRI)  Duloxetine is preferred to amitriptyline because it is associated with a lower risk of urinary retention.  Contraindications:  history of glaucoma  patients already taking a serotonergic agent, such as tramadol, because of the associated risk of serotonin syndrome. • Amitriptyline  recommended by NICE as second line if duloxetine is unsuitable.  Contraindications:  glaucoma and left bundle branch block • Pregabalin or gabapentin  Action: voltage-gated calcium channel modulator  considered as second or third line monotherapy or in combination.  If there is renal impairment, pregabalin is preferable over gabapentin. • If the first-line drug treatment does not work try one of the other 3 drugs Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Thermal (cold/hot) discrimination: reduced/absent Pinprick sensation: reduced/absent 009 - Chapter 1 009 Chapter 1 Chapter 1 Endocrinolog & Metabolism Pharmacotherapy for painful diabetic neuropathy: Relevant comorbidities for drug selection Drug class Comorbidities favoring use Comorbidities favoring avoidance Serotonin-norepinephrine • Depression reuptake inhibitors (SNRIs) • Anxiety Duloxetine Venlafaxine Tricyclic antidepressants • Depression (TCAs) • Anxiety • Insomnia • Amitriptyline • Nortriptyline • Desipramine Gabapentinoid anticonvulsants • Restless legs syndrome • Essential tremor • Pregabalin • Insomnia • Gabapentin disease Peripheral neuropathy with H/O glaucoma and on tramadol for chronic back pain, what is the best treatment? • Pregabalin Acute painful neuropathy of rapid improvement of blood glucose control • rapid improvement of blood glucose control → Acute painful neuropathy (self-limiting) → Simple analgesics (paracetamol, aspirin) and local measures (bed cradles) are recommended as a first step • Duloxetine is the standard first line therapy for neuropathy • Amitriptyline is an alternative option to duloxetine if it is contraindicated; (e.g. presence of glaucoma) • Pregabalin is recommended either as a second line agent or in combination with amitriptyline. MRCPUK-part-1-September 2009 exam: H/O type 2 DM and benign prostatic hypertrophy (BPH) presents with burning pain in his feet. He tried duloxetine but no benefit. What is the most suitable initial management? • Pregabalin • Amitriptyline is first choice but given H/O BPH, it is better to avoid amitriptyline due to the risk of urinary retention. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Restless legs syndrome • Sexual dysfunction (for venlafaxine) • Angle-closure glaucoma • Cardiac disease • Prolonged QTc • Orthostatic hypotension • Sexual dysfunction • Urinary retention • Angle-closure glaucoma • Substance abuse • Peripheral edema • Chronic obstructive pulmonary Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diabetic autonomic neuropathy Features Urogenital system • Erectile dysfunction (most common) • Bladder dysfunction: urinary retention, incomplete bladder emptying, bladder distention, overflow incontinence, poor urinary stream Cardiovascular system • Silent myocardial infarction • Decreased heart variability or fixed rhythm  Heart rate variability during breathing of < 10 beats per minute  Heart rate increase on standing of < 15 beats per minute • Orthostatic hypotension • Persistent sinus tachycardia • Ventricular arrhythmia Gastrointestinal system • Gastroparesis  Delayed gastric emptying due to nonmechanical obstruction  Mostly idiopathic but also associated with diabetes mellitus and upper GI surgery  Manifested with nausea, abdominal bloating, early satiety  Increased risk of postprandial hypoglycemia  Treatment involves prokinetic agents, e.g., metoclopramide (first-line), erythromycin, domperidone. • Diarrhea, constipation, incontinence Other manifestations • Sweat gland dysfunction associated with heat intolerance • Pupillary dysfunction • Risk of hypoglycemia due to absence of hormonal counter-regulation (secretion of cortisol, glucagon, and catecholamines) Type 2 diabetes with erratic blood glucose control or unexplained gastric bloating or vomiting → Think about a diagnosis of gastroparesis. Diabetic amyotrophy Leg pain, weakness and reduced knee reflexes with an impaired fasting glucose concentration suggests a diagnosis of diabetic amyotrophy →should be confirmed with OGTT. Definition • Diabetic amyotrophy is a type of diabetic neuropathy which affects the lumbosacral plexus, nerve roots and peripheral nerves, therefore known as proximal diabetic neuropathy and diabetic lumbosacral plexopathy. It is a mixed motor and sensory proximal neuropathy that can cause severe pain. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Epidemiology • Relatively uncommon, affect 1% of patients • Typically occurs in patients with type 2 diabetes mellitus that has been recently diagnosed or has been under fairly good control. Pathophysiology • The most likely mechanism is ischemic injury from microvasculitis leading to axonal degeneration (e.g. occlusion of the vasa nervorum of the proximal lumbar plexus and/or femoral nerve). Differences from other types of diabetic neuropathy • Patients usually have not had diabetes for a long time, and glycaemic dysregulation is often not severe.  A diagnosis of diabetic amyotrophy leads to the discovery of underlying diabetes mellitus in one quarter to one third of cases.  Long-term diabetic complications such as diabetic retinopathy and nephropathy are often absent at the time of diagnosis. Features • Pain is usually the first symptom, often in the thigh, hips or buttocks • Often asymmetrical (although it can be bilateral). • Wasting and weakness of proximal muscles (e.g. difficulty getting out of a chair) • Weight loss • Loss of knee reflexes • There is often little sensory loss. • Autonomic failure Investigations • EMG shows multifocal denervation in paraspinous & leg muscles. • MRI is useful to rule out other causes of neurologic impairment, such as structural lesions of the lumbosacral plexus, brachial plexus, or spinal cord. Prognosis • Often self-improvement with time • Most patients will not recover completely. Treatment • No treatments are proven to be effective. • Neuropathic pain treatments include amitriptyline, gabapentin, pregabalin, or duloxetine. • May improve with good control (the mainstay of treatment is supportive care and transference to insulin therapy). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diabetic foot Epidemiology • 2% of patients with diabetes in the community develop new foot ulcers each year Pathophysiology • It occurs secondary to two main factors:  neuropathy: resulting in loss of protective sensation (e.g. not noticing a stone in the shoe), Charcot's arthropathy, dry skin  peripheral arterial disease: diabetes is a risk factor for both macro and microvascular ischaemia Presentations • Neuropathy: loss of sensation • Ischaemia: absent foot pulses, reduced ankle-brachial pressure index (ABPI), intermittent claudication • Complications: calluses, ulceration, Charcot's arthropathy, cellulitis, osteomyelitis, gangrene Screening • All diabetic patients should be screened for diabetic foot at least annually. • screening for ischaemia: done by palpating for both the dorsalis pedis pulse and posterior tibial artery pulse • screening for neuropathy: a 10 g monofilament is used on various parts of the sole of the foot. Differential diagnosis • Venous stasis ulcers  Mechanism: Venous reflux → congestion and dilated veins, which impair the transport of fresh blood to the area.  Sites: Typically present in the area around the ankle  Treatment:  Multi-layer bandaging is most useful in reducing lower limb oedema and improving the chances of healing of venous ulcers.  An ankle brachial pressure index (ABPI) measurement is essential before beginning bandaging, as if there is significant arterial insufficiency, blood supply to the lower limb may be threatened. Features Neuropathic foot Ischaemic foot often warm Cold foot Painless or abnormal neuropathic pain. causes rest pain bounding pulses nearly pulseless foot ulceration tends to occur on the plantar surface Ulceration tends to be painful and often presents in the heal area It can be high arched, with toe clawing. there is often gravity-dependent reddening of the foot, which disappears on elevation of the foot. In about one third of patients with diabetic foot, the underlying cause is both ischemic and neuropathic. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism This is a typical neuropathic ulcer, with callus forming the edge and a clean base. Diabetic neuropathic arthropathy (Charcot foot) In patients with long-standing diabetes and peripheral neuropathy, a red, hot swollen foot should raise suspicion of Charcot neuroarthropathy after exclude infection. Definition • Disrupted and damaged joint (mid-foot collapse) secondary to a loss of sensation. Causes • Diabetes mellitus (The most common cause) Pathophysiology • Multifactorial, due to a combination of mechanical, neuropathic and vascular  Peripheral neuropathy (lack of pain sensation) → ↑ stress injuries to foot joints (commonly the midfoot) → Charcot process.  Autonomic neuropathy →↑ blood flow to the joint→ ↑ osteoclast activity and bone turnover "washing out" of bone substance → ↑foot susceptibility to minor trauma → destructive changes → Charcot’s • The commonest affected joints are tarso-metatarsal joint and metatarsophalangeal joint. Features • The foot and ankle are typically swollen, red and warm • Midfoot arch collapse can lead to bony prominences on the plantar aspect with later pressure ulceration • Typically, less painful than would be expected given the degree of joint disruption due to the sensory neuropathy. However, 75% of patients report some degree of pain Diagnosis • Infection such as osteomyelitis is important to exclude.  Normal C-reactive protein and white blood cell count → make osteomyelitis unlikely  Although not widely available, an indium-labelled white cell scan is the best way to differentiate between infective causes of this clinical presentation and Charcot’s arthropathy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • X-ray: plain radiographs can be normal in the early stages. later on, they show joint destruction, osteolysis, joint reorganisation and subluxation. • MRI: in acute Charcot's arthropathy shows midfoot subchondral bone marrow edema Management • Immobilisation in a plaster cast for 3–6 months is the treatment of choice. • Bisphosphonates : bisphosphonates → reduction in bone reabsorption → accelerate healing. • Surgery: reserved for severe deformities Necrobiosis lipoidica diabeticorum Definition • A disorder of collagen degeneration with a granulomatous response, thickening of blood vessel walls, and fat deposition. Causes • Occurs in patients with type 1 diabetes, • It is usually related to diabetes, but can also occur in patients with rheumatoid arthritis • May precede symptoms and signs of diabetes by several months. Epidemiology • More common in females • Presents in young adults or in early middle life. Features • Typically, painless. • Beginning as a patch of erythema that spreads across the shin, begins to yellow and can then ulcerate. Diagnosis • Biopsy reveals granuloma formation with infiltration of lymphocytes, plasma cells and eosinophils. Treatment • Topical steroids is the most appropriate treatment to the non-atrophied areas. the areas of already atrophied skin respond poorly to steroid therapy. • Support bandaging Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Necrobiosis lipoidica diabeticorum Diabetes mellitus: DVLA Type 1 vehicles (cars, motorcycles) • If on insulin then patient can drive a car as long as they:  have hypoglycaemic awareness,  not more than one episode of hypoglycaemia requiring the assistance of another person within the preceding 12 months  no relevant visual impairment.  Drivers are normally contacted by DVLA • If on diet controlled alone, tablets or exenatide no need to notify DVLA. Type 2 vehicles (lorries, HGV) • HGV drivers can retain their license even if taking insulin, providing they are able to meet a set of criteria. • Criteria regarding driving for patient on insulin (and also apply to patients using other hypoglycaemic inducing drugs such as sulfonylureas): If a patient has two or more episodes of severe hypoglycaemia (i.e. patient needs help to correct the hypoglycaemic episode) then they need to inform the DVLA and not drive. having no episodes of hypoglycaemia requiring the assistance of another person within the preceding 12 months evidence of good glycemic control - demonstrated by review of 3months of BM readings on insulin close BM monitoring (at least BD) full hypoglycaemia awareness the ability to manage hypoglycaemia independently no other complications of diabetes (e.g. visual field impairments.) Hypoglycaemia (DVLA regulations) • Group 1 drivers who have had more than one episode of severe hypoglycaemia (requiring the assistance of another person) while awake in the last 12 months  Must not drive and must notify the DVLA.  DVLA will then carry out medical enquiries before a licensing decision is made. • Group 2 drivers who have had more than one episode of severe hypoglycaemia  Must not drive and must notify the DVLA following all episodes of severe hypoglycaemia including asleep episodes. • Severe hypoglycaemia whilst driving  All Group 1 and Group 2 drivers must not drive and must notify the DVLA. Impaired awareness of hypoglycaemia – ‘hypoglycaemia unawareness’ Group 1 (Car and motorcycle) Group 2 (Bus and lorry) • Must not drive and must notify the DVLA. • Driving may resume after a clinical report by a GP or consultant diabetes specialist confirms that hypoglycaemia awareness has been regained. • Who will inform the DVLA?  the patient should be advised to inform the DVLA themselves rather than breaking patient confidentiality,  if the patient repeatedly fails to follow this advice, then the doctor should inform the DVLA after telling the patient that he or she is doing so. • What advice should be given to a patient on insulin therapy, who developed hypoglycaemia requiring the assistance of another person in the preceding twelve months, with respect to his driving?→Discontinue driving for 1 year A guide for drivers with insulin treated diabetes who wish to apply for Group 2 (bus and lorry) • No hypoglycaemic event requiring the help of another person in the last 12 months. • must have full awareness of the symptoms of hypoglycaemia. • must be able to show an understanding of the risks of hypoglycaemia. • must check blood sugar levels at least twice daily, even on non-driving days and no more than 2 hours before the start of the first journey and every 2 hours while driving. This must be done using a blood glucose (sugar) meter with a memory function to measure and record blood glucose levels. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Must not drive and must notify the DVLA. • The licence will be refused or revoked. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • must attend an examination every 12 months with an independent consultant specialising in the treatment of diabetes. • must have at least 3 continuous months of readings available on the memory of the blood glucose meter(s) for the consultant/GP to inspect. Drivers with insulin treated diabetes are advised by DVLA to: • should check glucose less than 2 hours before the start of the first journey and every 2 hours after driving has started. • A maximum of 2 hours should pass between the pre-driving glucose check and the first glucose check after driving has started. • In each case if glucose is 5.0mmol/L or less, eat a snack. If it is less than 4.0mmol/L or feel hypoglycaemic do not drive. DVLA advice on developing hypoglycaemia at times relevant to driving • In each case if your glucose is 5.0mmol/L or less, eat a snack. • If it is less than 4.0mmol/L or you feel hypoglycaemic do not drive. • If hypoglycaemia develops while driving stop the vehicle safely as soon as possible. • You should switch off the engine, remove the keys from the ignition and move from the driver’s seat. • You should not start driving again until 45 minutes after finger prick glucose has returned to normal (at least 5.0mmol/L). It takes up to 45 minutes for the brain to recover fully. • Your finger prick glucose level must be at least 5.0mmol/L before returning to driving. Jobs that not allowed to subjects with insulin dependent diabetes • Armed forces • Working offshore or aboard ships • Air pilot • Police, Fire or driving in the post office (Traffic police driver) • Driving emergency vehicles • Offshore work If a patient has two or more episodes of severe hypoglycaemia (needs help to correct the hypoglycaemic episode) then they need to inform the DVLA and not drive. (needs to surrender their driving licence) Insulinoma Definition • Insulinoma is a neuroendocrine tumor arise from beta cells of the pancreas Overview • Most common pancreatic endocrine tumour • incidence of 4 cases per million/year • commoner in women • 10% malignant. 90% are benign. • 10% have multiple tumours. ∼ 90% occur as solitary tumors Insulinoma is diagnosed with supervised prolonged fasting Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • 10% may be associated with the MEN-1 syndrome (50% of patients with multiple tumours, have MEN-1) • 90% are less than 2 cm in size. • < 1% occur at ectopic sites (e.g., spleen). Features • Features of hypoglycaemia: typically fasting hypoglycemia (early in morning or just before meal). e.g. hunger, diplopia, sweating, palpitations, memory loss, seizures. • Rapid weight gain: Patients eat in an attempt to avoid hypoglycaemia Diagnosis • Insulin + C-peptide levels during a hypoglycaemic episode  hypoglycemia with inappropriately high insulin levels (hyperinsulinism)  high C-peptide  raised proinsulin: insulin ratio • Supervised, prolonged fasting (up to 72 hours)  If the patient develops symptoms, then a plasma glucose is measured and if low, insulin and C-peptide is then collected and the fast terminated.  Positive if serum glucose levels remain low (< 40 mg/dL) and insulin levels remain high even after fasting for 72 hours.  After a 15 h fast, the cut-off normal limits for glucose are 2.5 mmol/l and 5 mU/l for insulin.  By 24 h, fasting leads to a detection rate of 78% for insulinoma. If the fast is extended to 72 h, this detection rate increases to 98%. • Sulphonylurea screen to exclude possible drug administration • Images to localize the tumor. abdominal CT with contrast. Elevated C-peptide and proinsulin levels may also be the result of sulfonylurea use! This can be ruled out by screening serum samples for sulfonylureas. Management • Surgery is treatment of choice • If surgery is not possible (unfit , refusal, inoperable tumor ) → inhibitors of insulin release → Diazoxide (potassium channel activator) Whipple triad is required before further investigations for insulinoma: hypoglycemic symptoms, low blood glucose level resolution of symptoms after correcting the blood glucose levels. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Glucagonoma Glucagon physiology • Made by α cells of pancreas. • Secreted in response to hypoglycemia. • Inhibited by insulin, amylin, somatostatin, hyperglycemia. • Functions (catabolic effects)  ↑↑ gluconeogenesis from amino acid substrates.  ↑↑ glycogenolysis  ↑↑ lipolysis, ↑↑ amino acid oxidation , ↑↑ ketogenesis  ↑↑ blood glucose  ↑↑ catecholamine secretion  Delays gastric emptying  ↓↓ glycolysis  ↓↓ pancreatic exocrine secretions. Overview • A neuroendocrine tumor that secrete glucagon. • Very rare, with an annual incidence of 1 in 20 million. • Usually solitary, and the majority are located in the distal pancreas. • Frequently malignant. • 50 - 80% are metastatic at presentation, so prognosis is poor. Features • Glucose intolerance , secondary diabetes mellitus • Weight loss due to protein catabolism • Chronic diarrhea • Neuropsychiatric features • Venous thrombo-embolism • Necrolytic migratory erythema  The most common symptoms (found in 75% of cases)  Red, blistering rash, starts as an indurated erythema, within a few days blisters will cover the surface of the skin, which then crust and heal, leaving hyperpigmented skin.  Located predominantly on the face, perineum, and lower extremities, with lesions developing in one area while others are resolving. Glucagonoma → 6 Ds Decreasing weight Diabetes Dermatitis Diarrhea DVT Depression. Diagnosis • Measure plasma glucagon levels → Elevated • Image: CT scan Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Somatostatin analogs (eg, octreotide) → improves the skin rash and diarrhoea • Surgical cure rate is only 5% because these tumours have often metastasized on presentation. Monogenic diabetes: Maturity-onset diabetes of the young ( MODY) Definition • Different forms of autosomal dominant inherited diabetes mellitus characterized by onset of diabetes at a young age (<25 years) and lack of autoantibodies. Epidemiology • It is thought that around 1-2% of patients with diabetes mellitus have MODY, and around 90% are misclassified as having either type 1 or type 2 diabetes mellitus. General features • Subacute presentation (ketosis is not a feature at presentation). • Mild to moderate hyperglycaemia (typically 7-14 mM). • Absence of obesity → Absence of insulin resistance → low insulin requirement (e.g. less than 0.5 u/kg/day). • Strong family history of early onset diabetes. • Absence of autoimmune markers. Diagnosis • High index of suspicion (familial diabetes with autosomal dominant pattern of inheritance [≥3 generations], onset <25 years, nonobese, negative islet autoantibodies) • Genetic testing: the most common mutations:  hepatocyte nuclear factor-1-alpha (HNF1A) → MODY type 3  glucokinase (GCK) → MODY type 2  hepatocyte nuclear factor-4-alpha (HNF4A) → MODY type1 Subtypes • MODY 3 (HNF1A-MODY)  the commonest form of MODY, 60% of cases  due to a defect in the HNF-1 alpha gene (hepatic nuclear factor-1)  characterised by:  ↑HDL cholesterol levels  Preserved insulin sensitivity  Low renal threshold for glucose (glycosuria)  Sulphonylureas is the initial drug of choice  MODY3 is particularly important to diagnose as many patients initially treated with insulin can in fact be managed with sulphonylurea. • MODY 2 (GCK-MODY)  Prevalence: 20% of cases (The second commonest MODY variant after MODY3)  Mechanism: due to a defect in the glucokinase gene (GCK gene)  Glucokinase is found in the liver and in beta cells in the pancreas. acts as a sensor, recognizing when the level of glucose in the blood rises and helping stimulate the release of insulin from beta cells to control it. In the liver, Management Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism glucokinase helps determine when excess glucose should be taken in and converted to glycogen.  When this gene isn’t working properly the body allows the level of blood glucose to be higher than it should be.  Features: Mild hyperglycaemia (slightly higher than normal, generally between 5.58mmol/l). Often picked up through routine testing (eg during pregnancy).  Treatment: 90% of MODY2 patients are controlled on diet therapy alone.  Prognosis: In contrast to all other subtypes, MODY II is not associated with an increased risk of microvascular disease and can be managed with diet alone, despite stable hyperglycemia and chronically elevated HbA1C levels. • MODY type 1 (HNF4A -MODY)  Defect in HNF-4 Alpha gene.  The third commonest MODY (<10%)  Beta cell defect: Reduced insulin secretory response to glucose  Normal renal threshold for glucose  Treatment : Sulfonylureas • MODY 5 (HNF1B-MODY)  Defect in HNF-1 beta gene.  Rare  Renal cysts  Hypomagnesemia  Treatment: insulin is usually necessary Bilateral renal cysts + ↑ glucose → MODY related cyst formation Latent autoimmune diabetes of adulthood (LADA) Definition • a variant of diabetes characterized by a late onset of type 1 (autoimmune) diabetes that is often mistaken for type 2 diabetes. Epidemiology • constitutes approximately 10% of patients incorrectly labelled as type 2 diabetic. Feature • Features consistent with type 1 diabetes (eg: weight loss) • In contrast to type 2 diabetes, patients are typically younger and without an increased body habitus. • In contrast to type 1 diabetes, insulin is not usually required in the early stages of the disease. the progression of autoimmune -cell failure is slow. Diagnosis • Glutamic Acid Decarboxylase (GAD) Autoantibodies test Management • early use of insulin may prolong beta-cell function • a recent Cochrane review concluded that a sulphonylurea should not be the first line treatment since it may be associated with a more rapid progression to insulin dependence Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Mitochondrial diabetes Definition • A rare variant of diabetes occurred due to mutation in the mitochondrial DNA. Features • Can present as type 1 or type 2 depending on the severity of insulinopenia. • Strong familial clustering of diabetes. Although this is also seen in MODY, mitochondrial diabetes can be discriminated from MODY by:  Presence of maternal transmission  Bilateral hearing impairment (usually precede the development of diabetes) →do audiometry. Diagnosis • Mitochondrial diabetes is suspected in female patients with a strong familial clustering of diabetes, with predominantly maternal transmission of disease and the presence of sensorineural deafness. • Genetic analysis → A3243G mutation in the tRNA gene Treatment • with type 2 DM presentation: due to an underlying mitochondrial mutation can be with sulfonylureas is the initial treatment of choice • Metformin is contraindicated due to risk of development of lactic acidosis.  A mitochondrial dysfunction in muscle is expected to lead to a higher lactate  The A3243G mutation was originally detected in patients with mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes (MELAS syndrome) Mitochondrial diseases follow a maternal inheritance pattern • All children of affected females will inherit it. • All children of affected males will not inherit the disease. High glucose + sensorineural deafness → think of mitochondrial diabetes Diabetes in pregnancy Classification of diabetes in pregnancy • Gestational diabetes (GDM) (developed during pregnancy): most common → 87.5% of all diabetic pregnancies. • Pre-existing type 1 or type 2 diabetes Epidemiology • The prevalence of diabetes in pregnancy is 2–5% in the UK of both gestational diabetes and pre-existing diabetes. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Definition • GDM refers to diagnosis of diabetes at 24 to 28 weeks of gestation. • Diagnosis of diabetes in early pregnancy is more consistent with previously undiagnosed type 2 diabetes. Gestational diabetes mellitus (GDM) Risk factors for GDM • BMI of > 30 kg/m • previous macrosomic baby weighing 4.5 kg or above • previous gestational diabetes • first-degree relative with diabetes • family origin with a high prevalence of diabetes (South Asian, black Caribbean and Middle Eastern) Screening for GDM • Women who’ve previously had gestational diabetes:  Oral glucose tolerance test (OGTT) should be performed as soon as possible after booking and at 24-28 weeks if the first test is normal.  NICE also recommend that early self-monitoring of blood glucose is an alternative to the OGTTs. • Women with any of the other risk factors → OGTT at 24-28 weeks Diagnosis: GDM is diagnosed if either: • Fasting glucose is ≥ 5.6 mmol/l • 2-hour glucose is ≥ 7.8 mmol/l • If fasting blood glucose between 5.5 and 7.0 mmol/l then proceed to → 75-g oral glucose tolerance test The oral glucose tolerance test remains the investigation of choice for gestational diabetes Complications • Macrosomia (the commonest complications)  defined by a birth weight > 4.5Kg  affects up to 45% of babies  shoulder dystocia is a common delivery problem occurring in up to 15 – 20% of cases. • Neonatal hypoglycaemia • Maternal complications are hypertension, preeclampsia, increased risk of developing diabetes mellitus and increased risk of cesarean delivery. Management • Advice about diet (including eating foods with a low glycaemic index) and exercise should be given • Aspirin should also be considered given the increased risk of pre-eclampsia. • If the fasting plasma glucose level is < 7 mmol//l  Trial of diet and exercise should be offered  If glucose targets are not met within 1-2 weeks of altering diet/exercise metformin should be started  If glucose targets are still not met insulin should be added to diet/exercise/metformin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • If at the time of diagnosis, the fasting glucose level is ≥ 7 mmol/l  insulin should be started • If the plasma glucose level is between 6-6.9 mmol/l, and there is evidence of complications such as macrosomia or hydramnios:  insulin should be offered • Fasting blood glucose should be checked 6 -13 weeks postpartum Prognosis • the incidence of type 2 diabetes in women with a history of gestational diabetes is 16% Pre-existing diabetes in pregnancy Complications • the risk of severe congenital malformation increased by two-fold in infants born to mother with pre-existing diabetes (pregestational diabetes) Management • Planning pregnancy  Patients should achieve good diabetic control prior to planning for pregnancy.  If this has not been achieved, then NICE advises contraception and to offer termination if pregnancy does occur due to increased risks in pregnancy.  Control will reduce the risk of miscarriage, congenital malformation, stillbirth, and neonatal death. • Stop oral hypoglycaemic agents, apart from metformin, and commence insulin • Folic acid 5 mg/day from pre-conception to 12 weeks gestation • Aspirin 75mg/day from 12 weeks until the birth of the baby, to reduce the risk of preeclampsia • Detailed anomaly scan at 20 weeks including four-chamber view of the heart and outflow tracts • Tight glycaemic control reduces complication rates • Treat retinopathy as can worsen during pregnancy  It is advised, however, if the patient has not had retinal screening within the last six months to offer this urgently as there can be rapid development of diabetic retinopathy in pregnancy. • Continuous glucose monitoring (CGM) improves glucose control Patients with diabetes should have increased frequency of retinal screening during pregnancy due to increased risk of retinopathy Targets for self-monitoring of pregnant women (pre-existing and gestational diabetes) Time Target Fasting 5.3 mmol/l 1 hour after meals 7.8 mmol/l, or 2 hour after meals 6.4 mmol/l Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Lipids and obesity problems Obesity: overview Classification Classification Body Mass Index (BMI) kg/m2 Healthy weight 18.5-24.9 Overweight 25-29.9 Obesity I 30-34.9 Obesity II 35-39.9 Obesity III (Morbid obesity) 40 or more Associated conditions • Metabolic syndrome (hypertension, hyperglycaemia, hyperlipidaemia) • GI conditions: cholelithiasis, nonalcoholic fatty liver disease, GERD, colonic diverticulosis • Respiratory: Obstructive sleep apnea (OSA), obesity hypoventilation syndrome (Pickwickian syndrome) • Polycystic ovary syndrome • Mental health issues: e.g., depression , anxiety, eating disorders • Gout Hormonal alterations in obesity • Increased in obesity  Testosterone (female): due to insulin resistance (PCOS) ↓ SHBG  LH in (female): due to insulin resistance  Insulin: due to ↑ insulin resistance  Renin: due to ↑ Sympathetic tone  Aldosterone: due to ↑ Adipokines, renin- angiotensin, leptin  Leptin : due to increased adipose mass, Leptin resistance • Decreased in obesity  Testosterone (male): due to ↓ SHBG ↑ aromatase ↓GnRH  LH/FSH (male): due to ↑ oestrogens/androgens  Glucagon-like peptide-1 (GLP-1): due to ↑ FFA  25-OH vitamin D: due to trapping in adipose tissue, ↓ sun exposure, ↓ 25OH vitamin D binding protein ↓ liver synthesis.  Ghrelin Appetite regulation (ghrelin and leptin) Leptin (the satiety hormone) • Produced by adipose tissue. • Acts on ventromedial area of hypothalamus (satiety center) to ↓↓ appetite. • Obese people have ↑↑leptin due to ↑↑adipose tissue but are tolerant or resistant to leptin’s anorexigenic effect. • Mutation of leptin gene → severe obesity. • Factors → ↓↓ leptin  Starvation  Sleep deprivation  Stretched stomach Ghrelin makes you ghrow hunghry (the hunger hormone). Leptin keeps you thin (the satiety hormone). _Obesity: management (step-wise approach) Lifestyle modifications • Reduce fat intake  The current UK recommendations: total fat intake should be restricted to less than 30% of dietary energy (the average daily energy consumption of a male is 2500 kcal and 2000 kcal for a female.) • Physical activity: at least 30 minutes of moderate aerobic activity 5–7 times per week. Pharmacological management: Anti-obesity drugs • Indications:  body mass index (BMI) ≥ 30 kg/m2 in whom at least three months of managed care involving supervised diet, exercise and behaviour modification fails.  BMI ≥ 28 kg/m2 + risk factors (eg: diabetes mellitus, coronary heart disease, hypertension and obstructive sleep apnoea) • Discontinuation: Anti-obesity drug treatment should be discontinued :  If weight loss is less than 5% after the first 12 weeks.  If the individual regains weight at any time whilst receiving drug treatment • Contraindications:  Combination drug therapy is contraindicated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ghrelin (the hunger hormone) • Produced by stomach • Acts on hypothalamus to ↑↑ hunger, ↑↑gastric acid secretion and ↑↑GIT motility. Acts synergistically with GnRH to stimulate growth hormone release • Regulate appetite → stimulates hunger • Factors → ↑↑ghrelin  Empty stomach (fasting)  Sleep deprivation  Prader-Willi syndrome • Factors → ↓↓ghrelin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Drugs should never be used as the sole element of treatment (should only be prescribed as part of an overall plan for managing obesity). • Orlistat  Action : pancreatic lipase inhibitor, blocks the breakdown and hence the absorption of dietary fat.  Normally used for < 1 year  Adverse effects: faecal urgency/incontinence and flatulence. Surgical management: bariatric surgery • Benefits  Reduces cardiovascular mortality (the risks of long-term obesity outweigh those of surgery.) • Indications as third line option after failure of lifestyle modifications and anti-obesity drugs to achieve or maintain adequate weight loss for at least 6 months + the patient is fit for surgery + commit to the need for long-term follow-up:  BMI ≥ 40 kg/m^2  BMI ≥ 35 kg/m^2 and other significant disease (eg: type 2 DM, hypertension, sleep apnea) • Indications as first-line option  BMI > 50 kg/m2 (consider orlistat before surgery if the waiting time is long) • Which procedures?  Laparoscopic-adjustable gastric banding (LAGB) is the first-line intervention in patients with a BMI of 30-39kg/m^2 (produces less weight loss than malabsorptive or mixed procedures but as it has fewer complications)  Sleeve gastrectomy (most common form of bariatric surgery) may be considered for patients with a BMI > 40 kg/m^2  Primarily malabsorptive procedures (e.g. biliopancreatic diversion with duodenal switch) are usually reserved for very obese patients (e.g. BMI > 60 kg/m^2) Lipid disorders: Overview Causes • Acquired (more common)  Obesity  Diabetes mellitus  Heavy consumption of alcohol  Hypothyroidism  Nephrotic syndrome  Cholestatic liver disease  Cushing disease  Drugs: antipsychotics, beta blockers (e.g., metoprolol), oral contraceptive pill, highdose diuretic use • Inherited (less common) Pathophysiology • Elevated LDL and reduced HDL → promote atherosclerosis → increased risk of cardiovascular events Classification: WHO/Fredrickson classification Classification Aetiology Lipid profile Notes Type 1 Familial HyperChylomicronaemia Deficiency of Apo Cll or LPL (lipoprotein lipase) typically presents with eruptive xanthoma, abdominal colic. acute pancreatitis Type 11A Familial hypercholesterolaemia Heterozygous type is Common Associated with tendon xanthoma Type 11B Familial Combined Hyperlipidaemia LDL-receptor deficiency The commonest type (two thirds). Associated with glucose intolerance. Type 111 Remnant hyperlipidaemia (dysbetalipoproteinaemia) overproduction of apo B-100 &(VLDL) by the liver Abnormal ApoE ↑ IDL palmar xanthoma is diagnostic fibrates are first line treatment Type 1V Familial hypertriglyceridaemia Overproduction or↓catabolism of VLDL ( due to ↓ LPL) often “polygenic”. Common abdominal pain, eruptive xanthoma and strong family history = think of Chylomicronaemia Lipoproteins • High density lipoprotein (HDL)  Secreted by intestinal epithelium and liver  Composition: Mostly proteins and phospholipids  Function: Transport cholesterol from peripheral tissues (e.g., atherosclerotic arteries) to the liver (reverse cholesterol transport), where it is excreted (e.g., via bile)  Often referred to as “good cholesterol.”  Low levels of HDL are associated with an increased risk of ischaemic heart disease  Among other apoproteins, HDL contains Apo A-1, which is found only in HDL.  Causes of ↑HDL  Exercise  modest alcohol consumption.  ↑oestrogen levels (e.g. contraceptive pill). Women have naturally higher HDL levels compared to men, due to higher oestrogen levels.  Causes of ↓HDL  Diabetes causes low HDL • Low-density lipoprotein (LDL)  Arise from IDL that is modified by hepatic lipases in peripheral tissue and the liver  Composition: Mostly cholesterol  Function: Transport cholesterol from the liver to peripheral tissues and arteries Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ↑ chylomicrons ↑TC > 7.5 ↑LDL-C > 4.9 ↑ LDL ↑VLDL ↑TG ↑TG ↑VLDL Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Often referred to as “bad cholesterol”  they carry only one apolipoprotein, Apo B-100 which binds tissue LDL receptors to facilitate receptor-mediated uptake of cholesterol. • Intermediate-density lipoprotein (IDL)  Formed from VLDL degradation  Function : Transport triglycerides and cholesterol to the liver • Very low-density lipoprotein (VLDL)  Secreted by the liver  Composition: Mostly triglycerides  Function: Transport hepatic triglycerides from the liver to peripheral tissues • Chylomicron  Composition: Mostly triglycerides  Secreted by the intestinal epithelial cells into lymphatics  The nascent (early) chylomicron contains only one apoprotein, Apo B-48.  Function:  Transport dietary triglycerides from the intestine to peripheral tissues  Transport dietary cholesterol to the liver in the form of triglyceride-depleted chylomicron remnants  Lipoprotein lipase (LPL) hydrolyses the chylomicron into glycerol, fatty acids, and chylomicron remnant using Apo C-2 as a co-factor. Deficiencies of LPL or Apo C-2 cause familial hyperchylomicronemia.  Apo E mediates Endocytosis of chylomicron remnants Apolipoproteins • The following table shows the apolipoproteins present on the surface of various lipoproteins: Lipoproteins apolipoproteins Chylomicron Apo CII & Apo B48 Chylomicron remnant Apo E VLDL Apo CII & Apo B100 LDL Apo B100 IDL Apo E & Apo B100 HDL Apo A1 Familial Combined Hyperlipidaemia (type IIB) Overview • Type IIB in Frederickson classification of inherited hyperlipoproteinemia • Commonest type (two thirds) • Prevalence → 1% • Autosomal dominant • polygenic disorder • Pathogenesis: Defective LDL receptors or ApoB-100 • Hepatic overproduction of apoB-100-containing lipoprotein particles (ie, VLDL and LDL), →↑total cholesterol, triglycerides, and apoB levels Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Associated with: Obesity, glucose intolerance, and hyperuricaemia Features • Xanthelasma • premature cardiovascular disease • ↑ LDL, ↑VLDL, ↑TG Treatment • Statins ( e.g. atorvastatin) Which feature suggests a diagnosis of familial combined hyperlipidaemia (FCHL) rather than heterozygous familial hypercholesterolaemia (FH)?  Presence of glucose intolerance Remnant hyperlipidaemia (type III) Overview • Type III in Frederickson classification of inherited hyperlipoproteinemia • Autosomal recessive • Pathogenesis: Defective ApoE → accumulation of IDL and chylomicron remnants Features • Premature atherosclerosis • Palmar and tuberoeruptive xanthomas • ↑Total cholesterol , ↑triglycerides, ↑Chylomicrons, ↑VLDL Diagnosis • Definitive diagnosis can be made by lipoprotein electrophoresis or genotyping of apoprotein E. Management • fibrates are first line treatment  mode of action → Increased lipoprotein lipase activity via PPAR-alpha (PPARalpha agonist) Palmar xanthomas are pathognomonic of dysbetalipoproteinaemia (type III hyperlipoproteinemia). Familial hypertriglyceridaemia Overview • Type IV in Frederickson classification of inherited hyperlipoproteinemia • Autosomal dominant condition • Usually due to polygenic factors • Affects 1 in 300 people. • Can be exacerbated by:  alcohol  glucocorticoids  thiazide diuretics Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Pathogenesis • Hepatic over production of VLDL • ↓lipoprotein lipase (a potent metabolizer of triglycerides within VLDL) → accumulation of VLDL molecules and triglycerides. Features • Premature atherosclerosis • Acute pancreatitis if triglyceride levels is very high (>11 mmol/l), likely due to pancreatic capillary obstruction. • Features of hyperglycemia (due to abnormal glucose tolerance and insulin resistance) • Eruptive xanthomas (yellow papules usually seen on the back, chest, and proximal extremities). • Lipaemia retinalis (pale pink milky appearance to the retinal vessels or even to the retina itself). • Retinal vein thrombosis Diagnosis • Lipid profile  raised very-low-density lipoprotein (VLDL) and triglyceride levels.  total cholesterol and LDL levels are typically normal Management • first-line →fibrates • statins if there is mixed hyperlipidaemia Tendon xanthomata are diagnostic hallmarks of heterozygous familial hypercholesterolaemia (FH) Eruptive xanthomata Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Familial hypercholesterolaemia (FH) Overview • Type II in Frederickson classification of inherited hyperlipoproteinemia • Autosomal dominant condition • Caused by mutations in the gene which encodes the LDL-receptor protein. • Heterozygous FH occur in about 1 in 300. Homozygous patients are rare • Affect around 1 in 500 people. Pathogenesis • Defective LDL receptors or ApoB-100, missing LDL receptors Features • early cardiovascular disease (CVD) • Tuberous/tendon xanthomas (especially the Achilles tendon) • Xanthelasma • High levels of LDL-cholesterol which, if untreated, may cause Suspected diagnosis: NICE advice to suspect diagnosis of FH if: • total cholesterol level ˃7.5 mmol/l • premature coronary heart disease (˂60 years) in an index individual or first-degree relative. • children of affected parents:  if one parent is affected, arrange testing in children by age 10  if both parents are affected, arrange testing in children by age 5 Clinical diagnosis is now based on the Simon Broome criteria: • Total cholesterol (TC) > 7.5 mmol/l and LDL-C > 4.9 mmol/l plus:  For definite FH: tendon xanthoma in patients or 1st or 2nd degree relatives or DNAbased evidence of FH  For possible FH: family history of myocardial infarction below age 50 years in 2nd degree relative, below age 60 in 1st degree relative, or a family history of raised cholesterol levels • If LDL-C ˃13 mmol/l → Consider a clinical diagnosis of homozygous FH • Two measurements of LDL-C are required to confirm the diagnosis. The presence of tendon xanthomata and ↑LDL, ↑T.chol → familial hypercholesterolemia. Management • First-line: high-dose statins  statins should be discontinued in women 3 months before conception due to the risk of congenital defects  aim for at least a 50% reduction in LDL C concentration from the baseline measurement • Second-line (if statin therapy is not tolerated or contraindicated) or if lipid not controlled by statin alone → Ezetimibe • Third-line: (If statins or ezetimibe are not tolerated or contraindicated) → either a bile acid sequestrant (resin) or a fibrate • Fourth-line: LDL apheresis: for homozygous or heterozygous FH who did not respond to drugs Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  ACE inhibitors should not be used in people who are being treated with LDL apheresis. Instead, angiotensin-receptor blocking agents should be used.  warfarin should be discontinued 4 days before LDL apheresis and substituted with low molecular weight heparin. • Fifth-line: Liver transplantation • Screening for first-degree relatives (they have a 50% chance of having the disorder). This includes children who should be screened by the age of 10 years if there is one affected parent. • Lifestyle interventions: Diet  total fat intake is 30% or less of total energy intake  saturated fats are 10% or less of total energy intake  intake of dietary cholesterol is less than 300 mg/day Lipid-lowering therapy in patients with ACS: (2019 ESC/EAS Guidelines for the management of dyslipidaemias) • For patients who present with an ACS, and whose LDL-C levels are not at goal despite already taking a maximally tolerated statin dose and ezetimibe, adding a PCSK9 inhibitor early after the event (if possible, during hospitalization for the ACS event) should be considered. Secondary hypertriglyceridaemia The commonest cause of a mild hypertriglyceridaemia is obesity secondary to a reduced efficacy of lipoprotein lipase activity and overproduction of VLDL. Causes of predominantly hypertriglyceridaemia • Obesity  The commonest cause of a mild hypertriglyceridaemia is obesity secondary to a reduced efficacy of lipoprotein lipase activity and overproduction of VLDL.  hypertriglyceridaemia and raised transaminases are suggestive of increased hepatic fat → associated with Non-alcoholic steatohepatitis (NASH) • Type 2 diabetes mellitus  Bad diabetic control (↑↑ HbA1c) →↓ activity of lipoprotein lipase (LPL) (because LPL requires insulin for full activity) → hypertriglyceridaemia and low highdensity lipoprotein (HDL) • Alcohol • Chronic renal failure • Drugs: thiazides, non-selective beta-blockers, unopposed oestrogen • Liver disease Causes of predominantly hypercholesterolaemia • Nephrotic syndrome • Cholestasis • Hypothyroidism  Frank hypothyroidism is said to occur in 4% of patients with dyslipidaemias;  a raised thyroid-stimulating hormone (TSH) & normal free T4 occur in 10% of patients with dyslipidaemia  Total cholesterol often improves to some degree with thyroxine therapy but statins might be required as well. 010 - Pages 226-250 010 Pages 226-250 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad High triglycerides and low high-density lipoprotein (HDL) cholesterol are the commonest lipid abnormality seen in type 2 diabetes. Complications • Increased risk of CVD events • Increased insulin resistance Management • With DM → the first priority in this patient is to improve the glucose control. • JBS2 guidelines suggest that all patients with type 2 diabetes should be prescribed a statin, even if their cholesterol is within the target range. • If triglyceride level > 20 mmol/l that is not a result of excess alcohol or poor glycaemic control, refer for urgent specialist review (i.e. at a regional lipid clinic). • If triglyceride level between 10 and 20 mmol/L:  Repeat the triglyceride with a fasting test (following a meal, the chylomicron level rises in the serum which will lead to a rise in triglyceride levels)  Look for secondary causes  Address lifestyle factors: encourage weight loss, healthy diet and exercise  Commence high-potency statins (atorvastatin, rosuvastatin) if unable to address the triglyceride level through lifestyle measures. Fibrates (e.g. fenofibrate). • The best initial medical treatment for hypertriglyceridemia. • Action: PPAR alpha receptor agonists → increasing the activity of lipoprotein lipase • Does not reduce cardiovascular events in the presence of diabetes, while statins have. Thus, an isolated hypertriglyceridaemia in the presence of significant cardiovascular risk factors, in a patient not currently on a statin, should be managed with the introduction of a statin. • Concomitant fibrate-statin use is associated with an increased risk of myopathy. Omega-3 • Trials of omega 3 supplementation suggest that it is associated with triglyceride reduction of up to 38%. • OMACOR (omega-3-acid ethyl esters) : Mode of action → Increases peroxisomal beta-oxidation of fatty acids in the liver • 2019 ESC/EAS Guidelines for the management of dyslipidaemias: (In high-risk patients with TG between 1.5 and 5.6 mmol/L (135 - 499 mg/dL) despite statin treatment, n-3 PUFAs (icosapent ethyl 2 2g/day) should be considered in combination with statins • Icosapent ethyl is an ethyl ester of the omega-3 fatty acid eicosapentaenoic acid (EPA). Nicotinic acid • it lower both cholesterol and triglyceride concentrations by inhibiting synthesis and increases HDL-cholesterol when used in doses of 1.5-3g daily. • It is recommended for use by specialists in combination with a statin, where a statin alone Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Add of nicotinic acid  raise HDL cholesterol level by great amount • the value of nicotinic acid is limited by its side-effects (especially vasodilatation) • may increase blood glucose in some patients. many mechanisms have been suggested for this:  Since nicotinic acid inhibits triglyceride synthesis, it may be that the increased availability of free fatty acids stimulates hepatic glucose output by increasing gluconeogenesis or replacing glucose as the primary energy source.  Higher levels of fatty acids may also block glucose uptake by skeletal muscle.  Direct effects on beta-cell function have also been postulated. • For people with a triglyceride concentration between 4.5 and 9.9 mmol/L, optimize the management of other CVD risk factors present. Which lipid abnormalities are most likely to be detected in a patient with type 2 diabetes? • Small dense LDL molecules (LDL is not typically elevated in type 2 diabetes) • ↓↓ HDL • ↑↑Triglycerides Question Analysis of a patient lipoprotein profile shows a deficiency of apolipoprotein C-II. All other lipoproteins are normal. Which lipid profile is most likely to be shown? Answer  Elevated levels of both chylomicrons and VLDLs  Apolipoprotein C-II (Apo C-II) is an essential co-factor of lipoprotein lipase, which hydrolyzes triglyceride in chylomicrons and VLDLs. Xanthomas • Tuboeruptive xanthomas occur in type III hyperlipoproteinaemia • Eruptive xanthomas are associated with hyperchylomicronaemia (type I and type V hyperlipoproteinaemia) • Xanthoma tendinosum, which are nodular swellings of tendons, usually occur in type II hyperlipoproteinaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ____Hyperlipidaemia: management Graphic showing choice of statin. Statins reduce all-cause mortality (not just cardiovascular mortality) in primary prevention Primary prevention - risk assessment • NICE recommend use the QRISK2 CVD risk assessment tool for patients aged ≤ 84 years. • High risk of cardiovascular disease (CVD), defined as a 10-year risk of 10% or greater. • QRISK2 should not be used in the following situations:  Patients ≥ 85 years are already at high risk of CVD due to their age  type 1 diabetics  patients with an estimated glomerular filtration rate (eGFR) less than 60 ml/min and/or albuminuria.  patients with a history of familial hyperlipidaemia. • NICE suggest QRISK2 may underestimate CVD risk in the following:  people treated for HIV  Serious mental health problems  people taking medicines that can cause dyslipidaemia such as antipsychotics, corticosteroids or immunosuppressant drugs  Autoimmune disorders/systemic inflammatory disorders such as systemic lupus erythematosus. • Measuring lipid levels  The samples does not need to be fasting.  repeat sample (fasting or non-fasting) before deciding on further management In the primary prevention of CVD using statin aim for a reduction in non-HDL cholesterol of > 40% Chapter 1 Endocrinolog & Metabolism Primary prevention management (No established cardiovascular disease ) • If the QRISK2 10-year risk is ≥ 10% → Atorvastatin 20mg should be offered first-line + Lifestyle changes • People with Type 1 diabetes mellitus: atorvastatin 20 mg should be offered if type 1 diabetics who are: age ˃ 40 years, or diabetes for more than 10 years or nephropathy or CVD risk factors. • People with type 2 diabetes → If the QRISK2 10-year risk is ≥ 10% → atorvastatin 20 mg • People with Chronic kidney disease (CKD): atorvastatin 20mg should be offered to all patients with CKD Secondary prevention management (established cardiovascular disease ) • All patients with CVD should be taking a statin in the absence of any contraindication. • Atorvastatin 80mg should be offered first-line. • Follow-up patients at 3 months: if the non-HDL cholesterol has not fallen by at least 40% → ↑the dose of atorvastatin gradually up to 80mg. Targets of management Total cholesterol LDL cholesterol Triglycerides < 4.0 mmol/l < 2.0 mmol/l ˂ 1.7 mmol/L Joint British Societies Lipid-lowering agents Mechanism of action and adverse effects The following table compares the side-effects of drugs used in hyperlipidaemia: Drugs Mechanism of action Adverse effects Statins HMG CoA reductase inhibitors Myositis, deranged LFTs Ezetimibe Decreases cholesterol absorption in the small intestine Nicotinic acid Decreases hepatic VLDL secretion Flushing, myositis Fibrates Agonist of PPAR-alpha therefore increases lipoprotein lipase expression Cholestyramine Decreases bile acid reabsorption in the small intestine, upregulating the amount of cholesterol that is converted to bile acid PPAR-α agonists (The fibrate) → ↓serum triglyceride levels and ↑ HDL-cholesterol PPAR-γ agonists (the glitazones) → ↓free fatty acid levels → ↓insulin resistance → ↓blood glucose levels Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Headache Myositis, pruritus, cholestasis GI side-effects Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Statins Action • Statins inhibit the action of HMG-CoA reductase, the rate-limiting enzyme in hepatic cholesterol synthesis Metabolism • Simvastatin, atorvastatin and lovastatin are mainly metabolized by cytochrome P450 (CYP) 3A4. • Fluvastatin and rosuvastatin is metabolized by CYP2C9 • Pravastatin is excreted largely unchanged. Pravastatin may be suitable for primary prevention, but in high-risk secondary prevention patient, a stronger agent is required such as rosuvastatin. Adverse effects • Myopathy: includes myalgia, myositis, rhabdomyolysis and asymptomatic raised creatine kinase.  Occurs in up to 5%.  More common in lipophilic statins (simvastatin, atorvastatin) than relatively hydrophilic statins (rosuvastatin, pravastatin, fluvastatin)  If only myalgia (muscle pain): continue treatment as long as creatinine phosphokinase (CK) remain normal.  Before offering a statin, if CK levels are 5 times the upper limit of normal (repeated 2 times), do not start statin treatment. If CK levels are raised but less than 5 times the upper limit of normal, start statin treatment at a lower dose.  Starting at a low dose and gradually titrating up can also minimise the risk of side effects: for example, start at 5 mg of rosuvastatin. • Hepatotoxicity:  Occurs in ∼ 2% of patients  ↑ LFTs due to the involvement of cytochrome P450 systems (CYP3A4 and CYP2C9) in the breakdown of statins  Check LFTs at baseline, 3 months and 12 months, but not again unless clinically indicated.  Statins should be discontinued if serum transaminase concentrations rise to and persist at 3 times the upper limit of the reference range. If LFT are raised but less than 3 times the upper limit of normal:  1st step: NICE advises reducing the dose in the first instance.  2nd step: Consider an alternative statin. • Statins may increase the risk of intracerebral haemorrhage in patients who've previously had a stroke. For this reason the Royal College of Physicians recommend avoiding statins in patients with a history of intracerebral haemorrhage.  This effect is not seen in primary prevention. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Maintain a high index of suspicion for rhabdomyolysis if muscle pain occurs after administering statins Drug interactions with statins P450 inhibitors ↑ CK and myopathy • P450 inhibitors (e.g. HIV protease inhibitors, Macrolides (especially erythromycin and clarithromycin), Azole antifungals, Cyclosporine, grapefruit juice) → ↑ serum statins → precipitate Myopathy or rhabdomyolysis • Other lipid-lowering agents (e.g. Fibrates and Nicotinic acid) • Agents which can precipitate Myopathy or rhabdomyolysis  calcium channel blockers Which statin is associated with the lowest risk of rhabdomyolysis?  Fluvastatin Lipid lowering drugs and pregnancy • Normally in pregnancy, cholesterol can increase by up to 50% • Omega-3 fatty acids can be used safely in pregnancy as monotherapy, and function to decrease maternal TG levels. • With the exception of the bile acid sequestrants (BAS) such as cholestyramine , cholesterol-lowering medications should be stopped prior to pregnancy • NICE guidelines recommend stopping cholesterol-lowering medications 3 months before attempting to conceive. Contraindications Active liver disease Muscle disorder Pregnancy, breastfeeding: stop taking statins 3 months before attempt to conceive and do not restart until breastfeeding is finished. Fibrates Agents • bezafibrate, fenofibrate, and gemfibrozil Mechanism of action • Activation of the peroxisome proliferator-activated receptor alpha (PPAR–α) → ↓ LDL, ↑ HDL, ↓↓↓ triglyceride • Enhance lipoprotein lipase activity Indication • second-line drug of choice in hyperlipidemia, most effective for lowering triglycerides Contraindications • Renal insufficiency • Liver failure • Gall bladder diseases Side effects • Dyspepsia • Myopathy • Cholelithiasis (Cholesterol gallstones) • ↑ LFTs (hepatotoxicity) Interactions • enhance the effect of other drugs by inhibiting hepatic CYP450 (e.g., sulfonylureas, warfarin) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ezetimibe Ezetimibe → reduces the absorption of cholesterol through the gut. Mechanism of action • Blocks cholesterol reabsorption at small intestine brush border via inhibiting NPC1L1 in the gut lumen → ↓ LDL Indication • Monotherapy: in contraindications or statin intolerance • Combination therapy (statin and ezetimibe): in insufficient LDL cholesterol reduction by statins Side effects (especially in combination therapy, otherwise rare): • ↑ liver enzymes, • angioedema, • diarrhea, • myalgia Contraindication • coadministration with a statin during active liver disease Nicotinic acid (niacin ) Mechanism of action • Inhibits lipolysis and fatty acid release in adipose tissue → ↓ triglyceride and LDL synthesis, ↑ HDL • Niacin lowers LDL-C and increases HDL-C by:  ↓ hepatic VLDL synthesis and secretion into circulation,  ↓ lipolysis in peripheral adipose tissue. Indication • high LDL cholesterol and lipoprotein(a) levels (> 50 mg/dL) despite statin and ezetimibe therapy (or if statins are contraindicated) • Nicotinic acid is highly effective at raising high density lipoprotein (HDL) cholesterol Adverse effects • Flushing: NSAIDs (e.g., aspirin, ibuprofen) taken 30–60 minutes before niacin can prevent flushing by inhibiting prostaglandin synthesis. • Hyperglycemia (impaired glucose tolerance) →↑ HA1c in diabetics • Irritates the gastric mucosa, exacerbates gastroesophageal reflux. contraindicated in patients with active peptic ulcer disease • Myositis • Hyperuricemia → precipitates acute gout • ↑ LFTs Contraindications Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Liver failure • Gout • Hemorrhage • Gastric ulcer • Cardiovascular instability Cholestyramine Mechanism of action • bile acid sequestrant • bind bile acids in the intestine to prevent reabsorption and recycling  forces liver to consume cholesterol in the process of making more bile salts  binds bile acids in the intestine → interruption of enterohepatic circulation (↓ bile acid absorption and ↑ bile acid excretion) → lowers cholesterol • The main effect on lipid profile  reduce LDL cholesterol (↓ unbound LDL),  causes ↑ in LDL-receptor synthesis Indications • management of hyperlipidaemia.  Combination treatment with statins in hypercholesterinemia • Digitoxin overdose • Pruritus associated with elevated bile acid levels (cholestasis) • Bile acid diarrhea • Bowel obstruction • occasionally used in Crohn's disease for treatment resistant diarrhoea. Adverse effects • abdominal cramps and constipation • decreases absorption of fat-soluble vitamins (e.g: vitamin D absorption will be reduced)  consider fat-soluble vitamin (vitamins A, D and K) and folic acid supplementation • cholesterol gallstones • ↑ LFTs • Myalgia • may raise level of triglycerides Contraindications • Hypertriglyceridemia > 300–500 mg/dL • Hypertriglyceridemia-induced pancreatitis Tangier disease Overview • rare autosomal recessive metabolic disorder. • also known as familial alpha-lipoprotein deficiency or hypoalphalipoproteinemia Features • Decreased levels or even a complete absence of high-density lipoproteins (HDL) • Low cholesterol levels • cholesterol ester depositions especially in:  Tonsils → enlarged, yellow-orange tonsils.  Liver and spleen resulting in hepatosplenomegaly. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Abetalipoproteinemia Pathophysiology • Rare autosomal recessive disorder • Mutation in the microsomal triglyceride transfer protein → deficiency of apolipoprotein B48 and B-100 (both necessary for chylomicron formation and fat absorption) → deficiency of LDL, VLDL and chylomicrons. Features Typically presents in early childhood with steatorrhea, abdominal distension, and failure to thrive. During childhood or adolescence, progressive ataxia, neuropathy, and vision impairment develop. • Neurologic: caused by deficiency of vitamin E)  cognitive decline  Clumsiness may be the first neurologic manifestation • Low visual acuity, caused by:  Retinitis pigmentosa → do fundoscopy  Vitamin A deficiency Treatment • high-dose vitamin E • other fat-soluble vitamins (A, K, and D) should also be supplemented • restriction of long-chain fatty acids Causes of hypocholesteraemia • Acquired:  Malignancy  Malabsorption (Short-bowel syndrome, blind loop syndrome, celiac disease, pancreatic exocrine insufficiency, giardiasis)  Anaemia (Thalassemia, pernicious anaemia)  Chronic infection and infestations  Severe illness in hospitalised patients • Genetic:  Hypobetalipoproteinemia (most common genetic cause),  Abetalipoproteinemia Treatment of abetalipoproteinemia involves dietary restriction of fats, and high-dose vitamin E therapy Disease associations with low LDL-C include malignancy and malabsorption Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Gynaecomastia Definition • Gynaecomastia describes an abnormal amount of breast tissue in males and is usually caused by an increased oestrogen: androgen ratio. Causes • It is important to differentiate the causes of galactorrhoea (due to the actions of prolactin on breast tissue) from those of gynaecomastia Causes of gynaecomastia • physiological: normal in puberty • syndromes with androgen deficiency: Kallman's, Klinefelter's (47, XXY karyotype) • testicular failure: e.g. mumps • liver disease • testicular cancer e.g. seminoma secreting hCG • ectopic tumour secretion • hyperthyroidism • haemodialysis • starvation/refeeding • drugs: see below Drug causes of gynaecomastia (10-25% of cases) Relatively Common causes • spironolactone (most common drug cause) • cimetidine • digoxin • cannabis • diamorphine • cyproterone • finasteride • gonadorelin analogues e.g. Goserelin, buserelin • oestrogens, anabolic steroids Very rare drug causes of gynaecomastia • tricyclics • isoniazid • calcium channel blockers • heroin • busulfan • methyldopa September 2010 exam: H/O developed excessive amounts of breast tissue bilaterally. Which one of the following drugs is most likely to be responsible? Goserelin (Zoladex) Physiological changes during pregnancy – endocrine pregnancy → ↑ oestradiol & prolactin + ↓ LH/FSH. Progesterone • Responsible for pregnancy maintenance • Produced by the corpus luteum until the 10–12 weeks of gestation, after which it is produced by the fetoplacental unit Human placental lactogen: a hormone synthesized by syncytiotrophoblasts of the placenta, which promotes the production of insulin-like growth factors. • Increases insulin levels • Causes insulin resistance Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Increases serum glucose levels and lipolysis to ensure sufficient glucose supply for the fetus • Maternal insulin resistance begins in the second trimester and peaks in the third trimester. Pituitary gland • Hyperplasia of lactotroph cells in the anterior pituitary → physiological enlargement of the pituitary gland (up to 40% increase from pregestational volume) Thyroid gland • Thyroid gland hypertrophy  The thyroid gland needs to produce 50% more thyroid hormone during pregnancy to maintain an euthyroid state.  A 10–20% increase in thyroid mass occurs. • Increase in thyroid-binding globulin and albumin due to increased hepatic synthesis.  Pregnancy → ↑↑ thyroxine-binding globulin (TBG) → ↑↑ total thyroxine but does not affect the free thyroxine level • Increase in total T3 and T4  in normal pregnancy (T3) and T4 levels show a slight increase with suppressed (TSH) in the first trimester due to the partial thyroid-stimulating action of human chorionic gonadotrophin (beta-HCG).  Free T3 and T4 remains within normal ranges • β-hCG-mediated hyperthyroidism (↓TSH)  β-hCG molecule has a similar structure to that of the TSH molecule. β-hCG binds to TSH receptors of the thyroid gland → thyroid stimulation → hyperthyroidism • Factors influence thyroid function tests in the pregnant patient.  thyroid stimulatory effects of hCG.  HCG → activation of the TSH receptor → transient gestational hyperthyroidism.  HCG levels will fall in second and third trimester Lipids • ↑ Triglycerides and cholesterol (due to increased lipolysis and fat utilization) ↑ SHBG (Sex hormone-binding globulin) and corticosteroid-binding globulin Beta-HCG has a degree of thyroid stimulating activity →↓↓ TSH. No intervention is needed Physiological effects of LH, FSH, and sex hormones • ♀: Ovaries  FSH: follicular maturation → ↑ estrogen  LH: ↑ estrogen, ovulation, and ↑ progesterone • ♂: Testicles  FSH: production of sperm, ↑ inhibin  LH: stimulation of Leydig cells → ↑ production of testosterone Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Dihydrotestosterone (DHT) Composition • Testosterone is a steroid hormone and can be converted to oestradiol. Production • LH stimulates testosterone production and FSH spermatogenesis Binding • It binds to intracellular receptors and is mostly bound to sex-hormone binding globulin (SHBG) Conversion • Testosterone converted to dihydrotestosterone (DHT) in the body by the enzyme 5αreductase. DHT is a more active compound than testosterone. • The absence of 5α-reductase or the absence of DHT receptors leads to testicular feminisation. Function • During fetal development and early life: differentiation of the penis, scrotum, and prostate. • expression of male secondary sex characteristics • During late adulthood: prostate growth, male pattern baldness, and sebaceous gland activity. Deficiency • →↓ testosterone is due to either:  ↓ free level due to ↓ production (Leydig and pituitary dysfunction) (Lead to ↑ synthesis of SHBG)  increasing age: total testosterone concentrations fall slightly, and free testosterone fall more.  ↓ activity at receptor often due to androgen receptor deficiency (5α-reductase deficiency). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Patients with 5α-reductase deficiency will have ambiguous genitalia at birth until they reach puberty, when the testosterone surge causes growth of external male genitalia, however, these patients are otherwise healthy. Individuals with this deficiency sometimes change their gender role in adolescence.  obesity (hyperinsulinaemia of obesity → ↓SHBG levels → ↓testosterone (low SHBG and normal free testosterone) Evaluation • Initial evaluation: serum testosterone in the early morning, fasting. • Testosterone levels vary according to the degree of binding to albumin and SHBG; (↑SHBG ↑total testosterone - when testosterone production is low-). • The equilibrium dialysis method is most useful for measurement of free testosterone (not bound to protein) • If the testosterone is low:  measurement of LH and FSH to determine if the hypogonadism is primary or secondary. If secondary  assessment of other pituitary hormones.  If the patient has multiple pituitary hormonal deficiencies and/or if the testosterone is less than 200 ng/dL, we suggest MRI of the sella. Testosterone therapy • Indications  hypogonadal men to induce and maintain secondary sex characteristics and correct symptoms of testosterone deficiency.  Older men (>65 years ) with age-related decline in testosterone concentration:  routinely prescribing testosterone therapy is not recommended  In symptomatic (such as low libido or unexplained anemia) and consistently and unequivocally low morning testosterone, testosterone therapy may be offered on an individualized basis after discussion of the potential risks and benefits.  HIV-infected men with weight loss and low testosterone (when other causes of weight loss have been excluded) to induce and maintain body weight and lean mass gain. • Target  For patients receiving testosterone enanthate, the testosterone level should be between 400 and 700 ng/dL at about half-way between administrations ( one week after injection) which are generally given every two weeks. • Which type of testosterone therapy is most likely to result in an increase in dihydrotestosterone level?  Dihydrotestosteone levels increase with the use of a testosterone scrotal patch due to the high concentration of 5α-reductase in genital skin. Levels may return to normal after discontinuation; however, they often remain elevated. • Benefits of testosterone treatment  ↑sexual interest and activity, slight improvement in walking, slight improvement in mood, ↑ hemoglobin, and ↑ bone mineral density (BMD).  No change in energy or cognition is expected. • Side effects  Erythrocytosis leading to elevated haematocrit  Haematocrit should be measured 3-6 months after initiating therapy and yearly thereafter.  Guidelines suggest that if haematocrit is increased and no other underlying cause is found, the dose should be down-titrated.  PSA  Androgen replacement therapy is contraindicated in patients with prostate cancer and breast cancer. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Urological consultation is recommended if:  ↑PSA > 1.4 ng/mL within a 12-month period,  a PSA velocity > 0.4 ng/mL/year using the level after 6 months of testosterone therapy as the reference  abnormality on digital rectal examination, or  an I-PSS score of greater than 19. Polycystic ovarian syndrome (PCOS) Incidence • affect between 5-20% of women of reproductive age. Aetiology • not fully understood • Both hyperinsulinaemia and high levels of luteinizing hormone are seen in PCOS Features • Oligo/amenorrhoea 70% • hirsutism, acne (due to hyperandrogenism) 60% • obesity 35% • subfertility and infertility 30%.  Chronic anovulation is the mechanism for infertility • acanthosis nigricans (due to insulin resistance) • psychological symptoms • Clitoromegaly is seen occasionally in PCOS but is normally associated with very high androgen levels. If clitoromegaly is found, then further investigations to exclude an ovarian or adrenal androgen secreting tumour are required. Investigations • pelvic ultrasound: multiple cysts on the ovaries  transvaginal ultrasound is said to have 91% diagnostic sensitivity  The presence of more than eight follicular cysts of less than 10 mm and increased ovarian stroma is sufficient to make the diagnosis. • FSH, LH, prolactin, TSH, and testosterone are useful investigations:  FSH will be normal or low, while LH will be elevated.  Increased LH causes hyperplasia of ovarian theca cells.  Increased LH causes increased testosterone and androstenedione  Raised LH: FSH ratio is a 'classical' feature but is no longer thought to be useful in diagnosis.  LH/FSH ratio is normally about 1:1 in premenopausal women, but with PCOS a ratio of greater than 2:1 or 3:1 may be considered diagnostic.  Prolactin may be normal or mildly elevated.  10% of patients with PCOS have hyperprolactinaemia,  elevation in prolactin due to the low oestrogen stimulating GnRH, which in turn stimulates the anterior pituitary hormones including prolactin. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  However, the elevation in prolactin in PCOS rarely exceeds 1000 mU/l.  Testosterone may be normal or mildly elevated however, if markedly raised consider other causes  The appropriate initial biochemical investigation  Normal or elevated testosterone, but with a low sexhormone-binding globulin (SHBG) level, resulting in a high free androgen index.  Sex hormone-binding globulin (SHBG) is frequently low  (SHBG) is a transporter protein that binds to both testosterone and oestradiol;  it is reduced in insulin resistance, which is common in (PCOS).  (SHBG) is low in 50%, due primarily to hyperinsulinaemia.  The reasons include that androgens reduce the globulin production, whereas oestrogen promotes production.  Many women with PCOS have a high-normal or even a normal total testosterone, but a low SHBG because they have insulin resistance.  hyperestrogenism  Increased androstenedione/testosterone in PCOS can be peripherally converted in adipose tissue to estrone by aromatase.  increased circulating levels of estrone  endometrial hyperplasia which is a precursor to endometrial carcinoma • Impaired glucose tolerance  hyperinsulinaemia (insulin resistance → high circulating insulin levels due to peripheral insulin resistance).  Up to 40% of women with PCOS have impaired glucose tolerance,  up to 10% develop frank Type 2 diabetes mellitus long term complication of PCOS: • risks of diabetes (due to peripheral insulin resistance), • sleep apnoea, • endometrial cancer, • mental health disorders. Diagnostic criteria • According to the Rotterdam Consensus, two of the following three criteria are required for the diagnosis of the PCOS: oligo-/anovulation hyperandrogenism  clinical (hirsutism or less commonly male pattern alopecia) or  biochemical (raised free androgen index or free testosterone) polycystic ovaries on ultrasound. Management • General  Weight reduction: the gold-standard treatment for PCOS. A loss in weight of only 5% reduces hirsutism by up to 40%. • For associated hirsutism o Dianette® (cyproterone acetate) combined oral contraceptive pill (COC) is the most effective o if doesn't respond to COC then topical eflornithine may be tried o Spironolactone, flutamide and finasteride may be used for its antiandrogenic properties Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • For infertility  Initial step →weight loss  First- line drug: Anti-oestrogen therapies such as clomifene → the most effective treatment  work by occupying hypothalamic oestrogen receptors without activating them. This interferes with the binding of oestradiol and thus prevents negative feedback inhibition of FSH secretion  Second-line drug: Metformin is also used, either combined with clomifene or alone, particularly in patients who are obese but is not a first line treatment  Gonadotrophins: usually reserved for patients who are resistant to clomifene MRCPUK-part-1-May 2009 exam: H/O infertility with PCOS. Apart from advising her to lose weight, which intervention is most effective in increasing her chances of conceiving? Clomifene (if clomifene – the first line - is not an option, metformin – the second line - is the right answer) September 2009 exam: Which finding is most consistently seen in polycystic ovarian syndrome? Ovarian cysts on ultrasound MRCPUK-part-1-January 2012 exam: What is the mechanism of action of metformin in PCOS? Increases peripheral insulin sensitivity Hirsutism Hirsutism is often used to describe androgen-dependent hair growth in women Hypertrichosis used for androgen-independent hair growth Definition • Excessive male pattern hair growth in women (e.g., on the chin, above the upper lip, and around the umbilicus) Causes • Idiopathic (the most common ): normal menstrual cycle, normal serum androgen, , and no identifiable cause hirsutism. • Polycystic ovarian syndrome is the most common identifiable causes of hirsutism • Excess androgen (10% of cases): hirsutism, acne, menstrual dysfunction, alopecia.  Cushing's syndrome  congenital adrenal hyperplasia  androgen therapy  obesity: due to peripheral conversion oestrogens to androgens  androgen secreting ovarian tumour • Drugs Assessment of hirsutism • Mild hirsutism and normal menses → do not require laboratory workup and can be treated empirically. • Moderate or severe symptoms → early morning total testosterone level  if moderately elevated, it should be followed by a plasma free testosterone level.  A total testosterone level greater than 200 ng per dL (6.94 nmol per L) should prompt evaluation for an androgen-secreting tumor. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Testing for endocrinopathies and neoplasms, such as polycystic ovary syndrome, adrenal hyperplasia, thyroid dysfunction, Cushing syndrome, and androgen-secreting tumors. Management • Advise weight loss if overweight • Hair removal (Shaving) • Pharmacologic measures  Combined oral contraceptive pills: first-line pharmacologic treatment  Facial hirsutism: topical eflornithine - contraindicated in pregnancy and breastfeeding  Treatment response should be monitored for at least six months before making adjustment. Hypertrichosis Definition • excessive hair growth above the normal for the age, sex and race of an individual, in contrast to hirsutism, which is excess hair growth in women following a male distribution pattern. Causes • Drugs:  phenytoin  minoxidil (antihypertensive vasodilator. also used to treat androgenic alopecia  slows hair loss and promotes hair regrowth)  ciclosporin  diazoxide • Congenital hypertrichosis lanuginosa, congenital hypertrichosis terminalis • Metabolic disorders  thyroid dysfunction  porphyria cutanea tarda  anorexia nervosa Treatment • Hair removal Amenorrhoea Primary amenorrhoea • Definition: failure to start menses by the age of 16 years • Causes  Turner's syndrome  testicular feminisation  congenital adrenal hyperplasia  congenital malformations of the genital tract Secondary amenorrhoea • Definition  absence of menses for more than 3 months (in women with previously regular cycles) or 6 months (in women with previously irregular cycles) • Causes  Pregnancy → most common cause of secondary amenorrhea  hypothalamic amenorrhoea (e.g. Stress, excessive exercise)  ↓ FSH Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Weight-related amenorrhoea  amenorrhoea can even be seen at the lower end of the normal range.  often seen in ballet dancers, who maintain a low weight and undergo periods of extreme physical exercise.  Gaining body weight to above the 50th centile for height normally results in the restoration of menstruation, but if this cannot be achieved oestrogen replacement might be considered.  polycystic ovarian syndrome (PCOS)  hyperprolactinaemia  premature ovarian failure  ↑ FSH  thyrotoxicosis (hypothyroidism may also cause amenorrhoea)  Hypothyroidism (↓ T3/T4 → ↑ TRH → ↑ prolactin → ↓ GnRH → ↓ estrogens)  Sheehan's syndrome  Asherman's syndrome (intrauterine adhesions) Initial investigations • exclude pregnancy with urinary or serum bHCG • gonadotrophins: low levels indicate a hypothalamic cause whereas raised levels suggest an ovarian problem (e.g. Premature ovarian failure) • prolactin • androgen levels: raised levels may be seen in PCOS • oestradiol • thyroid function tests Primary ovarian failure means that the patient never has a normal menstrual cycle, and has the triad of amenorrhea, hypergonadotropinism, hypoestrogenism. Premature ovarian failure The history of prolonged cessation of menses with a normal weight, normal thyroid function tests and a history of coeliac disease is pointed to a diagnosis of premature ovarian failure Criteria for diagnosis age under 40 years menopausal symptoms (including no or infrequent periods) and elevated FSH levels on 2 blood samples taken 4–6 weeks apart. Epidemiology • occurs in around 1 in 100 women. Causes • idiopathic - the most common cause • chemotherapy • autoimmune • radiation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • secondary prolonged amenorrhoea • infertility • climacteric symptoms: hot flushes, night sweats Investigations • raised FSH, LH levels • ↓↓oestradiol • sex hormone releasing hormones would be elevated in an attempt to drive LH and FSH release. Treatment • Hormone replacement therapy (HRT) or a combined hormonal contraceptive to protect against osteoporotic fracture.  HRT may have a beneficial effect on blood pressure when compared with a combined oral contraceptive  both HRT and combined oral contraceptives offer bone protection  HRT is not a contraceptive. • Spontaneous recovery of fertility is unlikely (occurs in only 5%). Menopause Definitions • Peri-menopause → aged over 45,vasomotor symptoms and irregular periods • menopause → aged over 45, no period for at least 12 months, not associated with a pathology and not using hormonal contraception. Symptoms • Usually preceded by 4–5 years of abnormal menstrual cycles. • vasomotor symptoms (e.g. hot flushes and sweats): most common • musculoskeletal symptoms (for example, joint and muscle pain) • effects on mood (e.g. low mood) • urogenital symptoms (e.g. vaginal dryness) • Sexual difficulties (e.g. low sexual desire). • Women with obesity tend to suffer from fewer symptoms in menopause due to peripheral conversion of androgens to estrogen in adipose tissue. • Most symptoms will disappear spontaneously within 5 years after onset. Consequences • ↓↓ bone mineral density → osteoporotic fractures. • ischaemic heart disease, • ↓↓ insulin sensitivity • ↑↑ thrombotic tendency. • Increased possibility of developing Alzheimer's dementia  Oestrogen deficiency might play a role in the development of dementia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Investigations • ↓ estradiol, ↓ progesterone, ↓ inhibin B • ↑ GnRH, ↑↑ FSH and ↑LH (↑↑FSH is specific for menopause) • Vaginal pH > 4.5 • Lipid profile: ↑ total cholesterol, ↓ high-density lipoprotein (HDL) • Testosterone and prolactin levels are within normal ranges (androstenedione is produced by ovarian stromal cells and the adrenal glands.) Management • Vasomotor symptoms →hormone replacement therapy (HRT)  women with a uterus → oestrogen and progestogen  Women without a uterus →Oestrogen alone. • Psychological symptoms → low mood or anxiety → HRT & CBT  women with low sexual desire → testosterone supplementation if HRT alone is not effective. • Urogenital atrophy → vaginal oestrogen (including those on systemic HRT), also in whom systemic HRT is contraindicated. The ovaries’ failure to produce estrogen begins in the late 30s and progresses to the degree that most women have near-complete loss of estrogen production by their mid-50s. Whereas taking estrogen alone increases the risk of endometrial cancer, taking both estrogen and a progestogen in combination, as in most birth control pills, decreases the risk. All postmenopausal women above the age of 65 should be screened for osteoporosis (i.e., using the DEXA scan to measure bone mineral density). Hormone replacement therapy (HRT) • Hormone replacement therapy (HRT) involves the use of a small dose of oestrogen, combined with a progestogen (in women with a uterus), to help alleviate menopausal symptoms. Unopposed oestrogen therapy is most appropriate for patient who had a hysterectomy and combined hormone replacement therapy (HRT) is unnecessary. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Indications • vasomotor symptoms such as flushing, insomnia and headaches (The main indication) • Premature menopause: should be continued until the age of 50 years. Most important reason is preventing the development of osteoporosis Types • Estrogen therapy: for women who have had a hysterectomy • Estrogen plus progestin therapy: for women with a uterus Advantages of hormone replacement therapy (HRT) improvement in menopausal symptoms protection against fractures of the wrist, spine, and hip secondary to osteoporosis. reduce incidence of colorectal cancer reduce incidence of Alzheimer's • Hormone replacement therapy and effects on bone mass  Reduction in total-body bone mass begins in women in their late twenties  This loss is accelerated at the menopause  Both trabecular bone loss at the level of the vertebrae and cortical bone loss at the radius are prevented by oestrogen therapy  The risk of osteoporotic fractures is reduced, but not eliminated, by oestrogen therapy  If the uterus has been removed in a patient, there is no need for additional progesterone therapy  The effect of oestrogens on bone loss may be reduced after 10 years of oestrogen therapy Adverse effects • Cancer  Unopposed estrogen can result in endometrial hyperplasia → increased risk of endometrial cancer  Estrogen plus progestin therapy → increased risk of breast cancer • Thromboembolism: Cardiovascular disease: coronary heart disease, deep vein thrombosis, pulmonary embolism, stroke Selective Estrogen Receptor Modulators (SERMs) Raloxifene • Mechanism of action  estrogen antagonist in breast and endometrium  agonist in bone to increase mineralisation • Clinical use  osteoporosis in menopausal women  breast cancer prevention in women high risk for breast cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism • Toxicity  ↑ risk of venous thromboembolism  induces menopause →hot flashes Tamoxifen • Mechanism of action  mixed oestrogen-receptor antagonist and partial agonist depending on the target tissue  estrogen antagonist in breast  estrogen agonist in endometrium and bone • Clinical use  estrogen and progesterone receptor positive breast cancer  breast cancer prevention in women high risk for breast cancer • Toxicity  ↑ risk of venous thromboembolism  ↑ risk of endometrial cancer secondary to agonist activity  induces menopause →hot flashes Androgen insensitivity syndrome The testosterone which is in the male range, the history of hernias as a baby and absence of acne or secondary sexual hair are all pointers towards androgen insensitivity syndrome. The presence of breast development in the absence of secondary sexual hair, with a history of hernias as a child is suggestive of a diagnosis of androgen insensitivity syndrome. It is likely that the hernias were related to undescended testes. The vagina is blind ended, and there are no ovaries. Pathophysiology • X-linked recessive mutation of the gene encoding the androgen receptor (AR gene) → Defects in the androgen receptor → end organ insensitivity to androgens. end-organ resistance to testosterone causing genotypically male children (46XY) to have a female phenotype. • Complete androgen insensitivity syndrome is the new term for testicular feminisation syndrome Features • Primary amenorrhoea • Undescended testes causing groin swellings, Cryptorchidism (absence of one or both testes from the scrotum) • External genitalia ranges from normal female to female with clitoromegaly, to underdeveloped male (hypospadias) → Associated with abdominal hernias. • Breast development may occur as a result of conversion of testosterone to oestradiol • Blind-ended vaginal pouch, uterine and fallopian tube agenesis (due to testicular antiMullerian hormone secretion) • Scant or no pubic hair Diagnosis • High level of LH • ↑ Oestrogen • Normal/↑ testosterone levels (no virilization) • Buccal smear or chromosomal analysis to reveal 46XY genotype Management • Counselling - raise child as female • Bilateral orchidectomy (increased risk of testicular cancer due to undescended testes) • Oestrogen therapy Disorders of sex hormones The table below summarises the findings in patients who have disorders of sex hormones: Disorder LH Testosterone Primary hypogonadism (Klinefelter's syndrome) High Low Hypogonadotrophic hypogonadism (Kallman's syndrome) Low Low Androgen insensitivity syndrome High Normal/high Testosterone-secreting tumour Low High Menstrual cycle The menstrual cycle may be divided into the following phases: Follicular phase (proliferative phase) (from day 1 until day 14) Ovarian histology • A number of follicles develop. • One follicle will become dominant around the mid-follicular phase Endometrial histology • Proliferation of endometrium • Endometrium changes to Hormones • A rise in FSH results in the development of follicles which in turn secrete oestradiol • When the egg has matured, it secretes enough oestradiol to trigger the acute release of LH. This in turn leads to ovulation • Graafian follicle is a large mature tertiary follicle containing an oocyte that is ready to be ovulated. • Ovulation occurs 14 days before menses, regardless of cycle length. • estradiol stimulates the growth of the endometrium. • Progesterone levels are low • FSH activates aromatase within Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Luteal phase (secretory phase) (From day 15 until day 28) • Corpus luteum secretory lining under influence of progesterone • corpus luteum produces (3 hormones) estrogen, inhibin, and progesterone. • progesterone is significantly higher than in other phases of the menstrual cycle. • If fertilisation does not occur the corpus luteum will degenerate and progesterone levels fall Chapter 1 Endocrinolog & Metabolism Follicular phase (proliferative phase) (from day 1 until day 14) granulosa cells, increasing estradiol production. • The main hormone controlling the follicular phase is estradiol, secreted by Granulosa cells. Cervical mucus • Following menstruation the mucus is thick and forms a plug across the external os • Just prior to ovulation the mucus becomes clear, acellular, low viscosity. It also becomes 'stretchy' - a quality termed spinnbarkeit Basal body temperature • Falls prior to ovulation due to the influence of oestradiol Which hormone levels would be most likely to indicate the occurrence of ovulation?  Luteinising hormone At which point in the menstrual cycle do progesterone levels peak?  Luteal phase  Progesterone is secreted by the corpus luteum following ovulation. Which mechanism is most likely responsible for the missed period in early pregnancy?  Syncytiotrophoblast produces human chorionic gonadotropin (hCG), which stimulates progesterone production by the corpus luteum. Hypogonadism Primary hypogonadism (Hypergonadotropic hypogonadism) if LH and FSH are not elevated a primary hypogonadism is excluded. • Pathophysiology  gonadal insufficiency (↓ testosterone, ↓ estrogen) → ↑ gonadotropin secretion (↑ FSH and ↑ LH) from the anterior pituitary (lack of negative feedback from the impaired gonads) • Causes  Congenital abnormalities: (Primary gonadal insufficiency):  Turner syndrome (females)  Klinefelter syndrome (males)  androgen insensitivity syndrome  Acquired diseases: (Secondary gonadal insufficiency) →(damage to leydig cells or ovarian tissue): Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Luteal phase (secretory phase) (From day 15 until day 28) • Under the influence of progesterone it becomes thick, scant, and tacky • Rises following ovulation in response to higher progesterone levels Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Medications (Radiation, chemotherapy, Ketoconazole, Glucocorticoids, toxins)  Autoimmune disease  Infections (mumps, tuberculosis)  Tumour, infiltration (Testicular tumour)  Chronic systemic illnesses (eg: Hepatic cirrhosis, Chronic renal failure)  Ageing: Andropause (↓ testosterone with age ˃50).  Primary testicular failure (idiopathic failure). • Investigations  ↑LH & FSH + ↓ testosterone + ↓ sperm count  Testicular ultrasound (the most important investigation after blood hormones) Secondary hypogonadism (hypogonadotrophic hypogonadism) • Pathophysiology  ↓ pituitary gonadotropins (↓ FSH and ↓ LH) → ↓ testosterone and ↓ estrogen • Causes  Genetic defects: (e.g., Kallmann syndrome, Prader-Willi syndrome, Gaucher disease)  Hypothalamic and/or pituitary lesions due to: Neoplasm (e.g. prolactinoma, craniopharyngioma, astrocytoma)  Malnutrition (e.g., anorexia nervosa)  Chronic diseases (e.g., inflammatory bowel disease, hypothyroidism, cystic fibrosis, diabetes and obesity.) • Investigations  serum testosterone and sperm count are subnormal + normal or reduced LH and FSH  Prolactin level (↑Prolactin reduces LH and FSH)  measure of free testosterone (as total testosterone can be low due to SHBG being decreased in obesity and with ageing).  Pituitary MRI : the best image to exclude other pituitary pathology. Clinical features • Delayed puberty • Developmental abnormalities with genitalia (undescended testes, hypospadias) • Infertility (↓ sperm count), impotence, and/or ↓ libido • Secondary amenorrhea Treatment • Treat underlying cause: e.g., surgical excision of tumors, pharmacotherapy for prolactinomas • Hormone replacement therapy Poor ability to concentrate is most consistent with post-pubertal loss of testicular function, whereas (High-pitched voice, Gynecomastia, Disproportionately long arms and legs, Scant pubic and axillary hair) are most consistent with hypogonadism that develops before puberty. In male patients with low libido have been found to have a low testosterone first line investigation should include prolactin and LH to assess for a central cause 011 - Chapter 1 011 Chapter 1 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Tip to remember Testosterone and LH levels can help distinguish between different causes of abnormal sexual development: 1- High testosterone and high LH: defective androgen receptor (androgen insensitivity syndrome) 2- High testosterone and low LH: testosterone-secreting tumor 3- Low testosterone and high LH: primary hypogonadism 4- Low testosterone and low LH: hypogonadotrophic hypogonadism Delayed puberty The first visible sign of puberty in males is testicular enlargement, while in females it is breast development. Definition • Absent or incomplete development of secondary sex characteristics by the age of 14 years in boys or 13 years in girls Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes • Constitutional delay of growth and puberty (normal variants of growth): the most common cause of delayed puberty • Primary/ hypergonadotrophic hypogonadism: e.g. Klinefelter's and Turner's syndromes. • Secondary/ hypogonadotrophic hypogonadism: causes  Genetic defects: (e.g., Kallmann syndrome, Prader-Willi syndrome, Gaucher disease)  Malnutrition (e.g., anorexia nervosa)  Chronic diseases (e.g., inflammatory bowel disease, hypothyroidism, cystic fibrosis) Delayed puberty with short stature Delayed puberty with normal stature Turner's syndrome Prader-Willi syndrome Noonan's syndrome polycystic ovarian syndrome androgen insensitivity Kallman's syndrome Klinefelter's syndrome Features • Signs of delayed puberty in girls include:  Absence of breast development by age 14 years  Pubic hair absent by age 14  More than five years between the start and completion of breast growth  Menarche has not occurred by age 16. • Signs of delayed puberty in boys include:  No testicular enlargement by age 14 years  Pubic hair absent by age 15  More than five years between the start and completion of growth of the genitalia. Diagnosis • Primary hypogonadism → ↓gonadal hormones (testosterone in boys and estradiol in girls) ↑ luteinizing hormone (LH) and follicle-stimulating hormone (FSH). • Secondary hypogonadism → ↓hypothalamic gonadotropin-releasing hormone (GnRH) → low to normal LH and FSH → ↓gonadal hormones • Constitutional delay is usually assessed using a bone age assessment (radiography of the hand and wrist) and measuring the patterns of ossification at the epiphyses of the bones of the hands → delayed bone age. Management • Constitutional delay: Observation • Organic delay: Sex-steroid therapy to induce puberty + lifelong hormone replacement therapy after puberty Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism Multiple endocrine neoplasia Genetic inheritance • Autosomal dominant disorder, high penetrance • The table below summarises the three main types of multiple endocrine neoplasia (MEN) Type 1 multiple endocrine neoplasia (MEN 1) • a defect in the gene MEN1, a tumor-suppressor gene found on chromosome 11 that codes for menin protein. • For MEN1, remember the triad of three Ps, which includes pituitary, parathyroid, and pancreatic tumors.  Pituitary tumors →↑prolactin → galactorrhea, decreased libido, or infertility.  Hyperparathyroidism is the most common manifestation in MEN 1 (occurs in 90% of cases) → hypercalcemia → constipation, kidney stones, polyuria, and polydipsia.  The pancreas is the second most commonly involved organ in MEN 1.  60% of pancreatic endocrine tumours are gastrinomas (most common) →↑gastrin (Zollinger-Ellison syndrome) → recurrent peptic ulcers.  insulinoma → recurrent episodes of hypoglycemia, leading to confusion, dizziness, or loss of consciousness.  endoscopic ultrasound of the pancreas is the most sensitive modality for the detection of an insulinoma. • The single most useful investigation to monitor patients with MEN 1 → Serum calcium • Diagnosis → genetic testing • Management  Genetic screening for first-degree relatives  Pituitary prolactinomas → cabergoline, a dopamine agonist  Hyperparathyroidism → partial or total surgical parathyroidectomy  Gastrinomas with peptic ulcer disease → proton pump inhibitor drugs. MEN1 = three Ps Pituitary, Parathyroid, Pancreas Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Type 2 multiple endocrine neoplasia (MEN 2) • MEN2A and MEN2B are both due to mutations in the gene RET. This is a protooncogene found on chromosome 10 that codes for a receptor tyrosine kinase. • A gain-of-function mutation in the RET proto-oncogene makes it an oncogene, which causes the uncontrolled cell division seen in cancer. • MEN-2 is strongly associated with a family history of unexplained death in childbirth • Subtypes  MEN Type 2a  MEN type 2A includes two Ps and one M—parathyroid tumors and pheochromocytoma, combined with medullary thyroid carcinoma.  pheochromocytoma →↑catecholamines such as epinephrine →hypertension and often intermittent episodes of headaches, palpitation, pallor caused by vasoconstriction, and heavy sweating.  Medullary thyroid cancer often metastasized at presentation →hoarseness  Serum calcitonin levels should be obtained in the workup for medullary thyroid cancer.  young-onset hypertension with feature of hyperparathyroidism (↑ Ca & ↓ P) → MEN Type 2a  MEN-2b  MEN-2b present earlier than 2a  MEN type 2B is associated with a single P and two Ms—pheochromocytoma, medullary thyroid carcinoma, and mucosal neuromas.  Mucosal neuromas (benign tumors) develop in the mouth, eyes, and submucosa of almost all organs in the first decade of life and appear in 100% of patients with MEN2B (yellowish-white painless nodules on the lips or tongue, sclera, or eyelids).  Marfanoid habitus → long limbs, wide arm span, and hyperlaxity of joints. MEN2A = two Ps and one M Parathyroid, Pheochromocytoma, Medullary thyroid carcinoma MEN2B = one P and two Ms Pheochromocytoma, Medullary thyroid carcinoma, Mucosal neuromas • Diagnosis → genetic testing • Management  Genetic screening for first-degree relatives  All first-degree relatives who screen positive for the RET mutation should undergo prophylactic thyroidectomy given the very high risk of medullary thyroid cancer.  For underlying phaeochromocytoma.  full alpha blockade with an agent such as phenoxybenzamine is essential  the most appropriate additional medication to control blood pressure is  phenoxybenzamine  Beta blockade without first alpha blocking raises the possibility of rebound hypertension due to unopposed action of the alpha vasoconstrictors; as such it is inadvisable to consider bisoprolol or atenolol.  The pheochromocytoma puts the patient at greatest risk, and therefore should be removed before other surgical procedures are performed. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 1 Endocrinolog & Metabolism  Annual testing of calcium and PTH from the age of 10 is recommended for child with family history of MEN-2 Which of the manifestations of MEN-2 has the most malignant potential? C cell hyperplasia Which finding in a blood test will be the most characteristic in (MEN 2B) patient? • Elevated metanephrines → phaeochromocytoma • Elevated Calcitonin → Medullary thyroid cancer (used for screening, prognosis and monitoring) Multiple endocrine neoplasia type II is due to mutation in which sort of receptor? Membrane-bound tyrosine kinase receptor What is the single most useful investigation to monitor patients with MEN 1? Serum calcium Multiple endocrine neoplasia MEN 1 3 "P"s = Parathyroid, Pancreas, Pituitary gland MEN 2A 1 "M", 2 "P”s = Medullary thyroid carcinoma, Pheochromocytoma, MEN 2B 2 “M”s, 1 “P” = Medullary thyroid carcinoma, Marfanoid habitus/Multiple neuromas, Pheochromocytoma Autoimmune polyendocrinopathy syndrome (APS) (Polyglandular syndrome) Type Polyglandular syndrome type 1 Polyglandular syndrome type 2 Also called (Schmidt's disease) inheritance autosomal recessive caused by mutation of AIRE1 gene on chromosome 21 Prevalence Rare More common Age of presentation Usually begins in childhood. Feature Most common • Mucocutaneous candidiasis (100%) (typically first feature as young child) • Hypoparathyroidism (90%) • Adrenal insufficiency (60%) Less common • Other autoimmune diseases • gonadal failure • Primary hypothyroidism Patients have Addison's disease plus either: type 1 diabetes mellitus or autoimmune thyroid disease. No Hypoparathyroidism Diagnosis 2 out of 3 needed: • chronic mucocutaneous candidiasis (100%) • primary hypoparathyroidism (90%), • Addison's disease (60%) • Tryptophan hydroxylase autoantibodies may be found in autoimmune polyendocrine syndrome associated with an autoimmune malabsorption. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad polygenic inheritance linked to HLA DR3/DR4. Usually begins in adult (most cases occurring between age 20 and 40 years) Most common • Adrenal insufficiency (100%) (the initial manifestation) • Hypothyroidism • Type-1 diabetes Less common • Other autoimmune diseases • Gonadal failure • Diabetes insipidus (rare) Third edition Notes & Notes By Dr. Yousif Abdallah Hamad Pulmonology Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Lung anatomy Lung lobes • Right lung has 3 lobes; Left has less lobes (2) and lingula (homolog of right middle lobe). Instead of a middle lobe, left lung has a space occupied by the heart • The left lung have a part that the right lung does not have: the lingula, which is the homolog of the middle lobe of the right lung Lung fissures • The oblique fissure divides the superior and inferior lobes in the posterior aspect of both the right and left lungs • Horizontal fissure is found only in the right lung Lung bronchi • Right lung is a more common site for inhaled foreign bodies because right main stem bronchus is wider, more vertical, and shorter than the left. If you aspirate a peanut: While supine — usually enters superior segment of right lower lobe. While lying on right side — usually enters right upper lobe. While upright — usually enters right lower lobe. • Airway resistance highest in the large-to medium-sized bronchi and least in the terminal bronchioles Cell types in respiratory zone • Pseudostratified ciliated columnar cells are found in bronchi/early terminal bronchioles. • Cuboidal cells are found in terminal bronchioles onward • Simple squamous is the primary type of epithelium present in the alveoli Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Anatomical land marks • Cartilage and goblet cells extend to the end of bronchi. • The Angle of Louis (also known as the sternal angle or Angle of Ludwig) corresponds to T4/T5 vertebral bodies, which is the location at which the trachea bifurcates to the main stem bronchi (carina). • Structures perforating diaphragm: At T 8: IVC, right phrenic nerve At T 10: oesophagus, Vagus (CN10; 2 trunks) At T 12: aorta, thoracic duct, azygos vein. • The trachea bifurcates at the level of T4 ("bi-four-cates at 4") • Diaphragm is innervated by C3, 4, and 5 (phrenic nerve). Pain from diaphragm irritation (eg, air, blood, or pus in peritoneal cavity) can be referred to shoulder (C5) and trapezius ridge (C3, 4). Azygous lobe of the lung • An azygos lobe is a normal variant that develops when a laterally displaced azygos vein creates a deep pleural fissure into the apical segment of the right upper lobe during embryological development. • azygous lobe is seen in about 0.5% of routine chest X-rays and is a normal variant. • The azygous lobe is formed when the posterior cardinal vein fails to migrate over the apex. • It is seen as a 'reverse comma sign' behind the medial end of the right clavicle. Top Tips A patient aspirates vomit. Is the right or left lung a more common site for inhaled foreign bodies and why? Right lung, because the right mainstem bronchus is wider, more vertical, and shorter than the left A patient chokes on a peanut while upright. Where exactly in the lungs do you expect to find the peanut? Right lower lobe Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Diaphragmatic paralysis (Phrenic nerve palsy) Innervation • The diaphragm is innervated by the phrenic nerve (C3,4,5). Causes • Unilateral diaphragmatic paralysis (more common than bilateral) Trauma e.g. Thoracic surgery, Compression: cervical spondylosis, cervical compressive tumors viral infections (eg, Herpes zoster, poliomyelitis) • Bilateral: Guillain-Barré Infection Features • Unilateral paralysis: usually asymptomatic • Bilateral : dyspnoea may progress to ventilatory failure Diagnosis of unilateral paralysis: • suggested by asymmetric elevation of the affected hemidiaphragm on X-ray • Spirometry (in the supine and sitting positions) The forced vital capacity (FVC) is ↓to 70 - 80 % of predicted and typically ↓↓ decreases further by 15 to 25 % in the supine position. • Confirmed by fluoroscopy by observing paradoxical diaphragmatic motion on sniff and cough During a forced inspiratory manoeuvre (the 'sniff test), the unaffected hemidiaphragm descends forcefully, increasing intra-abdominal pressure and pushing the paralysed hemidiaphragm cephalad (paradoxical motion) Fluoroscopy is inaccurate for the diagnosis of bilateral paralysis. Treatment • Unilateral diaphragmatic paralysis: do not require treatment. • Bilateral : may require noninvasive positive pressure ventilation (NPPV) , usually a bilevel positive airway pressure device (BPAP). Lung physiology Pulmonary surfactant • Surfactant is a mixture of phospholipids, carbohydrates and proteins • first detectable around 28 weeks of gestation • Released by type 2 pneumocytes • The main functioning component in surfactant is dipalmitoyl phosphatidylcholine (DPPC) or lecithin. which reduces alveolar surface tension. • as alveoli decrease in size, surfactant concentration is increased, helping prevent the alveoli from collapsing • reduces the muscular force needed to expand the lungs (i.e. decreases the work of breathing) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • lowers the elastic recoil at low lung volumes and thus helps to prevent the alveoli from collapsing at the end of each expiration • Because of surfactant, the pressure difference across the pleura required to inflate the lungs, is usually no more than about 4 cmH2O. Pulmonary circulation • The normal pulmonary circulation is characterised by: low pressures, low flow rates, high compliance vessels. • Chronic hypoxic vasoconstriction may lead to pulmonary hypertension +/– cor pulmonale. • A fall in the partial pressure of oxygen (pO2) in the blood causes a hypoxic vasoconstriction that shifts blood away from poorly ventilated regions of lung to wellventilated regions of lung and improves the efficiency of gaseous exchange. Pulmonary arteries vasoconstrict in the presence of hypoxia Chloride shift • Cells metabolism → ↑CO2 → diffuses into RBCs → CO2 + H2O → carbonic anhydrase → carbonic acid (H2CO3) → HCO3- + H+ • H+ combines with Hb • HCO3- diffuses out of cell, - Cl- replaces it • CO2 produced in the periphery is converted into bicarbonate inside RBCs and then shifted out with chloride replacement Bohr Effect • Increasing acidity (or pCO2) means O2 binds less well to Hb • High CO2 and H+ concentrations (from tissue metabolism) cause decreased affinity for O2 → O2 that is bound to Hb is released to tissue (the O2-Hb dissociation curve is shifted to the right). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Haldane effect • ↑ pO2 means CO2 binds less well to Hb • When Hb is oxygenated (in high pO2, for example, in the lungs): • Oxygenated Hb has a decreased affinity for CO2 → CO2 that is bound to Hb is released in the pulmonary arteries to diffuse into the alveoli (the O2-Hb dissociation curve is shifted to the left). Acclimatisation to life at high altitudes • Acclimatisation results in increased Hb with erythrocytosis. • Pulmonary artery pressure increases to oxygenate more blood. • 2,3-DPG increases. • Respiration is normal when subjects are acclimatised to altitude as is cardiac output. (Periodic respiration is a feature of non-acclimatisation). Lung compliance is defined as change in lung volume per unit change in airway pressure Causes of ↓ compliance • Pulmonary edema • Pulmonary fibrosis • Pneumonectomy • Kyphosis Causes of ↑ compliance • Age • Emphysema • Which part of the conducting zone of the respiratory tree has the least airway resistance? Terminal bronchioles The cough center of the brain, located in the nucleus tractus solitarius of the medulla of the brainstem Oxygen Dissociation Curve Definition • Oxygen Dissociation Curve describes the relationship between the percentage of saturated hemoglobin and partial pressure of oxygen in the blood. • Each hemoglobin molecule has the capacity to carry four oxygen molecules. Meaning of shifting the curve to the right or left • Shifts to right = for given oxygen tension there is ↓ saturation of Hb with oxygen i.e. Enhanced oxygen delivery to tissues • Shifts to left = for given oxygen tension there is ↑ saturation of Hb with oxygen i.e. ↓ oxygen delivery to tissues Causes of shifting the curve to the right or left Shifts to Right = Raised oxygen delivery (The R rule) Shifts to Left = Lower oxygen delivery (The L rule) • Raised [H+] (acidity) • Raised PCO2 • Raised 2,3-DPG • Raised temperature The curve and Affinity • Left shift of the curve is a sign of hemoglobin's ↑ affinity for oxygen (e.g. at the lungs). • Similarly, right shift shows ↓ affinity, as would appear with an ↑ in body temperature, hydrogen ion, 2,3- diphosphoglycerate (2,3-DPG) or carbon dioxide concentration (the Bohr effect) • Carbon monoxide has a much higher affinity for hemoglobin than oxygen does. In carbon monoxide poisoning, oxygen cannot be transported and released to body tissues thus resulting in hypoxia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Low [H+] (alkali) • Low PCO2 • Low 2,3-DPG • Low temperature • HbF, methemoglobin, carboxyhaemoglobin Diagram of Oxygen Dissociation Curve:  Red line demonstrating shifting to the right.  The green line demonstrating shifting to the left Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Top tips Blood in the skeletal muscle is exposed to high temperatures, lower pH, and higher CO2. The oxygen-hemoglobin dissociation curve shifts to the right, facilitating oxygen delivery to the tissue. In the pulmonary vein, blood is exposed to a higher pH and lower CO2. The oxygenhemoglobin dissociation curve shifts to the left, facilitating oxygen binding to hemoglobin. 2,3-Diphosphoglycerate (2,3-DPG)  2,3-DPG is an important molecule made by tissue in response to a low pH and low oxygen environment.  It may be helpful to think of 2,3-DPG as a help flag made by tissues in response to stress. When hemoglobin comes across higher 2,3-DPG, it “knows” that the tissue is in trouble and drops off extra oxygen. Therefore, as 2,3-DPG increases, the binding affinity of oxygen for hemoglobin decreases, which results in a rightward shift of the dissociation curve. Question A 24-year-old woman is evaluated before and after practice to assess oxygen delivery to her muscles. The hemoglobinoxygen dissociation curve is shown. Curve B is taken before practice. Which characteristics will most probably describe curve A? Answer: If curve B is taken before practice, it will be used as reference point. Curve A shows shifts to the left. Increased pH with decreased 2,3diphosphoglycerate concentration Pulmonary function tests Pulmonary function tests can be used to determine whether a respiratory disease is obstructive or restrictive. Normal lung volumes Definition Normal range Total lung capacity (TLC) Volume of air in the lungs after maximal inhalation [= vital capacity + residual volume]. Vital capacity (VC) Maximum volume of air that can be expired after a maximal inspiration. [↓ with age] Residual volume (RV) Volume of air that remains in the lungs after maximal exhalation.[ ↑ with age & obstructive lung disease] Tidal volume (TV) Volume of air that is inhaled and exhaled in a normal breath at rest ∼500 mL or 7 mL/kg Inspiratory reserve volume Maximum volume of air that can still be forcibly inhaled following the inhalation of a normal TV Inspiratory capacity (IC) Maximum volume of air that can be inhaled after the exhalation of a normal TV. [IC = TV + IRV] Expiratory reserve volume (ERV) Maximum volume of air that can still be forcibly exhaled after the exhalation of a normal TV Expiratory capacity (EC) Maximum volume of air that can be exhaled after the inspiration of a normal TV Functional residual capacity (FRC) Volume of air that remains in the lungs after the exhalation of a normal TV Dead space areas of the lung not involved in gas exchange. Anatomic dead space includes the nonrespiratory airways and exists in all healthy lungs. Physiologic dead space includes the anatomic dead space plus any alveoli that are not perfused and thus cannot participate in gas exchange Obstructive vs. Restrictive lung diseases Obstructive Restrictive FEV1/FVC <0.7 (˂70%) FEV1/FVC >0.7 (> 70%) FEV1 - significantly reduced (<80% predicted normal) Spirometry FVC - reduced or normal FEV1% (FEV1/FVC) - reduced Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 6–6.5 L 4.5–5 L 1–1.5 L 3–3.5 L 3.5–4 L 1.5 L 2 L 2.5–3 L 150 ml FEV1 - reduced (<80% predicted normal) FVC - significantly reduced (<70% predicted normal) FEV1% (FEV1/FVC) - normal (>0.7) or increased Chapter 2 Pulmonology Obstructive Restrictive Examples Chronic obstructive pulmonary disease • chronic bronchitis • emphysema Asthma Bronchiectasis Forced vital capacity (FVC) • A measure of the force, volume, and speed with which air can be maximally expelled from the lungs. • The maneuver would be to take a deep breath, and then blow it out as hard as you can for as long as you can to maximally expel air from the lungs. • Indications commonly done to assess patients with asthma and chronic obstructive pulmonary disease. the best way to monitor respiratory function in any neurological disorders that can affect the respiratory muscles (e.g. GBS, myasthenia gravis). ITU admission is recommended when FVC is less than 20 mL/kg and intubation is recommended in most cases when FVC is less than 15 mL/kg. Peak expiratory flow rate (PEFR) • Definition : The maximum airflow rate attained during forced expiration. • Normal values PEF values are usually expressed as L/min; when measured as part of spirometry, values are expressed in L/sec. To convert, multiply L/sec x 60 sec/min = L/min. Peak flow meters are handheld devices used to measure PEFR in the ambulatory setting Normally : ≥ 80% of the predicted average value Dependent upon factors such as gender, age and height. The most accurate correlation of the peak expiratory flow rate (PEFR) is with height. PEFR is typically higher in males than females and higher in taller patients. • Advantages It is effort-independent. In patients with asthma, the PEFR % predicted correlates reasonably well with the FEV1 and provides an objective measure of airflow limitation when spirometry is not available  Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Intrapulmonary • idiopathic pulmonary fibrosis • extrinsic allergic alveolitis • coal worker's pneumoconiosis/progressive massive fibrosis • silicosis • sarcoidosis • histiocytosis • drug-induced fibrosis: amiodarone, bleomycin, methotrexate • asbestosis Extrapulmonary • neuromuscular disease: polio, myasthenia gravis • obesity • scoliosis • Disadvantages  predominantly assesses large airway caliber and can underestimate the effects of asthma in the small airways. Restrictive processes that limit full inspiration, such as chest wall disease, obesity, and muscle weakness, can lead to a reduced PEF in the absence of airflow limitation. Thus, values for PEF that are less than 80 percent of predicted should be further evaluated with spirometry before assuming that the abnormality is due to asthma. • The differences between Peak Flow Meters and Spirometry Peak Flow Meter Spirometry Measures ability to exhale Will vary with lung capacity Use with charts to detect OBSTRUCTIVE disease Can be used by patients to monitor lung ‘function’ Flow-volume loop • provides additional information about the location of airway constriction • Best test for upper way obstruction. the upper airway is defined as that portion of the airway extending from the mouth to the mainstem bronchi Explanation of high FEV-1/FVC ratio in lung fibrosis • Lung fibrosis → ↑↑high elastic recoil → most forced expiratory volume (FEV1) will be expelled in the first second compared to full forced expiration → a relatively high FEV-1/FVC ratio. Obesity → extra-thoracic restriction • Obesity could show a significant restrictive defect. Patients with respiratory muscle weakness show spirometric findings of restrictive lung disease. • What is the best pre-operative screen of pulmonary function for a smoker patient evaluated for a coronary artery bypass graft (CABG).? Ratio of the forced expiratory volume in 1 second to the forced vital capacity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Simultaneous measurement of flow and capacity Can be used to diagnose both OBSTRUCTIVE and RESTRICTIVE disease (gold standard) Costs more than peak flow meters Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Transfer factor (DLCO or TLCO (diffusing capacity or transfer factor of the lung for carbon monoxide (CO)) • The transfer factor describes the rate at which a gas will diffuse from alveoli into blood. • Carbon monoxide is used to test the rate of diffusion. • Results may be given as the total gas transfer (DLCO, TLCO ) or that corrected for lung volume (transfer coefficient, KCO). • Diffusion capacity of carbon monoxide depends on the thickness of the alveolar wall. diffusion will be increased in healthy compared with unhealthy lungs, where the thickness is likely to increase and the surface area available for gas exchange to decrease. Diffusing capacity of the lungs for carbon monoxide (DLCO) (also known as transfer factor for carbon monoxide or TLCO) • DLCO measures the ability of the lungs to transfer gas from inhaled air in the alveoli to the red blood cells in pulmonary capillaries. • Used to identify the cause of dyspnea or hypoxemia, Factors interfere with interpretation of the Diffusing capacity (DLCO) test • Smoking patients should avoid cigarette smoking on the day of the test Carbon monoxide in cigarette smoke → ↑ carboxyhaemoglobin (COHb) (to as high as 10-15% (normal value 1-2%) →↓ DLCO. Increasing COHb reduces DLCO • Supplemental oxygen discontinue any supplemental oxygen for at least 15 minutes prior to testing. • Significant amount of Alcohol in the morning of the test (not small amount) • Severe kyphosis (not mild) • Sever scoliosis (not mild) Causes of raised and lower DLCO • Where alveolar haemorrhage occurs, the DLCO tends to increase due to the enhanced uptake of carbon monoxide by intra-alveolar haemoglobin. Causes of a raised DLCO Causes of a lower DLCO • Asthma • Pulmonary haemorrhage (Wegener's, Goodpasture's) • Left-to-right cardiac shunts • Polycythaemia • Hyperkinetic states • Early left heart failure • Male gender • Exercise • Obesity • Pulmonary fibrosis • Pneumonia • Pulmonary emboli • Pulmonary oedema • Emphysema • bronchiolitis obliterans • Anaemia • Low cardiac output • Pulmonary AV malformations • carboxyhemoglobinemia. • hepatopulmonary syndrome • lymphangioleiomyomatosis • Transfer factor (DLCO) and transfer co-efficient (KCO) can be normal or elevated in patients with asthma but are always reduced in emphysema. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Pulmonary AV malformations cause right-to-left shunts, so reducing Tlco values and provoking hypoxaemia (↓Pao2), with a normal lung volumes (eg FEV1 & FVC). • Low DLCO combined with reduced lung volumes suggests interstitial lung disease. • Normal DLCO associated with low lung volumes suggests → an extrapulmonary cause of the restriction, such as pleural effusion, pleural thickening, neuromuscular weakness, or kyphoscoliosis. Top Tips Transfer coefficient of carbon monoxide (KCO) Overview • The transfer coefficient (Kco) represents the uptake of carbon monoxide per litre of effective alveolar volume (Va) • KCO is a measure of the efficiency of gas exchange into the blood stream. Causes of reduced Kco: (It is reduced if the lungs are damaged) • Restrictive lung disease e.g. Interstitial lung disease the best test - after CT- to confirm restrictive lung disease due to a parenchymal disorder Normal KCO may rule out significant restrictive lung disease • Sarcoidosis would reduce the transfer coefficient as there is damage to the alveolar cells themselves Causes of an increased Kco • Increased if there is additional blood in the lungs to remove carbon monoxide (e.g. ↑blood flow, haemorrhage, or polycythaemia). • Extrapulmonary volume restriction density of pulmonary capillaries is unusually high in relation to the (restricted) lung volume at which the measurement is made. • increase with age. Causes of an increased KCO with a normal or reduced TLCO • Low Tlco but normal/high Kco (ie the same cardiac output is going through a smaller alveolar volume) is characteristic of extra-thoracic restriction: pneumonectomy/lobectomy scoliosis/kyphosis neuromuscular weakness ankylosis of costovertebral joints e.g. ankylosing spondylitis Severe thoracic skin thickening, Pleural disease, extensive bilateral pleural thickening Obesity • In intrapulmonary restriction, both (Tlco & Kco) are usually decreased. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Isolated decreases in gas transfer are typical of pulmonary vascular diseases such as vasculitis and recurrent pulmonary embolism. Relation between DLco, VA (alveolar volume) & KCO (transfer coefficient) • Dlco is simply the product of Va and Kco • TLCO = KCO x Alveolar volume (VA) Arterial Blood Gas (ABG) Arterial blood gases should be used for assessing respiratory failure in Critically ill Patients or those with Shock or Hypotension (Systolic blood pressure < 90mmHg) (British Thoracic Society, 2017) Reference ranges • PaCO2: 35–45 mm Hg • SaO2: ≥ 95% • pH: 7.35–7.45 • HCO3-: 21 to 27 mEq/L • Resting PaO2 > 80 mm Hg is considered normal. Procedure • A modified Allen test must be performed before the radial artery is punctured to assess collateral circulation in the hand. Contra-Indications of ABG sampling • Absent ulnar circulation – as demonstrated by Modified Allen’s Test. • Impaired circulation e.g. Raynaud’s Disease • History of arterial spasms • Distorted anatomy/ arteriovenous fistula trauma/burns to the limb - at or proximal to the attempted arterial puncture site • Medium or high dose anticoagulation therapy, or history of clotting disorder • Severe coagulopathy • Abnormal or infectious skin processes at/or near puncture site Modified Allen's test • modified Allen test measures arterial competency, and should be performed before taking an arterial sample. Ask the patient to clench his fist; if the patient is unable to do this, close the person's hand tightly. Using your fingers, apply occlusive pressure to both the ulnar and radial arteries, to obstruct blood flow to the hand. While applying occlusive pressure to both arteries, have the patient relax his hand, and check whether the palm and fingers have blanched. If this is not the case, you have not completely occluded the arteries with your fingers. Release the occlusive pressure on the ulnar artery only to determine whether the modified Allen test is positive or negative.  If the hand flushes within 5-15 seconds it indicates that the ulnar artery has good blood flow →positive test. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  If the hand does not flush within 5-15 seconds, it indicates that ulnar circulation is inadequate or nonexistent; in this situation, the radial artery supplying arterial blood to that hand should not be punctured. Interpretation of ABG • Hypoxemic respiratory failure (type 1 respiratory failure): ↓ PaO2 • Hypercapnic respiratory failure (type 2 respiratory failure): ↑ PaCO2 and ↓ PaO2 • Mixed metabolic and respiratory acidosis pH →below 7.35 PCO2 →elevated (> 6 kPa) indicating a respiratory cause for acidosis Bicarbonate →reduced (< 20 mmol/L) which is contributing to the acidosis. the most likely biochemical imbalance seen in fluid inhalation is →Mixed metabolic and respiratory acidosis  inhalation of fluid →disordered gas exchange →respiratory acidosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology  Metabolic acid results from intravascular volume depletion, hypotension and consequent tissue hypoxia. • Compensated respiratory acidosis →normal PH, high CO2, low O2 . The fact that the pH is normal means that there must be bicarbonate retention to compensate. In bronchopulmonary dysplasia, there is usually long-term CO2 retention with compensatory increase in bicarbonate leading to a positive base excess and normal pH. • Pathophysiological changes in case of acute acidosis: Occurred too quickly for metabolic compensation to occur via renal bicarbonate reabsorption, which takes 3-5 days to occur. (bicarbonate will be normal in acute respiratory acidosis) The oxygen dissociation curve is shifted to the right in acute acidosis, i.e. haemoglobin has a decreased affinity for oxygen. High pulmonary pressures would be expected after arrest scenario, as the pulmonary arterioles constrict in response to hypoxia. Chest x-ray Differential diagnosis of cavitating lung lesion • abscess (Staph aureus, Klebsiella and Pseudomonas) • squamous cell lung cancer • tuberculosis • Wegener's granulomatosis • Progressive massive fibrosis: is a complicated coal worker's pneumoconiosis where pulmonary nodules coalesce and cavitate. • pulmonary embolism • Systemic embolisation: occurs in 20-50% of cases of infective endocarditis, and can involve the lungs, central nervous system, coronary arteries, spleen, bowel and extremities. • rheumatoid arthritis • aspergillosis, histoplasmosis, coccidioidomycosis • Actinomycosis: is a chronic granulomatous disorder caused by a Gram-positive anaerobe. Differential diagnosis of diffuse opacities on chest X-ray • Pulmonary oedema • Interstitial lung disease • Vasculitic lung disease • Pulmonary haemorrhage Coin lesions on chest x-ray • Coin lesions (solitary pulmonary nodule) malignant tumour: lung cancer or metastases benign tumour: hamartoma infection: pneumonia, abscess, TB, hydatid cyst AV malformation White lung lesions on chest x-ray • causes of white shadowing in the lungs including: • consolidation • pleural effusion • collapse • If there is a 'white-out' of a hemithorax it is useful to assess the position of the trachea - is it central, pulled or pushed from the side of opacification. Trachea pulled toward the white-out Trachea central Trachea pushed away from the whiteout Pneumonectomy Complete lung collapse (Atelectasis) e.g. endobronchial intubation Pulmonary hypoplasia Consolidation Pulmonary oedema (usually bilateral) Mesothelioma • In the context of an acute aspiration, the most likely process is atelectasis secondary to bronchial obstruction. • Obstruction of the mainstem bronchus will prevent gas from entering the affected lung and will lead to the collapse of that lung. • The collapsed lung will cause complete whiteout of the hemithorax on chest X-ray and will cause ipsilateral tension on the mediastinum leading to shifting of the trachea toward the affected lung. Characteristics of consolidation on chest x-ray • Consolidation in the left lower lobe → obliterates the diaphragm. • Lingular consolidation → obliterate the left heart border. • Consolidation of the right middle lobe → obscures the right heart border (right atrial edge). More extensive consolidation also involves the right and left peri-hilar regions. The superior extent is well demarcated, due to the horizontal fissure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • pneumonectomy • specific lesions e.g. tumours • fluid e.g. pulmonary oedema Pleural effusion Diaphragmatic hernia Large thoracic mass Lung collapse note how the trachea is pulled towards the side of the white-out Chapter 2 Pulmonology • Right upper lobe collapse results in → displacement of the horizontal fissure upwards. The right hilum can also appear enlarged. The classical signs of right upper lobe consolidation → abnormal opacity within the right upper lobe abutting the horizontal fissure. The loss of the left heart border is a classic sign of left lingual consolidation. Lobar collapse on chest x-ray (Atelectasis) • Signs of lobar collapse on a chest x-ray tracheal deviation towards the side of the collapse mediastinal shift towards the side of the collapse elevation of the hemidiaphragm • Causes lung cancer (the most common cause in older adults) foreign body mucous plugging ( e.g. in cystic fibrosis, post-operative complication , asthma)  Treatment adequate hydration and chest physiotherapy. Bronchoscopy with lavage may be required if this is unsuccessful. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad This patient has a left upper lobe collapse. The following can be seen on the film to support this: • hazy opacity projected over the left upper zone • deviation of the trachea to the left • elevation of the left hemidiaphragm • loss of lung volume in the left hemithorax 012 - Pages 276-300 012 Pages 276-300 Pleural calcification Unilateral pleural calcification • most commonly occurs as a chronic change secondary to: pleural infection: tuberculous empyema, pyogenic empyema, haemothorax (post-traumatic) Bilateral pleural calcification • Common calcified pleural plaques are usually considered asbestos-related. • Other rarer causes radiation exposure, hyperparathyroidism, pulmonary infarction, pancreatitis. Solitary pulmonary nodules Definition • A small (≤30 mm), well defined lesion completely surrounded by pulmonary parenchyma detected as an incidental finding, either on chest x-ray or CT scans. • Lesions larger than 3 cm are considered masses and are treated as malignancies until proven otherwise. Causes • benign nodules (The most common) Infectious granulomas and hamartomas are the most common causes of benign nodules. • malignant nodules The most common causes of malignant nodules are primary lung cancer, lung metastases, and carcinoid tumors. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Lung collapse (Atelectasis) • There is increased opacity in the right upper zone, The lateral / inferior border of the shadowing actually represents the horizontal fissure which has been 'dragged' upwards. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Management • Risk stratification of incidental pulmonary nodules  consider the risk factors for lung cancer or metastases, as well as size and character of the nodule. surveillance according to British Thoracic Society Guidelines published in 2005.  Nodules < 5 mm require no further surveillance.  Nodules 5-6mm require CT at 1 year  Nodules 6-8 mm require CT at 3 months  Nodules > 8 mm require malignancy risk calculation using the Brock model and should then have CT or PET according to whether this risk is > 10%. To determine risk of malignancy following CT the BTS uses the Brock model The Brock model considers age, gender, family history and features of the nodule Only nodules which are greater than 8mm in diameter and have a greater than 10% risk of malignancy, as assessed by the Brock model (this can be accessed on the BTS website) should undergo PET-CT and then, based on outcomes, be assessed for obtaining a histological sample. • Requesting a previous chest x-ray is the most appropriate first step in management of a patient with a solitary pulmonary nodule, especially when the risk of malignancy is high (age > 40 years, history of smoking). If there are no new changes, the patient can be followed-up with yearly chest x-rays. However, if there are new changes noted (additional nodules, enlargement), or no previous chest x-ray is available, a CT scan is indicated to assess for nodule size, location, and signs of malignancy, before eventual biopsy. Alveolar-arterial (A-a) oxygen gradient Definition • The difference between the partial pressure of oxygen in the alveoli (A) and the partial pressure of oxygen in the arteries (a). Indications of uses • Used in diagnosing the source of hypoxemia. For example, in high altitude, the arterial oxygen PaO2 is low but only because the alveolar oxygen (PAO2) is also low. in states of ventilation perfusion mismatch, such as pulmonary embolism or rightto-left shunt, oxygen is not effectively transferred from the alveoli to the blood which results in elevated A-a gradient • in hypoxaemia it can differentiate between extrinsic and intrinsic restrictive lung disease if A-a gradient is normal →the cause is extrinsic, so exclude intrinsic lung disease Normal range • The normal range varies with age, altitude, and the concentration of inhaled oxygen. Normal range for a young person breathing room air at sea level is 5–10 mm Hg and increases with physical exercise. • A–a gradient = alveolar O2 (PAO2) – arterial O2 (PaO2) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes of increased A-a gradient • Age • Higher concentration of inhaled oxygen • Right-to-left shunting (e.g. cyanotic heart disease) • Fluid in alveoli: e.g., CHF, ARDS, pneumonia • Ventilation/perfusion (V/Q) mismatch (due to increased dead space or shunting): e.g., pulmonary embolism, pneumothorax, atelectasis, obstructive lung disease, pneumonia, pulmonary edema • Alveolar hypoventilation: interstitial lung disease, lung fibrosis (usually manifests with ↑ CO2) Causes of hypoxaemia with normal A-a gradient • high altitude (both PAo2 and Pao2 are equally reduced ) • hypoventilation (except lung): higher respiratory centre (e.g. drug induced) upper air way (e.g. acute epiglottitis) chest wall (e.g. kyphoscoliosis) respiratory muscles (e.g. myasthenia graves ) haemoglobin defect  anaemia : normal paO2 , normal SaO2 , low O2 content  methemoglobinemia : normal PaO2, low SaO2 , low O2 content An increased A-a gradient may occur in hypoxemia due to shunting, ventilation-perfusion mismatch, or impaired gas diffusion across the alveoli due to fibrosis or edema. The A-a gradient remains normal with hypoventilation due to CNS and neuromuscular disorders (no diffusion defect) and in high altitude (despite a lower fraction of inhaled O2). Finger clubbing Definition • Loss of the natural angle between the nail and the nail bed. • increased curvature of the nail Causes • Suppurative diseases: long-standing bronchiectasis acute lung abscesses empyema • Malignant disease - especially carcinoma of the bronchus and pleural malignancy • Fibrosing alveolitis • Asbestosis • hypertrophic pulmonary osteoarthropathy, painful osteitis of the distal ends of the long bones of the lower arms and legs. Malignancy is associated in 95% of these cases. Finger clubbing is not seen in uncomplicated bronchitis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Respiratory failure Top tips Type 1 respiratory failure • Definition  hypoxaemia (PaO2 < 8.0 kPa) without hypercapnia (PaCO2 normal or decreased (<6.0 kPa) Causes:  Low ambient oxygen (e.g. at high altitude)  Ventilation-perfusion mismatch (parts of the lung receive oxygen but not enough blood to absorb it, e.g. pulmonary embolism)  Alveolar hypoventilation (decreased minute volume due to reduced respiratory muscle activity, e.g. in acute neuromuscular disease); this form can also cause type 2 respiratory failure if severe  Diffusion problem (oxygen cannot enter the capillaries due to parenchymal disease, e.g. in pneumonia or ARDS)  Shunt (oxygenated blood mixes with non-oxygenated blood from the venous system, e.g. right-to-left shunt) Type 2 respiratory failure • Definition: Hypoxemia (PaO2 <8kPa (60 mmHg)) with hypercapnia (PaCO2 >6.0kPa (45 mmHg)). • Causes: Increased airways resistance (COPD, asthma, suffocation) Reduced breathing effort hypoventilation:  due to drug overdose and brain stem lesion acutely  due to: gross obesity, kyphoscoliosis (and similar chronically musculoskeletal disorders)  Hypoventilation, where inadequate alveolar ventilation results in low alveolar PO2, is the only cause of hypoxia that inevitably causes raised PaCO2. A decrease in the area of the lung available for gas exchange (such as in chronic bronchitis) Neuromuscular problems (respiratory muscle weakness) (Guillain-Barre syndrome , motor neuron disease) Deformed (kyphoscoliosis), rigid (ankylosing spondylitis), or flial chest.  Respiratory failure • Type 1 hypoxaemia (PaO2 < 8.0 kPa) without hypercapnia (PaCO2 normal or decreased (<6.0 kPa) • Type 2 Hypoxemia (PaO2 <8kPa) with hypercapnia (PaCO2 >6.0kPa). Type 2 respiratory failure with normal CXR neuromuscular weakness Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Bronchial Asthma Immunological response involved in atopic asthma: • Immediate response: type I hypersensitivity immunomodulators involved: mast cells , histamine Result in immediate bronchoconstriction reaction Usually subsides within two hours Reversible with bronchodilators. • Late phase: type IV hypersensitivity response Results in bronchoconstriction, airways inflammation, hyper-responsiveness and oedema. This typically occurs three to12 hours after the immediate response Less susceptible to bronchodilators. Pathogenesis of asthma: • Asthma occurs due to a combination of airway hyper-responsiveness, airflow limitation and airway inflammation • The alveolar functional structure is preserved in asthma. Near fatal asthma • The British Thoracic Society defines near fatal asthma as an attack with raised PaCO2 and/or requiring mechanical ventilation with raised inflation pressures. • A raised PaCO2 is an important sign that intubation may be required if the patient is not responding to maximum medical management. Features • wheeze, cough or breathlessness, and any daily or seasonal variation in these symptoms, any triggers that make symptoms worse • a personal or family history of atopic disorders. Asthma diagnosis (NICE guidelines 2017) NICE guidelines Do not use symptoms alone without an objective test to diagnose asthma. Empirically inhaled corticosteroids may affect the results of spirometry and FeNO tests • Step 1: Exclude occupational asthma by asking if their symptoms are better on days away from work/during holidays. • Step 2: Test for airway inflammation →Fractional exhaled nitric oxide ( FeNO) test If ˃ 40 ppb → positive • Step 3: test for obstructive airway disease → Spirometry FEV1/FVC ratio < 70% → positive (obstructive spirometry). • Step 4: test for Bronchodilator reversibility (BDR) → bronchodilators + Spirometry improvement in FEV1 ≥ 12%, + ↑volume ≥ 200 ml → positive Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Step 5: If there is diagnostic uncertainty (e.g. positive BDR with borderline FeNO OR obstructive spirometry + negative BDR) →Peak expiratory flow variability for 2 to 4 weeks value ≥ 20% variability is a positive test. • Step 6: If there is diagnostic uncertainty (positive FeNO ≥ 40 BUT normal spirometry and no variability in peak flow readings OR borderline FeNO with obstructive spirometry BUT negative BDR and no variability in peak flow readings ) → Airway hyperreactivity measures → Direct bronchial challenge test with histamine or methacholine PC20 value ≤ 8 mg/ml is a positive test. NICE quality statement : Adults with new onset asthma are assessed for occupational causes. Are you better on days away from work? Are you better on holiday? All patients with suspected B. Asthma should have spirometry with a bronchodilator reversibility (BDR) test and FeNO test Diagnosis of asthma (NICE guidelines 2017) Patients ≥ 17 years: Exclude occupational asthma (by asked if their symptoms are better on days away from work/during holidays). Do spirometry with a bronchodilator reversibility (BDR) test + Fractional exhaled nitric oxide ( FeNO) for all patients obstructive spirometry FEV1/FVC ratio < 70% positive BDR test improvement in FEV1 ≥12%, together with an increase in volume ≥200 positive FeNO test ≥ 40 monitor Peak expiratory flow variability: for 2 to 4 weeks, if there is diagnostic uncertainty: normal spirometry OR obstructive spirometry, positive BDR but a FeNO ≤ 39 Regard a value > 20% variability as a positive test. Patients 5-16 years: Do spirometry with a bronchodilator reversibility (BDR) test Do a FeNO test if there is: normal spirometry OR obstructive spirometry with a negative BDR test Regard a value of FeNO test ≥ 35 as a positive test. In asthma diagnosis: Positive spirometry with a bronchodilator reversibility (BDR) test → improvement in FEV1 of ≥12% Positive peak flow meter → ˃ 20% variation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Positive tests in Asthma Test Positive result Fractional exhaled nitric oxide (FeNO) 40 ppb or more FeNO 35 ppb or more Obstructive spirometry Forced expiratory volume in 1 second/forced vital capacity (FEV1/FVC) ratio less than 70% (or below the lower limit of normal if this value is available) Bronchodilator reversibility (BDR) test Improvement in FEV1 of 12% or more and increase in volume of 200 ml or more BDR test Improvement in FEV1 of 12% or more Peak flow variability Variability over 20% Direct bronchial challenge test with histamine or methacholine Provocative concentration of methacholine causing a 20% fall in FEV1 (PC20) of 8 mg/ml or less Management of asthma (NICE guidance 2017). One of the key changes is in 'step 3' - patients on a SABA + ICS whose asthma is not well controlled should be offered a leukotriene receptor antagonist, not a LABA Step Notes Newly-diagnosed asthma Short-acting beta agonist (SABA) Not controlled on previous step OR Newly-diagnosed asthma with symptoms ≥3 / week or nighttime waking SABA + low-dose inhaled corticosteroid (ICS) SABA + low-dose ICS + leukotriene receptor antagonist (LTRA) SABA + low-dose ICS + long-acting beta agonist (LABA) Continue LTRA depending on patient's response to LTRA SABA +/- LTRA Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Switch ICS/LABA for a maintenance and reliever therapy (MART), that includes a low-dose ICS SABA +/- LTRA + medium-dose ICS MART OR consider changing back to a fixed-dose of a moderate-dose ICS and a separate LABA SABA +/- LTRA + one of the following options: • increase ICS to high-dose (only as part of a fixeddose regime, not as a MART) • a trial of an additional drug (for example, a longacting muscarinic receptor antagonist or theophylline) • seeking advice from a healthcare professional with expertise in asthma Drugs used in asthma Drug Mechanism of action Notes Salbutamol Beta receptor agonist • Short-acting inhaled bronchodilator. Relaxes bronchial smooth muscle through effects on beta 2 receptors • Used in asthma and chronic obstructive pulmonary disease (COPD). • Salmeterol has similar effects but is long-acting Corticosteroids Anti-inflammatory • Inhaled corticosteroids are used as maintenance therapy • Oral or intravenous corticosteroids are used following an acute exacerbation of asthma or COPD Ipratropium Blocks the muscarinic acetylcholine receptors • Short-acting inhaled bronchodilator. Relaxes bronchial smooth muscle • Used primarily in COPD • Tiotropium has similar effects but is long-acting Methylxanthines (e.g. theophylline) Non-specific inhibitor of phosphodiesterase resulting in an increase in cAMP • Given orally or intravenously • Has a narrow therapeutic index Montelukast, zafirlukast Blocks leukotriene receptors • Usually taken orally • Useful in aspirin-induced asthma Steroid inhalation • Fluticasone is more lipophilic and has a longer duration of action than beclomethasone • Hydrofluoroalkane is now replacing chlorofluorocarbon as the propellant of choice. Only half the usual dose is needed with hydrofluoroalkane due to the smaller size of the particles • Table showing examples of inhaled corticosteroid doses • Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Dose Example low dose ≤ 400 micrograms budesonide or equivalent moderate dose 400 micrograms - 800 micrograms budesonide or equivalent high dose 800 micrograms budesonide or equivalent • Side effects: Inhaled corticosteroids →↓↓ skin collagen synthesis →skin fragility →↑↑ tendency for bruising & vascular changes Cushing's syndrome: Interaction with potent cytochrome P450-3A4 inhibitor → elevations in plasma fluticasone concentrations (even nasal or inhaled preparations) →suppress endogenous cortisol levels and produce Cushing's syndrome. eg: a patient with HIV and asthma, C/O tiredness, lethargy and weight gaining → suspect Cushing's syndrome produced by Ritonavir, a protease inhibitor which is an extremely potent cytochrome P450-3A4 inhibitor. Long acting B2-agonists • Action: acts as bronchodilators but also inhibit mediator release from mast cells. The duration of action of salmeterol is around 12 hours • Side effects: Salmeterol →may cause paradoxical bronchospasm Leukotriene receptor antagonists • Action Montelukast, zafirlukast  CysLT1 antagonist; it blocks the action of leukotriene on cysteinyl leukotriene receptor CysLT1 by binding to it. Zileuton →blocks leukotriene synthesis by inhibiting 5-lipoxygenase,  inhibits 5-lipoxygenase pathway, blocking the conversion of arachidonic acid to leukotrienes. have both anti-inflammatory and bronchodilatory properties • Inductions should be used when patients are poorly controlled on high-dose inhaled corticosteroids and a long-acting b2-agonist have been shown to be as effective as doubling the dose of inhaled steroid. asthma with allergic rhinitis aspirin-induced asthma exercise-induced asthma • Side effects associated with the development of Churg-Strauss syndrome Asthma drugs: leukotriene inhibitor action: Zafirlukast →Inhibitor of LT receptor Zileuton →Antagonist of lipoxygenase Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Omalizumab • Action: monoclonal antibody that binds to IgE. • Indications: severe refractory, persistent confirmed allergic IgE-mediated asthma (e.g. positive skin test to a recognised respiratory allergen) • Administration: given subcutaneously every 2 or 4 weeks. • Side effects: injection site pain, swelling, erythema, pruritus, and headaches Non-pharmacological management • Stop smoking. • Weight-loss interventions • Breathing exercise programs (including physiotherapist-taught methods) can be offered to people with asthma as an adjuvant to pharmacological treatment to improve quality of life and reduce symptoms Diaphragmatic breathing, (as opposed to thoracic breathing which is practised by many asthmatics): reduce symptoms Buteyko technique: a breathing technique which can ‘improve asthma symptoms, quality of life and reduce bronchodilator (blue reliever inhaler) requirement Omalizumab  anti-IgE monoclonal antibody  used for resistant asthma with evidence of raised IgE and allergic symptoms. Mepolizumab  anti-IL5 monoclonal antibody  used for resistant asthma with raised eosinophils Β-blockers, including eye drops, should be avoided in patients with asthma. They are not however absolutely contraindicated. Acute severe asthma Classification of acute severe asthma • Patients with acute severe asthma are stratified into moderate, severe or lifethreatening. • Note that a patient having any one of the life-threatening features should be treated as having a life-threatening attack. Moderate Severe Life-threatening • PEFR 50-75% best or predicted • Speech normal • RR < 25 / min • Pulse < 110 bpm • PEFR 33 - 50% best or predicted • Can't complete sentences in one breath • RR > 25/min • Pulse > 110 bpm • PEFR < 33% best or predicted • Oxygen sats < 92% • PaO2 < 8 kPa • Normal PaCO2 (4.6-6.0 kPa) • Silent chest, cyanosis or feeble (Poor) respiratory effort • Bradycardia, dysrhythmia or hypotension • Exhaustion, confusion or coma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management of acute severe asthma • β2-agonists should be administered as soon as possible, preferably nebulised driven with high flow oxygen. salbutamol administration can rapidly worsen the V/Q mismatch which is the cause of hypoxia in asthma. They can therefore cause reduction in arterial oxygen tension unless supplemental oxygen is given • Nebulised ipratropium bromide. It's addition produces significantly greater bronchodilation than a β2-agonist alone. • Oxygen: Targeted oxygen in asthma →SpO2 level of 94–98%. • Steroids: steroids reduce mortality, relapses, subsequent hospital admission and requirement for β2-agonists1. This should be continued for five days, and can then be stopped abruptly. • Magnesium sulphate recommended as next step for patients who are not responding (e.g. 1.2 - 2g IV over 20 mins) . Mechanism: low magnesium levels in bronchial smooth muscle favour bronchoconstriction. reduce rates of admission to intensive therapy units • Intensive care is indicated for patients with severe acute or life threatening asthma who are failing to respond to therapy. Strongest indicator of a need for intubation and ventilation →PH 7.31 Asthmatic patient with + PaCO2 at the upper limit of normal. What would be the most appropriate next step? A normal or elevated pCO2 in an asthmatic indicates impending respiratory failure review by an anaesthetist/intensivist is the next immediate step. Hypercapnia and signs of fatigue are indications for immediate intubation and ventilation. Management of Asthma in pregnancy • In general, the medicines used for asthma are safe during pregnancy. • The British Thoracic Society (BTS) guidelines make it clear that short-acting /long-acting beta 2-agonists, inhaled and oral corticosteroids should all be used as normal during pregnancy. • The BNF advises that 'inhaled drugs, theophylline and prednisolone can be taken as normal during pregnancy and breast-feeding'. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Chronic Obstructive Pulmonary Disease(COPD) Definition: airflow obstruction that is not fully reversible. Epidemiology: • worldwide prevalence of 10% • COPD is the third leading cause of death worldwide Subtypes of COPD Chronic bronchitis: defined as chronic cough and sputum production for at least three months of two consecutive years in the absence of other disease which could explain these symptoms. Emphysema Pathophysiology • Inflammatory changes → ciliary dysfunction and increased goblet cell size and number, → excessive mucus secretion. • Increased airway resistance is the physiological definition of COPD. • Decreased elastic recoil, fibrotic changes in lung parenchyma, and luminal obstruction of airways by secretions all contribute to increased airways resistance. • Progressive hypoxia →vascular smooth muscle thickening → pulmonary hypertension • Which mechanism is most likely responsible for the increased mean arterial pulmonary pressure in COPD? Hypoxic induced pulmonary vasoconstriction Causes • Smoking • Alpha-1 antitrypsin deficiency • Using open fires at homes for cooking or heating (patients from the developing world present with a COPD-like history without smoking history) • Occupational exposures, such as harmful dust and chemicals cadmium (used in smelting) (recognised cause of emphysema specifically) coal, cotton, cement, grain Emphysema • Definition emphysema is a term that refers to the actual damage to the air sacs in the lung, called the alveoli. In other words, emphysema is a pathological term. • Pathophysiology destruction of alveolar air sacs due to an imbalance between protease and antiprotease action. loss of elastic recoil, which drives airflow limitation. • Types Panlobular (panacinar) pulmonary emphysema  Rare  Associated with α1-antitrypsin deficiency  Characterized by destruction of the entire acinus  Usually affects the lower lobe Centrilobular or proximal acinar pulmonary emphysema  Common  Classically seen in smokers Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Characterized by destruction of the respiratory bronchiole (central portion of the acinus)  Usually affects the upper lobe  most severe at the apex of the lung. Types of emphysema Type Centriacinar (centrilobular) Panacinar Prevalence the most common type Less common destruction focal destruction mainly localized to the proximal respiratory bronchioles destroys the entire alveolus uniformly Location upper lung zones. lower half of the lungs. causes smoking & dust alpha 1-antitrypsin (AAT) deficiency MRCPUK-part-1-septemper-2017: What is the most important factor in airflow limitation in severe emphysema? Loss of elastic recoil Features and complications • Chronic cough , SOB and recurrent infection • extensor plantar response is common in (COPD) due to carbon dioxide retention, which results in carbon dioxide narcosis. • Cor pulmonale features include peripheral oedema, raised jugular venous pressure, systolic parasternal heave, loud P2 use a loop diuretic for oedema, consider long-term oxygen therapy ACE-inhibitors, calcium channel blockers and alpha blockers are not recommended by NICE • Polycythaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology COPD - Investigation and diagnosis Who should be suspected of COPD? • NICE recommend considering a diagnosis of COPD in patients over 35 years of age who are smokers or ex-smokers and have symptoms such as exertional breathlessness, chronic cough or regular sputum production. Investigations recommended in patients with suspected COPD: • spirometry Post-bronchodilator spirometry to demonstrate airflow obstruction: FEV1/FVC ratio less than 70% • Chest x-ray hyperinflation, bullae, flat hemidiaphragm. Also, important to exclude lung cancer • Full blood count: exclude secondary polycythaemia • Body mass index (BMI) calculation • methacholine challenge useful in differentiating between asthma and chronic obstructive pulmonary disease (COPD). methacholine utilizes the M3 receptor for bronchoconstriction. • ABG In long standing COPD the bicarbonate is likely to be normal, or raised if the patient has chronic hypercapnia. (a low pH, low pO2, high pCO2 and a high HCO3) Severity of COPD: categorised by using the FEV1: Post-bronchodilator FEV1/FVC FEV1 (of predicted) Severity < 0.7 80% Stage 1 - Mild < 0.7 50-79% Stage 2 - Moderate < 0.7 30-49% Stage 3 - Severe < 0.7 < 30% Stage 4 - Very severe Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad COPD: causes of acute exacerbations • Infective exacerbation of COPD is the most common cause of haemoptysis in UK patients • bacterial organisms Haemophilus influenzae (most common cause of COPD exacerbation) Streptococcus pneumoniae Moraxella catarrhalis • Respiratory viruses : account for around 30% of exacerbations, with the human rhinovirus being the most important pathogen. COPD: management of acute exacerbations • Bronchodilator • Steroids: prednisolone 30 mg daily for 7-14 days. Prolonged courses offer no additional benefit • Antibiotics: It is common practice for all patients with an exacerbation of COPD to receive antibiotics. NICE do not support this approach. They recommend giving oral antibiotics 'if sputum is purulent or there are clinical signs of pneumonia' • Oxygen management of COPD patients If the patient have an individual target range: Oxygen should be given to maintain SaO2 within the patient's individual target range, if available If the individual target is not known:  prior to availability of blood gases (pCO2 is unknown): saturations should be maintained at 88-92% to avoid risk of hypercapnia  after availability of blood gases (pCO2 is normal): adjust target range to 94-98% • Non-invasive ventilation • Respiratory stimulants (e.g. Doxapram) In COPD exacerbations, respiratory stimulants (e.g. Doxapram) should only be used when Non-invasive ventilation is either unavailable or considered inappropriate COPD: stable management Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology General management • smoking cessation advice • annual influenza vaccination • one-off pneumococcal vaccination Pharmacological therapy • first-line: short-acting beta2-agonist (SABA) or short-acting muscarinic antagonist (SAMA) • second-line: for patients who remain breathless or have exacerbations despite using short-acting bronchodilators the next step is determined by the FEV1  FEV1 > 50% long-acting beta2-agonist (LABA), for example salmeterol, or: long-acting muscarinic antagonist (LAMA), for example tiotropium  FEV1 < 50% LABA + inhaled corticosteroid (ICS) in a combination inhaler, or: LAMA • Third-line: For patients with persistent exacerbations or breathlessness  if taking a LABA then switch to a LABA + ICS combination inhaler  otherwise give a LAMA and a LABA + ICS combination inhaler Other pharmacological therapies • Oral theophylline NICE only recommends theophylline after trials of short and long-acting bronchodilators or to people who cannot used inhaled therapy the dose should be reduced if macrolide or fluoroquinolone antibiotics are coprescribed • Mucolytics: should be 'considered' in patients with a chronic productive cough and continued if symptoms improve • LTOT : should be offered to: patients with a pO2 of < 7.3 kPa or patients with a pO2 of 7.3 - 8 kPa and one of the following: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  secondary polycythaemia  nocturnal hypoxaemia  peripheral oedema  pulmonary hypertension • Roflumilast Indication:  recommended by NICE for patients who have suffered two or more exacerbations in a year, despite triple inhaled therapy, where FEV1 is less than 50% of predicted. Mode of action:  selective long-acting phosphodiesterase-4 inhibitor.  It is orally administered. Management of side effect of steroid inhaler (Oro-pharyngeal and oesophageal candidiasis) • the patient should be taught adequate inhaler technique. Advise him to rinse his mouth each time he uses his inhaler use a spacer device review him in a month. and and • Resistant symptoms can be managed with oral nystatin or a course of fluconazole. Pulmonary rehabilitation • Definition: a programme of aerobic lower-extremity training combined with education. • Indication: Patients with very limited exercise tolerances • Effects It leads to improvements in exercise capacity (walking distance should improve after the rehabilitation programme) The improvement in walking distance would not be a long-lasting improvement  Decline in exercise tolerance and health status tends to occur 6–12 months after the completion of a course.  The effect of sustained improvement with ongoing rehabilitation has yet to be evaluated. does not improve lung function. does not decrease hospital admissions because of chest problems, but their hospital stays are likely to be shorter. Lung volume reduction surgery • Is a palliative treatment which can be used in advanced COPD to remove the least functional part of the lungs. • there are 3 groups of patients that tend to benefit: Group 1: Upper lobe emphysema and low exercise capacity.  These patients show improvement in both functional outcomes and survival after lung volume reduction surgery compared to medical therapy. Group 2: upper lobe emphysema and high exercise capacity.  These patients have improved functional outcomes but no difference in survival compared to medical therapy. Group 3: non-upper lobe emphysema and low exercise capacity.  These patients have improved survival after surgery but there is no difference in survival compared to medical therapy. • patients with emphysema that are unlikely to do well from lung volume reduction surgery and have a high risk of death includes: non-upper lobe emphysema and high exercise capacity. extremely poor pulmonary function (forced expiratory volume in 1 second (FEV1) 20% or less than predicted) and either homogenous distribution of emphysema on Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology computed tomography scan or extremely poor carbon monoxide diffusing capacity (20% or less than predicted). • Indications: CO2 retention: The upper cut off for referral for lung reduction surgery for pCO2 is 7.3 Severe limitation of exercise capacity despite maximal therapy predominant upper lobe emphysema, and persistent symptoms despite a period of pulmonary rehabilitation. • selection criteria: used when assessing suitability for treatment: Age <75 years Emphysema by clinical evaluation Ex-smoker of more than 4 months Clinically stable on no more than 20mg prednisolone daily Significant functional limitation after 6-12 weeks of pulmonary rehabilitation on optimal medical therapy Demonstrated compliance with medical regimen FEV-1 >20% predicted Post-bronchodilator FEV-1 >45% predicted and >15% if >70 years Hyperinflation demonstrated by TLC >100% predicted and RV >150% predicted Carbon monoxide lung transfer factor greater than 20% predicted Post rehabilitation 6-minute walk distance >140 m Low post rehabilitation exercise capacity HRCT demonstrating bilateral severe emphysema, ideally with upper-lobe predominance Symptomatic relief of breathlessness in end-stage COPD (DNR cases) • opioid or benzodiazepine medications for symptomatic relief of breathlessness is appropriate. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Non-invasive ventilation (NIV) Indications of NIV 1. COPD with respiratory acidosis (pH 7.25-7.35) who have not improved despite immediate maximum standard medical treatment on controlled oxygen for no more than one hour. patients with a pH in the range of 7.25-7.35 achieve the most benefit. If the pH is < 7.25 then invasive ventilation should be considered if appropriate. 2. Type II respiratory failure secondary to chest wall deformity, neuromuscular disease or Obstructive sleep apnoea 3. Cardiogenic pulmonary oedema 4. Weaning from tracheal intubation Advantage of NIV • reduce intubation rates • lower hospital mortality rates and • lead to shorter hospital stays Recommended initial settings for bi-level pressure support in COPD • Inspiratory Positive Airway Pressure (IPAP): RCP advocate 10 cm H20 whilst BTS suggest 12-15 cm H2O. • Expiratory Positive Airway Pressure (EPAP): 4-5 cm H2O • back up rate: 15 breaths/min • back up inspiration: expiration ratio: 1:3 Monitoring and setting adjustment • ABGs should be repeated after 1 hour of NIV therapy, and 1 hour after subsequent change in settings or 4 hours in stable patients. If gas exchange is not significantly improved:  the IPAP can be gradually increased at a rate of approximately 5 cms (2-5cm) H2O every 10 minutes with a usual target of 20cm H2O or until a response has been achieved or patient tolerability has been reached.  Increases in EPAP are not recommended without specialist advice. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • If the patient struggle to tolerate the NIV mask, what is the most appropriate method to help him settle him? haloperidol or morphine  Decreasing the IPAP or stopping NIV would be more comfortable but would be inappropriate as treatment is then likely to fail with greater hypoxia and acidosis.  Diazepam is contraindicated  Increasing EPAP without increasing IPAP would reduce the amount of ventilatory support and would be inappropriate. Complication of NIV • ventilation associated pneumothorax is (most important complication of NIV →present acutely) • Ventilator associated pneumonia →present in patients who have been ventilated for long period of time and would not present so acutely). Contraindications to NIV • Absolute contraindications: inability to fit the NIV mask appropriately, cardiopulmonary arrest, and need for urgent intubation • Relative contraindications haemodynamically unstable requiring inotropes/pressors (unless in a critical care unit) confusion/agitation NIV modes • Continuous positive airway pressure (CPAP) As this mode only provides a continuous pressure, CPAP is a spontaneous mode of ventilation that requires patient initiation and respiratory muscle effort. Therefore, no respiratory rate or minute ventilation is targeted or guaranteed. The clinical benefit of CPAP is most evident in hypoxemic respiratory failure as the positive airway pressure predominately augments oxygenation with the goal of recruiting alveoli, increasing functional residual capacity, and decreasing shunting. Inspiration during IPPV →↑↑ intrathoracic pressure →↑↑ right atrial pressure →↓↓ venous return →↓↓ cardiac output • Bilevel positive airway pressure (BiPAP)  in contrast to CPAP, provides both an expiratory positive airway pressure (EPAP) and inspiratory positive airway pressure (IPAP). BiPAP has utility in both hypoxemic and hypercarbic respiratory failure. Minute ventilation • Minute ventilation is equal to tidal volume (volume of air moved in normal breathing) multiplied by the respiratory rate. • In metabolic alkalosis, one could increase CO2 content by decreasing the minute ventilation (volume of air moved per minute). • Reducing either one of these variables( ↓tidal volume or ↓ respiratory rate) will decrease minute ventilation and lead to increased CO2 retention. • Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Invasive ventilation Indications • unconscious patient • if the pH is below 7.25. Patients with a pH <7.26 should be managed with a low threshold for intubation. give NIV whilst waiting for intensive care. • in Guillain Barre syndrome with respiratory involvement →the parameter used to assess whether a patient needs ventilator support is an FVC <15-20ml/kg. Ethics in decision to ventilate • If the patient had a written advanced directive, properly witnessed, while he was well, then it would not be possible to consider intervention if he wished for it not to happen. • if he has significant hypoxia, he might not be able to give a rational decision with respect to his further treatment. • if significantly hypoxic patient refused intubation during acute exacerbation → Intubate and act on the best interests of the patient, while informing the relatives • The family should not have the final decision with respect to intubation. Long-term oxygen therapy (LTOT) COPD - LTOT if 2 measurements of pO2 < 7.3 kPa Which patients should be assessed for and offered (LTOT)? • Assess patients if any of the following: Very severe airflow obstruction (FEV1 < 30% predicted). cyanosis polycythaemia peripheral oedema raised jugular venous pressure oxygen saturations less than or equal to 92% on room air How to assess patient for LTOT? Assessment is done by measuring arterial blood gases on 2 occasions at least 3 weeks apart in patients with stable COPD on optimal management. Blood gases should be performed in a stable state, which should be at least four weeks after an exacerbation of the disease. Indications for LTOT in COPD: • patients with pO2 of < 7.3 kPa • patients with pO2 of 7.3 - 8 kPa and one of the following: secondary polycythaemia nocturnal hypoxaemia peripheral oedema pulmonary hypertension Duration of LTOT • Patients who receive LTOT should breathe supplementary oxygen for at least 15 hours a day including at night time. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Contraindications • Continued cigarette smoking should be a relative contraindication to long-term oxygen therapy. In patients with chronic hypoxaemia, LTOT should be prescribed after assessment, when the PaO2 is consistently at or below 7.3 kPa (55 mm Hg) when breathing air during a period of clinical stability. Clinical stability is defined as the absence of exacerbation of chronic lung disease for the previous five weeks. The level of PaCO2 (which may be normal or elevated) does not influence the need for LTOT prescription. The only treatment that improves the long-term prognosis in patients with (COPD) is LTOT, given for at least 15 hours per day. Patients who develop a respiratory acidosis and/or a rise in PaCO2 of >1 kPa (7.5 mmHg) during an LTOT assessment on two repeated occasions, while apparently clinically stable, should only have domiciliary oxygen ordered in conjunction with nocturnal ventilatory support. How will you manage this patient? LTOT with nocturnal BiPAP  BiPAP is the modality of choice for treating CO2 retention. Prognosis of COPD • Once respiratory failure criteria have been met, the 5-year survival rate is only around 25%. • Prognostic indicators in COPD The strongest predictors of survival in patients with (COPD) are FEV1 • Factors, which may improve survival in patients with stable COPD smoking cessation. the single most important intervention in patients who are still smoking long term oxygen therapy in patients who fit criteria lung volume reduction surgery in selected patients Pulmonary embolism (PE) Pathophysiology • PE → ↓ lung blood flow → ventilation- perfusion mismatches (Decreased perfusion + normal ventilation) → ↑ physiologic dead space. Risk factors The Virchow triad pathophysiological components of thrombus formation: Hypercoagulability: thrombophilia (e.g., factor V Leiden mutation), use of oral contraceptives, pregnancy. Endothelial damage: inflammatory or traumatic → activation of clotting factors through contact with exposed subendothelial collagen. Stasis (e.g. varicosis, immobilization ) Major risk factors Minor risk factors • lower limb problems including a fracture or varicose veins • postoperative intensive care • hospitalisation • abdominal/pelvic or advanced malignancy • previous VTE, and • pregnancy. Features Sudden shortness of breath, pleuritic chest pain with haemoptysis and tachypnoea are the commonest features. (triad of pleuritic chest pain, dyspnoea and haemoptysis) • Tachypnea (respiratory rate >16/min) - 96% (Sudden shortness of breath) • Pleuritic chest pain (worse on deep breathing) • haemoptysis • Tachycardia (heart rate >100/min) - 44% • Fever (temperature >37.8 C) - 43%. Diagnosis • If a patient presents with signs or symptoms of pulmonary embolism (PE) performed chest x-ray to exclude other pathology estimate the clinical probability of PE by two-level PE Wells score Clinical feature Points Clinical signs and symptoms of DVT (minimum of leg swelling and pain with palpation of the deep veins) An alternative diagnosis is less likely than PE Heart rate > 100 beats per minute 1.5 Immobilisation for more than 3 days or surgery in the previous 4 weeks 1.5 Previous DVT/PE 1.5 Haemoptysis Malignancy (on treatment, treated in the last 6 months, or palliative) Clinical probability simplified scores PE likely More than 4 points PE unlikely 4 points or less Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • occult malignancy • long distance travel • hypertension • congestive cardiac failure • thrombotic disorder • use of the oral contraceptive pill Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • PE likely (> 4 points): arrange an immediate computed tomography pulmonary angiogram (CTPA).  If there is a delay in getting the CTPA then give low-molecular weight heparin until the scan is performed.  If the patient has an allergy to contrast media or renal impairment a Ventilation-perfusion (V/Q) scan should be used instead of a CTPA. • PE unlikely (≤ 4 points): arranged a D-dimer test:  If this is positive arrange an immediate (CTPA).  If there is a delay in getting the CTPA then give low-molecular weight heparin until the scan is performed. It is interesting to note that the Well's criteria for diagnosing a PE use tachycardia rather than tachypnoea. Pulmonary embolism - normal CXR Investigations • Chest x-ray Should be performed in all patients with symptoms or signs suggestive of PE to exclude other pathology usually normal in PE • Computed tomographic pulmonary angiography (CTPA) the first-line diagnostic test If the CTPA is negative then patients do not need further investigations or treatment for PE Disadvantages of CTPA:  Contrast induced nephropathy  Low sensitivity for detecting pulmonary emboli in sub-segmental pulmonary arteries • Ventilation-perfusion (V/Q) scans Indication? → If CTPA is contra-indicated  renal impairment (as the contrast media used during CTPAs is nephrotoxic).  allergy to contrast media Sensitivity = 98%; specificity = 40% →high negative predictive value, i.e. if normal virtually excludes PE In pregnancy → Radiation to the fetus is small. • D-dimers Should be performed ONLY when the probability of PE is low, so the normal value would be taken as reassuring and further investigation would not be pursued. High sensitivity (95-98%), but poor specificity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  A negative d-dimer is useful for excluding PE in patients who are clinically thought to be at low risk, but a 'positive' result does not establish the diagnosis.  The negative predictive value is greater than the positive predictive value D-dimers can be positive in:  hospitalised patients  obstetric patients  patients with peripheral vascular disease, cancer and inflammatory conditions  increasing age D-Dimer measurements should not be performed if:  an alternative diagnosis is likely,  the clinical probability is high or  there is a probable massive PE. • ECG sinus tachycardia  the most common abnormality; seen in 44% of patients. the classic ECG changes S1Q3T3 (seen in no more than 20% of patients)  large S wave in lead I  large Q wave in lead III  inverted T wave in lead III Right bundle branch block  seen in 18% of patients.  associated with increased mortality; Right axis deviation (seen in 16% of patients). • Elevated cardiac troponin levels also occur in patients with pulmonary embolism because of right ventricular dilation and myocardial injury Management Start low molecular weight heparin and request CT pulmonary angiography if the symptoms and findings clearly point towards pulmonary embolism (PE). Fluid resuscitation is the most appropriate immediate measure before further investigations confirm the presence of a pulmonary embolism (PE). 013 - Chapter 2 013 Chapter 2 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Anticoagulant First-line: apixaban or rivaroxaban Second-line: (if apixaban or rivaroxaban are not suitable)  LMWH for at least 5 days followed by dabigatran or edoxaban OR  LMWH concurrently with a vitamin K antagonist (warfarin) for at least 5 days, or until the INR is at least 2.0 in 2 consecutive readings, followed by a VKA on its own. For patients with positive antiphospholipid syndrome → the 1st line is LMWH concurrently with a VKA. Duration of anticoagulant:  For most patients →3 months  with active cancer →3 to 6 months.  For unprovoked DVT or PE→ Consider continuing anticoagulation beyond 3 months (6 months for people with active cancer) → use the HAS-BLED score for major bleeding risk → stop anticoagulation if the HAS-BLED score is 4 or more and cannot be modified. Heparin  When should be started? For patients with a high or intermediate probability of a non-massive PE →low molecular weight heparin should be given before imaging For patient with low probability of non-massive PE → immediately after diagnosis.  Which type? For non-massive PE →Low molecular weight heparin (LMWH) or fondaparinux. For patients with severe renal impairment ([eGFR] <30 ml/min/1.73 m2) offer either: unfractionated heparin (UFH) with dose adjustments based on the APTT or LMWH with dose adjustments based on an anti-Xa assay. For patients with an increased risk of bleeding consider UFH. For massive PE where thrombolysis is being considered, → unfractionated heparin should be used.  Benefit of heparin? Heparin reduces risk of further embolism (anticoagulant) and reduces pulmonary vasoconstriction. • Thrombolysis Indication?  Massive PE where there is haemodynamic instability demonstrated by hypotension, right ventricular strain on an ECG or signs of right heart failure.  Cardiac arrest situation for suspected PEs. However, it can take 90 minutes to be effective and therefore must only be used if it is appropriate to continue CPR for this duration. Cardiac arrest for suspected PEs →Intravenous thrombolysis followed by CPR for 90 minutes Which drug? Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Alteplase 100 mg over 1.5 hours peripherally.  Thrombolysis administered through a peripheral vein is as effective as through a pulmonary artery catheter • Percutaneous insertion of Inferior vena cava (IVC) filter Indication?  If anticoagulation is a contraindicated (eg PE following a recent haemorrhagic stroke)  if anticoagulation alone fails Benefit of IVC filter?  may be as effective as anticoagulation. Recurrent pulmonary emboli • Recurrent pulmonary emboli should always be considered in cases of progressive shortness of breath with no obvious cause. • Predisposing factors for recurrent pulmonary embolism include: Antithrombin III deficiency Protein C deficiency Factor V Leiden mutation • Possible clues include pulmonary hypertension, right ventricular enlargement, hypoxia with a low PaCO2 and a low transfer factor. • Widening of the alveolar-arterial (A-a) gradient on exercise is likely to be found. • Mismatched defects are classic features of pulmonary embolus. • Consider inferior vena caval filters for patients with recurrent proximal DVT or PE despite adequate anticoagulation treatment only after considering alternative treatments such as: increasing target INR to 3–4 for long‑ term high-intensity oral anticoagulant therapy or switching treatment to LMWH. Pulmonary embolism in pregnancy: diagnosis and management Diagnosis • Chest x-ray and ECG to look for an alternative diagnosis such as pneumonia and pneumothorax. • If the chest x-ray is normal: In women with suspected PE who also have symptoms and signs of DVT → consider a compression duplex doppler of both legs to exclude a DVT.  this may provide indirect evidence of a pulmonary embolism and negate the need for further radiation exposure  If this is positive, the patient is treated with full dose low molecular weight heparin (LMWH) (warfarin is of course teratogenic). In women with suspected PE without symptoms and signs of DVT → ventilation/perfusion (V/Q) lung scan or a computerised tomography pulmonary angiogram (CTPA) should be performed. • When the chest X-ray is abnormal and there is a clinical suspicion of PE, CTPA should be performed in preference to a V/Q scan. [New 2015] Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • CTPA vs V/Q scan CTPA → ↑risk of maternal breast cancer V/Q scanning → ↑risk of childhood cancer • D-dimer is of limited use as it often raised in pregnancy. Treatment of PE in pregnancy • In clinically suspected DVT or PE, treatment with low-molecular-weight heparin (LMWH) should be commenced immediately until the diagnosis is excluded by objective testing • 1st line: low-molecular-weight heparin (LMWH) should be employed during the remainder of the pregnancy and for at least 6 weeks postnatally and until at least 3 months of treatment has been given in total. • 2nd line: In pregnant women who are unable to tolerate heparin (LMWH or unfractionated heparin) or danaparoid and who require continuing anticoagulant therapy → use the newer anticoagulants (fondaparinux, argatroban or r-hirudin) • Unfractionated heparin (UFH) UFH is the preferred, initial treatment in massive PE with cardiovascular compromise. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad platelet count monitoring should be performed every 2–3 days from days 4 to 14 or until heparin is stopped. • Warfarin should not be used for antenatal VTE treatment. • Postpartum warfarin should be avoided until at least the fifth day and for longer in women at increased risk of postpartum haemorrhage. Post-thrombotic syndrome (PTS) • Develop in nearly 50% of all patients who experience a DVT. • Features: chronic leg pain, swelling, redness, and ulcers. • Prevention: prolonged use of LMWH (more than 12 weeks). References • Royal College of Obstetricians and Gynaecologists guidelines (Update August 2018) Fat embolism The classic triad of presentation is: • Eosinophilia • Acute renal failure and • Livedo reticularis. Definition • Entry of fat particles usually from bone marrow, in the pulmonary circulation. Causes • Traumatic (95%): most commonly associated with long bone (especially femur) and pelvic fractures. typically manifests 24 to 72 hours after the initial insult. • Non-traumatic (Rare): Sickle cell crisis, pancreatitis, osteomyelitis. Features • The classic triad of hypoxemia, neurologic abnormalities (eg, confusion, altered consciousness, seizure), and a petechial rash. • Less common: anemia, thrombocytopenia, fever, lipiduria, and coagulation abnormalities; • Rare: myocardial depression and shock Diagnosis • Presence of clinical triad • Exclusion of other possible causes embolization syndromes (thrombus, amniotic fluid, tumor, foreign body, air), acute alveolar filling diseases (eg, heart failure, pneumonia, and ARDS) and cutaneous vasculitic disorders (eg, systemic lupus erythematosus). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Treatment • Supportive Intravenous (iv) fluids to maintain high right ventricular filling pressures. High flow oxygen Diuretic treatment would be strongly contraindicated in this case. This is because right ventricular output is dependent on elevated filling pressures. Reducing the preload is therefore not a good idea. • Steroids are reserved for severe or refractory cases. • Most patients fully recover spontaneously. The diagnosis of cholesterol embolism should be considered in any patient with atherosclerotic disease presenting with deteriorating renal function, multisystem disease or distal ischaemia developing after an invasive arterial procedure. Community-acquired pneumonia (CAP) Definition • Pneumonia acquired outside hospital or healthcare facilities. Streptococcus pneumoniae is associated with cold sores Preceding influenza predisposes to Staphylococcus aureus pneumonia Both Klebsiella and Staphylococcus are associated with empyema formation and cavitating lung lesions. Causes • Streptococcus pneumoniae the most common cause of CAP & single lobar pneumonia (80%) Streptococcus pneumoniae commonly causes reactivation of the herpes simplex virus resulting in 'cold sores' → herpes labialis S. pneumoniae is the most important cause of fulminant sepsis in patients with hyposplenism. • Haemophilus influenzae more likely to be associated with exacerbations of COPD • Staphylococcus aureus commonly after the 'flu . It's an organism often found on the skin. It is therefore commonly associated with systemic infections in intravenous drug users ,this is may hinted in questions by the presence of track marks.  It also causes a bibasal pneumonia as opposed to Streptococcus pneumoniae that is the most common cause of a single lobar pneumonia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  seen most frequently in the elderly and in intravenous drug users or patients with underlying disease. It can result in a cavitating pneumonia. Carries a high mortality, and therefore if suspected treatment should initially be for a severe CAP. Capable of production of Panton-Valentine-Leucocidin toxin , associated with severe illness and high mortality. Pneumothorax, pleural effusion and empyema are common in staphylococcal pneumonia. the BNF advises the co-prescription of flucloxacillin.  • Atypical pneumonias due to: Mycoplasma pneumoniae , Legionella pneumophila . Coxiella burnetii (Q fever) →relation to animal sources (usually sheep). Chlamydophila psittaci →bird contact (eg, poultry or duck workers) Chlamydophila pneumophila • Viruses Some studies have found that influenza virus is the most common cause of CAP in adults. • Klebsiella pneumoniae Classically occurs in alcoholics (Friedlander's pneumonia) and immunosuppressed individuals can cause cavitating pneumonia usually affects the upper lobes Chest x-ray features may include abscess formation in the middle/upper lobes and empyema. The mortality approaches 30-50%. Features • Respiratory symptoms (e.g. cough, often with increasing sputum production, expectoration, dyspnoea, pleuritic pain, and haemoptysis) • Signs of infection (fever or chills and leukocytosis) • Non-specific symptoms such as myalgia and arthralgia. • Specific features of some causes of pneumonia: Legionellosis can present with headache, confusion, digestive manifestations such as diarrhoea, and clinical manifestations of hyponatraemia. Mycoplasma pneumoniae may present with extrapulmonary manifestations such as myringitis, encephalitis, uveitis, iritis, and myocarditis • Elderly patients may present atypically, often afebrile, with confusion and worsening of underlying diseases. Investigations • Chest x-ray Organism Characteristic chest x-ray Streptococcus pneumoniae lobar consolidation Legionella bibasal consolidation Staphylococcus aureus bilateral cavitating bronchopneumonia, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Leukocytosis. • Biomarkers (useful for predicting inadequate host response.) C-reactive protein (CRP) >100 mg/L makes pneumonia likely. Procalcitonin (PCT)  Elevated PCT are correlated with bacterial pneumonia whereas lower values are correlated with viral and atypical pneumonia.  PCT is especially elevated in cases of pneumococcal pneumonia. Management Mild community acquired pneumonia (CURB 0-1) should be treated with oral penicillin therapy alone assuming no allergies and no other complicating factors • Assessed the severity of pneumonia using (CURB-65 score) CURB-65 score criteria Confusion (abbreviated mental test score ≤8/10) Urea > 7 mmol/L Respiratory rate ≥30 / min BP: systolic ≤90 or diastolic ≤60 mmHg age ≥65 years CURB-65 score of 0 – 1 can be managed in the community. CURB-65 score of 2 or more should be managed in hospital as this represents a severe community acquired pneumonia. • Empirical antibiotics A summary table of empirical antibiotics as suggested by the BTS is shown below. Pneumonia Severity (based on clinical judgement and CURB score) Treatment Site First line Second line Low Severity (CURB65 = 0-1) Home Amoxicillin orally Doxycycline or clarithromycin orally Moderate severity (CURB65 = 2) Hospital Amoxicillin plus clarithromycin orally (IV if oral administration not possible) Doxycycline, Levofloxacin or moxifloxacin orally High Severity (CURB65 = 3-5) Hospital Co-amoxiclav plus clarithromycin IV Benzylpenicillin plus levofloxacin or ciprofloxacin IV OR Cefuroxime plus clarithromycin IV • BNF advice: add flucloxacillin if staphylococci suspected (e.g. In influenza) • Pneumonia possibly caused by atypical pathogens →Clarithromycin • If Staphylococcus aureus is identified, treatment should be altered: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Non-MRSA organisms should be treated with flucloxacillin and/or rifampicin; an alternative for penicillin-allergic patients is teicoplanin and rifampicin. MRSA should be treated with vancomycin. Panton-Valentine Leukocidin-producing Staphylococcus aureus (PVL-SA) • a rare cause of high severity pneumonia , associated with rapid lung cavitation (necrotising pneumonia) and multiorgan failure. • empirical antibiotic combination of IV linezolid 600 mg twice daily, IV clindamycin 1.2 g four times a day and IV rifampicin 600 mg twice daily Prognostic factors • Factors associated with a poor prognosis include: ↑CURB-65 score  CURB-65 score of 4 → mortality rate at 30 days = 30%. Co-morbidity such as renal disease, DM, chronic lung disease, heart failure hypoxaemia (pO2 < 8 kPa) independent of FiO2 White cell count less than 4 ×109/L or greater than 20 ×109/L Multi-lobar involvement on CXR Temperature less than 35°C or more than 40°C. Thrombocytosis is associated with increased mortality compared to thrombocytopaenia or normal platelet levels. • The risk of mortality increases as the CURB score increases Score Risk of death at 30 days 0 to 1 <5% mortality 2 to 3 < 10% mortality 4 to 5 15-30% mortality • How quickly their symptoms should resolve? NICE recommend that the following information is given to patients with pneumonia in terms of how quickly their symptoms should resolve: Time Progress 1 week Fever should have resolved 4 weeks Chest pain and sputum production should have substantially reduced 6 weeks Cough and breathlessness should have substantially reduced 3 months Most symptoms should have resolved but fatigue may still be present 6 months Most people will feel back to normal. Follow up • What review policy should be adopted in patients managed in the community? Review is recommended after 48 h or earlier if clinically indicated for disease severity assessment Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Those who fail to improve after 48 h of treatment should be considered for hospital admission or chest radiography. • C-reactive protein should be re-measured, and a chest radiograph repeated in patients who are not progressing satisfactorily after 3 days of treatment. • Chest x ray in six weeks to ensure complete resolution. What arrangements should be made for follow-up after hospital discharge?  Clinical review should be arranged for all patients at around 6 weeks.  radiological changes can take up to 6 weeks to improve. This is to exclude any underlying cause especially malignancy. those who have persistent shadowing on the lung need referral to a respiratory physician. Klebsiella Pneumonia Overview • Klebsiella is a Gram-negative rod (bacillus) encapsulated, non-motile bacterium that is part of the normal gut flora. • It can cause many infections in humans including pneumonia (typically following aspiration) and urinary tract infections. • Most frequently causes infection in hospitalized patients and in those with impaired host defenses, including patients with diabetes mellitus, alcoholism, malignancy, hepatobiliary disease, chronic obstructive pulmonary disease, and renal failure, • It is an uncommon cause of community-acquired pneumonia. is a common cause of nosocomial pulmonary infections Pathophysiological mechanism • Colonization of the oropharynx followed by microaspiration of upper airway secretions in the setting of decreased consciousness (due to heavy alcohol drinking). Features • more common in alcoholic and diabetics • may occur following aspiration • 'red-currant jelly' sputum One stark difference between Streptococcus pneumonia and Klebsiella pneumonia is the type of sputum produced. The sputum produced by S. pneumoniae is described as “blood-tinged” or “rust-colored,” however, the sputum blood-tinged by those infected by K. pneumoniae is described as “currant jelly.” • Cavitating lesions, often affects upper lobes. • Typically causes a lobar infiltrate that is in the posterior aspect of the right upper lung. • Another non-specific sign of K. pneumoniae on a chest radiograph is the bulging fissure sign. This is related to the large amount of infection and inflammation that the organism can cause. • commonly causes empyema and less commonly lung abscess Treatment • Community-acquired K. pneumoniae pneumonia → third-generation cephalosporins or quinolones • Extended-spectrum beta-lactamase (ESBL) K. pneumoniae → carbapenem therapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prognosis • mortality is 30-50% History of alcoholism and cavitations are suggestive of Klebsiella as the etiology. Legionella pneumonia (Legionnaires' disease) Legionella pneumophilia is best diagnosed by the urinary antigen test Aetiology • Legionella bacteria are aerobic, gram-negative rod, intracellular pathogens that are commonly found in water and soil. Human infection is typically acquired through inhalation of aerosols from these substances. • L. pneumophila serotype 1 is the most common cause of human Legionella infections. Epidemiology • Cause 2-5% of community-acquired pneumonia admitted to hospital. • Incubation period 2-10 days • More common in males and age of > 50 years. • Can cause outbreaks in large facilities such as hospitals, hotels, or apartment buildings due to contaminated communal water supplies Source infections • It is typically colonizes hot water tanks and hence questions may hint at airconditioning systems or foreign holidays. • Factors that encourage colonisation and multiplication are temperature (20-45 °C) and stagnation. Transmission • By inhalation of contaminated water droplets (aerosol) • Person-to-person transmission is not seen Features • Flu-like symptoms (present in > 95% of patients), dry cough • Gastrointestinal symptoms such as nausea, vomiting, and diarrhea • Elevated hepatic transaminases • Relative bradycardia • Lymphopaenia A marked neutrophil leukocytosis may be associated with concomitant lymphopenia. • Hyponatraemia Secondary to syndrome of inappropriate antidiuretic hormone secretion (SIADH) The classic features of Legionnaires' disease are: • Recent foreign travel • Relative bradycardia • prominent headache • Hyponatraemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Diagnosis • Urinary antigen the most useful diagnostic test Sensitivity 80%; specificity >99%. Rapid test Only detects L. pneumophila serotype 1, so a negative result does not exclude the diagnosis of Legionella infection. results are positive during early infection and remain positive for several weeks or months and it is, therefore, not a test for cure. • Polymerase chain reaction (PCR) using sputum or bronchoalveolar lavage specimen has high diagnostic accuracy (if available) and detects all Legionella species and serogroups • The organism does not show up on Gram-staining. • Cultures on buffered charcoal yeast extract (BCYE) agar. Sensitivity 20% to 95%; specificity 100% • Chest x-ray: Diffuse reticular opacities are commonly seen Management • First line: fluoroquinolones or macrolides Fluoroquinolones: levofloxacin (preferred), ciprofloxacin, or moxifloxacin, Macrolides: Azithromycin (preferred), clarithromycin or erythromycin. • Second line Tetracyclines: doxycycline Pontiac fever • Non-pneumonic Legionella infection • causes a mild, self-limiting course of legionellosis without pneumonia. • flu-like symptoms (e.g. fever, headache, and muscle ache) • Not require antibiotic. Mycoplasma pneumoniae Pathogen • Mycoplasma pneumoniae is a cause of atypical pneumonia, more closely related to gram positive bacteria. • Because it lacks a cell wall, it is not visible on Gram stain and is not susceptible to antibiotics that inhibit cell wall synthesis, such as penicillins. Epidemiology • Most commonly affects younger patients (15-30 years). • Accounts for 7% of all community-acquired pneumonias. • Can occurs epidemic outbreaks, most commonly among persons living in close quarters, such as households, schools, and military facilities Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • URI and acute bronchitis are the most common (flu-like symptoms classically precede a dry cough) • Systemic upset (arthralgia, haemolytic anaemia, erythema multiforme, Neurological, pericarditis/myocarditis, GIT, renal) • Bilateral consolidation on x-ray Complications → (Extra-pulmonary manifestations occur in ~10% of cases) • Rash → Erythema multiforme, erythema nodosum • Neurological : meningoencephalitis, Guillain-Barré syndrome, transverse myelitis • Cardiac: Myocarditis, Pericarditis • Renal failure: acute glomerulonephritis • Hepatitis • Haemolytic anaemia (found in up to 50% of cases) the most common extra-pulmonary manifestations and is typically mild and selflimited. Presence of IgM antibodies (cold agglutinins) directed against the I antigen of the erythrocyte membrane → Spherocytes → Haemolysis → Features of haemolysis (direct Coombs' test, ↑reticulocyte counts, ↑unconjugated bilirubin, ↑LDH, ↓haptoglobins, fragmented red blood cells) Mycoplasma pneumoniae → Serology is diagnostic Diagnosis • Mycoplasma serology the "gold standard" diagnostic test 92% sensitivity and 95% specificity more sensitive than culture for detecting acute infection • Positive cold agglutination test occur in only half of patients • Chest X-ray might not correlate with the patient's condition →much worse than would be suggested by the clinical examination the commonest chest x-ray abnormality is bilateral interstitial infiltrate (90%) • Nucleic acid amplification test (NAAT), such as polymerase chain reaction (PCR) Sensitivity is very high Faster than serology Cannot distinguish between active infection and asymptomatic carriage Causes of Positive PCR but negative serology tests  Asymptomatic carriage of M. pneumoniae (after disease, or during incubation period)  Immunocompromised patients,→no diagnostic antibody response.  Early successful antibiotics therapy. • Culture rarely used for routine diagnosis sensitivity may be no more than 60% , but when positive, its specificity is 100%, • WBC can be normal Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Mycoplasma pneumonia if allergic/intolerant to macrolides →doxycycline High titer of cold agglutinins (IgM), which can agglutinate RBCs. Mycoplasma gets cold without a coat (no cell wall). Management • First line →macrolides (eg, azithromycin), tetracyclines (eg, doxycycline), and respiratory fluoroquinolones (eg, levofloxacin or moxifloxacin). • Second-line →Tetracyclines such as doxycycline. Prognosis • Most cases resolve spontaneously within a few weeks. Indolent onset, concurrent URI symptoms (eg, rhinorrhea, pharyngitis, ear ache), and the presence of non-respiratory tract manifestations (eg, hemolysis) are suggestive Mycoplasma pneumoniae Aspiration pneumonia Definition • a type of pneumonia that occurs as a result of oropharyngeal secretions and/or gastric contents aspiration • also known as Mendelson syndrome Risk factors • ↓level of consciousness (e.g. seizure, Alcohol use, stroke, post-anaesthesia) → impaired gag or swallowing reflex →aspiration occurred several weeks earlier. • Gastroesophageal reflux disease, esophageal motility disorders, dysphagia. • poor oral hygiene Features • Immediate symptoms: bronchospasms , crackles on auscultation, hypoxemia with cyanosis • Late symptoms: fever, shortness of breath, cough with foul-smelling sputum Site of aspiration • which lung? Due to the angle of the bronchi, the right lung is more commonly affected by aspiration than the left lung. The right mainstem is more vertical and wider than the left mainstem bronchus. • Which lobe? Depends on patient's position during aspiration:  in a patient who aspirates while recumbent (lying down): Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad superior segment of the right lower lobe (most common site of aspiration)  in a patient who aspirates while sitting upright: posterior basal segment of the right lower lobe Organisms • Anaerobes and Gram-negative organisms are the usual organisms in abscesses following aspiration. • Sputum or tracheal Gram stain reveals mixed flora. Complications • lung abscess and empyema air-fluid level is characteristic of a lung abscess. Treatment • Combination of antibiotics → Cefuroxime + Metronidazole • If the patient is allergic to penicillin or cephalosporin→Vancomycin + Metronidazole The slide shows an abscess in the right mid-zone. Psittacosis (Chlamydia psittaci pneumonia) (Atypical pneumonia) Exposure to an ill bird and a rash (Horder’s spots) are pathognomonic Definition • Psittacosis is a disease caused by Chlamydia psittaci, an obligate intracellular organism, transmitted to humans from birds., induces prominent systemic manifestations and some respiratory. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Pathogenesis • Humans are usually infected by inhalation of organisms in dried feces or in bird feather dust. • Pet owners, vets and zoo keepers are most at risk. • The incubation period is usually 5 to 14 days. Diagnosis • typical clinical features (fever, headache, myalgias, dry cough) in a patient with a history of bird contact • In a patient presenting with pneumonia, severe headache, splenomegaly, and failure to respond to beta-lactam antibiotics may be other clues to the diagnosis. • Serology: (e.g. microimmunofluorescent antibody testing, or complement fixation assay) the most useful diagnostic test • Abnormal LFTs in up to 50%. • Chest X-ray: segmental or diffuse multi-lobar consolidation. • Culture is discouraged since C. psittaci is highly infectious when cultured and is only performed in specialized laboratories. Complications • Respiratory failure, hepatitis, endocarditis, and encephalitis. Treatment • 1st line : tetracyclines e.g. doxycycline • 2nd line: macrolides e.g. erythromycin or azithromycin Pseudomonas pneumonia Overview • P. aeruginosa is a common cause of gram-negative hospital-acquired pneumonia • Community-acquired P. aeruginosa pneumonia occurs mainly in immunocompromised patients (eg, HIV, post-transplant, or neutropenic hosts) structural lung abnormalities (e.g. cystic fibrosis, bronchiectasis, COPD) • Nosocomial or hospital-acquired infections should be suspected in patients with an onset of symptoms at least 48 hours after admission to the hospital. Treatment • Antibiotics used for the treatment of Pseudomonas aeruginosa infections Class Agent Penicillin-beta-lactamase combinations Piperacillin-tazobactam Cephalosporins Ceftazidime or Cefepime Fluoroquinolones Ciprofloxacin or Levofloxacin Carbapenems Meropenem, Imipenem • Fluoroquinolones are the only class of antibiotics with antipseudomonal activity that have an oral formulation. • The only antipseudomonal penicillin is piperacillin. Hospital-acquired pneumonia (HAP) Definition • Hospital-acquired pneumonia (HAP): nosocomial pneumonia, with onset > 48 hours after admission Prevalence • The third most common hospital-acquired infection after urinary tract infections and wound infections. Causes • Gram-negative organisms are the most common causes, especially aerobic gramnegative bacilli, such as: Pseudomonas aeruginosa, Escherichia coli, Klebsiella pneumoniae, and Acinetobacter species. Diagnosis • A new and/or persistent alveolar shadowing on chest x-ray or CT scan confirms the diagnosis. Treatment • most commonly as combination therapy. A third generation cephalosporin with an aminoglycoside is the current British Thoracic Society (BTS) recommendation. Choice of antibiotic Antibiotics for adults aged 18 years and over (NICE guidelines, September 2019) Treatment Antibiotic First-choice oral antibiotic if non-severe symptoms or signs, and not at higher risk of resistance (guided by microbiological results when available) Alternative oral antibiotics if non-severe symptoms or signs, and not at higher risk of resistance, for penicillin allergy or if co-amoxiclav unsuitable. Doxycycline Cefalexin (caution in penicillin allergy) Levofloxacin First-choice if severe symptoms or signs (e.g. sepsis) or ↑risk of resistance. Piperacillin with tazobactam Ceftazidime Ceftriaxone Cefuroxime Meropenem Ceftazidime with avibactam Levofloxacin If suspected or confirmed methicillin resistant Staphylococcus aureus infection (dual therapy with a firstchoice intravenous antibiotic) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Co-amoxiclav Vancomycin Teicoplanin Linezolid (if vancomycin cannot be used) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Pneumocystis Jirovecii pneumonia (PCP) Pneumocystis jiroveci pneumonia - pneumothorax is a common complication Pathogen • Pneumocystis jiroveci is an ubiquitous, yeast-like fungus unicellular eukaryote. Association • PCP is the most common opportunistic infection in AIDS Pneumocystis jirovecii pneumonia is unlikely in a patient who has had a CD4 count above 200 cells/mm3 in the preceding 2 months in the absence of other HIV-associated symptoms. • Immunosuppressed patients, particularly after organ transplantation Pathophysiology • The organism is confined to the alveolar space of the lung and produces debris and cysts in the alveolar space with interstitial infiltration of lymphocytes and plasma cells. As a result, it can cause profound disturbance of oxygen exchange and fatal hypoxaemia if left untreated. • The morphological appearance of Pneumocystis jirovecii infection in the lung → An interstitial pneumonitis with foamy intra-alveolar exudate Features • Dyspnoea, dry cough, fever • Exercise-induced desaturation • Very few chest signs: The lungs are commonly clear on auscultation • Pneumothorax is a common complication of PCP. Investigation • Lymphopenia is very suggestive of PCP with AIDS (and therefore low CD4 lymphocyte count). • Lactate dehydrogenase raised in 90% of patients with PCP (but this can occur with other pulmonary diseases). • Chest x-ray Typically shows bilateral interstitial pulmonary infiltrates (diffuse ground-glass opacities) 30% have non-specific or inconclusive findings. 10-15% of patients with PCP have normal chest radiographs • Bronchoalveolar lavage (BAL) often needed to demonstrate PCP silver stain shows characteristic cyst phase of the organism Spontaneously expectorated sputum should not be used for diagnostic studies because it has poor sensitivity for PCP. Use induced sputum instead Pneumocystis jiroveci pneumonia → Definitive diagnosis is by bronchial alveolar lavage with silver staining Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • 1ST line : Co-trimoxazole should be given for 21 days in HIV, but can be shorter in other causes of immunosuppression. the preferred initial therapy during pregnancy Glucose 6-phosphate dehydrogenase deficiency (G6PD) levels should be checked prior to TMP-SMX, dapsone or primaquine use • 2nd line: in severe cases or in patients who are intolerant of co-trimoxazole → IV pentamidine • Steroids Reduces mortality and prevent lung damage in people with moderate-to-severe PCP. a 21-day tapering course has been shown to be safe and effective. The severity is determined on the basis of arterial blood gas results.  severe PCP is defined by a room air arterial oxygen pressure (pO2) of less than 9 kPa (70 mmHg) or an arterial-alveolar O2 gradient that exceeds 4.5 kPa (35 mmHg). Any patient with PaO2 <70 and A-a gradient >35 should be started on steroid therapy. Prophylaxis • All patients with a CD4 count < 200/mm should receive PCP prophylaxis (Cotrimoxazole is the preferred agent. Dapsone and inhaled pentamidine are also used.) • Primary Pneumocystis prophylaxis should be discontinued if the patient responded to ART with an increase in CD4 counts ≥200 cells/mm3 for ≥3 months. MRCPUK-part-1-January 2016 exam HIV positive but poorly compliant with his antiretroviral therapy (ART). CD4 : 180 cells/ml. oxygen saturations 97% on room air with a temperature of 38.1ºC. He has coarse crackles on the right side of his chest. A chest x-ray shows consolidation of the right mid zone. What is the most likely causative organism? Streptococcus pneumoniae  (Whilst Pneumocystis jirovecii is of course associated with HIV, patients who are immunocompromised are more likely to develop infections due to the common pathogens which affect immunocompetent individuals. Streptococcus pneumoniae is therefore the most likely cause of community-acquired pneumonia in this patient. Pneumocystis jirovecii tends to present with very few chest signs and bilateral interstitial pulmonary infiltrates on chest x-ray) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Coronavirus disease 2019 (COVID-19) Overview • Caused by coronaviruses, SARS-CoV-2 • The transmission occurs mainly through respiratory droplets (particles are greater than 5-10 micrometers in diameter) from coughing and sneezing. • The incubation period is 2-14 days. • Host cell entry occurs by attachment of viral spike protein to angiotensin-converting enzyme 2 receptor on cell membranes. Features • Most common: Fever, Fatigue, Dry cough • Common: Shortness of breath, Loss of smell and/or taste • Less common: Thromboembolic events (e.g., pulmonary embolisms) • Complications include respiratory failure, hypercoagulability, shock, organ failure. Cytokine storm: • an excessive release of proinflammatory cytokines that causes hyperactivation of immune system and exaggerated immune response leading to multiorgan dysfunction. • Initial treatment with tocilizumab plus a glucocorticoid Risk factors for severe illness • Increasing age, • Obesity, • Diabetes, hypertension, chronic kidney disease, and severe cardiopulmonary illness. Pathogenesis • In the normal lung, type II pneumocytes secrete pulmonary surfactant; this phospholipid coats the alveoli and keeps them open and available for gas exchange. The initial lung injury in COVID-19 infection may occur via loss of surfactant and alveolar collapse. • A cytokine storm occurs when white blood cells (WBCs) release large numbers of inflammatory cytokines (eg, interleukin [IL]-1, IL-6) in response to the virus, leading to further WBC activation Diagnosis • RT-PCR (most common) The nucleic acid amplification test (NAAT) is the diagnostic test of choice for COVID19. NAAT is performed using RT-PCR. • Antigen and antibody tests are available (less accurate) • Chest x-ray may be normal in early or mild COVID-19. Findings in COVID-19 pneumonia include bilateral or peripheral consolidation or opacities • CT scan findings may include ground glass opacities and consolidations, especially in the lung periphery Management • Cough Avoid lying on the back Use simple measures first, e.g. honey. If it is distressing→ Consider short-term use of codeine linctus, codeine phosphate tablets or morphine sulfate oral solution in people 18 years and over to suppress coughing Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Breathlessness Identify and treat reversible causes of breathlessness, for example, pulmonary oedema, pulmonary embolism, chronic obstructive pulmonary disorder and asthma. encouraging relaxation and breathing techniques, and changing body positioning If hypoxia is the likely cause of breathlessness: consider a trial of oxygen therapy Consider continuous positive airway pressure (CPAP) when:  hypoxaemia not responding to supplemental oxygen with a fraction of inspired oxygen of 0.4 (40%) or more, and escalation to invasive mechanical ventilation would be an option but it is not immediately needed, or it is agreed that respiratory support should not be escalated beyond CPAP. Consider using high-flow nasal oxygen for people having continuous positive airway pressure (CPAP) when they need:  a break from CPAP, such as at mealtimes  humidified oxygen  weaning from CPAP. • Corticosteroids Indication: people with COVID-19 who need supplemental oxygen. 1st choice : dexamethasone. Hydrocortisone or prednisolone when dexamethasone cannot be used or is unavailable. • Combination of casirivimab and imdevimab to people aged 12 and over hospitalised because of COVID-19 who have no detectable SARS-CoV-2 antibodies (seronegative). Not recommended for patients who have detectable SARS-CoV-2 antibodies (seropositive) • Remdesivir Indication: hospitalised patient who are ˃ 12 year old and weight ≥ 40 kg and need low-flow supplemental oxygen. Not recommended for patient who need NIV or invasive mechanical ventilation. • Tocilizumab: (Single dose) Indications  hospitalised with severe COVID-19 (need O2 and CRP ≥75 mg/litre)  no evidence of a bacterial or viral infection (other than SARS-CoV-2) that might be worsened by tocilizumab. Consider sarilumab if tocilizumab is unavailable or cannot be used • Medication not recommended to treat COVID-19.  Azithromycin, budesonide, colchicine, doxycycline • Venous thromboembolism (VTE) prophylaxis only for in hospital patients, consider a prophylaxis dose of low molecular weight heparin (LMWH) if the risk of VTE outweighs the risk of bleeding. Do not base prophylactic dosing of heparin on levels of D-dimer. • Antibiotics: Should not be used unless there is clinical suspicion of additional bacterial coinfection. Procalcitonin tests could be useful in identifying whether there is a bacterial infection. High C-reactive protein levels do not necessarily indicate whether pneumonia is due to bacteria or SARS-COV-2. Low C-reactive protein level indicates that a secondary bacterial infection is less likely. Do not use C-reactive protein to assess whether a person has a secondary bacterial infection if they have been having immunosuppressant treatment. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Medicines for end-of-life care: opioid and benzodiazepine combination. Remdesivir • Remdesivir is a nucleotide prodrug of an adenosine analog. • It binds to the viral RNA-dependent RNA polymerase • It inhibits viral replication by terminating RNA transcription prematurely. • Adverse Effects: ↑ transaminase levels & prothrombin time (Liver function tests and prothrombin time tests should be performed for all patients before they receive remdesivir). COVID-19 enters the lungs via type II pneumocytes. Tocilizumab • Mode of action Antagonizes the IL-6 receptor, which leads to a reduction in cytokine and acute phase reactant production. • Common adverse effects (>10%) Neutropenia ↑ liver enzyme ↑ serum cholesterol Constipation Treatment of COVID-19 in pregnant patients Initial management Oxygen – titrate supplemental oxygen to keep sats >94% Thromboprophylaxis – prophylactic LMWH dose according to weight Corticosteroids – if oxygen dependent give for a total of 10 days a. Oral prednisolone 40mg OD; or b. IV hydrocortisone 80mg BD If steroids used for fetal lung maturation use Dexamethasone 12mg IM 24 hourly (2 doses) followed by either (a) or (b) above for 10 days Clinical deterioration • Increased O2 requirements : O2 sat<93 , RR > 22 Give tociluzimab (or sarilumab if unavailable) if needing escalation of care and/or if CRP>75 Check COVID-19 antibodies, if negative consider 2.4g Ronapreve IV once (RONAPREVE contains the active ingredients casirivimab and imdevimab.) Discharge • Thromboprophylaxis for at least 10 days • Encourage COVID19 vaccination: can be given 28 days following recovery • Advise: if given tocilizumab/sarilumab, be aware of an increased risk of infection without typical signs for several months. Aspergillosis: Types Overview • Aspergillosis is the collective term for diseases caused by mold species in the genus Aspergillus. • Most common: Aspergillus fumigatus and Aspergillus flavus • Transmission: airborne exposure to mold spores ABPA Chronic pulmonary aspergillosis (e.g. Aspergilloma) Main features Asthmatic symptoms Dry cough, septic shock, multisystem involvement Laboratory tests • ↑ IgE levels • Eosinophilia • ↑ ESR • Positive Aspergillus antigen skin test • Positive galactomannan antigen test: (galactomannan is a protein found in Aspergillus cell wall). • Positive 1,3-β-D glucan test • Septate hyphae on tissue biopsy Chest x-ray and CT • Bronchiectasis • Pulmonary infiltrates Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Invasive aspergillosis Hemoptysis, shortness of breath Positive Aspergillus IgG serology • Mobile fungus ball (demonstrated by moving the patient from a supine position to a prone or lateral recumbent position) • Monod sign: a peripheral air crescent around a fungus ball in a preexisting lung cavity • The upper lobe is mostly • Multiple nodules • Halo sign: hemorrhagic ground glass opacities around nodules Chapter 2 Pulmonology affected Treatment • Oral prednisone if severe • Itraconazole if recurrent The most important diagnostics for the different aspergillosis types are: • ABPA: increased IgE and eosinophil count. • Aspergilloma: positive culture or serology and fungus ball seen on chest imaging. • Invasive aspergillosis: positive culture or biopsy showing septate hyphae. Allergic bronchopulmonary aspergillosis (ABPA) In the exam questions often give a history of bronchiectasis and eosinophilia. Definition • ABPA results from an allergy to Aspergillus spores (Type I hypersensitivity to Aspergillus fumigatus). • a hypersensitivity reaction caused by exposure to Aspergillus that mostly occurs in patients with cystic fibrosis or asthma • Aspergillus fumigatus is the most common airborne fungus causative organism for ABPA. Risk factors • Preexisting bronchopulmonary conditions (e.g., asthma, cystic fibrosis) Features • Bronchoconstriction: wheeze, cough, dyspnoea (clinical deterioration in asthma symptoms) • Bronchiectasis (proximal) Investigations • Serum eosinophilia • Raised IgE: helpful test, but not specific enough to establish the diagnosis. • Aspergillus skin-prick test (the most specific investigation) Positive radioallergosorbent (RAST) test to Aspergillus. Immediate (type I) reactions occur in virtually all patients with ABPA following intradermal injections of Aspergillus fumigatus extracts, with only 16% developing delayed (type IV) reactions. An early positive skin-prick test for Aspergillus fumigatus is the to (ABPA). specific Positive skin-prick tests reflect antigen-specific IgE. • Positive IgG precipitins (not as positive as in aspergilloma) in 70% of patients. Precipitins (IgG) are more usual with an aspergilloma, but may be positive in ABPA or in up to 10% of patients with asthma. • Pulmonary infiltrates on CXR. Lobar collapse can also occur, due to mucus plugging. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Surgical resection (e.g., lobectomy) IV voriconazole • Itraconazole OR voriconazole (should be used preoperatively and postoperatively) most Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Allergic bronchopulmonary aspergillus: both of the following must be present to confirm the diagnosis: Aspergillus skin test positivity or detectable IgE levels against aspergillus fumigatus and Elevated total serum IgE concentration. Management • First line →steroids (prednisone) • Second line → add itraconazole or voriconazole Itraconazole leads to significant reductions in corticosteroid dose, decreases IgE levels, greater resolution of pulmonary infiltrates, and improves exercise tolerance. Aspergilloma The clue can be a lack of improvement with broad spectrum intravenous antibiotics, haemoptysis and chest X-Ray findings. Definition • An aspergilloma is a mycetoma (mass-like fungus ball) which often colonises an existing lung cavity (e.g. secondary to tuberculosis, lung cancer, cystic fibrosis or emphysema) Feature • often asymptomatic • cough • haemoptysis in up to three quarters of patients (may be severe and fatal ) • Systemic symptoms of weight loss, lethargy and fever are less common. Investigations • chest x-ray containing a rounded opacity within a cavity often associated with a rim of air. These features are seen more clearly on CT. • High titres Aspergillus precipitins (IgG antibodies) present in 95% of cases. Treatment • Surgery should be considered as a first-line option where erosion into a major vessel and massive haemoptysis is a possibility • In case of massive haemoptysis the next appropriate management – after transfusion and resuscitation- is → Angiography and embolisation, after that → lobar resection as the intervention of next resort Aspergilloma should be considered in patients with chronic lung disease and radiographs showing intracavitary mass lesions. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Images Invasive aspergillosis (IA) Definition • a severe form of Aspergillus infection with severe pneumonia and septicemia, most commonly occurs in immunocompromised individuals. Risk factors • immunosuppression (e.g., due to HIV/chemotherapy, after organ transplantation) or neutropenia (e.g., due to chronic granulomatous infection). Features • Symptoms of active infection & haemoptysis. Investigations • the classical signs on CT scanning the 'halo sign' air crescent sign • galactomannan test: Galactomannan is a component of the cell wall of the Aspergillus and is released during growth. Detection of galactomannan in blood by ELISA is used to diagnose invasive aspergillosis • Silver staining shows →hyphae. Haematoxylin and eosin (H&E) stain does not stain most of the fungi, except the Aspergillus species. Treatment • 1st line voriconazole: start iv before oral (as oral 10 days to get therapeutic levels). • 2nd line (If voriconazole is not tolerated): amphotericin B Prognosis • Mortality vary from 40-90% 014 - Pages 326-350 014 Pages 326-350 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Typical morphology of Aspergillus fumigatus. CT chest showed Aspergilloma A slightly thick-walled left upper lobe cavity contains a rounded mass. A crescent-shaped airspace, termed the air crescent sign, separates the mass from the cavity wall. An aspergilloma can often be shown to move to the dependent position within its cavity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Invasive aspergillosis • Invasive aspergillosis should be suspected in someone who is immunocompromised (neutropenia, steroids, HIV) with severe chest pain, highgrade fevers, and haemoptysis. • The treatment of choice for invasive aspergillosis is voriconazole Voriconazole → ↑risk of developing skin malignancy (malignant melanoma, squamous cell carcinoma) Alpha-1 antitrypsin (A1AT) deficiency Alpha-1 antitrypsin deficiency - autosomal recessive / co-dominant Definition • Alpha-1 antitrypsin (A1AT) deficiency is a common inherited genetic disorder characterized by the accumulation of defective alpha-1 antitrypsin enzyme Genetics & Pathophysiology • Alpha-1 antitrypsin: a protease inhibitor that is synthesized in the liver and protects cells from breakdown by neutrophil elastase (AAT neutralises neutrophil elastase, thereby preventing lung destruction.) • The mode of inheritance: autosomal co-dominant • Mutations in SERPINA1 gene, located on the long arm of chromosome 14 → dysfunctional (or absent) AAT • A1AT deficiency is the most prevalent genetic disease in patients of finnish/scandinavian origin • Alleles classified by their electrophoretic mobility - M for normal, S for slow, and Z for very slow • The serum levels of some of the common genotypes are: PiMM: 100% (normal) PiMS: 80% of normal serum level of A1AT PiSS: 60% of normal serum level of A1AT PiMZ: 60% of normal serum level of A1AT PiSZ: 40% of normal serum level of A1AT PiZZ: 10-15% (severe alpha 1-antitrypsin deficiency). • Patients who manifest disease usually have PiZZ genotype • Effect on the lungs: deficient AAT → uninhibited neutrophil elastase activity → destruction of the pulmonary parenchyma → panacinar emphysema • Effect on the liver: accumulation of AAT in hepatocellular endoplasmic reticulum → hepatocyte destruction → hepatitis and liver cirrhosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Pulmonary Panacinar emphysema, most marked in lower lobes (2% of cases of emphysema) The interplay between the environmental and genetic factors determine its onset. Patients usually present with increasing dyspnoea. • Hepatic Hepatitis Cirrhosis (15%) Increased risk of hepatocellular carcinoma (HCC) Investigations • Serum: decreased antitrypsin protein levels • Electrophoresis: decreased alpha-1 peak • Chest x-ray Low and flat diaphragm Widened intercostal spaces Hyperinflation and increased basilar radiolucency of both lungs with rarification of peripheral pulmonary vessels • Chest CT Panacinar emphysema (in contrast to centriacinar emphysema in smokingrelated emphysema) Bronchiectasis Bullae • Liver biopsy PAS-positive, spherical inclusion bodies in periportal hepatocytes Signs of cirrhosis Management • Avoid smoking  smoking is harmful to those with A1AT deficiency and can accelerate the progression of emphysema by 10 years. • Supportive Preventive vaccination (e.g., influenza vaccine, pneumococcus vaccine) Symptomatic treatment (bronchodilators) Pulmonary rehabilitation (Physiotherapy) • Intravenous alpha1-antitrypsin protein concentrates • Surgery Volume reduction surgery Lung transplantation Liver transplantation → Results in correction of AAT deficiency (Considered for end-stage liver disease Which form of lung disease develops typically in people with α1-antitrypsin deficiency? Emphysema The diagnosis of AAT deficiency should be considered in all patients with emphysema under the age of 50 years. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Acute respiratory distress syndrome (ARDS) Definition • acute respiratory failure characterized by hypoxemia and bilateral pulmonary infiltrates that cannot be explained by heart failure or fluid overload. Causes • Sepsis (most common cause) • Trauma • Shock • Massive transfusion (TRALI) • Acute pancreatitis • Hematopoietic stem cell transplantation • Medication (e.g., salicylic acid, tricyclic antidepressants, bleomycin) • Recreational drug overdose (e.g., cocaine) • Primary damage to the lungs (Pneumonia, Aspiration, Inhaled toxins) Pathophysiology • Tissue damage (pulmonary or extrapulmonary) → release of inflammatory mediators (e.g., interleukin-1) → inflammatory reaction → migration of neutrophils into alveoli → excessive release of neutrophilic mediators (e.g., cytokines, proteases, reactive oxygen species) → injury to alveolar capillaries and endothelial cells (diffuse alveolar damage) Phases: diffuse alveolar damage lead to: • Exudative phase: excess fluid in interstitium and on alveolar surface → pulmonary edema with normal pulmonary capillary wedge pressure (noncardiogenic pulmonary edema) → decreased lung compliance and respiratory distress • Hyaline membrane formation: exudation of neutrophils and protein-rich fluid into the alveolar space → formation of alveolar hyaline membranes → impaired gas exchange → hypoxemia Hypoxemia → compensation through hyperventilation → respiratory alkalosis Hypoxemia → chronic hypoxic pulmonary vasoconstriction → pulmonary hypertension and right-to-left pulmonary shunt (increased shunt fraction) Damage to type I and type II pneumocytes → decrease in surfactant → alveolar collapse → intrapulmonary shunting • Organizing phase (late stage): proliferation of type II pneumocytes and infiltration of fibroblasts → progressive interstitial fibrosis What would one expect to see on a histological specimen of a lung from a patient who died of ARDS? The presence of hyaline membranes is a hallmark of ARDS. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Symptoms: Acute dyspnea. Fever, cough, and chest pain may also be present. • Signs: Tachypnea, cyanosis, diffuse crackles What is the most consistent finding you would expect to see on arterial blood gases taken from patients with ARDS? increased arterial-alveolar oxygen gradient. ARDS is associated with: • Increased elastic recoil. • Low pulmonary artery wedge pressure. • Low compliance. • Restrictive lung disease Berlin criteria for ARDS • The Berlin criteria are the criteria most commonly used to define ARDS. • All four of the following conditions must be met: Acute onset: respiratory failure within one week of a known predisposing factor (e.g., sepsis, pneumonia) Bilateral opacities (on chest x-ray or CT)  Similar appearance to pulmonary oedema  Not sufficiently explained by pleural effusions, lobar or lung collapse, or nodules Hypoxemia: PaO2/FiO2 ≤ 300 mm Hg (measured with a minimum of 5 cm H2O PEEP)  Mild ARDS: PaO2/FiO2 = 201–300 mm Hg  Moderate ARDS: PaO2/FiO2 = 101–200 mm Hg  Severe ARDS: PaO2/FiO2 ≤ 100 mm Hg Respiratory failure cannot be fully accounted for by heart failure or fluid overload.  Patients with ARDS have normal pulmonary capillary wedge pressure (PCWP) (<18 mmHg). Management • Admit all patients with ARDS to the ICU. • Oxygenation Noninvasive ventilation: for hemodynamically stable, alert patients with mild ARDS. Endotracheal intubation: respiratory failure or rapid deterioration • Lung-protective ventilation: to decrease the risk of ventilator-induced lung injury General initial settings include:  Low tidal volume (Vt 6–8 mL/kg) : prevents alveolar distention  Low plateau pressure (PPlat ≤ 30 cm H2O): prevents barotrauma  PEEP > 5 cm H2O: allows for alveolar recruitment PEEP and FiO2 can be adjusted to recruit collapsed alveoli and improve oxygenation.  Oxygenation goal: PaO2 55–80 mm Hg or SpO2 88–95%  Avoid oxygen toxicity: use lowest FiO2 possible • Identify and treat the underlying cause Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • If the patient is on maximal ventilatory therapy but is still hypoxic & hypercapnic? →Extracorporeal membrane oxygenation (ECMO) (connecting a patient's circulation to an external oxygenator and pump, via a catheter placed in the right side of the heart). • Diuretics are NOT particularly effective, because the infiltrate of ARDS is primarily inflammatory. • Glucocorticoids have NOT been shown to help patients in the acute phase of ARDS. Acute respiratory distress syndrome (ARDS) diagnostic criteria: • Abnormal x-ray, • Respiratory failure < 1 week after a known or suspected trigger, • Decreased PaO2/FiO2, • Should exclude CHF or fluid overload as a potential cause of respiratory distress. ARDS patient on mechanical ventilation If the patient’s blood gases reflect hypoxaemia and a slight respiratory alkalosis, (despite high FiO2 settings and sufficient ventilation, his arterial oxygenation remains inadequate). What is the best next step? Adding positive end-expiratory pressure (PEEP)  The ventilator strategy should employ a relatively high level of PEEP.  Generally, oxygenation may be improved by further increasing the FiO2 or by adding PEEP.  High FiO2 is contraindicated due to the risk of pulmonary oxygen toxicity. Thus, the goal in managing mechanically ventilated patients should be to keep the FiO2 below 40% at all times.  The patients FiO2 may need to be reduced soon- if more than 40% - in order to avoid pulmonary oxygen toxicity, but this should be accomplished by first increasing oxygenation by another means, such as by increasing PEEP.  PEEP prevents alveolar collapse, directly counteracting the means by which ARDS causes hypoxaemia. It may also reopen some alveoli that have already collapsed. • Which therapies has been shown to most likely decrease overall mortality of ARDS? Implementing a low tidal volume ventilation protocol (6 mL/kg based upon ideal body weight)  The target tidal volume is based on ideal, rather than actual body weight. Fat has no alveoli !  A target tidal volume of 6 ml/kg ideal body weight should be set maintaining plateau pressures of less than 30 cmH2O The two main ventilator methods used in the management of ARDS are: • High positive end-expiratory pressure (PEEP) • Low tidal volume ventilation (LTVV) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Altitude related disorders Response to high altitude • The arterial partial pressure of oxygen (PaO2) decreases with altitude, resulting in progressive tissue hypoxia. The normal compensatory response to hypobaric hypoxia is termed acclimatization. Its main feature is increased ventilation. • ↓atmospheric oxygen (PiO2) → ↓PaO2 →↑ventilation → ↓Paco2 → respiratory alkalosis → altitude sickness (headaches, nausea, fatigue, lightheadedness, sleep disturbance). • Chronic ↑ in ventilation. • ↑Erythropoietin → ↑Hct and Hb (due to chronic hypoxia). • ↑ 2,3-bisphosphoglycerate (2,3-BPG) (binds to Hb → shifts the oxygen-hemoglobin dissociation curve to the right → ↑O2 release). • Cellular changes (↑mitochondria). • ↑Renal excretion of HCO3−to compensate for respiratory alkalosis (can augment with acetazolamide). • Chronic hypoxic pulmonary vasoconstriction → ↑pulmonary vascular resistance → pulmonary hypertension, RVH. Types • There are three main types of altitude related disorders: acute mountain sickness (AMS), which may progress to high altitude pulmonary edema (HAPE) or high altitude cerebral edema (HACE). • All three conditions are due to the chronic hypobaric hypoxia which develops at high altitudes Acute mountain sickness (AMS) • AMS start to occur above 2,500 - 3,000m, developing gradually over 6-12 hours and potentially last a number of days. • Features Headache Nausea Fatigue • Treatment descent generally a self-limiting condition. usually resolves by day 3 with rest and gradual acclimatization to the high altitude. • Prevention gain altitude at no more than 500 m per day acetazolamide (a carbonic anhydrase inhibitor) is widely used to prevent AMS and has a supporting evidence base High altitude cerebral oedema (HACE) • Generally occur above 4,000m • HACE presents with headache, ataxia, papilloedema • Management descent dexamethasone Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology High altitude pulmonary oedema (HAPE) • Generally occur above 4,000m • Presents with classical pulmonary oedema features • Management (after descent) 1st line → High concentration O2 2nd line → Nifedipine, dexamethasone, acetazolamide, phosphodiesterase type V inhibitors  All seem to work by reducing systolic pulmonary artery pressure Acetazolamide • Carbonic anhydrase inhibitor • Causes HCO3 – wasting (prevents HCO3 – reabsorption in the proximal tubule) metabolic acidosis, and subsequent diuresis. • Metabolic acidosis → hyperventilation (physiological response) → ↑oxygenation → prevent altitude sickness Bronchiectasis Bronchiectasis should be suspected in a patient with chronic cough producing large amounts of sputum Definition • Permanent dilatation of the airways secondary to chronic infection or inflammation. Causes • Post-infective: (i.e., bacterial, viral, fungal) tuberculosis, measles, pertussis, pneumonia A history of previous whooping cough suggests bronchiectasis. • Disorders of secretion clearance, mucous plugging or bronchial obstruction Cystic fibrosis (CF) Primary ciliary dyskinesia (PCD) Allergic bronchopulmonary aspergillosis (ABPA) Kartagener syndrome α1-antitrypsin deficiency Smoking: associated with poor ciliary motility Lung cancer/foreign body • Immunodeficiency (e.g., common variable immunodeficiency, hypogammaglobulinemia, HIV) • Chronic inflammatory diseases (e.g., rheumatoid arthritis, Sjogren syndrome, Crohn disease) • Yellow nail syndrome Features The most common findings on examination are crackles (75%) and wheeze (22%). Clubbing is only found in 2%. • Chronic productive cough, with copious amounts of sputum (expectorating phlegm on most days) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Dyspnea • frequent chest infections • haemoptysis • Post nasal drip - common (chronic sinusitis in around 30%) • Tiredness - many patients find this more troublesome than the productive cough • Low Ventilation perfusion ratio leading to hypercapnia →Respiratory acidosis, and the body compensate by increasing heart rate and vasodilatation. Diagnosis • Chest X-ray The best initial test can be normal in 50% of patients (Bronchiectasis cannot be ruled out with a chest x-ray) Findings:  thickened and dilated bronchi, which produce tramline opacities and ring shadows “tram track” lines due to Inflammation and fibrosis of bronchial walls  Retained mucus might be seen as tubular opacities,  volume loss of the affected lobe.  Thin-walled cysts (i.e., dilated bronchi forming sacs), possibly with air-fluid levels  Late-stage bronchiectasis: honeycombing • High-resolution computed tomography scan of the lungs (HRCT) The gold standard for diagnosis of bronchiectasis. Findings  tram track lines and honeycombing  'signet ring' sign increased broncho-arterial ratio (bronchus larger than neighboring pulmonary artery). The bronchus and artery should be the same size, whereas in bronchiectasis, the bronchus is markedly dilated. Differential diagnosis • Carcinoma of the lung: Lung cancer can present with non-resolving respiratory infection with productive cough due to endobronchial obstruction by tumour, but there would be a much shorter duration of symptoms. Without treatment most patients would be dead within a year of the onset of lung cancer. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Chest x-ray showing tramlines, most prominent in the left lower zone CT chest showing widespread tram-track and signet ring sign Subtypes of Bronchiectasis • Cylindrical bronchiectasis bronchi have a uniform calibre, do not taper and have parallel walls (tram track sign and signet ring sign) commonest form (47%) • varicose bronchiectasis relatively uncommon (9.9%) beaded appearances where dilated bronchi have interspersed sites of relative narrowing • cystic bronchiectasis (45.1%) severe form with cyst-like bronchi that extend to the pleural surface air-fluid levels are commonly present • multiple types: ~ 24.3% Management Symptom control in non-CF bronchiectasis →inspiratory muscle training + postural drainage The mainstay of therapy for bronchiectasis is antibiotics and chest physiotherapy. After assessing for treatable causes (e.g. immune deficiency) management is as follows: • physical training (e.g. inspiratory muscle training) - has a good evidence base for patients with non-cystic fibrosis bronchiectasis • postural drainage • antibiotics for exacerbations + long-term rotating antibiotics in severe cases • bronchodilators in selected cases • Immunisations: Influenza and pneumococcal vaccinations are strongly recommended. • surgery in selected cases (e.g. Localised disease that fails to resolve after I.V antibiotic) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Most common organisms isolated from patients with bronchiectasis Bronchiectasis: most common organism Haemophilus influenzae • Haemophilus influenzae (most common) • Pseudomonas aeruginosa • Klebsiella spp. • Streptococcus pneumoniae Prevention • Primary prevention: antibiotic control of bronchial and pulmonary infections in predisposed individuals • Secondary prevention: long-term low-dose macrolide treatment (e.g., azithromycin) in patients with two or more bronchiectasis exacerbations within one year. Cystic fibrosis (CF) Genetics • Autosomal recessive; defect in CFTR gene on chromosome 7; commonly a deletion of Phe508. • The defective gene inhibits the body's ability to move salt and water in and out of cells → Deranged chloride transport → thick, viscous secretions in the lungs, pancreas, liver, intestine, and reproductive tract. Children whose parents are both heterozygous carriers of cystic fibrosis have a 25% chance of being affected by the condition. Epidemiology • Occurs in 1 in 2500 live births. • The carrier frequency in white populations is 1 in 25. • the most common genetically inherited diseases in Caucasian individuals. • Rare in patients of Afro-Caribbean and Asian origin. • 10% of people with cystic fibrosis are not diagnosed until adult life. Features • Failure to thrive and delayed puberty (100%) • Infertility Male infertility occurs in 98% due to failure of development of the vas deferens (congenital bilateral absence of the vas deferens (CBVAD); therefore, the anatomic duct through which spermatozoa pass from the testes to the urethra is absent, resulting in obstructive azoospermia) Patients may have CBVAD and cystic fibrosis transmembrane conductance regulator gene (CFTR) mutation without symptoms of CF. Female subfertility secondary to viscid cervical secretions. (only a 20% will be infertile) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Pancreatic insufficiency The most common (85%) almost always present in adult patients Due to obstruction of the pancreatic ductules by thickened secretions. Diabetes mellitus: occurs in > 65% of patients by age 25  treatment of choice is subcutaneous insulin. Calorie intake should not be restricted in CF patients, who are prone to malnutrition due to their pancreatic insufficiency. Malabsorption (30%): steatorrhoea Fat-soluble vitamin deficiencies (including vitamins A, D, E and K) • Respiratory Recurrent chest infections (40%)  Clues to a diagnosis of cystic fibrosis rather than an alternative immunodeficiency would be manifestations in other organ systems (pancreatic disease or infertility). Allergic bronchopulmonary aspergillosis (ABPA) is a recognised complication, occurring in 15% of adult CF patients Pneumothorax is seen in up to 5% of patients over 10 years of age and approximately 50% recur. • Liver disease By young adulthood, CF-associated liver disease develops in 30 % of those affected. Cholestasis due to defective CFTR protein on bile duct epithelial cells • Nasal polyps While nasal polyps occur in adults secondary to recurrent episodes of rhinitis, nasal polyps in children should always raise the suspicion for cystic fibrosis. • Gastro-intestinal Distal intestinal obstruction syndrome :  most common bowel complication in cystic fibrosis after Gastroesophageal reflux disease (GERD)  Occurs in 10-20% of patients with cystic fibrosis and incidence increases with age. About 80% of cases present for the first time in adults. Rectal prolapse (in children) due to bulky stools Constipation is common • Renal Urinary stress incontinence Renal calculi (incidence increases with age and 1 in 20 adults are affected). Distal intestinal obstruction syndrome is the most common bowel complication in cystic fibrosis after Gastroesophageal reflux disease (GERD) Diagnosis • Sweat chloride test The most important diagnostic test Sweat chloride ≥60 mmol/L is abnormal. The patient should undergo CFTR gene mutation testing to confirm the diagnosis (false negative in 1-2% of patients). Sweat chloride ≤29 mmol/L is normal. This is sufficient to rule out CF. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sweat chloride 30 to 59 mmol/L is intermediate. These patients should have repeat sweat chloride testing and CFTR sequencing. sweat test is conducted using pilocarpine iontophoresis.(a direct acting muscarinic agonist) Causes of false negative sweat test  nephrotic syndromes. Causes of false positive sweat test  malnutrition  adrenal insufficiency  glycogen storage diseases  nephrogenic diabetes insipidus  hypothyroidism, hypoparathyroidism  G6PD  ectodermal dysplasia • Genetic test (DNA analysis) → CFTR gene mutation → confirm the diagnosis Should be performed for patients with intermediate or positive sweat chloride results. Management Management of pulmonary disease • Airway clearance techniques Chest physiotherapy and postural drainage, regular (at least twice daily) An airway clearance session generally begins with SABA therapy to open the airways, followed by mucolytics to thin the mucus, then airway clearance techniques. high-frequency chest wall oscillation is not recommended by NICE. • Mucoactive agents 1st line: rhDNase (dornase alfa; recombinant human deoxyribonuclease) 2nd line: rhDNase and hypertonic sodium chloride or hypertonic sodium chloride alone. 3rd line: mannitol dry powder for inhalation • Anti-inflammatory agents (e.g., macrolide antibiotics, ibuprofen, corticosteroids) are used to control inflammation in the airway • Lumacaftor-Ivacaftor Combination Used by NHS but not recommended by NICE  specifically targets the most common CFTR mutation, the ΔF508 mutation. Ivacaftor potentiates the opening of the CFTR chloride ion transport channel, Lumacaftor improves the conformational stability of ΔF508-CFTR, resulting in increased processing and trafficking of mature protein to the cell surface. Lung transplant • Indications Evidence of pulmonary hypertension FEV1 <50% predicted and rapidly declining (eg, >20% relative decline in FEV1 within 12 months) FEV1 <40% predicted and BMI <18 (while working to improve nutritional status) FEV1 <40% predicted and any of the following markers of shortened survival:  2 exacerbations per year requiring intravenous antibiotics Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology  Massive hemoptysis (>240 mL) requiring intensive care unit admission or bronchial artery embolization.  Pneumothorax FEV1 <30% predicted Any of the following, regardless of FEV1:  6-minute walk test <400 meters  Hypoxemia (SpO2 <88% or PaO2 <55 mmHg, at rest or with exertion)  Hypercarbia (PaCO2 >50 mmHg, confirmed on arterial blood gas)  Pulmonary artery systolic pressure >50 mmHg on echocardiogram or evidence of right ventricular dysfunction in the absence of tricuspid regurgitant jet  Any exacerbation requiring positive pressure ventilation • Factors that warrant earlier consideration for transplant referral Female sex, especially those who are younger Short stature (height <162 cm) Liver cirrhosis or chronic kidney disease (may require consideration of multiple organ transplantation and may affect timing or choice of transplant center) • Absolute contraindications include Sepsis multiple organ dysfunction, documented history of non-adherence to treatment, patients colonised with Burkholderia cepacia class III obesity (body mass index [BMI] 40 or above), and refractory gastro-oesophageal reflux. • Recipient criteria Age under 60 years Life expectancy of less than 18 months No underlying cancer or serious systemic disease • Donor characteristics The donor should have been under the age of 40. The chest of the donor should be slightly smaller than that of the recipient. A double lung transplant is usually performed because of the risk of chronic infection in the remaining lung. Management of extra-pulmonary disease • Nutritional interventions High calorie diet, including high fat intake CF →Weight loss → ↑ risk of exacerbations & overall mortality. For that it's important to maintain a high calorie diet the best way to manage diabetes in CF is insulin and high calorie diet to allow them to convert those calories into stored energy. Vitamin supplementation • For malabsorption First test for exocrine pancreatic insufficiency→ stool elastase (if abnormal) → pancreatic enzyme replacement. If symptoms persist → acid suppression agent (H2 receptor antagonist or a proton pump inhibitor) • For distal intestinal obstruction syndrome 1st line: diatrizoate meglumine and diatrizoate sodium solution (Gastrografin) (orally or via an enteral tube) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 2nd line: iso-osmotic polyethylene glycol and electrolyte (PEG) solution (macrogols) (orally or via an enteral tube) 3rd line: surgery Prevention by : encourage drink plenty of fluids & pancreatic enzyme replacement therapy & regular stool-softening agent such as lactulose. • Liver disease  If liver function tests are abnormal → ursodeoxycholic acid Chest infections in cystic fibrosis • Organisms  Infants and young children become colonised by Staphylococcus aureus and then Haemophilus influenzae. Pseudomonas aeruginosa is the commonest colonising organism in patients with cystic fibrosis after the age of 10 years.(40 – 80%) Aspergillus colonisation is also common 19%. Burkholderia cepacia  Gram-negative, aerobic, rod bacteria.  Occurs in 5–10% of patients.  Often multi drug resistant.  Associated with the worst prognosis  Infection is a relative contraindication to undergoing lung transplant due to its association with poor outcomes. In cystic fibrosis, Staphylococcus aureus infections are more common in childhood while Pseudomonas infections become more common in late adolescence and adulthood. • Antibiotics Acute exacerbations  Combination of piperacillin-tazobactam, ceftazidime, meropenem plus one of the following: a fluoroquinolone, tobramycin, amikacin, or colistin. Chronic Pseudomonas aeruginosa infection  the commonest colonising organism in patients with CF after the age of 10 years.  Azithromycin at the time of the first positive culture  test for nontuberculous mycobacteria before initiating azithromycin. Azithromycin should not be given to patients infected with nontuberculous mycobacteria, because it may induce antibiotic resistance.  chronic azithromycin may reduce the efficacy of inhaled or intravenous tobramycin.  1st line → nebulised colistimethate sodium  2nd line → nebulised aztreonam, or nebulised tobramycin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Tobramycin • Aminoglycoside antibiotic • Works by binding to a site on the bacterial 30S and 50S ribosome, preventing formation of the 70S complex. As a result, mRNA cannot be translated into protein → cell death • Side effects: Nephrotoxicity ototoxicity (generally irreversible). Prognosis • The median survival is now predicted to be at least 40 years for children born in the 1990s. Occupational lung diseases • Occupational asthma • Extrinsic allergic alveolitis (EAA) • Pneumoconiosis • Asbestos and the lung • Pleural mesothelioma • Silicosis • Berylliosis • Coal workers' pneumoconiosis (CWP) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Occupational asthma Overview • Occupational asthma is a variable airflow obstruction attributable to a particular occupational exposure and not due to stimuli outside the workplace. • Should be suspected and evaluated in every patient with adult-onset asthma. 5 to 25 % of all adult-onset asthma cases are occupationally related. • Occurs more frequently in atopic persons and smokers. Causes • Exposure to the following chemicals are associated with occupational asthma: Isocyanates - the most common cause. (e.g. occupations include spray painting and foam moulding) Metals (Platinum salts, Aluminium, Chrome, Manganese, Nickel, Zinc) Disinfectant and preservatives (glutaraldehyde, chlorhexidine , formaldehyde) Flour Proteolytic enzymes Diagnosis • Confirmation of asthma Spirometry before and after bronchodilator → reversibility of airflow limitation. • Determine occupational relationship Symptoms become better at weekends / when away from work. Serial PEFR measurement at work and at home is a useful diagnostic test to assess a workplace contribution Skin test reactivity or immunoassay for specific immunoglobulin E (IgE) can identify sensitization to known occupational sensitizers. Management • Reduction of further exposure to the allergen. Change the Job if possible Changing the pattern of the particular duties. An alternative is to use industrial respirators, which filter out 98-99% of respirable dust from the ambient air. • Corticosteroid Occupational asthma should be suspected in all adult patients with asthma. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Hypersensitivity pneumonitis (HP) (also called extrinsic allergic alveolitis) Definition • an immunologic reaction occurring within the pulmonary parenchyma caused by hypersensitivity to an inhaled agent, such as microbial, avian, animal antigens and, less commonly, organic compounds. Pathophysiology • Acute HP is predominantly mediated by antigen-antibody complex formation (type III hypersensitivity) • Subacute and chronic HP result from an interplay of T helper (Th 1), T17, and T regulatory lymphocytes leading to lymphocyte infiltration and granuloma formation (delayed hypersensitivity) (type IV). • Despite its name, EAA is not allergic and therefore features associated with allergy and type I reactions do not tend to occur in EAA (ie wheeze, immediate symptoms, raised IgE, positive skin-prick test, eosinophilia of blood or sputum). • characterised histologically by: Alveolar destruction and interstitial inflammation. Non-caseating granulomas Asteroid bodies may be found in or adjacent to the granulomas. Examples • Farmer's lung: Caused by spores of Saccharopolyspora rectivirgula (formerly Micropolyspora faeni) The commonest occupational hypersensitivity pneumonitis Contaminated hay is the most common source of Saccharopolyspora rectivirgula Serum precipitating antibodies to Saccharopolyspora rectivirgula is the most useful diagnostic test (found in 75-100% of cases during an acute episode). Disease Antigen Source Farmer's lung (The commonest occupational hypersensitivity pneumonitis) spores of Saccharopolyspora rectivirgula (commonly from Contaminated hay) Bird fanciers' lung avian proteins Malt workers' lung Aspergillus clavatus Mushroom workers' lung thermophilic actinomycetes Maple bark stripper's lung Cryptostroma corticale Cheese washer's lung Penicillium casei Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Acute: occur 4-8 hrs after exposure, SOB, dry cough, fever. Symptoms subside after 12 hours to several days (in the absence of additional exposure) • Chronic (months after continuous exposure) : exertional shortness of breath and pulmonary fibrosis (typically upper-lobe). A recurrent common cold with an irritating cough and fever may indicate hypersensitivity pneumonitis. Investigation • Chest x-ray Upper/mid-zone fibrosis. Nodular shadowing or ground glass appearances. Classically show diffuse air-space consolidation • Pulmonary function test: restrictive pattern • Bronchoalveolar lavage (BAL) →lymphocytic predominance • Blood cell count → NO eosinophilia • Serology → Circulating IgG precipitins Demonstration of precipitating antibodies (precipitins) in the patient's serum to the causal antigen. Have a high false negative rate (positive results can be seen in exposed, but asymptomatic individuals). Positive serum avian precipitins are not diagnostic of HP, and only suggest the patient has had exposure to birds. • Histopathology: Noncaseating granulomas with lymphocytes and polynuclear giant cells Treatment • Removal of exposure to the antigen (change of job plan) The optimal management Symptoms may settle within 12 hours of removal of the antigen. • Prednisolone MRCPI-part-1-january-2016: A 65-year-old farmer presents with SOB and wheeze progressively worsening over the past 6 months. He is a smoker, and has two daughters with asthma. There was obvious wheeze and coarse end-inspiratory crackles on examination of the chest. A chest X- ray shows diffuse non-specific changes consistent with lung disease. Which would be the next most appropriate investigation? Spirometry and reversibility  This man either has asthma, chronic obstructive pulmonary disease or farmer’s lung  Spirometry and reversibility would be the investigation of choice. A restrictive defect would support a diagnosis of farmer’s lung; an obstructive defect with reversibility would support a diagnosis of asthma, respiratory obstruction without reversibility would support a diagnosis of COPD. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Pneumoconiosis Definition • A group of chronic lung diseases caused by exposure to a mineral dust or a metal. Types • Asbestosis • Silicosis • Coal workers' pneumoconiosis (black lung disease), and • chronic beryllium disease. Risk factor • In silicosis and coal workers' pneumoconiosis, exposure should be (at least 10 and usually 20 or more years prior to radiographic changes) (the cumulative dose inhaled). • Beryllium is immunologically mediated with a strong genetic component, so that the typical dose response demonstrated with the other pneumoconioses is not seen (NO need for cumulative dose) Features • Asymptomatic in early stages • Dyspnoea on exertional dyspnoea , dry cough Diagnosis • Chest x-ray The presence of non-calcified, multiple (in the hundreds), rounded opacities in the upper zones is highly suggestive of silicosis or coal workers' pneumoconiosis. Asbestosis typically causes lower lobe fibrosis. • High-resolution CT (HRCT) scan chest more sensitive than CXR in identifying interstitial fibrosis. • Individuals with silicosis should be tested for TB. Treatment • Smoking cessation + removal of occupational exposure • Patients with respiratory failure → referral for lung transplant Absolute contraindications include:  Associated other incurable advanced disease  Addictions including tobacco,  Lack of social support  Documented non-adherence to medical therapy. Exposure to isocyanates most likely associated with squamous-cell carcinoma of the bronchus. Hard metal lung disease (Cobalt exposure) • A worker in the hard metal industry, comes with progressive dyspnea. Chest X-ray shows diffuse interstitial fibrosis bilaterally. what is the typical cellular component found in a bronchoalveolar lavage (BAL) of this patient? Giant cells Persons working in the hard metal industry are prone to develop a condition called hard metal lung disease. The pathological diagnosis is giant cell interstitial pneumonia (GIP). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Asbestos and the lung Risk of asbestos exposure • Ship building, • car manufacture, • boiler making and • plumbing industries Asbestos can cause a variety of lung disease from benign pleural plaques to mesothelioma. Pleural plaques • The most common form of asbestos related lung disease • occur after a latent period of 20-40 years. • rarely cause symptoms • benign and do not undergo malignant change. • CXR may shows calcification on both hemidiaphragms which are most likely to be pleural plaques from previous asbestos exposure. • Do not require long term follow up Asbestosis (asbestos-related pulmonary fibrosis) • Diffuse interstitial fibrosis secondary to asbestos inhalation • Slowly progressive. the latent period is typically 15-30 years. • The severity of asbestosis is related to the length of exposure. This is in contrast to mesothelioma where even very limited exposure can cause disease. • Typically causes lower lobe fibrosis. • Pleural effusions and supradiaphragmatic pleural plaques are common findings on x-ray in patients with asbestosis. • Biopsy is not mandatory as the diagnosis can be made on clinical and radiological grounds. • On microscopic examination, asbestosis is marked by interstitial fibrosis with the presence of characteristic asbestos bodies and ferruginous bodies. • Resistant to treatment with immunosuppressive therapy. • The risk of lung cancer is raised more than 50-fold in smokers with asbestos. Pleural mesothelioma Definition • Malignant tumor of mesothelial cells of pleura Epidemiology • More common in male than female (3:1) Risk factors • Asbestos (20- to 40-year after exposure) • Smoking, alcohol, and diet do not increase the risk. The most common malignancy associated with asbestosis is bronchogenic carcinoma, not mesothelioma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Loss of material from chromosome 22 is commonly seen in mesothelioma cell lines Features • History of asbestos exposure in 85-90%, latent period of 20-40 years • Dyspnoea, weight loss, chest wall pain • pleural effusion Diagnosis • Chest x-ray showing either a pleural effusion or pleural thickening • CT chest with contrast → the best next step after chest x-ray Multiple nodular pleural lesions (pleural thickening) • Pleurocentesis (If a pleural effusion is present) for biochemistry and cytology exudative and hemorrhagic pleural fluid. cytology is only helpful in 20-30% of cases don’t rely on cytology alone to confirm the diagnosis • Thoracoscopy biopsy the most important investigation to confirm the diagnosis. used to investigate cytology negative exudative effusions as it has a high diagnostic yield (around 95%). Psammoma bodies are seen on histology • Positron emission tomography (PET) with CT (PET-CT) as the initial staging after histopathological confirmation of the diagnosis. Management • Radiation, with or without chemotherapy • Surgery (pleurectomy or pneumonectomy) in severe cases if operable Prognosis • Poor. The median survival after diagnosis is 1- 2 years • Bronchogenic carcinoma is the most common malignant pulmonary tumor in patients with asbestosis Bronchogenic carcinoma is more common than mesothelioma The lack of smoking history along with previous asbestos exposure and signs of a pleural effusion make malignant mesothelioma more likely than bronchial carcinoma. Silicosis Overview • a pneumoconiosis that results from the inhalation of silica dust. • Affects upper lobes • Increases susceptibility to tuberculosis. • Risky jobs Silicosis can affect anyone involved in quarrying )ﺍﻟﻤﺤﺎﺟﺮ( , carving, mining (ﺗﻌﺪﻳﻦ), tunneling (ﺣﻔﺮ ﺍﻻﻧﻔﺎﻕ), grinding )ﻁﺤﻦ( or sand-blasting )ﻧﺴﻒ ( , if the dust generated contains quartz. manufacture of toilet bowls, sinks(ﻣﻐﺎﺳﻞ), and ceramics;  hydraulic fracking while drilling for gas and oil. Pathophysiology • Macrophages activated by silica (quartz) →release fibrogenic cytokines → causes inflammation and scarring in the form of nodular lesions in the upper lobes of the lungs. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad This patient has mesothelioma. The calcification of the pleura is a hallmark of asbestos exposure. CT scan showing mesothelioma • There is a large rind of soft tissue related to the left chest wall. • This is a malignant process as there is destruction of the associated rib. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Classifications • Acute silicosis The most severe form develops a few weeks to 5 years after exposure due to very heavy exposure. Chest X-ray shows appearances resembling pulmonary oedema. Treatment 1st line →whole lung lavage. • Accelerated silicosis Develops 5–10 years after first exposure due to ess heavy exposure • Simple nodular silicosis the most common type resulting from long-term exposure (10 -30 years) to relatively low concentrations of silica dust radiographic nodular changes similar to coal-worker's pneumoconiosis , Differential diagnosis • Simple nodular silicosis differs from coal-worker's pneumoconiosis in that : the lesions tend to be larger (3-5 mm) and it is progressive even after dust exposure ceases Diagnosis • 'Egg-shell' calcification of the hilar lymph nodes is pathognomonic for silicosis; • Pulmonary function test → usually reveal mixed obstructive / restrictive picture • biopsy shows silica particles (birefringent) surrounded by collagen Complications • ↑ susceptibility to TB (silica is toxic to macrophages) • ↑ incidence of primary lung cancer • ↑ risk of connective-tissue disease, vasculitides, (COPD), and chronic renal failure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The chest radiograph shows "eggshell" calcification of the hilar lymph nodes, as seen with silicosis. Berylliosis Overview • Jobs at risk: aerospace or nuclear industry workers, manufacture of electronics, manufacture of heat-resistant ceramics, dental prostheses, and metal products • Characterized by the presence of noncaseating granulomas in the lungs, nodular infiltrates, and enlarged lymph nodes (resembles sarcoidosis) • The presence of glutamic acid at position 69 of the HLA-DP1 beta chain is strongly associated with chronic beryllium disease. Diagnosis • Chest radiograph shows hilar adenopathy or reticular and nodular lung opacities. Chest x-ray →linear opacities. silicosis and coal workers' →rounded opacities • Blood beryllium lymphocyte proliferation test (BeLPT) the initial diagnostic test of choice for patients with clinical or radiographic evidence of lung disease • Beryllium lymphocyte proliferation test (BeLPT) Sensitive test that identifies individuals sensitised to beryllium. Bronchoscopic lavage fluid may be positive when the blood test is negative. The occurrence of a positive BeLPT without granulomas on histology is an indication of sensitisation to beryllium and absence of chronic beryllium disease. 015 - Chapter 2 015 Chapter 2 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Fiberoptic bronchoscopy with bronchoalveolar lavage (BAL), endobronchial biopsy, and transbronchial biopsy. the next test for patients with a positive blood BeLPT or a strong clinical suspicion despite a negative blood BeLPT To obtain an adequate number of cells for BeLPT biopsy → granulomas present Diagnosis of berylliosis • requires all three of the following findings: history of beryllium exposure, positive BeLPT, presence of noncaseating granulomas and/or mononuclear cell infiltrates on lung histopathology. • A clinical diagnosis can also be made based on a positive BAL BeLPT and lymphocytosis (>20 %) in bronchoalveolar lavage fluid. Complications • ↑ risk for primary lung cancer Treatment • cessation of exposure to beryllium • Acute and chronic berylliosis →Oral corticosteroid therapy (prednisone) Coal workers' pneumoconiosis (CWP) Pathology • CWP results from inhalation and deposition of coal dust particles. • prolonged exposure to coal leads to pulmonary macrophages becoming filled with carbon, known as carbon-laden macrophages ("dust cells") • Affects upper lobes (high ventilation) Types • Simple CWP like smoking, can produce centrilobular emphysema Fine nodular opacifications (< 1 cm) in upper lung zone often asymptomatic and the diagnosis is an incidental finding on CXR. • Complicated CWP (Progressive massive fibrosis) Exposure to dust of high silicon content Fine nodular opacifications 1-2 cm with progressive massive fibrosis Chest x ray: round masses, several centimetres in diameter (˃ 1 cm), sometimes up to 10 cm. may have necrotic centres. Chest CT: Mass-like areas of lung opacification associated with radiating strands are seen; the "sausage-shaped" mass is characteristic. Mixed obstructive and restrictive lung Diagnosis • Chest x-ray → small interstitial nodules in the upper and mid zones of the lung. The presence of carbon-laden macrophages is the histologic hallmark of coal workers’ pneumoconiosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Complications • ↑ risk of connective-tissue disease and COPD • ↑ Risk of Caplan syndrome (coal worker's pneumoconiosis that occurs with joint manifestations of rheumatoid arthritis.) • NO association with lung cancer or TB Coughing up of black sputum (melanoptysis) is pathognomonic of coal workers pneumoconiosis. Although coal is mined from under the earth, the upper lobes of the lungs are primarily affected. Primary ciliary dyskinesia (PCD) Definition • A rare autosomal recessive disorder characterized by absent or dysmotile cilia caused by a defect in the dynein arm of microtubules resulting in abnormal ciliary motion and impaired mucociliary clearance throughout the body. Features • Recurrent or persistent respiratory infections (which may lead to bronchiectasis) • Recurrent Sinusitis, and Otitis media • Conductive hearing loss • Male infertility (due to decreased sperm motility as a result of defective flagella) • Reduced fertility in women and ↑ risk of ectopic pregnancy due to defective movement of the cilia in the fallopian tube • In 50% of the patients, PCD is associated with situs inversus (Kartagener's syndrome): triad of situs inversus, recurrent sinusitis, and bronchiectasis Differential diagnoses • cystic fibrosis The diagnosis of CF is based on typical pulmonary and/or gastrointestinal tract manifestations and positive results on sweat test (pilocarpine iontophoresis). A negative sweat test is sufficient evidence to exclude CF. Caplan’s syndrome Coal workers pneumoconiosis associated with rheumatoid arthritis Typically bilateral, peripheral nodules 5 mm to 5 cm in size peripheral lung nodules with the histopathology of rheumatoid nodules develop on a background of pneumoconiotic opacities. In contrast to pneumoconiotic masses, they can develop rapidly, over a period of weeks, and may cavitate or calcify. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Diagnosis • Nasal nitric oxide (NNO) levels the most sensitive and specific screening test for PCD Sensitivity of 97% and specificity of 90% for PCD. A low NNO (<100 parts per billion) should be followed up with confirmatory testing (nasal or bronchial brush biopsy for ciliary examination) because other conditions such as cystic fibrosis may present with low NNO. A high NNO virtually excludes PCD • Definitive diagnosis is usually based on identification of ciliary abnormalities on high speed videomicroscopy analysis (HSVA) or transmission electron microscopy (TEM). These tests require nasal or bronchial biopsy • Genetic test for dynein arm mutations is difficult due to multiple phenotypes Treatment • Reducing respiratory infections regular use of nebulized (hypertonic) saline, twice daily before airway clearance techniques; inhaled bronchodilator is administered prior to nebulized saline.  Azithromycin maintenance therapy (250 mg for <40 kg or 500 mg for ≥40 kg, three times a week) Kartagener's syndrome primary ciliary dyskinesia (PCD) + situs inversus →Kartagener's syndrome Definition • Kartagener syndrome is a subtype of primary ciliary dyskinesia characterized by the triad of situs inversus, chronic sinusitis, and bronchiectasis. • most frequently occurs in examinations due to its association with dextrocardia (e.g. 'quiet heart sounds', 'small volume complexes in lateral leads') Pathogenesis • autosomal recessive mutation. • dynein arm defect results in immotile cilia dynein is a protein found in Cilia and flagella of microtubule Features • Dextrocardia or complete situs inversus Situs inversus occurs in about half of people with Kartagener syndrome • Bronchiectasis • Recurrent sinusitis • Male infertility and female subfertility (secondary to diminished sperm motility and defective ciliary action in the fallopian tubes) • Deafness • Hydrocephalus. H/O recurrent chest infections , situs inversus, and sperm sample shows nonmotile spermatozoa. The cause of this condition is most likely a mutation in the genes for which protein? →Dynein Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad You can memorize the cause of Kartagener syndrome by thinking of Kartagener's restaurant that only has 'take-out' service because there is no dine-in (dynein). Kartagener syndrome: triad of: situs inversus, chronic sinusitis, and bronchiectasis. Lung cancer: General overview Epidemiology • Second most common cancer (after breast cancer in women and prostate cancer in men). • More common in males except for adenocarcinoma, which is more common in women Risk factors • Smoking increases risk of lung ca by a factor of 10 Smoking and asbestos are synergistic, i.e. a smoker with asbestos exposure has a 10 X 5 = 50 times increased risk Up to 15% of lung cancers in patients who do not smoke are thought to be caused by passive smoking • Occupational exposure Asbestos - increases risk of lung cancer by a factor of 5 Isocyanates occurs in chemical workers in the rubber industry → non-small-cell lung cancer , squamous-cell carcinoma Arsenic, radon, nickel • Preexisting chronic obstructive pulmonary disease (COPD), tuberculosis, and idiopathic pulmonary fibrosis (IPF). Coal dust is not a risk factor of lung cancer Types of lung cancer • Non-small cell lung cancer (NSCLC) 85% of all lung cancers Most, but not all patients will have a smoking history Less malignant than small cell lung cancer, less responsive to chemotherapy. The overall 5-year survival rate is about 15% Has main 3 subtypes:  Adenocarcinoma ≈ 40% of NSCLC cases The most common form of lung cancer in non-smokers, women, and young adults Typically located on the lung periphery → normal bronchoscopy. May associate with Gynaecomastia. Histology will show: glandular mucin-producing cells Chapter 2 Pulmonology  Squamous ≈ 30% of NSCLC cases Typically, central (Squamous = Sentral) Associated with ↑parathyroid hormone-related protein (PTHrP) secretion → hypercalcaemia Cavitate (In 10% of cases) Histology will show: Pleomorphic cells in cluster with keratin pearls and intercellular bridges  Large cell carcinoma (10%-15%). A diagnosis of exclusion. The cells belonging to this cancer will not have mucous, squamous differentiation, neuroendocrine properties, or small cell characteristics. Cells will be large with abundant amounts of cytoplasm, large nuclei, and prominent nucleoli. Originates from an epithelial cell. Most commonly grow in the periphery. Highly anaplastic and poorly differentiated. Associated ↑beta-hCG Poorly responsive to chemotherapy and often require surgical excision. Prognosis is generally poor. • Small cell lung cancer (SCLC) Also known as "oat-cell carcinoma" 15% of all lung cancers Strongly associated with smoking Usually centrally located Most aggressive cancer which typically presents with a short history and 80–90% will have metastases at the time of presentation. Very poor prognosis. median survival is 6–12 months. Squamous cell cancer Squamous cell and Small cell lung cancer are both Sentrally (Centrally) located. Non-small cell lung cancer (NSCLC): adenocarcinoma VS squamous cell carcinoma Lung adenocarcinoma (AC) Lung squamous cell carcinoma (SCC) Location Peripheral Central Characteristics Most common type of lung cancer worldwide More common in women and nonsmokers Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Strong association with smoking Cavitary lesions arising from a hilar bronchus Prognosis is usually better than in other types of lung cancer Paraneoplastic features Adenocarcinoma: HPOA → Clubbing Histology Glandular tumor Mucin-producing cells (positive mucin staining) Bronchioloalveolar carcinoma (BAC) is a pathological subtype of non-small cell lung cancer (NSCLC) • Adenocarcinoma • usually demonstrating a peripheral lesion. • grow along the alveolar walls without actually destroying them. • alveoli are often filled with mucin. • The classic massive clear frothy sputum (bronchorrhoea) can be up to one litre a day. • not resectable, poor prognosis. Features • Small tumours are often asymptomatic, so the majority of patients have either locally advanced or metastatic disease at diagnosis. • Most common presenting symptoms are cough, chest pain, haemoptysis, dyspnoea, and weight loss. • Regional adenopathy and compression of nearby structures may result in superior vena cava syndrome, hoarseness, and dysphagia. • Obstruction of a central bronchus may result in postobstructive pneumonia Referral • Consider immediate referral for patients with: signs of superior vena caval obstruction (swelling of the face/neck with fixed elevation of jugular venous pressure) stridor • Refer urgently for chest x-ray for patients with any of the following: haemoptysis unexplained or persistent (longer than 3 weeks): chest and/or shoulder pain, dyspnoea, weight loss, chest signs, hoarseness, finger clubbing, cervical or supraclavicular lymphadenopathy, cough, features suggestive of metastasis from a lung cancer (for example, secondaries in the brain, bone, liver, skin) underlying chronic respiratory problems with unexplained changes in existing symptoms • Refer urgently (for an appointment within 2 weeks) patients with: persistent haemoptysis (in smokers or ex-smokers aged 40 years and older) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad PTHrp →Hypercalcemia Solid, epithelial tumor Intercellular bridges (desmosomes) Keratin pearls Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology a chest X-ray suggestive of lung cancer (including pleural effusion and slowly resolving consolidation) a normal chest X-ray where there is a high suspicion of lung cancer a history of asbestos exposure and recent onset of chest pain, shortness of breath or unexplained systemic symptoms where a chest x-ray indicates pleural effusion, pleural mass or any suspicious lung pathology MRCPUK-part-1-january-2017: H/O Rapid progression (cough, lung mass and weight loss within 2 months) + paraneoplastic peripheral neuropathy. What is the most likely diagnosis? Small-cell carcinoma. (Squamous cell carcinoma and adenocarcinoma are usually very slow growing). Lung cancer: paraneoplastic features Paraneoplastic features of lung cancer • Squamous cell: PTHrp →Hypercalcemia • Adenocarcinoma: HPOA → Clubbing • Small cell: ↑ADH → SIADH ↑ACTH → Cushing syndrome Lambert-Eaton syndrome Overview • Paraneoplastic syndromes are a result of antibody generation from or against malignant cells attacking normal tissue. • Paraneoplastic syndromes occur in 10% of patients with lung cancer • Both non-small cell and small cell lung cancers are associated with Paraneoplastic syndromes, although they are more common with the small cell due to its neuroendocrine cell origin. Paraneoplastic features associated with non-small cell lung cancer • Hypercalcemia Squamous cell carcinoma is the most common type of cancer related to hypercalcemia. Parathyroid hormone-related protein (PTH-rp) secretion causing hypercalcaemia  occurs in about 15%  best treated with intravenous fluids and bisphosphonates • Hypertrophic pulmonary osteoarthropathy (HPOA)  More common with adenocarcinomas than squamous cell carcinomas Characterized by abnormal proliferation of the cutaneous and osseous tissues at the distal regions of the extremities. a triad of clubbed fingers, symmetric polyarthritis, and periostitis of the long tubular bones It is often painful. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Paraneoplastic features associated with small cell lung cancers • ↑ ADH → Syndrome of inappropriate antidiuretic hormone secretion (SIADH) SIADH manifests as euvolemic hypo-osmolar hyponatremia characterized by low serum osmolality and inappropriately high urine osmolality in the absence of diuretic treatment, adrenal insufficiency, heart failure, cirrhosis, or hypothyroidism • ↑ ACTH → Hypercortisolism → Cushing syndrome not typical presentation hypertension, hyperglycaemia, hypokalaemia, alkalosis and muscle weakness are more common than buffalo hump etc.  May manifest by Cushingoid facies and hyperpigmentation of the skin • Lambert-Eaton syndrome 70% occur in small cell carcinoma is a pre-synaptic disorder of auto-antibody IgG directed against the pre-synaptic voltage gated calcium channel (VGCC) leading to impaired acetylcholine release. characterised by:  Proximal muscle weakness (the cranial nerves and respiratory muscles are usually spared)  Depressed or absent tendon reflexes and  Autonomic features (for example, dry mouth, impotence, etc). Weakness and fatiguability can be improved with guanidine hydrochloride Unlike myasthenia gravis exercise is associated with increasing muscle strength and there is a negative response to Tensilon. The presence of hyponatraemia strongly points towards a diagnosis of small cell lung cancer. Lung cancer: stepwise investigations • Chest x-ray The best choice for an initial study. No initial examination is complete without a lateral film. Normal X-ray of the chest does not exclude bronchial carcinoma The common appearance of a tumour arising from the main central airways (70% of all cases) is enlargement of one or other hilum. An endobronchial lesion commonly leads to partial or complete atelectasis and this is the commonest sign of bronchogenic carcinoma. Consolidation and collapse distal to the tumour might have occurred Collapse of the left lower lobe is often hard to identify, as is a tumour situated behind the heart. Apically located masses or superior sulcus tumours (Pancoast tumours) can be misdiagnosed as pleural caps, and patients often have a long history of pain in the distribution of the brachial nerve roots. The mediastinum might be widened by enlarged nodes. • Contrast-enhanced CT of the lower neck, chest, and upper abdomen Perform contrast-enhanced CT of the chest, liver adrenals and lower neck before any biopsy procedure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Shows size, location and extent of primary tumour; evaluates for hilar and/or mediastinal lymphadenopathy and distant metastases • Biopsy If the CT demonstrates a peripheral lung lesion, CT or ultrasound-guided transthoracic needle biopsy should be offered.  Endobronchial ultrasound (EBUS) guided biopsy is recommended for paratracheal and peri-bronchial intra-parenchymal lung lesions. Wherever possible minimally invasive procedures should be undertaken first for mediastinal node sampling (e.g., EBUS) before embarking into more invasive procedures like VATS. • Positron-emission tomography (PET)  The preferred first test after CT for intrathoracic lymph node assessment PET would determine whether there are distant metastases and is performed after the CT. For example in a patient with operable non-small-cell lung cancer, if CT has shown enlarged mediastinal nodes , he needs further assessment of his mediastinal nodes prior to surgery, because CT is not particularly good for assessing whether enlarged nodes are inflammatory or malignant. and this can be done with mediastinoscopy or a positron-emission tomography (PET) scan. Fluorodeoxyglucose is the usual tracer used for PET imaging in lung cancer PET is considered a standard staging study for patients with NSCLC; however, pathological confirmation of abnormal findings is often necessary due to false positives. For patients with known metastatic disease, PET is unnecessary. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Performance status for patient of lung cancer and COPD • Assessing a patient's performance status is important when evaluating the most appropriate treatment options. • It is commonly used by cancer MDTs, but has a role in assessing patients with chronic illnesses including COPD. WHO (Zubrod) Scale Description Asymptomatic Symptomatic but ambulatory (can carry out light work) In bed less than 50% of the day. Unable to work but can live at home with some assistance In bed more than 50% of the day (unable to care for self) Bedridden Staging lung carcinoma Criteria for staging • TNM staging takes into account: The size and position of the tumour (T) Whether the cancer cells have spread into the lymph nodes (N) Whether the tumour has spread anywhere else in the body - secondary cancer or metastases (M) • CT scan is recommended as a staging procedure. • Where available, PET scanning may be superior. Chest CT is the best method for staging squamous-cell carcinoma of the lung. The Tumor, Node, Metastasis (TNM) staging system • The International Association for the Study of Lung Cancer (IASLC) developed a eighth edition of the TNM system in 2018 replaced earlier editions: as fellow T, N, and M descriptors for the eighth edition of TNM classification for lung cancer • T: Primary tumor Tx → Primary tumor cannot be assessed or tumor proven by presence of malignant cells in sputum or bronchial washings but not visualized by imaging or bronchoscopy T0 → No evidence of primary tumor Tis → Carcinoma in situ Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology T1 →Tumor ≤3 cm in greatest dimension surrounded by lung or visceral pleura without bronchoscopic evidence of invasion more proximal than the lobar bronchus (ie, not in the main bronchus)  T1a(mi) → Minimally invasive adenocarcinoma  T1a →Tumor ≤1 cm in greatest dimension  T1b → Tumor >1 cm but ≤2 cm in greatest dimension  T1c →Tumor >2 cm but ≤3 cm in greatest dimension T2 → Tumor >3 cm but ≤5 cm or tumor with any of the following features: Involves main bronchus regardless of distance from the carina but without involvement of the carina Invades visceral pleura Associated with atelectasis or obstructive pneumonitis that extends to the hilar region, involving part or all of the lung  T2a → Tumor >3 cm but ≤4 cm in greatest dimension  T2b →Tumor >4 cm but ≤5 cm in greatest dimension T3 → Tumor >5 cm but ≤7 cm in greatest dimension or associated with separate tumor nodule(s) in the same lobe as the primary tumor or directly invades any of the following structures: chest wall (including the parietal pleura and superior sulcus tumors), phrenic nerve, parietal pericardium T4 → Tumor >7 cm in greatest dimension or associated with separate tumor nodule(s) in a different ipsilateral lobe than that of the primary tumor or invades any of the following structures: diaphragm, mediastinum, heart, great vessels, trachea, recurrent laryngeal nerve, esophagus, vertebral body, and carina • N: Regional lymph node involvement Nx →Regional lymph nodes cannot be assessed N0 →No regional lymph node metastasis N1→ Metastasis in ipsilateral peribronchial and/or ipsilateral hilar lymph nodes and intrapulmonary nodes, including involvement by direct extension N2 → Metastasis in ipsilateral mediastinal and/or subcarinal lymph node(s) N3 → Metastasis in contralateral mediastinal, contralateral hilar, ipsilateral or contralateral scalene, or supraclavicular lymph node(s) • M: Distant metastasis M0 →No distant metastasis M1 →Distant metastasis present  M1a →Separate tumor nodule(s) in a contralateral lobe; tumor with pleural or pericardial nodule(s) or malignant pleural or pericardial effusion◊  M1b → Single extrathoracic metastasis§  M1c → Multiple extrathoracic metastases in one or more organs Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment of lung cancer (NICE guidelines 2019) Non-small-cell lung cancer (NSCLC) • Surgery for early-stage NSCLC I–IIA (T1a–T2b, N0, M0) → lobectomy Advise to stop smoking, offer nicotine replacement therapy, but do not postpone surgery for that. Assessment before surgery for NSCLC  assess perioperative mortality by using risk scores such as thoracoscore.  Avoid surgery within 30 days of myocardial infarction.  Consider revascularisation (percutaneous intervention or coronary artery bypass grafting) before surgery for people with chronic stable angina  Perform spirometry and transfer factor (TLCO) • Radical radiotherapy For people with stage I–IIA (T1a–T2b, N0, M0) NSCLC who decline surgery or in whom any surgery is contraindicated, offer radical radiotherapy with stereotactic ablative radiotherapy (SABR). If SABR is contraindicated, offer either conventional or hyperfractionated radiotherapy. For eligible people with stage IIIA - IIIB NSCLC who cannot tolerate or who decline chemoradiotherapy, consider radical radiotherapy (either conventional or hyperfractionated). • Combination treatment (chemoradiotherapy) For people with stage II or III NSCLC that are not suitable for or decline surgery. For people with operable stage IIIA–N2 NSCLC: consider chemoradiotherapy with surgery. • Systemic anti-cancer therapy (SACT) for advanced NSCLC For non-squamous non-small-cell lung cancer, stages IIIB and IV  If the tumour tests positive for the epidermal growth factor receptor tyrosine kinase (EGFR-TK) mutation →Afatinib  If the tumour tests positive for anaplastic lymphoma kinase (ALK) gene → Crizotinib or Alectinib  If the tumour tests positive for PD-L1 above 50% → Pembrolizumab Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology  If the tumour tests positive for PD-L1 below 50% →gemcitabine or vinorelbine and cisplatin or carboplatin  If the tumour tests positive for ROS1→ Crizotinib Treatment of non-small cell lung cancer (NSCLC) NSCLC stage Treatment Stage I (cT1N0 and cT2N0) (primary tumour <5 cm) and stage II (primary tumour >5 cm, or smaller primary tumour with metastasis to a nearby lymph node) (cT1N1, cT2N1 and cT3N0) Surgery (FEV-1 should be >1.5 litres & no mets) stage III (ipsilateral lung metastases or multiple metastases to nearby lymph nodes): Sequential chemo-radiotherapy Stage IV (metastatic) chemotherapy alone • Absolute contraindications for surgery include: FEV1 < 1.5 litres is considered a general cut-off point  If the tumour necessitates a pneumonectomy, the post-bronchodilator FEV should be more than 2 litres. Reduction in the gas transfer test of more than 50% is a contraindication to surgery. Metastases.  stage IIIb or IV (i.e. metastases present)  Tumour near hilum  Vocal cord paralysis (implies extracapsular spread to mediastinal L.N)  SVC obstruction  Malignant pleural effusion (not just 'pleural effusion' (which may be reactive)). Most pleural effusions associated with lung carcinoma are due to the tumour (and results in classification as a T4 tumour).  Spread to involve the C8, T1 and T2 nerve roots occurs by rib erosion by tumour to involve the lower roots of the brachial plexus and is known as a Pancoast tumour. Small-cell lung cancer (SCLC) • Early-stage SCLC (T1–2a, N0, M0): Consider surgery • Limited-stage disease SCLC (T1–4, N0–3, M0) → 4 to 6 cycles of cisplatin-based combination chemotherapy + thoracic radiotherapy + prophylactic cranial irradiation • Extensive-stage disease SCLC (broadly corresponding to T1–4, N0–3, M1a/b – including cerebral metastases) → platinum-based combination chemotherapy up to a maximum of 6 cycles + thoracic radiotherapy with prophylactic cranial irradiation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment of small cell lung cancer (SCLC) Stage of SCLC Treatment Early stage (T1-2a,N0,M0) Surgery Early stage (T1-2a,N0,M0)- Limited disease (T1-4,N03,M0) 4-6 cycles cisplatin-based chemotherapy, carboplatin if poor renal function/poor performance status +/- radiotherapy Extensive disease (T1-4, N03, M1a/b) 6 cycles platinum-based combination chemotherapy + thoracic radiotherapy if good response The most appropriate next step in management for patients with SCLC who have a response to initial chemotherapy → Prophylactic cranial irradiation should be considered Palliative care • Impending endobronchial obstruction → external beam radiotherapy and/or endobronchial debulking or stenting • pleural effusion → pleural aspiration, talc pleurodesis for longer-term benefit. • to reduce cough → opioids, such as codeine or morphine • superior vena cava obstruction → chemotherapy and radiotherapy • for the immediate relief of severe symptoms of superior vena caval obstruction → stent insertion • for symptomatic brain metastases →dexamethasone • for bone metastasis who need palliation and for whom standard analgesic treatments are inadequate → single-fraction radiotherapy Lung cancer induced superior vena cava obstruction (SVCO) Overview • SVCO an oncological emergency caused by compression of the SVC. • 60 % of patients present with SVC syndrome without a preexisting diagnosis of cancer. • Most commonly associated with lung cancer. Up to 4% of patients with lung cancer will develop SVCO at some point during their disease. SVCO is much more likely to be associated with right sided lung lesion 4 times than with left sided lesions Causes • Lung cancer Non-small cell lung cancer (the most common cause ≈ 50%) Small cell lung cancer (25%) • Non-Hodgkin lymphoma (NHL) (10%) • Other malignancies (15%) metastatic seminoma, Kaposi's sarcoma, breast cancer • Aortic aneurysm • Mediastinal fibrosis • Mediastinal goitre • SVC thrombosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Features • Dyspnoea is the most common symptom • Swelling of the face, neck and arms - conjunctival and periorbital oedema may be seen • Headache • Visual disturbance • Pulseless jugular venous distension • CXR is abnormal in around 85% of cases, mediastinal widening is common. Association • Recurrent laryngeal nerve palsy (voice hoarseness): usually occurs with malignant tumour but can occur with aneurysm of aortic arch. • Horner's syndrome due to involvement of sympathetic chain. • elevated non-pulsatile jugular venous pressure (JVP) • Compression of vital structures can result in stridor and dysphagia. Diagnosis • Duplex ultrasound  The initial imaging study for patients with mild symptoms • Contrast-enhanced CT The initial study for patients with clinical features suggestive of moderate SVC syndrome • Venography  The first line in severe or life-threatening symptoms Catheter-based (standard) venography is preferred over CT venography because it also provide immediate treatment by thrombolysis (pharmacologic or mechanical) and SVC stenting Management • Dexamethasone Corticosteroids are most useful where the cause of compression is an underlying haematological malignancy. SVCO: immediate management →Dexamethasone IV + LMWH. • Stenting Relieves symptoms quicker than chemotherapy or radiotherapy. • Radiotherapy may be an option later. If radiotherapy is used initially then stenting becomes significantly more difficult due to local fibrosis. Mediastinal radiotherapy leads to symptomatic relief in 80% of patients Pancoast tumor • An apical lung carcinoma • Located in the superior sulcus of the lung (superior sulcus tumor) • Predominantly non-small cell lung cancer (NSCLC) • May lead to the development of Pancoast syndrome: a group of symptoms secondary to the mass effect of the tumor on surrounding structures Cervical sympathetic ganglion (stellate ganglion): → Horner syndrome (ipsilateral miosis, ptosis, and anhidrosis) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Recurrent laryngeal nerve: → hoarseness Phrenic nerve: → paralysis of the hemidiaphragm (visible as elevated hemidiaphragm on chest x-ray) Brachial plexus:→ shoulder pain, sensorimotor deficits (eg, atrophy of intrinsic muscles of the hand) Brachiocephalic vein: → unilateral edema of the arm and facial swelling • The investigation of choice → CT of chest • Treatment: usually inoperable on presentation → radiation and chemotherapy Lung metastases • Metastatic carcinoma is the most common malignant tumour found in the lung • Malignant metastases to the lung can present as a solitary enlarging nodule, as multiple nodules or with diffuse lymphatic involvement. • The most common causes of malignant nodules are primary lung cancer, lung metastases, and carcinoid tumors. • Breast, Colorectal, renal and lung primaries are the commonest underlying tumours. • An incidental pulmonary nodule that has clearly grown on serial imaging or is 18fluorodeoxyglucose (FDG)-avid on positron emission tomography (PET)/CT is likely to be malignant and should be evaluated with biopsy. • A diagnosis can usually be secured by percutaneous computed tomography- (CT-) guided biopsy. Lung cancer with multiple brain metastases →Hospice care is appropriate. Metastatic carcinoma Chest X-ray shows secondary tumors as multiple, wellcircumscribed, noncalcified nodules. The most common cancer to present with metastases to the hand is lung cancer. Metastatic carcinoma is the most common malignant tumour found in the lung Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Carcinoid lung tumour Carcinoid tumour as general (see gastroenterology section) • neuroendocrine tumours of predominantly enterochromaffin cell origin. • can occur in the small intestine, bronchi, rectum appendix or stomach. Overview • The vast majority of bronchial adenomas are carcinoid tumours, arising from the amine precursor uptake and decarboxylation (APUD) system, like small cell tumours. • Carcinoid tumours (so called argentafinomas as they take up silver) are neuroendocrine cells • originate from Kulchitsky (K) cells in the lung • Most often located in the main bronchi, and occur most frequency in the right middle lobe. • slow growing • smoking is NOT a risk factor Epidemiology • 1% of lung tumours • 10% of carcinoid tumours. • typical age = 40-50 years • The incidence is equal between men and women. Feature Recurrent haemoptysis with segmental collapse on x-ray is a typical presentation of bronchial carcinoid. • Often asymptomatic • long history of cough, recurrent haemoptysis • Recurrent infections: carcinoid tumours →(80-90%) develops in a bronchus → bronchial obstruction →lower respiratory tract infection. • Carcinoid syndrome (rare) depends on associated liver metastases occurs in less than 10% of patients with carcinoid tumours, but occurs most commonly in GIT tumours. can secrete a number of vasoactive compounds (including serotonin and bradykinin), which result in bronchospasm, diarrhoea, skin flushing and rightsided valvular heart lesions. Paraneoplastic syndromes  ACTH secretion and subsequent Cushing's syndrome.  Ectopic growth hormone-releasing hormone [GHRH] and subsequent acromegaly  Multiple endocrine neoplasia (MEN) type 1 where pancreatic neuroendocrine tumours predominate. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Investigations The 'cherry-red' lesion is a typical finding of lung carcinoid. • Chest-X ray often centrally located and not seen on CXR. A carcinoid tumour in the left lower lobe bronchus could cause distal collapse of the left lower lobe. • Bronchoscopy: Identifies up to 80% of carcinoid tumours in the main bronchi. seen as a highly vascular 'cherry-like' tumour ('cherry red ball')  Biopsy is usually followed with brisk bleeding and should be done via rigid bronchoscopy. The histological picture of granular eosinophilic staining of the cytoplasm, is highly suggestive of a carcinoid tumour. Histologically, these tumors consist of compact nests of epithelial cells surrounded by neat, delicate connective tissue capsules. histology might not be necessary prior to surgery if the clinical picture is typical. • Plasma chromograffin A is an effective screening test for carcinoid as it is very sensitive, but it is not specific. • 24-hour urinary excretion of 5-hydroxyindoleacetic acid is more specific for the diagnosis, but false positives and negatives are present. Management • Surgical resection A person with an isolated pulmonary carcinoid should be referred for tumour resection, histology might not be necessary prior to surgery if the clinical picture is typical. Prognosis • if no metastases then 90% survival at 5 years Lung fibrosis: Causes Acronym for causes of upper zone fibrosis: CHARTS • C- Coal worker's pneumoconiosis • H - Histiocytosis/ hypersensitivity pneumonitis • A - Ankylosing spondylitis • R - Radiation • T - Tuberculosis • S - Silicosis/sarcoidosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Fibrosis predominately affecting the upper zones • Extrinsic allergic alveolitis • Coal worker's pneumoconiosis/progressive massive fibrosis • Silicosis (Silica is found in coal dust) • Sarcoidosis • Ankylosing spondylitis (rare) • Histiocytosis: Pentalaminar X bodies (Birbeck granules) found on bronchoalveolar lavage (BAL) are diagnostic. • Tuberculosis • Allergic bronchopulmonary aspergillosis and farmers lung • Radiation Fibrosis predominately affecting the lower zones • Idiopathic pulmonary fibrosis (IPF) (previously known as Cryptogenic fibrosing alveolitis (the more common cause) • Most connective tissue disorders (except ankylosing spondylitis) • Asbestosis • Drug-induced Cardiac drugs: amiodarone, hydralazine Cytotoxic agents: busulphan, bleomycin , cyclophosphamide, leflunomide Anti-rheumatoid drugs: methotrexate, sulfasalazine, gold Antibiotics: nitrofurantoin Ergot-derived dopamine receptor agonists (bromocriptine, cabergoline, pergolide). Opiates: e.g. heroin abuse Idiopathic pulmonary fibrosis (IPF) Definition • Progressive fibrosis of the interstitium of the lungs when no underlying cause exists. Epidemiology • Most common type of interstitial lung disease (ILD) • Typically seen in patients aged 50-70 years • Men are affected more than women Pathophysiology • Recurrent microinjuries to the alveolar wall → ↑growth factors secreted by the injured epithelial cells (most commonly: Transforming growth factor-beta (TGF-beta) → recruit fibroblasts → differentiate into myofibroblasts → secrete interstitial collagen, which accumulates due to imbalance between interstitial collagenases and their tissue inhibitors. Baseline pulmonary function testing is important in patients receiving bleomycin Pulmonary fibrosis can occur following pneumonia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Risk factors • Genetic predisposition, • Cigarette smoking, environmental pollutants • Chronic microaspiration. Features • Gradual onset (over several months) of exertional dyspnoea and dry cough • Bibasal crackles on auscultation • Clubbing occurs in two-thirds of cases. Diagnosis • Chest X-ray: Bilateral lower-zone reticulonodular shadows • High resolution computed tomography (HRCT) The investigation of choice Showa radiographic pattern of usual interstitial pneumonia (UIP): Peripheral (subpleural), bibasilar reticular opacities Architectural distortion, including honeycomb changes and traction bronchiectasis or bronchiolectasis • Spirometry → restrictive picture (FEV1 normal/decreased, FVC decreased, FEV1/FVC increased) • Transfer factor (TLCO) reduced, most useful in determining prognosis. • Lung biopsy by video-assisted thoracoscopy (VATS) If HRCT is not diagnostic Finding → Honeycombing and collagen deposition with fibroblast foci • Exclusion of other known causes of interstitial lung disease Usual interstitial pneumonia (UIP): is a radiologic and pathologic description and can be seen in conditions other than IPF, especially connective tissue diseases, rheumatoid arthritis. Once these other conditions are reasonably excluded, a clinical diagnosis of IPF can be made. Hence UIP does not always mean IPF. But in IPF, the radiologic and pathologic pattern is UIP. Management • Supportive care (eg, supplemental oxygen, pulmonary rehabilitation, seasonal influenza and pneumococcal vaccination) • Antifibrotic agents →pirfenidone or nintedanib Action → suppresses fibroblast proliferation Indication → mild-moderate disease IPF (FVC 50-80 % predicted). Benefit → reduces disease progression by 30 % Side effects → drug-induced liver injury • Immunosuppressant therapies such as azathioprine, prednisolone and mycophenolate mofetil should not be used in IPF. • Lung transplant Prognosis • poor, average life expectancy is around 3-4 years • increased risk of developing lung cancer (by 7- to 14-fold). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Chest X-ray shows sub-pleural reticular opacities that increase from the apex to the bases of the lungs CT scan showing advanced pulmonary fibrosis including 'honeycombing' Bronchiolitis obliterans (BO) Definition • 'Bronchiolitis obliterans' is the term used to describe fibrous scarring of the small airways, characterized by fixed airway obstruction. Mechanism • submucosal and peribronchiolar inflammation and fibrosis without any intraluminal granulation tissue • BO should not be confused with bronchiolitis obliterans organising pneumonia (BOOP), a completely different disease. Causes • Inhalation of toxic fumes • Exposure to mineral dust • Respiratory infections: Viral, Mycoplasma, Legionella • post-transplantation: Bone marrow, heart-lung or lung transplantation • Connective tissue disorder: Rheumatoid arthritis or SLE • Penicillamine treatment • inflammatory bowel disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Feature • dry cough and dyspnoea. • wheeze might be audible. Diagnosis • Should be considered in a nonsmoker when airflow limitation is irreversible or associated with a gas transfer abnormality. • Should be considered in association with recent toxic fume exposure, symptoms of viral infection, history of organ transplantation, or concomitant rheumatic disease. • HRCT: shows expiratory air trapping (mosaic or diffuse), bronchial wall thickening, and centrilobular nodules • Spirometry →mixed obstructive/restrictive picture • Transfer factor may be low but the transfer coefficient (Kco) is often normal. • lung biopsy An open or thoracoscopic lung biopsy is required to make a definitive diagnosis will show→ a mural concentric narrowing of the lumina of the bronchioles. Transbronchial lung biopsy is often inadequate for diagnosis because the disease is patchy. Differential Diagnosis • Bronchiolitis obliterans is often misdiagnosed as asthma, chronic bronchitis, emphysema or pneumonia. Asthma → reversible airflow limitation on spirometry (unlike BO) COPD → significant cigarette smoking history and no exposure to the etiologic agents for BO. Cryptogenic organising pneumonia (COP) : differ from BO in:  'cryptogenic means unknown cause'.  granulation tissue in the alveoli and bronchioles on histopathology  Spirometry → restrictive pattern  Responds very well to steroids Treatment • No optimal treatment. Patients rarely respond to steroids and the prognosis is poor. • This disease is irreversible and severe cases often require a lung transplant a history of inhalational exposure or hematopoietic cell or lung transplantation, the combination of airflow limitation on spirometry and HRCT showing expiratory air trapping (mosaic or diffuse), bronchial wall thickening, and centrilobular nodules are sufficient to make a diagnosis of bronchiolitis obliterans. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Post-extubation stridor (PES) Prevalence • PES is a frequent complication of intubation, occurring in 2-16% of cases. Pathophysiology • pressure and ischaemia →damage to the mucosa of the larynx → inflammatory response → laryngeal oedema → acute respiratory compromise necessitating emergency reintubation. Risk factors for post-extubation stridor from laryngeal edema • prolonged duration of intubation, • traumatic intubation, (variably defined as ≥36 hours to ≥6 days) • large tube size (>8 mm in men, >7 mm in women) • Excessive cuff pressure • Aspiration • Tracheal infection • A history of asthma • Female gender Obstructive sleep apnoea (OSA) Sleep apnoea causes include obesity and macroglossia Definition • Cessation of breathing during sleep because of upper airway obstruction leads to apnea (respiratory arrests of ≥ 10 seconds) and hypopnea (reduction of airflow by ≥ 50% for ≥ 10 seconds). Epidemiology • More common in men : ♂ > ♀ (2:1) Causes • Obesity: the most important risk factor • macroglossia: acromegaly, hypothyroidism, amyloidosis • large tonsils • Marfan's syndrome • Small pharyngeal opening • Coexisting COPD • Sedatives such as alcohol • Collar size (Neck size) greater than (17 inches) 43 cm is strongly associated. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Excessive daytime somnolence as a result of repeated arousals. • Repetitive apnoeas (cessation of airflow for more than 10 seconds) and hypopnoeas (50% reduction in airflow for greater than 10 seconds) • loud snoring, gasping, choking or interruptions in breathing while sleeping • morning headaches Complications • Pulmonary hypertension and cor pulmonale • Hypoxia-induced cardiac arrhythmia • increased risk of premature death, sudden death • myocardial infarction, stroke, • motor vehicle accidents due to microsleep • metabolic syndrome (hypertension, insulin resistance → ↑risk of type 2 diabetes.) • neurocognitive dysfunction, vascular dementia • reduced libido and erectile dysfunction • CBC may show polycythemia (↑ Hct, ↑ Hb): Hypoxia induces erythropoietin secretion by the kidneys, which stimulates the blood marrow, leading to increased RBC production Obstructive sleep apnea is one of the most common causes of secondary hypertension. Diagnosis : Sleep studies • Overnight polysomnography: first-line method The gold standard diagnostic test is. Classic findings Diagnose OSA if the Apnoea-Hypopnoea Index (AHI):  ≥15 episodes/hour.  ≥5 episodes/hour + additional symptoms (eg: excessive daytime sleepiness, insomnia, mood disorder, or cognitive dysfunction) or comorbidities (eg: HTN, IHD, stroke) To assess severity of obstructive sleep apnoea Apnoea-Hypopnoea Index (AHI):  mild →4-14 episodes  moderate →15-30 episodes  severe →>30 episodes The diagnosis of obstructive sleep apnea requires sleep studies and should not be made based on clinical tools or questionnaires alone such as Epworth Sleepiness Scale (used to diagnose excessive daytime sleepiness) or Multiple Sleep Latency Test (MSLT) - measures the time to fall asleep in a dark room (using EEG criteria) In-laboratory polysomnography is the gold standard for the diagnosis of sleeprelated breathing disorders Following weight loss, CPAP is the first-line treatment for moderate/severe obstructive sleep apnoea Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Management • Weight loss. the definitive management. But takes time • Continuous positive airways pressure ventilation (CPAP) : the treatment of choice the most appropriate initial and quickest management • Intra-oral devices (e.g. Oral appliance , mandibular advancement) if CPAP is not tolerated or for patients with mild OSA where there is no daytime sleepiness • Upper airway surgery : if CPAP or an oral appliance are declined or ineffective. • Pharmacological agents: limited evidence Modafinil is a drug that is licensed for excessive daytime sleepiness in people with OSA treated with CPAP, as well as for narcolepsy. • Avoid sedatives drugs/excess alcohol Obesity hypoventilation syndrome (OHS) (Pickwick syndrome) Definition • a combination of obesity (body mass index [BMI] ≥30 kg/m2) and daytime hypercapnia (PaCO2 ≥45 mm Hg in arterial blood gas analysis) in the absence of other causes for hypoventilation. Diagnostic criteria • BMI ≥30 kg/m2 .Commonly affects morbidly obese individuals. 90% of patients with OHS have coexistent OSA. • Arterial blood gasses showing diurnal hypercapnia (PaCO2 > 45 mm Hg) serum bicarbonate ≥ 27 mEq/L • Polysomnography: hypoventilation during sleep with or without obstructive apnea events • Exclusion of other possible causes of hypoventilation (eg, neuromuscular disease). Treatment • 1st line: noninvasive positive airway pressure (PAP) together with lifestyle modifications for weight loss. Pneumothorax Classification • primary pneumothorax : if there is no underlying lung disease. • secondary pneumothorax : if there is underlying lung disease Features • Sudden onset of chest pain, sometimes radiating to the shoulder • Dyspnoea (may not be a dominant feature) • Dry cough Obesity + feature of OSA + diurnal abnormal ABG (↑ PCO2) (OHS) 016 - Pages 376-400 016 Pages 376-400 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Hamman's sign (or 'crunch') is a clicking sound synchronous with the heart-beat , heard over the sternal edge in mediastinal emphysema or Left-sided pneumothoraces. Risk factors • Young adult males, often tall and slim, are frequently affected by spontaneous pneumothorax. • Patients with Marfan syndrome are prone to recurrent pneumothoraces. Investigations • Chest x ray : 1st step to confirm the diagnosis Questions sometimes discuss the size of the pneumothorax in percentage terms rather than giving the interpleural distance. A 30% pneumothorax ≈ 2 cm A 50% pneumothorax is likely to have a rim of > 3cm. • CT chest The next step after chest x-ray to investigate the underlying cause of recurrent pneumothorax • Video assisted thoracoscopy If CT not help in pointing to underlying cause of recurrent pneumothorax Differential diagnosis • Large bullae in COPD can mimic a pneumothorax:  the most appropriate management option →CT chest to confirm  place a needle or chest drain would be disastrous → shrinkage of the lung Management • Primary pneumothorax Definition: Spontaneous primary pneumothorax is defined as:  Age less than 50-years-old  No significant smoking history, minimal smoking history would still be considered as primary pneumothorax  No evidence of underlying lung disease. Caused by the rupture of apical pleural blebs. Management  If the rim of air is < 2cm and the patient is not short of breath then discharge should be considered  If the rim of air is ≥2cm or the patient is breathless → Needle aspiration  If following aspiration the rim of air is < 2cm and the breathing has improved then discharge should be considered with outpatient review.  If needle aspiration fails (defined as > 2 cm or still short of breath) → chest drain should be inserted  If a patient with a pneumothorax requires oxygen, this should be given at 10 L/min. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • Secondary pneumothorax Definition: the patient is ≥50 years old, or has significant smoking history or evidence of underlying lung disease. Management:  If the rim of air is ˂ 2cm → aspiration  If the rim of air is ≥ 2cm → chest drain → Insert a small-bore chest drain (8-14 FG) and attach to an underwater seal drain  If aspiration fails (i.e. pneumothorax is still ˃1cm) → a chest drain should be inserted.  if the patient is very dyspneoic a drain should be inserted even though the pneumothorax is small (< 2cm).  All patients should be admitted for at least 24 hours  High flow oxygen should be given in all cases of pneumothorax, as it facilitates re-absorption of the pleural air, which is predominantly composed of nitrogen. Asthmatics should be treated as a secondary pneumothorax Tension pneumothorax • should be suspected in people on mechanical ventilators or nasal non-invasive ventilation who suddenly deteriorate, and is frequently missed in the intensive care unit setting. • Treatment → needle thoracocentesis use a 3-6-cm-long cannula to perform needle thoracocentesis. the cannula should be left in place until bubbling is confirmed in the underwaterseal system to confirm proper function of the intercostal tube. If the history and examination are suggestive of a pneumothorax and the patient being relatively stable (tension pneumothorax are not suggested), the most appropriate first step would be → confirmation with chest x ray rather than place a needle or chest drain. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chest drains for pneumothorax • Point of insertion→in the 'safe triangle', in the mid-axillary line, above a rib margin • Chest drain situations When the patient coughs, nothing happens. When he breathes in and out, the fluid in the tube moves up and down that means →Air is no longer draining from the pleural space, but the drain is still working. Air is not bubbling out of the drain when the patient coughs because the air has stopped draining from the pleural space and the lung has re-inflated. If a drain does not bubble or swing, then it is blocked or kinked and is not working. • Next step after failure of chest drain Negative suction is necessary if the drain is still bubbling but the lung has not fully re-inflated on the chest X-ray. After chest drain if pneumothorax fails to re-expand or if there is a persistent air leak (bubbling present) after 48 hours, then you should → refer the patient to a respiratory specialist because negative suction might be required using a high-volume/low-pressure suction system. Cardiothoracic surgical referral → Video assisted thoracoscopic surgery indications:  persistent pneumothorax despite low-pressure, large-volume suction, and the chest drain in position and is bubbling (may be have a bronchopleural fistula)  Persistent air leak (more than five to seven days of drainage)  Second ipsilateral pneumothorax for bullectomy and pleurectomy.  Bilateral spontaneous pneumothorax  Certain occupations, for example, pilots or divers. Chemical pleurodesis through the chest drain:  used in older patients or frail individuals with recurrent pneumothorax, where surgery would be high risk. Fitness to fly • Pneumothorax is an absolute contraindication to air travel as trapped air may expand and result in a tension pneumothorax. • In general, it should be safe to travel approximately 1- 2 weeks after successful drainage of a pneumothorax with full expansion of the lung. Diving • The British Thoracic Society (BTS) guidelines state: 'Diving should be permanently avoided unless the patient has undergone bilateral surgical pleurectomy and has normal lung function and chest CT scan postoperatively.' Chapter 2 Pulmonology Images Chest x ray reveals a 3.2 cm rim of air around the lung. Pleural effusion Classification , pathophysiology and causes Exudate (> 30g/L protein) Transudate (< 30g/L protein) Pathophysiology ↑ Capillary hydrostatic pressure (increased capillary wedge pressure) ↓ Capillary oncotic pressure Causes • infection: pneumonia, TB, sub-phrenic abscess • connective tissue disease: RA, SLE • neoplasia: lung cancer, mesothelioma, metastases • pancreatitis • pulmonary embolism • Dressler's syndrome • yellow nail syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ↑ Capillary permeability (e.g., due to inflammation) • heart failure • hypoalbuminaemia liver disease, nephrotic syndrome, malabsorption • hypothyroidism • Meigs' syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Investigation • Chest x-rays should be performed in all patients • Ultrasound thorax: the next most appropriate step after chest x-ray Ultrasound is better for pleural imaging than CT. it increases the likelihood of successful pleural aspiration and is sensitive for detecting pleural fluid septations • Pleural aspiration ultrasound is recommended to reduce the complication rate a 21G needle and 50ml syringe should be used fluid should be sent for pH, protein, lactate dehydrogenase (LDH), cytology and microbiology • Thoracoscopy the investigation of choice in patients with cytology negative exudative effusions. • Video-assisted thoracoscopic surgery (VATS) A minimally invasive procedure, used if the diagnosis remains unclear Light's criteria • Developed to distinguish between a transudate and an exudate. • The BTS recommend using the criteria for borderline cases: exudates have a protein level of >30 g/L, transudates have a protein level of <30 g/L if the protein level is between 25-35 g/L, Light's criteria should be applied. Exudates Transudate Pleural fluid protein/serum protein ratio 0.5 ≤ 0.5 Pleural fluid LDH/serum LDH ratio 0.6 ≤ 0.6 Pleural fluid LDH ⅔the upper limit of normal serum LDH < ⅔the upper limit of normal serum LDH To differentiate exudates from transudates, remember that Exudates have Extra (think protein, LDH). Pleural infection • All patients with a pleural effusion in association with sepsis or a pneumonic illness require diagnostic pleural fluid sampling • Indications for chest tube insertion in patients with an infected pleural effusion are: Frankly purulent pleural fluid Pleural pH < 7.2 in the setting of an infected pleural effusion Presence of organisms on a Gram stain of the pleural fluid Loculated pleural effusions Poor clinical progress despite antibiotic treatment Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology • What test can be performed to assess if the effusion is an empyema? Centrifugation of the pleural aspirate  If the pleural fluid is turbid or milky it should be centrifuged. If the supernatant (liquid which lies above the sediment) is clear, the turbid fluid was due to cell debris and empyema is likely Characteristic pleural fluid findings • Low glucose Empyema Rheumatoid arthritis effusions (↓glucose, ↓pH < 7.2, ↑ LDH, ↑ cholesterol, ↑RF) Tuberculosis Malignancy Oesophageal rupture Lupus • Raised amylase Pancreatitis, Oesophageal perforation • Heavy blood-staining Mesothelioma, malignancy. Pulmonary embolism Tuberculosis Complications of plural fluid drainage • Re-expansion pulmonary oedema This is a potentially life-threatening condition which can occur when a large volume of fluid or air is rapidly drained,  It is suggested by sudden onset of shortness of breath, cough and hypoxaemia following chest drain insertion. Exudate typically appears cloudy, has an increased cell count, and has high levels of protein, albumin, and LDH. Transudate is usually clear, has a decreased cell count, and has low levels of protein, albumin, and LDH. MEAT has low glucose: Malignancy, Empyema, Arthritis (rheumatoid pleurisy), and Tuberculosis are causes of pulmonary effusion associated with low glucose levels. Pleural fluid with a bloody appearance suggests a malignant etiology or haemothorax Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnostic algorithm for the patient with a pleural effusion Oxford handbook of respiratory medicine. 3rd edition Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology MRCPUK-part-2-march-2018: A patient admitted with severe pneumonia and pleural effusion, despite treatment with Tazocin®. Needle aspiration of 15 ml of pleural fluid reveals it to be pus-coloured, with a pH of 7.1 and a glucose level of 3.1 mmol/l. what is the most important intervention? Chest drain insertion Chylothorax Definition • Accumulation of chyle (a fatty lymphatic fluid with milky appearance ) in the pleural space. • Chyle is a lymphatic fluid with a high content of triglycerides in the form of chylomicrons, which produce the milky appearance. Causes • Nontraumatic chylothorax : Malignancy (classically lymphoma) is the leading cause. • Traumatic chylothorax: surgical injury to the thoracic duct is the most common cause Features • Symptoms induced by the mechanical effects of a pleural effusion Diagnosis • Pleural fluid for triglyceride and cholesterol levels:  elevated triglyceride strongly supports the diagnosis.  Low cholesterol will differentiate chylothorax from cholesterol pleural effusion (Pseudochyle → low triglyceride , high cholesterol and empyema) Milky appearance is a classic sign of chylothorax Pleural fluid is classically exudative with a high lymphocyte count (>70 %), a normal glucose level, a low LDH, and a low cholesterol level). Detection of chylomicrons by lipoprotein electrophoresis is the definitive diagnostic test but not routinely performed Haemothorax Definition • Bleeding into the pleural space Causes of nontraumatic haemothorax • Most common: spontaneous pneumothorax • Less common Vascular disease Malignancy Meigs syndrome: A triad of ascites, right pleural effusion, and benign ovarian tumor Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Coagulation disorders Necrotizing pneumonia Diagnosis • Pleural fluid analysis Bloody appearance RBC count > 5,000 cells/ml haematocrit that is more than half that of peripheral blood. (Haematocrit > 0.5 × peripheral hematocrit). This distinguishes it from a blood-stained effusion. Management • The treatment of choice is to insert a large intercostal drain (28-32 F). If this reveals continued bleeding, a thoracotomy might be required. A hemothorax, however small, must always be drained because blood in the pleural cavity will clot if not evacuated, resulting in a trapped lung or an empyema. Eosinophilic Pulmonary Diseases Definition • Eosinophilic pulmonary diseases are a heterogeneous group of disorders characterized by the accumulation of eosinophils in alveolar spaces, the interstitium, or both. Causes of pulmonary eosinophilia • Known etiology Allergic bronchopulmonary aspergillosis (ABPA) Helminth infections Drug-induced pneumonitis (eg, antibiotics, phenytoin, or L-tryptophan) Eosinophilic granulomatosis with polyangiitis (previously referred to as ChurgStrauss syndrome) Loffler's syndrome Tropical pulmonary eosinophilia • Unknown etiology: The two primary eosinophilic pulmonary diseases of unknown etiology are Acute eosinophilic pneumonia Chronic eosinophilic pneumonia Diagnosis based on: Demonstration of opacities on chest imaging and Identification of eosinophilia in peripheral blood, bronchoalveolar lavage fluid, or lung biopsy tissue Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Acute eosinophilic pneumonia Definition • Chronic eosinophilic pneumonia is an idiopathic acute disorder characterized by an abnormal accumulation of eosinophils in the interstitial and alveolar spaces of the lung. Features • Acute eosinophilic pneumonia is an acute febrile illness of less than four weeks duration (often less than seven days), a nonproductive cough, and progressively worsening dyspnea. • malaise, myalgias, night sweats, and pleuritic chest pain. Association • new onset or resumption of cigarette smoking. Diagnosis based on: • Acute febrile illness of short duration (one month or less), • hypoxemic respiratory failure, • diffuse pulmonary opacities on chest radiograph, and • bronchoalveolar lavage eosinophilia (>25 %), after • exclusion of infection, vasculitis, or other known precipitants (eg, drugs, irradiation) Treatment • In severe hypoxemia or respiratory failure requiring mechanical ventilation → methylprednisolone • Mild to moderate (eg, spo2 >92 %) →oral prednisone The classic presentation of idiopathic acute eosinophilic pneumonia is the rapid onset of acute respiratory failure in a previously healthy patient. diffuse radiographic opacities, and bronchoalveolar lavage with ≥25 % eosinophils, and absence of infection or other known precipitant. Chronic eosinophilic pneumonia Definition • Chronic eosinophilic pneumonia is an idiopathic chronic disorder characterized by an abnormal accumulation of eosinophils in the interstitial and alveolar spaces of the lung. Feature • dyspnea, cough, fever, and wheezing over 4 weeks to several months. Diagnosis • Chest imaging shows predominantly peripheral or pleural-based opacities described as the "photographic negative" of pulmonary edema, are virtually pathognomonic • Bronchoalveolar lavage (BAL) To look for eosinophilia →cell count showing eosinophilia (≥25 %). To exclude infection. • Infections and drug-induced pulmonary eosinophilia need to be excluded. Treatment • Prednisolone Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Tropical pulmonary eosinophilia Definition • Tropical pulmonary eosinophilia is an immune hyper-responsiveness to microfilariae that become trapped in the lungs. It is a clinical manifestation of lymphatic filariasis, a parasitic infection caused by nematodes (roundworms) such as Wuchereria bancrofti. Epidemiology • Seen in endemic areas of lymphatic filariasis (mainly India and South East Asia) • Occurs more frequently in males than in females Features • Dry cough that is frequently paroxysmal and nocturnal. • Asthma-like attacks → wheezing • fatigue, malaise, and weight loss, Diagnosis • ↑blood eosinophils • ↑serum immunoglobulin E. • ↑ filarial antibody titers (confirmatory test) Differential diagnosis • Tropical pulmonary eosinophilia is distinguished from Loeffler's syndrome by A. the severe and protracted course, B. measurable antibodies against filarial antigens, and C. the therapeutic response to diethylcarbamazine. D. If treated late or left untreated, it can lead to pulmonary fibrosis with chronic respiratory failure. Treatment • Diethylcarbamazine for 12 to 21 days. • Bronchospasm can be managed with bronchodilators and short-term corticosteroids. The diagnostic criteria for tropical pulmonary eosinophilia include: history of residence or travel to a filarial endemic region, paroxysmal nocturnal cough with dyspnoea, leucocytosis with peripheral blood eosinophilia >3,000/microL, elevated serum IgE and an antifilarial antibodies (IgG and IgE) levels, pulmonary infiltrations in chest x-ray, and clinical improvement with DEC (diethylcarbamazine). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Loffler's syndrome Definition • Löffler syndrome is a form of eosinophilic pulmonary disease characterized by absent or mild respiratory symptoms (most often dry cough), transient CXR shadowing and blood eosinophilia. thought to be due to parasites such as Ascaris lumbricoides (the most common parasite) causing an alveolar reaction. Features • Fever, cough and night sweats which often last for less than 2 weeks. Diagnosis based on • Characteristic and often transient respiratory symptoms • Chest x-ray findings → fleeting migratory pulmonary opacities • Peripheral blood eosinophilia. • Exclusion of other types of eosinophilic lung disease (e.g. acute eosinophilic pneumonia → severe hypoxemia, and typically a lack of increased blood eosinophils at the onset of disease). Treatment • Symptomatic and may consist of corticosteroids. • Generally, a self-limiting disease, usually resolves within 1 month. Cryptogenic organising pneumonia (COP) Definition • A rare type of inflammatory interstitial lung disease, characterised by a buds of granulation tissue in the alveoli and bronchioles on histopathology • other names: Bronchiolitis obliterans organising pneumonia (BOOP) Causes • Idiopathic: most common 'cryptogenic means unknown cause'. • Secondary organising pneumonia: connective tissue disease, malignancy, infection, drugs and toxins Epidemiology • Typically, age of onset is 50 to 60 years • Men and women affected equally. Feature • Mimic community-acquired pneumonia (eg, cough, dyspnea with exertion, weight loss). Investigations • Chest X-ray: bilateral patchy infiltrates • Chest CT: multiple ground-glass or consolidative opacities that tend to be at the lung periphery Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Reversed halo sign, better known as an atoll sign (a region of ground-glass opacity surrounded by crescentic or annular denser tissue) . • Pulmonary function tests (PFTs) →restrictive pattern Diagnosis • Exclusion of any possible cause (e.g. COVID-19 → do PCR ) • For definitive diagnosis → lung biopsy → excessive proliferation or "plugs" of granulation tissue within alveolar ducts and alveoli (Masson bodies). Granulation tissue extends uniformly into the alveolar ducts and does not distort pulmonary architecture, unlike usual interstitial pneumonia. If clinical presentation, radiographic appearance and bronchoscopy with bronchoalveolar lavage is consistent with COP, surgical lung biopsy is not required for diagnosis. Treatment • 1st line: Prednisolone (usually effective) • 2nd line: cyclophosphamide or azathioprine Prognosis • Relapse is common Cryptogenic organizing pneumonia (COP) • High-resolution CT of the chest → bilateral ground-glass opacities • Exclude other possible causes • Persistent pulmonary opacities despite antibiotic treatment. • Lung biopsy → granulation tissue plugs in small airways Cryptogenic Organizing Pneumonia/https/ncbi.nlm.nih.gov/ Pulmonary hypertension (PH) Definition • Sustained elevation in mean pulmonary arterial pressure of greater than 25 mmHg at rest or 30 mmHg after exercise, pulmonary artery wedge pressure ≤15 mmHg and pulmonary vascular resistance > 3 Wood units. Epidemiology • more commonly affects female Pathophysiology : Increased pulmonary vascular resistance • Occlusive vasculopathy (e.g., PE, connective tissue diseases) • Hypoxic pulmonary vasoconstriction: chronic hypoxic pulmonary vasoconstriction → airway smooth muscle hypertrophy and pulmonary vascular bed destruction → ↑ pulmonary vascular resistance • Inflammation (e.g., COPD) → ↑ inflammatory cell infiltration of intima → thickened endothelial wall → intimal fibrosis • ↑ Increased pulmonary vessel pressure: due to left heart dysfunction • ↑ endothelin and ↓ vasodilators (e.g., NO, prostacyclin) → vasoconstriction Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Causes according to WHO Classification • Group 1: Pulmonary arterial hypertension (PAH), Idiopathic, familial collagen vascular disease, HIV, sickle cell disease drugs and toxins → e.g. amphetamines, cocaine (but not heroin). • Group 2: Pulmonary hypertension with left heart disease • Group 3: Pulmonary hypertension secondary to lung disease/hypoxia COPD, interstitial lung disease, sleep apnoea, high altitude • Group 4: Pulmonary hypertension due to thromboembolic disease • Group 5: Miscellaneous conditions: lymphangiomatosis e.g. secondary to carcinomatosis or sarcoidosis Features • Exertional dyspnoea is the most frequent symptom • Symptoms of right ventricular (RV) failure (eg, exertional chest pain or syncope, loud P2, elevated jugular venous pressure, right-sided murmurs, edema, right upper quadrant pain, ascites, and pleural effusion) Investigations • Transthoracic echocardiography is the initial test of choice If left heart disease (LHD) explain the PH →RHC is not indicated. If no LHD explain the PH → investigate for pulmonary causes  Chest CT  Pulmonary function testing (PFTs)  ventilation-perfusion (V/Q) scanning → chronic thromboembolic disease  Obstructive sleep apnoea  Autoimmune serologies  HIV serology If pulmonary dysfunction explain the PH → RHC is not indicated. If pulmonary investigations did not explain the PH → Do RHC • Right heart catheterization (LHC) is the best investigation for diagnosing pulmonary hypertension mostly for patients with no cardiac or respiratory causes explaining the PH → to evaluate for PAH. The diagnosis of primary pulmonary hypertension (PAH) requires RHC that demonstrates mean pulmonary artery pressure (mPAP) >20 mmHg at rest, pulmonary vascular resistance (PVR) ≥3 Wood units, and a mean pulmonary capillary wedge pressure (PCWP) <15 mmHg. a mPAP ≥20 mmHg, PCWP ≥15 mmHg, and a normal or reduced cardiac output is consistent with left heart disease- pulmonary hypertension (LHD-PH). • Pulmonary angiography is the definitive diagnostic test. Management • First step: Treat any underlying conditions, for example with anticoagulants or oxygen. • Second step: perform acute vasodilator testing to decide which patients show a significant fall in pulmonary arterial pressure following the administration of vasodilators such as intravenous epoprostenol or inhaled nitric oxide If there is a positive response to acute vasodilator testing → oral calcium channel blockers (nifedipine or extended-release diltiazem) If there is a negative response to acute vasodilator testing:  endothelin receptor antagonists: bosentan Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  phosphodiesterase inhibitors: sildenafil  prostacyclin analogues: treprostinil, iloprost Complication • Cor pulmonale (right ventricular failure). Prognosis • Pregnant with pulmonary hypertension have a high mortality of 30% - 50% - highest immediately after delivery. Sarcoidosis Definition • Sarcoidosis is a multisystem disorder of unknown aetiology characterised by non-caseating granulomas. Epidemiology • More common in black people (African descent) and subjects of Caribbean origin in Europe, sarcoid is commonest amongst Caucasians and has a significantly higher incidence in the Irish. • More common among females than males ♀ > ♂ (2:1) • Typically affects young adults. • More common in non-smokers Pathology • Noncaseating granulomas in the organ involved. the characteristic pathological feature of sarcoidosis. may occur anywhere The central area of the granuloma will occasionally contain a Schaumann body, formed of crystallised material (calcium phosphate). These granulomas have the capacity to produce 1,25 vitamin D explaining the associated hypercalcaemia. Features • Often asymptomatic in the early stages (≈ 50%) → incidental chest x ray finding. • Enlargement of lymph nodes The most common physical exam finding • Pulmonary (most common) Dry cough Dyspnoea (Pulmonary fibrosis) • Extrapulmonary Sarcoidosis CXR • 1 = BHL • 2 = BHL + infiltrates • 3 = infiltrates • 4 = fibrosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Skin lesions: seen in 25 %, often an early finding.  Erythema nodosum: tender erythematous nodules on the lower extremities and is a predictor of a good prognosis.  lupus pernio: indurated plaques with discoloration of the nose, cheeks, lips, and ears. It is a predictor of a poor prognosis. Arthralgia: typically targets the ankle joint. Uveitis (25% of cases): red, painful eyes and blurred vision Neurologic: (5% of cases) → Cranial nerves ( e.g. facial nerve or Bell palsy). Parotid swelling: (5% of cases) Löfgren syndrome (LS): a combination of erythema nodosum (EN), hilar adenopathy, migratory polyarthralgia, and fever → has 95 % specificity for sarcoidosis. Hypercalcaemia: (10% of cases) → nephrocalcinosis and nephrolithiasis. Systemic symptoms  Fever  weight loss Investigations Sarcoidosis is a diagnosis of exclusion of granulomatous lung diseases, including tuberculosis and histoplasmosis. Occupational history should be taken to exclude both berylliosis and silicosis which can present in a similar manner to sarcoidosis. • Chest x ray Best initial test abnormal in 85% of lung sarcoid may show:  bilateral hilar lymphadenopathy.  Lung fibrosis typically affects the upper zones • CT scan: If they have typical findings on a radiograph with a typical clinical presentation (eg, in the context of Lofgren’s disease) then a CT scan may not be necessary It is the best next step after chest x ray in atypical presentation. demonstrate the degree of fibrosis, micronodules in a subpleural or bronchoalveolar distribution, fissure nodularity and bronchial distortion. Irregular linear opacities and ground-glass shadowing may also be seen. If the CT scan is diagnostic, then mediastinoscopy, bronchoscopy or biopsies can often be avoided. • Tissue biopsy →Non-caseating granulomas The gold standard test If the history and radiology is typical, the biopsy is not necessary. With less characteristic presentations, positive biopsies are needed. If you are asked to specify the investigation most likely to confirm the diagnosis, only transbronchial biopsy will determine whether non-caseating granulomas are present or not →Transbronchial lung biopsy is therefore the diagnostic investigation of choice. Skin biopsy for skin lesions • Routine blood tests CBC: Leukopenia in 5-10% of patients ESR → Elevated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Creatinine → elevated in renal involvement Electrolytes → Hypercalcaemia (Seen only in 10% if patients)  produced by macrophages within the granulomas ↑1-alpha-hydroxylase → activates vitamin D → ↑Ca Hypergammaglobulinaemia (↑ Immunoglobulins) in 30-80%. • Exclusion of granulomatous lung diseases TB should be excluded by sending sputum or BAL washings for AFB  A positive tuberculin test in a patient with chronic sarcoidosis is suggestive of active tuberculosis Occupational history to exclude both berylliosis and silicosis • Lung parenchyma involvement → Spirometry usually shows a restrictive defect (Decreased gas-transfer factor (Tlco) with decreased gas-transfer coefficient (Kco) • Cardiac involvement ECG: cardiac sarcoidosis (e.g. heart block →prolonged PR interval) Abnormalities in ECG or echocardiogram which suggest cardiac sarcoidosis should be confirmed with cardiac magnetic resonance imaging (CMR) or positron emission tomography (PET). • CNS involvement → CSF: Intrathecal oligoclonal band production, elevated protein and lymphocytosis • Broncho-alveolar lavage typically shows a lymphocytosis increased CD4+/CD8+ ratio • ACE levels have a sensitivity of 60% and specificity of 70% and are therefore not reliable in the diagnosis of sarcoidosis although they may have a role in monitoring disease activity. • Kveim test (where part of the spleen from a patient with known sarcoidosis is injected under the skin) is no longer performed due to concerns about cross-infection Chapter 2 Pulmonology Staging of chronic sarcoidosis Stage Finding Likelihood of spontaneous resolution Normal chest radiograph 90% I Bilateral hilar lymphadenopathy (BHL) II BHL plus pulmonary infiltrates 40-60% III Pulmonary infiltrates (no BHL) 10-20% IV Pulmonary fibrosis (+/- bullae) <20% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chest x-ray and CT scan showing stage 2 sarcoidosis with both bilateral hilar lymphadenopathy + interstitial infiltrates. The reticulonodular opacities are particularly noted in the upper zones. Remember that pulmonary fibrosis (which this case has not yet progressed to) may be divided into conditions which predominately affect the upper zones and those which predominately affect the lower zones - sarcoidosis is one of the former. The CT of the chest demonstrates diffuse areas of nodularity predominantly in a peribronchial distribution with patchy areas of consolidation particularly in the upper lobes. There is some surrounding ground glass opacities. No gross reticular changes to suggest fibrosis. 60-90% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Differential diagnosis of bilateral hilar lymphadenopathy • Sarcoidosis • Tuberculosis • Malignancy including lymphoma • Cystic fibrosis • Churg Strauss disease • HIV • Extrinsic allergic alveolitis • Phenytoin • Pneumoconiosis, especially berylliosis. Exposure to beryllium is seen in the nuclear power, telecommunications, semi-conductor and electronics industries. Management The majority of patients with sarcoidosis get better without treatment • Mild disease (Patients with asymptomatic and stable stage 2 or 3 disease who have only mildly abnormal lung function) →NO treatment Sarcoidosis remits without treatment in approximately two-thirds of people • Moderate to severe disease First-line → Prednisolone. Indications for steroids:  patients with chest x-ray stage 2 or 3 disease who have moderate to severe or progressive symptoms.  Systemic involvement: hypercalcaemia, eye, heart or neuro involvement Second-line: Methotrexate is the first choice of second-line agent. Third-line: Infliximab given in combination with methotrexate or azathioprine Lung transplantation should be considered in all patients with advanced pulmonary fibrosis and associated pulmonary hypertension. Prognosis Erythema nodosum is associated with a good prognosis in sarcoidosis. • Factors associated with a good prognosis HLA B8 Lofgren's syndrome (bilateral hilar lymphadenopathy, erythema nodosum, polyarthritis and fever). • Factors associated with poor prognosis insidious onset, symptoms > 6 months (chronic pulmonary involvement) absence of erythema nodosum extrapulmonary manifestations: e.g.  lupus pernio: a chronic raised indurated (hardened) lesion of the skin, often purplish in colour, and is associated with sarcoid.  Splenomegaly  Cardiac involvement: Cardiac sarcoidosis is rare but can manifest as a prolonged PR interval.  Chronic hypercalcaemia  Nasal mucosal involvement  Neurosarcoidosis CXR: stage III-IV features black people (Afro-Caribbean or Afro-American race) Age of onset >40 years Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Lofgren's syndrome Lofgren's syndrome: a variant of sarcoidosis with acute clinical presentation with tetrad of: Migratory polyarthritis (acute arthritis), most commonly involves ankles (>90 %). Erythema nodosum. Bilateral hilar lymphadenopathy. Fever. Overview • Seen in less than 5 -10 % of sarcoidosis • Typically, more common in Scandinavian patients and less common in Afro-Caribbean patients • Typically occurs in young females • Carries an excellent prognosis • Usually self-limiting Other sarcoidosis variants Heerfordt syndrome : a variant of sarcoidosis with chronic clinical presentation with tetrad of: Parotitis Uveitis Facial palsy Fever Yellow nail syndrome Definition • Yellow nail syndrome is an uncommon disorder characterized by the triad of pulmonary disease, lymphedema, and yellow nails Features • Nails are yellow, thickened, curved, with loss of the lunula and cuticle. and may become detached from the nail bed. • Congenital lymphoedema • Pulmonary disease (bronchiectasis, pleural effusions) • Chronic sinusitis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hepatopulmonary syndrome (HPS) Definition • oxygenation defect induced by pulmonary vascular dilatation in patients with liver cirrhosis or portal hypertension. Mechanism • The vascular dilatation is thought to be induced by increased pulmonary levels of nitric oxide. Prevalence • It is seen in 15-30% of patients with cirrhosis. Features • Dyspnoea • Platypnoea (dyspnoea whilst standing) and Orthodeoxia (hypoxaemia exacerbated by being upright) are characteristic Due to the predominance of vascular dilatation in the lung bases. Blood flow to these areas is increased in the upright position. Hepatic disease →intrapulmonary vasodilatation mainly in the lower Lobes →rightto-left shunting (similar to pulmonary arteriovenous malformations) →increased blood flow through the lower lobes when the patient moves from the supine to the erect position →blood from the lower lobes, which is more poorly oxygenated, entering the left side of the heart → oxygen desaturation in the erect position. Investigations • The diagnosis of HPS can only be made in a patient who has liver disease, impaired oxygenation, and intrapulmonary shunt when other etiologies have been excluded. • Contrast-enhanced transthoracic echocardiography is the best test to demonstrate intrapulmonary vascular dilatation. It can also exclude intracardiac shunting which may result in similar signs and symptoms to hepatopulmonary syndrome. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Method  performed by injecting agitated saline intravenously during transthoracic echocardiography. Interpretation  In a normal subject microbubbles are visualised in the right ventricle within seconds, which are then absorbed in the alveoli.  Immediate visualization in the left ventricle (within three cardiac cycles) indicates intracardiac shunting.  Delayed visualisation in the left ventricle (3-6 cardiac cycles) is diagnostic of intrapulmonary shunting. • Impaired oxygenation is confirmed when an arterial blood gas analysis demonstrates an alveolar-arterial (A-a) oxygen gradient ≥15 mmHg or an arterial oxygen tension (PaO2) <80 mmHg (10.7 kPa) • Chest imaging and pulmonary function testing are often normal Treatment • Liver transplantation is the only proven beneficial available treatment, with 85% of patients showing resolution or significant improvement in gas exchange postoperatively. Prognosis • It is a poor prognostic indicator. Pulmonary alveolar microlithiasis (PAM) Definition • Pulmonary alveolar microlithiasis (PAM) is a rare, autosomal recessive disorder, characterized by widespread deposition of calcium phosphate microliths throughout the lungs. Epidemiology • PAM has the highest prevalence in Turkey, Japan, and Italy Pathophysiology • It occurs in the absence of disorders of calcium metabolism. • SLC34A2 gene mutations →↓ activity of the type IIb sodium-phosphate cotransporter (which located mainly in alveolar type II cells) →accumulation of phosphate in the alveoli →formation of microliths • SLC34A2 gene is responsible for the uptake of phosphate released from phospholipids in outdated surfactant. Feature • Most patients are asymptomatic despite striking radiological abnormalities. often found incidentally during imaging studies for another reason. • Symptoms included dyspnea, nonproductive cough, chest pain Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnosis • Chest x-ray: 'sandstorm-appearing' is a typical diagnostic finding (diffuse scattered micronodules, often obscuring the contours of the heart and diaphragm) • HRCT: micronodular calcifications, diffuse ground glass opacities • Bronchoalveolar lavage (BAL) and transbronchial biopsy can be useful if the diagnosis is uncertain. BAL and biopsy show the characteristic calciospherocitis (microliths) in the alveoli (deposition of calcium and phosphate crystals). Treatment • There is no established therapy for PAM. • lung transplantation is the only effective therapy. Pulmonary Alveolar Proteinosis (PAP) Definition: A rare diffuse lung disease characterized by the progressive accumulation of surfactant protein in the alveoli, that characteristically stain for periodic acid-Schiff (PAS) Epidemiology: Common in males (M: F = 4:1) , the typical age at presentation is 40 to 50 years. Pathophysiology: ↓ alveolar macrophages → ↓ ability to remove surfactant → ↑surfactant accumulation in the alveoli. Causes • Autoimmune: due to granulocyte macrophage-colony stimulating factor (GM-CSF) antibodies, the most common • congenital • Secondary: chronic infections, immunosuppressants, organic dusts, malignancies. Feature • progressive dyspnea, cough, sputum production, fatigue, and weight loss Diagnosis • Chest x-ray: bilateral symmetric alveolar opacities located centrally in mid and lower lung zones, sometimes resulting in a "bat wing" distribution. • High resolution computed tomography (HRCT): ground-glass opacification that typically spares the periphery and may have a "crazy-paving" appearance due to thickening of the interlobular and intralobular septa. • Spirometry → shows a restrictive pattern (↓lung capacity, ↓CO diffusion) • Autoantibodies : ↑ autoantibody against GM-CSF in serum and BAL fluid • Flexible bronchoscopy with broncho-alveolar lavage (BAL) The standard diagnostic test PAS-positive stains Treatment • Whole lung lavage: excess surfactant is removed from the lungs via saline solution; may require repeated application • Treatment of the underlying condition Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Carbon monoxide poisoning Confusion, pyrexia and pink mucosae are typical features of carbon monoxide poisoning Epidemiology • Carbon monoxide is the commonest cause of poisoning-associated death in UK Causes • House fires • Wood-burning stoves • Furnaces in enclosed and poorly ventilated spaces. Often involves multiple individuals (e.g., family) during the winter • Fumes from cleaning fluids and paint removers that contain methylene chloride (dichloromethane) can also cause carbon monoxide poisoning. When breathed in, methylene chloride is converted into CO gas. Pathophysiology • The affinity of hemoglobin for CO is ∼240 times stronger than for O2 → formation of COHb (carboxyhemoglobin)→ ↓ oxygen-carrying capacity of hemoglobin → tissue hypoxia • COHb →Shift the O2 dissociation curve to the left → ↑ affinity for O2 → ↓ release of O2 in tissue Questions may hint at badly maintained housing e.g. student houses Features of carbon monoxide toxicity • Nonspecific symptoms Headache: the most common symptom ≈ 90% of cases Dizziness Fatigue Nausea/vomiting • Neurotoxicity Altered mental status (e.g., agitation, confusion, somnolence, memory loss) Seizures Loss of consciousness/coma Cerebellar signs are the most reliable indicator of significant neurological toxicity • Cardiorespiratory toxicity Inhalation of hot smoke →upper airways burn →mucosal swelling → Bronchoscopy is the best tool to establish whether there is significant oedema or mucosal ulceration obstructing the airways. hypertension, tachycardia Shock • COHb levels have prognostic implications, which are summarised here: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad < 30% cause only headache and dizziness 40–60% produces syncope, tachypnoea, tachycardia and fits 60% cause an increasing risk of cardiorespiratory failure and death. Suspect carbon monoxide poisoning when multiple people from the same confined household complain of the headache and fatigue. Diagnosis • Arterial blood-gas analysis Typical carboxyhaemoglobin (COHb) levels:  < 3% non-smokers  < 10% smokers  10 - 30% symptomatic: headache, vomiting  ˃30% severe toxicity PaO2: usually appears normal • Direct spectrophotometric measurement of Carboxyhaemoglobin (COHb) in a bloodgas analyser is the gold standard. A bedside HbCO oximeter is now available • ECG and cardiac monitor for all patients for 4 – 6 hours → signs of myocardial ischemia; arrhythmias Pulse oximeters cannot distinguish between COHb and HbO2. Pulse oximetry appears normal because carboxyhaemoglobin has similar absorption spectra to oxyhaemoglobin. Management • First-line: 100% oxygen → Give high-flow oxygen (12 l/min) via a tight-fitting mask without a re-breathing circuit • Second-line: hyperbaric oxygen shorten the washout of COHb, but access and transfer times to a hyperbaric chamber can make this not practical. Indications for hyperbaric oxygen  CO level >25 %  Loss of consciousness  Severe metabolic acidosis (pH <7.1)  Evidence of end-organ ischemia (eg, ECG changes, chest pain, altered mental status)  pregnancy • In severe cases intubation and mechanical ventilation may be required 017 - Chapter 2 017 Chapter 2 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 2 Pulmonology Smoking cessation Action of smoking • Nicotine is a stimulant and releases dopamine in the brain that leads to addictive effects of smoking. • Its effects can be replaced in other ways using nicotine replacement therapy and this reduces the addiction to cigarette smoking. General points of treatment • Advise all people who smoke to stop • Offer referral to a local smoking cessation service for behavioural support and drugs ( a combination of drug treatment and behavioural support may be the best option) • Advise to stop abruptly. • Patients should be offered nicotine replacement therapy (NRT), varenicline or bupropion. • NRT, varenicline or bupropion should normally be prescribed as part of a commitment to stop smoking on or before a particular date (target stop date) • If unsuccessful using NRT, varenicline or bupropion, do not offer a repeat prescription within 6 months unless special circumstances have intervened • Do not offer NRT, varenicline or bupropion in any combination • Starting date of the treatment Start NRT on the quit date. Start varenicline or bupropion 7-14 days before the quit date. • Duration of treatment Prescribe NRT for 2 weeks after stop date Prescribe varenicline or bupropion FOR 3- 4 weeks after stop date. • Varenicline or combination NRT (a patch plus a short-acting preparation) have been shown to be the most effective treatments. • Varenicline or bupropion should not be prescribed to pregnant or breastfeeding women or young people aged under 18. • No one form of NRT is more effective than another. • Reviewed 2 weeks after stopping smoking, and the CO level measured at 4 weeks. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Nicotine replacement therapy (NRT) • Available in a choice of formats, including Gum, Inhalator, Sublingual tablet, Nasal and Oral spray, and Transdermal patch • Nice recommend offering a combination of nicotine patches and another form of NRT (such as gum, inhalator, lozenge or nasal spray) to people who show a high level of dependence on nicotine or who have found single forms of NRT inadequate in the past. • Duration The duration of treatment with NRT is 8–12 weeks (depending on which form of NRT is used and which dose is initiated), followed by a gradual reduction in dose. For children over the age of 12 years, treatment should be limited to 12 weeks. Treatment with NRT can be stopped abruptly or tapered gradually • No absolute contraindications • Adverse effects: Headache, dizziness, Nausea, vomiting, Rash, urticaria. Varenicline • Mode of action: a partial nicotinic receptor agonist → reduces the rewarding and reinforcing effects of smoking by preventing nicotine binding to the receptors. • Duration Advise the person to stop smoking 7–14 days after starting varenicline. The recommended course of treatment is 12 weeks. Varenicline may be stopped without tapering the dose. However, immediately after stopping treatment with varenicline, up to 3% of people experience an increase in irritability, urge to smoke, depression, or insomnia. Consider tapering the dose in these people. • Contraindications Aged under 18 years. Pregnancy. End-stage renal disease. • Common adverse effects Nervous system: headache; somnolence, dizziness, dysgeusia. Psychiatric: abnormal dreams, insomnia GIT upset and dry mouth Bupropion • Mode of action: selective dopamine and noradrenaline re-uptake inhibitor • Duration Advise the person to stop smoking 7–14 days after starting bupropion. If no effect is seen after 7 weeks, discontinue treatment with bupropion. • Contraindications Age under 18 years Pregnancy History of seizures. CNS tumour. History of bulimia or anorexia nervosa. History of bipolar disorder. Severe hepatic cirrhosis. • Common adverse effects Psychiatric : insomnia, depression, agitation, anxiety Nervous system: tremor, concentration disturbance, headache, dizziness, taste disorders. GIT upset and dry mouth Chapter 2 Pulmonology Medications used for Smoking cessation NRT Varenicline Bupropion Action Nicotine replacement therapy Effectiveness Effective with combination of two forms of NRT Date of starting on the quit date 7–14 days before quit date. Duration 8–12 weeks 12 weeks 7 weeks Absolute contraindications NO absolute contraindications  Age ˂ 18 years  Pregnancy  History of seizures  CNS tumour  bulimia or anorexia nervosa  bipolar disorder  Severe hepatic cirrhosis Prescribe with Cation  Conditions lower the seizure threshold (e.g. Alcohol abuse, head trauma, diabetes, antipsychotics).  Hepatic & renal impairment. Common adverse effects  Chronic diseases (DM, HTN , RF, MI , CVA)  Epilepsy. Headache, dizziness, Nausea Pregnant women • Assessment NICE recommended in 2010 that all pregnant women should be tested for smoking using carbon monoxide detectors, partly because 'some women find it difficult to say that they smoke because the pressure not to smoke during pregnancy is so intense.' All women who smoke, or have stopped smoking within the last 2 weeks, or those with a CO reading of 7 ppm or above should be referred to NHS Stop Smoking Services. • Adverse effects of smoking in pregnancy Reduces birth weight increases risk of miscarriage and still birth. The infant has a greater risk of sudden infant death syndrome. affect ovarian function in female children. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad partial nicotinic receptor agonist Norepinephrine and dopamine reuptake inhibitor Effective Less effective than NRT and Varenicline 7–14 days before quit date  Aged ˂ 18 years  Pregnancy  End-stage renal disease  Cardiovascular, renal & psychiatric illness.  Epilepsy Headache, abnormal dreams, insomnia & GI upset Headache, insomnia, depression, tremor. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad increases lung maturity, possibly by enhancing the production or secretion of cortisol. This makes neonates less likely to develop respiratory distress syndrome, but as lung maturation is often abnormal babies may have reduced lung function and increased rates of other respiratory illnesses. • Interventions in pregnant smoker first-line: cognitive behaviour therapy and support from stop Smoking Services second line: NRT  NRT should only be used if smoking cessation without NRT fails.  Pregnant women should remove the patches before going to bed varenicline and bupropion are contraindicated Third edition Notes & Notes For MRCP part 1 & 11 By Dr. Yousif Abdallah Hamad Gastroenterology Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Oesophageal diseases Achalasia Definition • Failure of oesophageal peristalsis and of relaxation of lower oesophageal sphincter (LOS) due to degenerative loss of ganglia from Auerbach's plexus i.e. LOS contracted, oesophagus above dilated. Pathophysiology • Atrophy of inhibitory neurons in the Auerbach plexus → lack of inhibitory neurotransmitters (e.g., NO, VIP) → inability to relax and increased resting pressure of the LES, as well as dysfunctional peristalsis → esophageal dilation proximal to LES Epidemiology • prevalence of around 10 /100,000 persons. • typically presents in middle-age • equally common in men and women. Causes • Primary achalasia (most common): cause is unknown • Secondary achalasia (pseudoachalasia):  mechanical obstruction (e.g., a malignancy)  Chagas disease Features • Symptoms usually develop years before the patient presents • Dysphagia of BOTH liquids and solids. • Regurgitation of food → heartburn, cough, aspiration pneumonia etc • Oesophageal spasm → vague chest discomfort (common) • Weight loss Complications • Increased risk of esophageal cancer. Investigations • Barium swallow  initial investigation  will show: dilated oesophagus, fluid level, 'bird's beak' appearance • Manometry:  The confirmatory test of choice  Will show:  excessive LOS tone which doesn't relax on swallowing  Lack of peristalsis in the lower two-thirds of the esophagus • Upper endoscopy  to rule out pseudoachalsia  Usually normal, May show retained food in esophagus or increased resistance of LES during passage with endoscope • CXR: Will show:  wide mediastinum, (˃6 cm on an upright PA chest X-ray or ˃ 8 cm on supine AP chest film).  fluid level Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Heller cardiomyotomy (Laparoscopic myotomy)  The best initial treatment for most patients with achalasia. • Balloon dilation (Pneumatic dilatation)  the preferred option for older unfit patients or patients who choose a nonsurgical treatment.  Current guidelines recommend obtaining gastrograffin study followed by barium esophagram in all patients after pneumatic dilation to exclude esophageal perforation  long-term efficacy is less than that of surgical myotomy. 25% of patients treated with pneumatic dilation required re-dilation. • Intra-sphincteric injection of botulinum toxin  Reserved for the elderly and who cannot tolerate dilatation or surgery.  Reduces the LOS pressure and provides symptomatic relief. However, the effects are temporary, and patients need to undergo repeat injections every six to twelve months. • Drug therapy has a role but is limited by side-effects  Short-term improvement in clinical symptoms may occur with isosorbide mononitrate, a long-acting nitrate or with nifedipine, a calcium-channel blocker. • Contraindications  Promotility agents like metoclopramide increase the lower oesophageal sphincter pressure and so are contraindicated in achalasia. Images This film demonstrates the classical 'bird's beak' appearance of the lower oesophagus that is seen in achalasia. An air-fluid level is also seen due to a lack of peristalsis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Mediastinal widening secondary to achalasia. An air-fluid level can sometimes be seen on CXR but it is not visible on this film Barium swallow - grossly dilated filled oesophagus with a tight stricture at the gastroesophageal junction resulting in a 'bird's beak' appearance. Tertiary contractions give rise to a corkscrew appearance of the oesophagus TOP TIPS The most appropriate initial investigation of a high dysphagia is a barium swallow, which identifies the site of pathology and forewarns of pitfalls such as a pharyngeal pouch, which if unidentified can increase the risk of perforation at endoscopy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Dysphagia The table below gives characteristic exam question features for conditions causing dysphagia: Diagnosis Characteristic features Oesophageal cancer • Dysphagia may be associated with weight loss, anorexia or vomiting during eating • Past history may include Barrett's oesophagus, GORD, excessive smoking or alcohol use Oesophagitis • May be history of heartburn • Odynophagia (Painful swallowing) but no weight loss and systemically well Oesophageal candidiasis • There may be a history of HIV or other risk factors such as steroid inhaler use • Treatment  oral or IV therapy (usually with fluconazole or itraconazole for at least 14-21 days). Achalasia • Dysphagia of both liquids and solids from the start • Heartburn • Regurgitation of food - may lead to cough, aspiration pneumonia etc Pharyngeal pouch • More common in older men • Represents a posteromedial herniation between thyropharyngeus and cricopharyngeus muscles • Usually not seen but if large then a midline lump in the neck that gurgles on palpation • Typical symptoms are dysphagia, regurgitation, aspiration and chronic cough. Halitosis may occasionally be seen Systemic sclerosis • Other features of CREST syndrome may be present, namely Calcinosis, Raynaud's phenomenon, oesophageal dysmotility, Sclerodactyly, Telangiectasia • As well as oesophageal dysmotility the lower oesophageal sphincter (LES) pressure is decreased. This contrasts to achalasia where the LES pressure is increased Myasthenia gravis • Other symptoms may include extraocular muscle weakness or ptosis • Dysphagia with liquids as well as solids Globus hystericus • May be history of anxiety • Symptoms are often intermittent and relieved by swallowing • Usually painless - the presence of pain should warrant further investigation for organic causes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Causes of dysphagia - by classification Classification Examples Extrinsic • Mediastinal masses • Cervical spondylosis Oesophageal wall • Achalasia • Diffuse oesophageal spasm • Hypertensive lower oesophageal sphincter Intrinsic • Tumours • Strictures • Oesophageal web • Schatzki rings Neurological • CVA • Parkinson s disease • Multiple Sclerosis • Brainstem pathology • Myasthenia Gravis Dysphagia • Dysphagia to both solids and liquids → Achalasia (motility disorder) • Dysphagia to solids only → Oesophageal obstruction (structural disorder, e.g. malignancy) Investigations • Barium contrast oesophagram is the initial test (prior to upper endoscopy) Oesophageal disorders The table below lists a small group of oesophageal disorders that are not covered elsewhere in the notes. Disorder Notes PlummerVinson syndrome Triad of: • dysphagia (secondary to oesophageal webs) • glossitis • iron-deficiency anaemia Treatment includes iron supplementation and dilation of the webs Mallory-Weiss syndrome Severe vomiting → painful mucousal lacerations at the gastroesophageal junction resulting in haematemesis. Common in alcoholics Boerhaave syndrome Severe vomiting → oesophageal rupture Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Oesophageal web Diffuse oesophageal spasm • Features  Dysphagia  Chest pain • Diagnosis  barium swallow demonstrates a 'corkscrew appearance'  Manometry reveals:  prolonged, repetitive and high amplitude contractions.  The lower oesophageal sphincter pressure is increased and there is incomplete relaxation of the sphincter. Differential diagnosis manometry findings: • Absence of peristalsis in the body of the oesophagus + high lower oesophageal sphincter → Achalasia • Normal contractions in the body of the oesophagus + high lower oesophageal sphincter pressure → Hypertensive lower oesophageal sphincter • High amplitude contractions in the body of the oesophagus + high lower oesophageal sphincter pressure → Diffuse oesophageal spasm Gastro-oesophageal reflux disease (GORD) Definition: regurgitation of stomach contents into the esophagus Pathophysiology • Decreased tone of the lower esophageal sphincter. • The most important physiological mechanism that prevents reflux → Parasympathetic stimulation of the lower circular smooth-muscle fibres of the oesophagus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Cause • Transient lower esophageal sphincter relaxation is the most common cause • Pregnancy → decreased motility secondary to progesterone • gastric acidity • gastric outlet obstruction • decreased esophageal motility • hiatal hernia: ≥ 90% of patients with severe GORD • Obesity →Transient relaxations of the lower esophageal sphincter (TRLES). The main stimulus for TRLES is gastric distension, particularly in the fundus. • Lifestyle habits such as smoking, caffeine and alcohol consumption • Scleroderma • Angle of His enlargement (> 60°) Features • Heartburn and regurgitation when lying down. • GORD is the most common non-cardiac cause of chest pain. • Extraesophageal symptoms (eg, chronic cough, hoarseness, wheezing)  The three most common causes of a persistent cough are postnasal drip, asthma, and GORD. • Acid reflux in chronic GORD can lead to damage of the enamel layer of teeth. • May present with over-the-counter antacids side effects which may include magnesium hydroxide.  Magnesium hydroxide can act as an osmotic laxative, resulting in the adverse effect of diarrhea. Investigations • Endoscopy: Indications for upper GI endoscopy:  No symptomatic improvement after PPI trial  Alarm features  New onset dyspepsia in patient ≥60 years  Dysphagia  Odynophagia  Early satiety  Persisting vomiting  Unintentional weight loss  Aspiration pneumonia  Evidence of gastrointestinal bleeding (hematemesis, melena, hematochezia, occult blood in stool)  Iron deficiency anemia  Anorexia  Gastrointestinal cancer in a first-degree relative  The most common endoscopic finding is reflux esophagitis.  Symptoms do not correlate with mucosal status at endoscopy appearance • 24-hr oesophageal pH monitoring: If endoscopy is negative (the gold standard test for diagnosis)  To confirm the diagnosis of GORD in patients with persistent symptoms of GORD despite a trial of PPI therapy.  Evaluation before surgical or endoscopic antireflux procedure • Oesophageal manometry  In patients with suspected GORD and a normal upper endoscopy to exclude an esophageal motility disorder.  To evaluate esophageal peristaltic function prior to antireflux surgery. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Lifestyle changes  Small portions;  avoid eating (< 3 hours) before bedtime.  Avoid foods with high fat content  Avoid: nicotine, alcohol, coffee, and certain drugs (e.g., calcium channel blockers, diazepam) • Pharmacological: if lifestyle changes are ineffective  Proton pump inhibition (PPI):  full-dose PPI (e.g. 20 mg omeprazole OD) for 4 or 8 weeks.  In those failing to respond to two months of full dose therapy doubling the dose of proton pump inhibitor for one month increases response rate.  If no response, increase the dose to (twice daily therapy)  If symptoms recur after initial treatment, offer a PPI at the lowest dose possible to control symptoms.  H2 receptor antagonist  The 2nd line if there is an inadequate response to a PPI  In those failing to respond to a double dose of proton pump inhibition an H2 receptor antagonist may be added or substituted in treatment or a prokinetic agent added to treatment. • Laparoscopic Nissen fundoplication  the treatment of choice for patients with GORD refractory to or intolerant of proton pump inhibitor therapy.  The patient should have had an endoscopy within the six months prior to surgery to exclude any unsuspected pathology such as Barrett's oesophagus or adenocarcinoma.  the most useful in assessing the role of surgery → Oesophageal motility and pH study • Severe oesophagitis  1st line: full-dose PPI (e.g. omeprazole 20 mg OD) for 8 weeks  2nd line: high dose PPI (double standard dose e.g. 40 mg omeprazole OD) of the initial PPI, switching to another full-dose PPI or switching to another high-dose PPI  Maintenance treatment → long-term full-dose PPI.  If fail to respond to maintenance treatment, → switch to another PPI at full dose or high dose. • Management of GORD in pregnancy includes  1st line: lifestyle and dietary modification  2nd line: antacids and sucralfate. Antacids containing sodium bicarbonate and magnesium trisilicate should be avoided in pregnancy.  3rd line: similar to nonpregnant patients, H2RAs and then PPIs. Complications • Barrett esophagus: Metaplasia of the lower esophagus • Esophageal strictures occur in 10%  Two types of rings (Schatzki rings):muscular ring, or A ring: located approximately 2 cm above the gastroesophageal junction. Rare  mucosal ring, or B ring: most common. located at the squamo-columnar junction.  mechanical cause of dysphagia  most patients respond well to dilatation therapy.  People who have had dilatation of an oesophageal stricture should remain on longterm full-dose PPI therapy • Adenocarcinoma of the lower esophagus. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology GORD management • 1st line → lifestyle changes  don't lie down after eating  avoid spicy foods  eat small servings • 2nd line → proton pump inhibitors (omeprazole, lansoprazole) for at least 8 weeks (once daily therapy)  No response: → further diagnostic evaluation  Partial response: → increase the dose to (twice daily therapy)  Good response: → discontinue PPI after 8 weeks  If symptoms recur after discontinuation of PPIs → Maintenance therapy  After 8 weeks of initial treatment, reduce PPI to lowest effective dose • 3rd line → H2 receptor antagonists(cimetidine, ranitidine) • 4th line → Surgical Nissen fundoplication or hiatal hernia repair Barrett's oesophagus Overview • Metaplasia of the lower oesophageal mucosa 1 cm or more proximal to the gastroesophageal junction. (the normal squamous epithelium of the oesophagus replaced by a columnar epithelium) (ie, intestinal metaplasia) • The physiological transformation zone ("Z-line") between squamous and columnar epithelium is shifted upwards • Metaplasia is defined as the replacement of one type of cells with another type whereas dysplasia is the disordered growth of the cells. • Barrett esophagus is a premalignant condition of the lower esophagus caused by chronic esophageal reflux • the columnar epithelium may resemble that of either the cardiac region of the stomach or that of the small intestine (e.g. with goblet cells, brush border) Risk factors • Age ˃ 50 years • Male gender • Ethnicity: more common in white populations than Hispanic, Black, or Asian. • Long duration or frequency of Gastro-oesophageal reflux disease (GORD) symptoms • Previous oesophagitis • Hiatus hernia • Central obesity Diagnosis • Endoscopic evaluation, with:  Visualization of columnar epithelium 1 cm or more above the gastroesophageal junction  Biopsy sampling of esophageal epithelium with histologic confirmation of intestinal metaplasia (American guidelines) or histologic confirmation of columnar epithelium (British guidelines). Management (based on presence or absence of dysplasia) • Nondysplastic: proton pump inhibitors + surveillance endoscopy with repeated biopsy every 3 to 5 years Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  NO dysplasia and <3 cm segment of Barrett's → endoscopy every three to five years with biopsies  NO dysplasia and segment Barrett's >3 cm → Endoscopy every two to three years • Low-grade dysplasia (LGD)  Repeat endoscopic biopsy in 6 months. If LGD is found → Radiofrequency ablation  If ablation is not undertaken, 6-monthly surveillance is recommended • Moderate to high grade dysplasia or recurrent disease  1st line: Endoscopic ablation therapy (endoscopic resection of any visible mucosal irregularities, followed by Radiofrequency Ablation (RFA) to ablate the remaining metaplastic epithelium.)  2nd line: Oesophagectomy • High-dose proton pump inhibitor:  The best next line of management  whilst this is commonly used in patients with Barrett's the evidence base that this reduces the change of progression to dysplasia or induces regression of the lesion is limited Histology at biopsy Endoscopy frequency Actions No dysplasia Every 2 - 5 years Low-grade dysplasia Every 6 months Repeat endoscopy with quadrantic biopsies every 1cm. High-grade dysplasia Every 3 months If a visible lesion is present, consider endoscopic ablation with mucosal resection (EMR) or radiofrequency ablation. Prognosis • ↑↑ risk of oesophageal adenocarcinoma (50-100 fold), although the absolute risk is low (< 1%). Barrett's oesophagus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Oesophagitis in immunosuppressive patients Causes • Candidal esophagitis is the most common cause of symptomatic disease. • Ulcerative esophagitis resulting from cytomegalovirus is the next most important etiologies.  Cytomegalovirus (CMV) most commonly causes multiple ulcers at the lower esophageal sphincter • Herpes simplex virus esophagitis appears to be relatively uncommon. Features • The hallmark of oesophagitis is odynophagia or pain on swallowing. Diagnosis • Endoscopy with a biopsy Treatment • Candida spp.  Nonpregnant patients, we suggest initial therapy with fluconazole  Pregnant patients → amphotericin B is the treatment of choice during the first trimester since oral azoles are teratogenic. • Herpes simplex virus (HSV) → oral or iv acyclovir • Cytomegalovirus → ganciclovir or valganciclovir • Oesophagitis in the immunocompromised that presents with punched-out ulcers → Herpes simplex virus-1 • Oesophagitis in the immunocompromised that presents with a white pseudomembrane → Candida spp. • Oesophagitis in the immunocompromised that presents with linear ulcers → Cytomegalovirus Candida oesophagitis Although oropharyngeal candidiasis may be treated with topical antifungal agents (such as nystatin, clotrimazole, and amphotericin B oral suspension/lozenges) Candida oesophagitis requires oral or IV therapy (usually with fluconazole or itraconazole for at least 14-21 days). HIV patient presented with painfull swallowing difficulty, an upper GI endoscopy shows ulcerative oesophagitis, what is the most likely diagnosis? Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Eosinophilic oesophagitis Overview • Chronic immune-mediated eosinophil-predominant inflammation of the esophageal mucosa Should be considered in adults wit:  History of food impaction, with persistent dysphagia, or  Gastroesophageal reflux disease that fails to respond to medical therapy. • Associated with Allergies : (e.g., asthma, rhinitis, atopic dermatitis, alimentary allergies) Features • Episodic oesophageal spasm and intermittent dysphagia Diagnosis • Upper endoscopy with esophageal biopsy → presence of epithelial infiltrate of ≥ 15 eosinophils per high-power microscopy field Treatment • Diet modification. Refer for allergy testing (Eosinophilic esophagitis commonly associated with allergies). Once an antigen is identified, avoidance can improve symptoms • Proton pump inhibitors. If the patient does not respond to a low-dose proton pump inhibitor, it is appropriate to increase the dose to a maximal dose before trying other treatment strategies. • Topical “swallowed” corticosteroids for 8 weeks Patients who present with food impaction, dysphagia, and history of atopy should undergo an upper endoscopy evaluation with esophageal biopsy to diagnose eosinophilic esophagitis. Oesophageal cancer Epidemiology • Sex: ♂ > ♀ (3:1) • Squamous cell carcinoma (SCC) is the most common type of esophageal cancer worldwide. • Adenocarcinoma: most common type of esophageal cancer in the UK and US Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Types • Adenocarcinoma  The most common form of esophageal cancer in the UK and US.  Affects primarily white men.  begins in the cells of mucus-secreting glands (glandular cells of the submucosa) in the esophagus.  Occurs most often in the lower portion of the esophagus. • Squamous cell carcinoma (SCC)  The most prevalent esophageal cancer worldwide.  Develops in the thin, flat cells of the mucosa , which line the oesophagus.  Occurs most often in the upper two-thirds of the esophagus. Risk factors • Risk factors for SCC  Smoking  Alcohol (Unlike adenocarcinoma).  Diet  Red meat consumption  Low selenium levels. selenium supplementation reduces the risk  Zinc deficiency  Low dietary folate intake  low intake of fruits and vegetables  Hot liquids  Tylosis (rare, autosomal dominant disorder characterized by hyperkeratosis of the palms and soles, with thickening and fissuring of the skin.)  Achalasia cardia  Plummer-Vinson syndrome  Oral bisphosphonates  Poor oral hygiene  Infection with the human papillomavirus (HPV) • Risk factors for adenocarcinoma  Gastroesophageal reflux (GORD) → the most common predisposing factor  Barrett esophagus  Smoking (twofold risk)  Obesity  Male sex  Older age (50–60 years) Oesophageal cancer risk factors • Alcohol is NOT a risk factor for Adenocarcinoma • H. pylori infection associated with DECREASE incidence of oesophageal cancer. Helicobacter pylori may actually be protective against oesophageal cancer The most important risk factors for esophageal adenocarcinoma are gastroesophageal reflux and associated Barrett esophagus. The primary risk factors for squamous cell esophageal cancer are alcohol consumption, smoking, and dietary factors (e.g., diet low in fruits and vegetables). Dermatological conditions associated with oesophageal carcinoma →Tylosis (95% will get squamous oesophageal cancer) Localization • Squamous cell esophageal cancer: mostly in the upper two-thirds of the esophagus • Adenocarcinoma: mostly in the lower third of the esophagus Features • Early stages: Often asymptomatic • Late stage: progressive dysphagia, initially worse on solids and then later to include liquids • Sudden onset of hiccups is common when tumor spreads to diaphragm • General signs: Weight loss, dyspepsia, anaemia Diagnosis • Upper GI endoscopy is the first line test • Staging:  For local tumor extent (mural invasion or tumour depth): Endoscopic ultrasound.  For distant metastases:  CT of the Chest, abdomen and pelvis.  PET/CT scan is more sensitive than CT for detecting metastatic disease and are now widely used for detecting occult metastases if metastases are not seen on the initial staging CT scans. Treatment • Superficial intramucosal oesophageal cancer is best managed by endoscopic resection and surveillance. • Early-stage cancers in surgical candidates are best treated by oesophagectomy. • For locally advanced disease, combined modality therapy is considered the current standard. This involves chemotherapy or chemoradiotherapy followed by surgery. • High-risk patients should be treated with a combination of chemotherapy and radiotherapy for best results, but local recurrence rates remain high. • Palliative  Opioid for pain relief  Nifedipine helps relieve painful oesophageal spasm and tenesmus associated with gastrointestinal tumours and could be used to relieve his odynophagia. Oesophageal cancer • Most oesophageal cancers are not resectable at presentation • Chemo-radiotherapy then surgery is preferred to surgery alone. What is the most common type of Oesophageal cancer? • Squamous cell carcinoma is the most prevalent esophageal cancer worldwide. • Adenocarcinoma is the most common form of esophageal cancer in the UK and United States Squamous cell carcinoma (SCC) Prevalence More common worldwide More common in UK/US Major risk factors Smoking, alcohol Achalasia, Plummer Vinson Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Adenocarcinoma Barrett's oesophagus, GORD, smoking, and obesity. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Part of oesophagus affected Upper 2/3 Lower 1/3 Prognosis Poor long -term prognosis after resection Better long-term prognosis after resection than that of SCC Treatment More sensitive to chemo-radio therapy than adenocarcinoma Prognosis • Poor prognosis due to advanced disease at presentation. • Most patients present with stage 3 disease (late stage) and survival at 5 years is only 9%. Pharyngeal pouch Definition • A pharyngeal pouch is a posteromedial diverticulum through Killian's dehiscence.  Killian's dehiscence is a triangular area in the wall of the pharynx between the thyropharyngeus and cricopharyngeus muscles. • Upper esophageal diverticulum (Common site) • Zenker’s diverticulum is the most common type of esophageal diverticula defined as a posterior "false" diverticulum that has a neck proximal to the cricopharyngeal muscle. Epidemiology • more common in older patients • 5 times more common in men Associations • Achalasia → Inadequate relaxation of the esophageal sphincter ↑intraluminal pressure → outpouching of the esophageal wall → pulsion diverticulum (e.g., Zenker diverticulum) • Inflammation of the mediastinum with scarring and retraction (e.g., secondary to tuberculosis or fungal infection) → traction diverticulum (Common site: the middle esophagus) • Gastro-oesophageal reflux disease Features • Dysphagia (most common) • Regurgitation of undigested food • Aspiration • Coughing after food intake • Retrosternal pressure sensation and pain • Halitosis (a bad breath) • Neck swelling which gurgles on palpation (Boyce’s sign) • Weight loss Diagnosis • Barium studies (best confirmatory test)  detected best by using lateral X-ray shows a contrast-filled pouch protruding dorsally from the hypopharynx at the level of C5/C6  Upper gastrointestinal endoscopy is risky, since the pouches are thin-walled and easy to perforate; this is the reason why a barium swallow may be the preferable first-line investigation in elderly patients with dysphagia. • Upper endoscopy under direct vision should be performed to exclude malignancy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Diverticula of the upper esophagus :Surgical, with either an open or endoscopic approach. • Diverticula of the middle and distal esophagus (traction diverticula and epiphrenic diverticula) usually do not require treatment (most of them are asymptomatic). Acute upper gastrointestinal bleeding (UGIB) (NICE 2012) Definition • bleeding derived from a source proximal to the ligament of Treitz. Causes: Most commonly due to either: • peptic ulcer disease or • oesophageal varices. Risk assessment • use the Blatchford score at first assessment, and • the full Rockall score after endoscopy Blatchford score • The Blatchford score is based on clinical parameters alone:  Elevated blood urea nitrogen  Reduced haemoglobin  A drop in systolic blood pressure  Raised pulse rate  The presence of melaena or syncope, and  Evidence of hepatic or cardiac disease. Admission risk marker Score Urea (mmol/l) 6.5 - 8 = 2 8 - 10 = 3 10 - 25 = 4 25 = 6 Haemoglobin (g/l) Men • 12 - 13 = 1 • 10 - 12 = 3 • < 10 = 6 Women Chapter 3 Gastroenterology Admission risk marker Score Systolic blood pressure (mmHg) 100 - 109 = 1 90 - 99 = 2 < 90 = 3 Other markers Pulse >=100/min = 1 Presentation with melaena = 1 Presentation with syncope = 2 Hepatic disease = 2 Cardiac failure = 2 Patients with a Blatchford score of 0 may be considered for early discharge Rockall score • Used to:  determine the prognosis of upper GIT bleeds.  assess severity of GIT bleeds and / or to triage patients for emergency endoscopy. • Consists of 5 categories: age shock co-morbidity e.g. ischaemic heart disease (IHD) diagnosis and evidence of bleeding (the latter two can only be categorised after endoscopy).  Each category is scored between 0 and 2 points, with the exception of co-morbidities which has a maximum score of 3.  Renal failure, liver failure and metastatic cancer carry the highest points, and thus confer the highest risk of death, of any of the other parameters included in the scoring system. • The full Rockall scoring system is shown in the table below: Score 0 Score 1 Score 2 Score 3 Age <60 60-79 80 Shock No shock Pulse >100 Systolic blood pressure <100 mmHg Co-morbidity Nil major CCF, IHD, major morbidity Diagnosis MalloryWeiss tear All other diagnoses Evidence of bleeding None Blood, adherent clot, spurting vessel • Interpretation:  Increasing scores are strongly correlated with increasing risk of mortality,  The total score predicts mortality as follows: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • 10 - 12 = 1 • < 10 = 6 Renal or liver failure, metastatic cancer GI malignancy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Score 0,  0.2%;  score 2,  5%;  score 4,  24%;  score 6,  49%.  correlation with risk of re-bleeding is also present but not as strong. Grades of hypovolaemic shock The table below outlines the signs and symptoms of the different grades of hypovolaemic shock: Grade • Up to about 15% loss of effective blood volume (~750ml in an average adult who is assumed to have a blood volume of 5 litres). • This leads to a mild resting tachycardia and can be well tolerated in otherwise healthy individuals. • In the elderly or those with underlying conditions such as ischaemic heart disease the additional myocardial oxygen demands may not be tolerated so well. Grade • Between 15-30% loss of blood volume (750-1500ml) • will provoke a moderate tachycardia and begin to narrow the pulse pressure. • The capillary refill time will be extended. Grade • At 30 - 40% loss of effective blood volume (1500 - 2000 ml) • the compensatory mechanisms begin to fail and hypotension, tachycardia and low urine output (<0.5ml/kg/hr in adults) are seen. Grade • At 40-50% loss of blood volume (2000-2500 ml) • profound hypotension will develop and if prolonged will cause end-organ damage and death. Blood test evidence of upper gastrointestinal haemorrhage • Reactive thrombocytosis • Urea elevated in excess of creatinine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Treatment • Resuscitation  ABC, wide-bore intravenous access  platelet transfusion if actively bleeding platelet count of less than 50 x 10*9/litre  fresh frozen plasma to patients who have either a fibrinogen level of less than 1 g/litre, or a prothrombin time (international normalised ratio) or activated partial thromboplastin time greater than 1.5 times normal  prothrombin complex concentrate to patients who are taking warfarin and actively bleeding • Endoscopy  should be offered immediately after resuscitation in patients with a severe bleed  all patients should have endoscopy within 24 hours  Recent NICE guidelines do not recommend proton pump inhibition (PPIs) before endoscopy.  He may have alcohol dependency and therefore should be prescribed Pabrinex whilst waiting for endoscopy. • Management of non-variceal bleeding  NICE do not recommend the use of proton pump inhibitors (PPIs) before endoscopy to patients with suspected non-variceal upper gastrointestinal bleeding although PPIs should be given to patients with non-variceal upper gastrointestinal bleeding and stigmata of recent haemorrhage shown at endoscopy  The best evidence for pharmacological intervention post-stabilisation of bleeding peptic ulcer disease is for proton pump inhibitors.  the most appropriate intervention to prevent further bleeding  IV omeprazole  reduction in risk of recurrent bleeding of over 50%,  reduction in need for surgical intervention of approximately 40%.  if further bleeding then options include repeat endoscopy, interventional radiology and surgery • Management of variceal bleeding  terlipressin and prophylactic antibiotics should be given to patients at presentation (i.e. before endoscopy)  band ligation should be used for oesophageal varices and injections of N-butyl-2cyanoacrylate for patients with gastric varices  transjugular intrahepatic portosystemic shunts (TIPS) should be offered if bleeding from varices is not controlled with the above measures Oesophageal varices Overview • Oesophageal varices are tributaries of the left gastric vein , found in lower 1/3 of esophagus  lower 1/3 of oesophagus is drained into the superficial veins lining the esophageal mucosa,  left gastric vein  portal vein.  upper 2/3 of oesophagus are drained via esophageal veins  azygos vein  superior vena cava. (These veins have no part in the development of esophageal varices) • Esophageal varices are the most common cause of death in cirrhosis. 018 - Pages 426-450 018 Pages 426-450 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acute treatment of variceal haemorrhage • ABC: patients should ideally be resuscitated prior to endoscopy • correct clotting: FFP, vitamin K • vasoactive agents:  terlipressin is currently the only licensed vasoactive agent and is supported by NICE guidelines.  powerful splanchnic vasoconstrictor  It has been shown to be of benefit in initial haemostasis and preventing rebleeding.  the most appropriate treatment whilst awaiting urgent endoscopy  As a vasoconstrictor its administration is contraindicated in those with a history of ischaemic heart disease as it may precipitate myocardial ischaemia.  Octreotide may also be used although there is some evidence that terlipressin has a greater effect on reducing mortality • prophylactic antibiotics  have been shown in multiple meta-analyses to reduce mortality in patients with liver cirrhosis.  Quinolones are typically used. • endoscopy:  endoscopic variceal band ligation is superior to endoscopic sclerotherapy. NICE recommend band ligation • Sengstaken-Blakemore tube if uncontrolled haemorrhage  Balloon tamponade (for example, using a Sengstaken-Blakemore tube) may be used as a holding measure in situations where, for whatever reason, a definitive procedure cannot be performed to control bleeding (for example, endoscopy or transjugular intrahepatic portosystemic shunting).  It is generally very effective in achieving control of variceal bleeding. • Transjugular Intrahepatic Portosystemic Shunt (TIPSS) if above measures fail Prophylaxis of variceal haemorrhage • propranolol:  reduced rebleeding and mortality compared to placebo • endoscopic variceal band ligation (EVL)  is superior to endoscopic sclerotherapy.  It should be performed at two-weekly intervals until all varices have been eradicated.  Proton pump inhibitor cover is given to prevent EVL-induced ulceration Prognosis • Overall mortality from bleeding varices is around 30% Esophageal Rupture • Causes  Iatrogenic esophageal perforation:  most common cause of esophageal perforation  Generally injury during upper endoscopy  Symptoms usually within 24 hours of endoscopy  Foreign body ingestion  Trauma  Malignancy  Boerhaave syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Severe vomiting/increased intrathoracic pressure → rupture of all layers of the esophageal wall  In > 90% of cases, the rupture occurs in the distal third of the esophagus on the left dorsolateral wall surface.  Sex: ♂ > ♀ (3:1)  Associations Excessive intake of alcohol or food in the recent past Repeated episodes of vomiting Childbirth Seizures Prolonged coughing Weightlifting  • Feature: Mackler's triad (vomiting, chest pain and surgical emphysema) is classical but absent in almost half the cases.  surgical emphysema Subcutaneous emphysema → crepitus in the suprasternal notch mediastinal emphysema →"crunching" or "crackling" sound on chest auscultation (Hamman's sign) The most relevant finding on examination is the crepitus over the chest Dyspnea, cyanosis • investigations: Gastrografin swallow will confirm the site of perforation in approximately 65-75% of cases, and is the recommended first line investigation. chest x ray  useful in the initial diagnosis  The most common finding is a unilateral effusion, usually on the left. Because the most perforations occur in the left posterior aspect of the esophagus.  Other findings may include pneumothorax, hydropneumothorax, pneumomediastinum, surgical emphysema. mediastinal widening. Lateral neck x rays  may be useful in the early stages where the diagnosis is uncertain and surgical emphysema is not seen on a plain CXR. CT scan:  indicated in unstable/uncooperative patients, pneumoperitoneum on x-ray, or ifx-rays and contrast esophagram are inconclusive Barium swallow  more sensitive at 90% for detecting small perforations but carries the risk of a severe inflammatory response (mediastinaitis). • Prognosis A reported mortality estimate is approximately 35%, making it the most lethal perforation of the GI tract. If intervention is delayed longer than 24 hours, the mortality rate (even with surgical intervention) rises to higher than 50% and to nearly 90% after 48 hours. Left untreated, the mortality rate is close to 100%. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hiccup • caused by frequent or rhythmic clonic contraction of the diaphragm. • When prolonged, other causes should be considered including:  CNS disease - posterior fossa tumour, brain injury, encephalitis  Phrenic nerve or diaphragm irritation - tumour, pleurisy, pneumonia, intrathoracic adenopathy, pericarditis, gastro-oesophageal reflux, oesophagitis  Systemic causes include alcohol intoxication and uraemia.  Other causes include foreign body or insect in the ear.  In infants it may be associated with apnoea or hyperventilation. • Treatment  Folk remedies include aerophagia, breath holding, pharyngeal stimulation, distraction.  Haloperidol, metaclopramide and several anaesthetic agents are also said to work. Gastric conditions Helicobacter pylori Overview • Helicobacter pylori is a Gram negative bacteria associated with a variety of gastrointestinal problems, principally peptic ulcer disease Associations • Peptic ulcer disease (95% of duodenal ulcers, 75% of gastric ulcers) • gastric cancer ( ≈ 5%)  The most common location is the lesser curvature.  appears as an ulcer with heaped-up margins. • B cell lymphoma of MALT tissue (eradication of H pylori results causes regression in 80% of patients) • Atrophic gastritis Helicobacter pylori is NOT associated with GORD • The is no apparent role of H pylori in Gastro-oesophageal reflux disease (GORD) • there is currently no role in GORD for the eradication of H pylori Diagnosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Noninvasive methods Urea breath test • The preferred method for initial diagnosis or confirmation of eradication • sensitivity 95-98%, specificity 97-98% • should not be performed within 4 weeks of treatment with an antibacterial or within 2 weeks of an antisecretory drug (e.g. a proton pump inhibitor) Serum antibody • sensitivity 85%, specificity 80% • remains positive after eradication (cannot distinguish between a past and current infection.) Stool antigen test • Sensitivity 90%, specificity 95% • Can be used for initial diagnosis BUT NICE guidelines do not recommend its use to confirm eradication due to a lack of evidence. Invasive methods Rapid urease test (e.g. CLO test) • Performed on biopsy tissue obtained during endoscopy • Detects the amount of ammonia produced by H. pylori during urea hydrolysis • Sensitivity 93-97%, specificity 95-98% • the false negative rate increases significantly in:  recent gastrointestinal haemorrhage,  acid suppression therapy and  recent antibiotic treatment. Culture of gastric biopsy (Gold standard) • sensitivity 70%, specificity 100% • Staining and direct microscopic identification (silver stain) • Curved, gram-negative rods with multiple flagella is the typical appearance of H.pylori. Gastric biopsy • Histological evaluation alone, no culture • Sensitivity 95-99%, specificity 95-99% Test to confirm eradication : • When to test for complete eradication?  Re-testing for Helicobacter pylori is indicated only in the setting of peptic ulcer disease to confirm eradication where an initial test is positive. • Which test?  Carbon-13 urea breath testing is the only well validated method for confirming the successful eradication of Helicobacter pylori. PPIs should be discontinued at least 2 weeks prior to most H. pylori testing modalities to minimize rates of false-negative results. However, some testing modalities, e.g., histology, are not affected by recent PPI treatment. Management • First-line treatment  Not allergic to penicillin → PPI + amoxicillin + either clarithromycin or metronidazole.  Allergic to penicillin → PPI + metronidazole + clarithromycin  Allergic to penicillin + previous exposure to clarithromycin → PPI + bismuth + metronidazole + tetracycline Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Re-testing for H. pylori  Re-testing for H. pylori before second-line treatment is considered to confirm eradication as there are serious side effects associated with antibiotics, e.g. Clostridium difficile infection, and antibiotic resistance is increasing.  Eradication therapy is effective in 80-85% of cases and should not be repeated without evidence of treatment failure.  the carbon-13 urea breath test is the most accurate method of re-testing for H. pylori.  NICE guidelines 2019 state: Perform re-testing for H pylori using a carbon‑ 13 urea breath test. (There is currently insufficient evidence to recommend the stool antigen test as a test of eradication) • Second-line treatment (If still symptomatic after first-line + positive re-testing for H. pylori)  Not allergic to penicillin → PPI + amoxicillin + either clarithromycin or metronidazole (whichever was not used first-line)  If there is a previous exposure to clarithromycin and metronidazole →PPI + amoxicillin + quinolone or tetracycline (whichever has the lowest acquisition cost).  Allergic to penicillin + NO previous exposure to a quinolone → PPI + metronidazole + levofloxacin  Allergic to penicillin + previous exposure to a quinolone → PPI + bismuth + metronidazole + tetracycline. Peptic ulcer Basic Bleeding from Posterior duodenal ulcers are due to erosion of the gastroduodenal artery • The right and left gastroepiploic arteries (gastro-omental arteries) supply the greater curvature of the stomach.  The source of ulcer bleeding in the greater curvature of the stomach  Left gastroepiploic artery • The right gastric artery arises from the hepatic artery or the left hepatic artery, supplies the pylorus and travels along the lesser curvature of the stomach, supplying it, and anastomosing with the left gastric artery.  the cause of ulcer bleeding in the lesser curvature of the stomach  right gastric artery • The pancreaticoduodenal artery (a branch of the gastroduodenal artery) supplies mainly the upper and lower duodenum and the head of the pancreas. • The right hepatic artery supplies the right lobe of the liver and part of the caudate lobe. The golden notes Sources of bleeding in peptic ulcers: • greater curvature of the stomach  Left gastroepiploic artery • lesser curvature of the stomach  right gastric artery • Posterior duodenal ulcers  gastroduodenal artery  pancreaticoduodenal artery (a branch of the gastroduodenal artery) supplies mainly the upper and lower duodenum. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology The golden notes Sites of peptic ulcers: • 80% are duodenal. • The most common site  near the pylorus, on the duodenal side • The less frequent site  lesser curvature of stomach or at the point at which the esophagus enters the stomach. Risk factors for peptic ulceration include • Helicobacter pylori (H. pylori) infection, • non-steroidal anti-inflammatory drug (NSAID) use, • cigarette smoking and • genetic factors - Lewis blood group antigens facilitate H. pylori attachment to the mucosa. Interventions for peptic ulcer disease (NICE 2012) • peptic ulcer + H pylori  H pylori eradication therapy • peptic ulcer + H pylori  retesting for H pylori 6 to 8 weeks after beginning treatment, • gastric ulcer + H pylori  repeat endoscopy 6 to 8 weeks after beginning treatment • In people at high risk (previous ulceration) and for whom NSAID continuation is necessary, consider a COX-2 selective NSAID instead of a standard NSAID with a PPI.  The Two highly selective or specific in their ability to inhibit COX-2 while having little or no COX-1 affinity are rofecoxib and celecoxib. • Offer H2RA therapy if there is an inadequate response to a PPI. The effect of Helicobacter eradication on healing and recurrence of peptic ulcer: • The effects is dependent upon whether ulceration is gastric or duodenal and whether the patient is taking non-steroidal anti-inflammatory drugs or not.  For duodenal ulcers eradication slightly increases healing (additional 5.4% over acid suppression alone) but dramatically decreases recurrence (increases the number of patients ulcer free at 12 months by 52%).  For gastric ulcers eradication therapy has no effect on healing but does decrease recurrence (an additional 32% of patients are ulcer free at 12 months compared to acid suppression alone).  In patients taking non-steroidal anti-inflammatory drugs eradication therapy has no effect on peptic ulcer healing (gastric or duodenal), but will decrease ulcer recurrence  continued non-steroidal anti-inflammatory drug use markedly reduces the size of effect that eradication therapy has on reducing ulcer recurrence. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Endoscopic appearance of ulcers: • The endoscopic appearances are of two small duodenal ulcers (A) without evidence of recent haemorrhage. There is some co-existent duodenitis. • The presence of villi identifies this as the duodenum. • The mucosal appearances are not consistent with that of the stomach (absence of rugae, paler squamous epithelium rather than redder columnar epithelium) or the oesophagus (pale pink non-villous squamous epithelium). Following endoscopic intervention • immediately post-endoscopy, patients should be commenced on a high dose oral or intravenous proton pump inhibitor, this reduces the risk of rebleeding. • Amoxicillin and clarithromycin may be indicated if there is evidence of Helicobacter pylori infection. This need not be started immediately post-endoscopy but treatment should not be unnecessarily delayed. Zollinger-Ellison syndrome Definition • gastrinoma (Zollinger-Ellison syndrome) is a gastrin-secreting neuroendocrine tumor that is most often localized to the duodenum and pancreas.  Gastrin is released by G cells in the antrum under normal physiological conditions. Tumor location • Duodenum (∼ 70% of cases)  Most ulcers are located in the first part of the duodenum. • Pancreas (∼ 25% of cases): typically, the head • Ectopic locations (5–15% of cases) Causes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Most gastrinomas occur sporadically. • Around 30% occur as part of MEN type I syndrome Epidemiology • Sex: ♂ > ♀ (2:1) • Age of onset: 30–50 years Pathophysiology • Hypergastrinemia → stimulation of parietal cells → gastric acid hypersecretion, which leads to:  Peptic ulcer disease  Inactivation of pancreatic enzymes → diarrhea, steatorrhea → malabsorption Features • multiple gastroduodenal ulcers • diarrhoea  diarrhea in Zollinger-Ellison syndrome (gastrinoma) is due to malabsorption. • malabsorption Diagnosis • Best initial test: esophagogastroduodenoscopy  Important to rule out H. pylori infection and malignant ulcers  Typically reveals multiple ulcers and thick gastric folds  ↓ Gastric pH • Fasting gastrin levels: the single best screen test  fasting gastrin test > 1000 with low PH < 2 is diagnostic  if level < 1000 and the diagnosis is suspected, then secretin stimulation testing or calcium stimulation testing  secretin stimulation test  rise > 200 after 15 minute of dosing is considered positive  calcium stimulation test  rise > 395 is considered positive • Secretin stimulation test (if fasting serum gastrin test is inconclusive)  gastrin levels remaining elevated after administration of secretin. The presence of multiple, large (> 2 cm) ulcers in atypical locations (e.g., the jejunum) should raise suspicion of gastrinoma. Treatment • Reduce acid production  PPIs (e.g., omeprazole), H2 antagonists (e.g., ranitidine)  Octreotide (a somatostatin analog) may be used in refractory cases. • Non-metastatic disease:  surgical resection of the gastrinoma is the treatment of choice  possibility of cure is up to 25% of patients. • Metastatic disease:  chemotherapy  In approximately 50% of cases, the tumor has already metastasized at the time of diagnosis Somatostatin Source Action Regulation Notes • D cells (pyloric antrum, and duodenum mucosa) • ↓ gastric H+ and pepsinogen secretion • ↓ pancreatic and small intestine fluid secretion • ↓ gallbladder contraction • ↓ insulin and glucagon release • ↓ GH release • delta cells (pancreas) • ventromedial nucleus of the hypothalamus. • Inhibit TSH secretion. • Mechanism of action  Somatostatin receptor is linked to adenylyl cyclase by Gi protein, which inhibits cAMP production and reduces secretion of hormones. Somatostatinoma • Annual incidence  1 in 40 million. • Associations:  Impaired glucose tolerance (IGT) or diabetes mellitus (95%)  Gallstones (68%)  Weight loss (25%) (7%)  Diarrhoea • Diagnosis:  The tumours are often multisecretory  ↑↑ Somatostatin, adrenocorticotropic hormone (ACTH) and calcitonin  Contrast spiral computed tomography scanning is effective for detecting the primary tumour in only 50% of cases;  Radiolabeled octreotide or endoscopic ultrasound scanning are often be required. • Treatment:  surgery is rarely possible due to presence of metastases,  hepatic embolisation can be helpful for symptom control. _Gastric MALT lymphoma Overview • lymphoma of Mucosa-Associated Lymphoid Tissue (MALT) • (MALT) is typically a low-grade, B-cell neoplasia originating from mucosa-associated lymphoid tissue • associated with H. pylori infection in 95% of cases • good prognosis • Within the stomach the antrum is most commonly involved Epidemiology • MALT lymphoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Inhibitory hormone • Antigrowth hormone effects (digestion and absorption of substances needed for growth) • Produce vasoconstriction of the splanchnic system. • Somatostatin is treatment for VIPoma and carcinoid tumors • ↑ by H+ • ↓ by vagal stimulation  Anaemia (14%)  Multiple endocrine neoplasia type 1 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  7% to 8% of all B-cell lymphomas  the third most common type of non-Hodgkin's lymphoma  the most common type of primary extra-nodal lymphoma and represents up to 50% of primary gastric lymphomas. • Gastric MALT lymphomas  account for about 30% of all MALT lymphomas,  median age of 57 years  no sex predilection. Features • paraproteinaemia may be present • infiltrate of small-size lymphocytes that destroy gastric glands, configuring the so-called ‘lymphoepithelial lesion’ which is pathognomonic of lymphoma • The common cytogenetic abnormalities demonstrated in MALT lymphomas is t(11;18),  seen in 30% to 40% of gastric and lung MALT lymphomas  This is clinically important, as t(11;18)-positive cases are less likely to respond to H pylori-eradication therapy  there is a high incidence of t(11;18) in H pylori-negative gastric MALT lymphoma,  t(11;18)-positive cases are more likely to present with advanced-stage disease associated with aberrant expression of nuclear BCL10  t(11;18)-positive cases are less likely to transform to aggressive lymphomas, as they are unlikely to develop secondary chromosomal abnormalities. Treatment • if low grade then 80% respond to H. pylori eradication • low grade localised gastric helicobacter pylori positive :  first line  antibiotics plus a proton-pump inhibitor (PPI)  second line  radiotherapy  Patients are considered to have failed H pylori eradication when:  there is no regression at repeat endoscopy 2 months after treatment,  or when there is lack of complete regression at approximately 18 months after treatment. • low grade localised gastric helicobacter pylori negative:  first line  radiotherapy • low grade advance gastric (Disease not confined to the stomach)  first line  chemotherapy  If H pylori -positive, add eradication therapy. • High grade histological transformation:  First line  chemotherapy  MALT lymphoma is defined as a low-grade neoplasm. However, gastric MALT lymphoma can show a component of high-grade transformation.  This is characterised by an increase in the number of transformed blasts, which can eventually lead to complete effacement of the original MALT lymphoma. Ref: bestpractice.bmj.com.2017 Gastroparesis Definition • Delayed gastric emptying in the absence of a mechanical obstruction Causes • Mostly idiopathic but also associated with diabetes mellitus and upper GI surgery • Occurs in 10–20% of diabetics after 10 years. Mechanism • The major stimulant for gastric motility is “stretch.” Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • In patients with longstanding diabetes, there is impaired ability to perceive stretch in the GI tract and impaired motility. Symptoms • erratic blood glucose control • chronic nausea, vomiting, epigastric pain, bloating • early satiety, abdominal fullness, constipation. Diagnosis • Gastric-emptying scan  Gastric emptying scintigraphy demonstrating >10% retention of the radionuclide meal at the end of 4 hours is diagnostic. Management • Metoclopramide: the first drug of choice o Action: both a dopamine receptor antagonist and a serotonin receptor agonist. o Indication: It is better for short-term treatment. Its use in the long-term treatment of gastroparesis is no longer recommended. o Side effects: extrapyramidal • Domperidone  Action: dopamine antagonist with an affinity for the D2 receptor in the brain and peripheral gastrointestinal system.  Indications: only used for nausea and vomiting and is no longer recommended for the treatment of conditions such as heartburn, bloating, or stomach discomfort.  Side effects: associated with a small increased risk of life-threatening cardiac effects.  Advantages: It does not cross the blood-brain barrier, so does not cause the neurological adverse effects associated with metoclopramide.  Contraindications • Contraindicated in patients with hepatic or cardiac disease. • Should not be administered with other drugs that prolong the QT interval or inhibit CYP3A4 • Erythromycin  Action: ↑ release of “motilin,” a pro-motility GI hormone.  used in the acute care setting if the patient is admitted to hospital. • Dietary modification (small, frequent meals that are low in fat and contain only soluble fiber), glycemic control and hydration Type 2 diabetes with erratic blood glucose control or unexplained gastric bloating or vomiting → Think about a diagnosis of gastroparesis. Gastric cancer Epidemiology • Sex: ♂ > ♀ (2:1) • Peak incidence: 70 years • Geographical distribution:  strong regional differences  High incidence in South Korea, China and Japan Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Declining incidence in the United States and Europe • overall incidence is decreasing, but incidence of tumours arising from the cardia is increasing • Adenocarcinoma is the most common gastric cancer (90% of cases). Arises from glandular cells in the stomach. Most commonly located on the lesser curvature Risk factors • Exogenous risk factors  Diet: salty, spicy, nitrates, dietary nitrosamines (smoked foods).  H. pylori infection: the most common risk factor (> 60%)  Smoking  Epstein-Barr virus  Low socioeconomic status  Obesity • Gastric conditions  Pernicious anaemia → Chronic atrophic gastritis → gastric adenocarcinoma.  Achlorhydria: decrease in gastric acid production (e.g., due to Ménétrier disease)  Gastric ulcers  Partial gastrectomy  Adenomatous gastric polyps  Gastroesophageal reflux disease • Hereditary factors  Positive family history  Blood type A: gAstric cAncer  Gastric adenomatous polyps: Hereditary nonpolyposis colorectal cancer • Factors associated with decreased risk of gastric tumours (negative association)  Duodenal ulcer  NSAID use Features • Early stages: Often asymptomatic • About half of patients with gastric cancer present with advanced disease at the time of diagnosis. • General signs: Weight loss, chronic iron deficiency anemia • Signs of gastric outlet obstruction: Dysphagia, Abdominal pain, Early satiety, Vomiting • Signs of upper gastrointestinal bleeding: Hematemesis, Melena • Signs of metastatic disease  Hepatomegaly, Ascites: liver is the most common site of metastasis.  Left supraclavicular adenopathy (Virchow node)  Palpable umbilical nodule (Sister Mary Joseph node)  Mucin-secreting “signet-ring” cells in the ovaries are diagnostic of Krukenberg tumors, which are indicative of stomach adenocarcinoma metastasis. • Paraneoplastic syndromes  Leser-Trélat sign (: (multiple seborrheic keratoses, often with an inflammatory base.)  Malignant acanthosis nigricans Always rule out malignancy in patients with acanthosis nigricans. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Types of gastric adenocarcinoma • Intestinal type of gastric adenocarcinoma  the most common type of gastric adenocarcinoma.  presents as a large, irregular ulcer with heaped up margins, typically at the lesser curvature of the antrum.  associated with Helicobacter pylori, chronic gastritis, atrophy, and intestinal metaplasia • Diffuse gastric adenocarcinoma  characterized by thickening and rigidity of the gastric wall.  Infiltrate the submucosa, (Scirrhous infiltration of the submucosa) so that mucosal sampling may not show neoplastic cells.  associated with a poor prognosis compared with the intestinal type  Unlike the intestinal type of gastric adenocarcinoma, it is more common in women and individuals less than 50 years old.  associated with H. pylori infection, but NOT with atrophy and intestinal metaplasia  associated with signet ring cells and linitis plastica.  Linitis plastica is a particularly aggressive form of diffuse adenocarcinoma. It is also known as "leather bottle stomach" because the stomach is diffusely thickened, with a small lumen that cannot expand, leading to the symptom of early satiety. This thickening can be seen on the CT image. Histology • Signet ring cells may be seen in gastric cancer.  They contain a large vacuole of mucin which displaces the nucleus to one side.  Higher numbers of signet ring cells are associated with a worse prognosis Diagnosis • Endoscopy with biopsy: (best initial and confirmatory test) • Staging: CT or endoscopic ultrasound - endoscopic ultrasound has recently been shown to be superior to CT Treatment • Early-stage disease → surgery alone (Total or sub-total Gastrectomy) • Locally advanced disease → surgery followed by postoperative chemoradiation, or chemotherapy before and after surgery. • Metastatic disease → chemotherapy, immunotherapy, or chemoradiation and supportive care measures. • Trastuzumab is indicated for HER2-positive gastric adenocarcinomas. Trastuzumab is indicated for HER2-positive gastric adenocarcinomas. (TRUSTuzumab; HER2; Gastric cancer; Breast cancer) Post gastrectomy complications • Malabsorption: Lack of chyme stimulation → ↓ pancreatic enzyme levels → protein and carbohydrate maldigestion → fat-soluble vitamin deficiency • Loss of parietal cells → ↓/absent intrinsic factor production → vitamin B12 deficiency → pernicious anemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Loss of parietal cells → ↓ gastric acid → ↓ iron absorption → iron deficiency anemia (low pH environment is necessary for the reduction of Fe3+ (ferric iron) to Fe2+ (ferrous iron) the absorbable form of iron). • Small intestinal bacterial overgrowth • Dumping syndrome  Early dumping (Occur hours after meal ingestion): rapid emptying of undiluted hyperosmolar chyme into the small intestine → fluid shift to the intestinal lumen → small bowel distention → vagal stimulation → increased intestinal motility (nausea, vomiting, diarrhoea, and cramps) + Vasomotor symptoms such as sweating, flushing, and palpitations.  Late dumping (occur hours after meal ingestion): rapid emptying of glucosecontaining chyme into the small intestine → quick reabsorption of glucose → hyperglycaemia → excessive release of insulin → hypoglycaemia and release of catecholamines → signs of hypoglycaemia (e.g., hunger, tremor, light-headedness) Prognosis • At diagnosis, 60% of cancers have already reached an advanced stage that does not allow for curative treatment. • 5-year survival  confined to the mucosa and submucosa (˃ 90%)  extended beyond the submucosa (˂10%). Gastrointestinal stromal tumour (GIST) • common type of sarcoma; it develops in the gastrointestinal (GI) tract • occur most often in adults over the age of 50 years • Location of GISTs:  most commonly involve the stomach (60%),  jejunum and ileum (30%),  duodenum (4%–5%), and  colorectal (< 5%). • Tumours in the small bowel and rectum appear to be more aggressive than those occurring in the stomach. • the cell of origin of gastric GISTs  Interstitial cells of Cajal within Auerbach's plexus  the interstitial cells of Cajal act as pacemaker cells of the GIT, with regulation of peristalsis in the adult intestine • Approximately 80%–95% of GISTs harbor an activating mutation in the KIT gene  about 80% of KIT-negative GISTs have an activating mutation in the PDGFRA gene.  a mutation in PDGFRA may make the tumour resistant to the standard drugs to treat GIST.  tumours with a PDGFRA mutation are usually less aggressive than the more common ones with KIT mutation. • 50% are present with metastatic disease, ( commonly liver metastases), • Features  Mostly asymptomatic.  Tumor induce GI bleed and anemia  Other symptoms secondry to mass effects:  Abdominal discomfort, early satiety, palpable abdominal mass  Bowel obstruction or perforation  Dysphagia • Diagnosis:  Gold standard test is endoscopy with biopsy  Histopathology: Spindle cell in 70 to 80%, epitheliods cells in 20 to 30 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  CT and endoscopic ultrasound allow tumour staging to plan further management.  Immunohistochemical Stainning  Up to 95% of GISTs are positive for KIT expression (CD117)  60%–70% are positive for CD34 expression. • Management  all GISTs ≥ 2 cm  surgery  Surgery is usually the first treatment method used for GIST.  If the tumour is too large to be removed at the time of diagnosis, it may be treated initially with imatinib. If sufficient shrinkage has occurred after 6-12 months, it may be operated .  incidentally encountered GISTs < 2 cm  watchful waiting and surveillance for such very small GISTs might be reasonable.  for patients with KIT-positive unresectable and/or metastatic GIST  Medical Management:  first line  Imatinib mesylate is an oral adenosine triphosphate (ATP)– competitive TKI that selectively inhibits the activity of KIT, PDGFRA.  It is effective in 80% of patients and on average will control the disease for about two years.  imatinib may be used as an adjuvant therapy after surgery to reduces the risk of the cancer returning  second-line  In case of imitanib resistance: patients can be switched directly from low-dose imatinib (400 mg/day) to another TKI, such as the only approved second-line therapy, sunitinib.  3rd line  Regorafenib (if imatinib and sunitinib are not effective or not tolerated) Menetrier's disease • A rare condition associated with giant gastric folds, predominantly in the fundus and body of the stomach. • Histologically there is hyperplasia of the gastric pits, gland atrophy and an increase in overall mucosal thickness. • Hypochlorhydria is usually present. • Patients often complain of epigastric pain • protein loss from the gastric mucosa can result in mild hypoalbuminaemia. • some patients improve spontaneously,whereas in others this can be a premalignant state. • Antisecretory drugs such as proton-pump inhibitors can be tried for symptom relief. Bowel conditions Dyspepsia Causes of dyspepsia • Gastro-oesophageal reflux disease (GORD) (15 - 25%) • Gastric and duodenal ulcers (15 - 25%) and • Stomach cancer (2%). • The remaining 60% are classified as non-ulcer dyspepsia (NUD). • Drugs causing dyspepsia  NSAIDs (ibuprofen is associated with the lowest risk of peptic ulcer disease)  bisphosphonates  steroids Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  The following drugs may cause reflux by reducing lower oesophageal sphincter (LOS) pressure  calcium channel blockers*  nitrates*  *calcium channel blockers and nitrates are occasionally used in the management of achalasia, itself a cause of dyspepsia, because of their effect on the LOS.  theophyllines Indications of Urgent referral for an endoscopy (i.e. within 2 weeks). (NICE 2015) • dysphagia • upper abdominal mass consistent with stomach cancer • Any sign of chronic gastrointestinal bleeding • Persistent vomiting • Iron deficiency anaemia, • Suspicious barium meal. • Progressive unintentional weight loss • Patients aged ≥ 55 years who've got weight loss, AND any of the following:  upper abdominal pain  reflux  dyspepsia Non-urgent • Patients with haematemesis • Patients aged >= 55 years who've got:  treatment-resistant dyspepsia or  upper abdominal pain with low haemoglobin levels or  raised platelet count with any of the following: nausea, vomiting, weight loss, reflux, dyspepsia, upper abdominal pain  nausea or vomiting with any of the following: weight loss, reflux, dyspepsia, upper abdominal pain Managing patients who do not meet referral criteria ('undiagnosed dyspepsia') • This can be summarised at a step-wise approach Review medications for possible causes of dyspepsia Lifestyle advice Trial of full-dose proton pump inhibitor for one month OR a 'test and treat' approach for H. pylori • lifestyle advice  avoid known precipitants: eg: smoking, alcohol, coffee, chocolate, fatty foods and being overweight  Raising the head of the bed and having a main meal well before going to bed may help some people. • Testing for H. pylori infection  initial diagnosis: NICE recommend using a carbon-13 urea breath test or a stool antigen test, or laboratory-based serology 'where its performance has been locally validated'  test of cure: carbon-13 urea breath test • cognitive behavioural therapy and psychotherapy, may reduce dyspeptic symptoms in the short term in individual people. • If H pylori has been excluded and symptoms persist, offer either a low-dose PPI or an H2RA for 4 weeks. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Malabsorption Features • Malabsorption is characterised by diarrhoea, steatorrhoea and weight loss. • The presence of anaemia with low albumin raises the possibility of malabsorption Causes may be broadly divided into: intestinal causes (e.g. villous atrophy),  coeliac disease  Crohn's disease  tropical sprue  Whipple's disease  Giardiasis  brush border enzyme deficiencies (e.g. lactase insufficiency) pancreatic causes (deficiency of pancreatic enzyme production or secretion)  chronic pancreatitis  cystic fibrosis  pancreatic cancer biliary causes (deficiency of bile-salts needed for emulsification of fats)  biliary obstruction  primary biliary cirrhosis Other causes  bacterial overgrowth (e.g. systemic sclerosis, diverticulae, blind loop)  lymphoma  short bowel syndrome  Does not develop unless more than two thirds of the small intestine have been removed.  features include:  Abdominal pain  Diarrhea and steatorrhea  Fluid depletion  Weight loss and malnutrition  Fatigue  complications caused by malabsorption of vitamins and minerals  Hyperoxaluria occurs both in patients with an ileal resection and in patients with a short bowel who have had a distal small bowel resection (for example, Crohn's disease, infarcted bowel).  What is the most effective advice in preventing further renal calculi?  Dietary exclusion of chocolate, tea, rhubarb and spinach D-xylose test • D-xylose is a monosaccharide which is absorbed through the small intestines and excreted through the kidneys. • D-xylose test is helpful in differentiating between structural and functional causes of malabsorption.  structural (e.g. Celiac disease, Crohn disease) or functional (e.g. pancreatic insufficiency) • An abnormally low excretion of D-xylose is indicative of a structural pathology. • This test distinguishes between malabsorption due to small-intestinal diseases and malabsorption due to pancreatic exocrine insufficiency. • A 5-hour urinary excretion of 5 g or greater is normal following the oral administration of 25 g of D-xylose to a well-hydrated subject. • Decreased xylose absorption and excretion are found:  In patients with damage to the proximal small intestine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  When there is bacterial overgrowth in the small intestine (the bacteria catabolise the xylose) • Patients with pancreatic steatorrhoea (chronic pancreatitis) usually have normal xylose absorption. • Abnormal results might be encountered in renal failure, in the elderly and in patients with ascites due to an excretion defect rather than malabsorption. Diarrhoea (NICE 2012) • Diarrhoea is defined as the abnormal passage of loose or liquid stools more than 3 times daily or a volume of stool greater than 200 g/day. • Diarrhoea is considered to be chronic if it persists for more than 4 weeks. Jejunal villous atrophy Causes • coeliac disease • tropical sprue • hypogammaglobulinaemia • gastrointestinal lymphoma • Whipple's disease • cow's milk intolerance Coeliac disease • Caused by sensitivity to the protein gluten. • due to T cell mediated hypersensitivity reaction • Mechanism: repeated protein gluten exposure  villous atrophy  malabsorption. • Conditions associated with coeliac disease include dermatitis herpetiformis (a vesicular, pruritic skin eruption) and autoimmune disorders (type 1 diabetes mellitus and autoimmune hepatitis). • It is strongly associated with HLA-DQ2 (95% of patients) and HLA-B8 (80%) as well as HLA-DR3 and HLA-DR7 • The prevalence of coeliac disease in Europe between 1:100 and 1:300. • It presents at any age but in adults the commonest age of presentation is 20s and 30s. • Women are slightly more commonly affected. • The action of tissue transglutaminase on alpha-gliadin generates epitopes to CD4+ Tlymphocytes, which provoke an inflammatory response in the intestinal wall. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad In 2009 NICE suggest that the following patients should be screened for coeliac disease: Signs and symptoms Conditions • Chronic or intermittent diarrhoea • Failure to thrive or faltering growth (in children) • Persistent or unexplained gastrointestinal symptoms including nausea and vomiting • Prolonged fatigue ('tired all the time') • Recurrent abdominal pain, cramping or distension • Sudden or unexpected weight loss • Unexplained iron-deficiency anaemia, or other unspecified anaemia • Autoimmune thyroid disease • Dermatitis herpetiformis • Irritable bowel syndrome • Type 1 diabetes • First-degree relatives (parents, siblings or children) with coeliac disease Associated conditions: • Insulin-dependent diabetes mellitus, • hypothyroidism, • chronic liver disease and • fibrosing alveolitis Investigations Diagnosis • Diagnosis is made by a combination of immunology and jejunal biopsy. Villous atrophy and immunology normally reverses on a gluten-free diet. • If patients are already taking a gluten-free diet they should be asked, if possible, to reintroduce gluten for at least 6 weeks prior to testing. Immunology • tissue transglutaminase (TTG) antibodies (IgA) are the first-choice  Selective IgA deficiency is more common in patients with coeliac disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  For this reason, IgA levels should be checked when serological tests are ordered.  If the patient has selective IgA deficiency  tissue transglutaminase IgG can be measured.  Patients normally need to be following a gluten-free diet for at least 6 months before the serology becomes negatives. • endomyseal antibody (IgA)  90% sensitive and almost 100% specific.  Anti-endomysial antibodies are sensitive and specific, but miss the disease in about 5% of the population who are IgA deficient. • anti-gliadin antibody (IgA or IgG) tests are not recommended by NICE • anti-casein antibodies are also found in some patients Jejunal biopsy • duodenal biopsies are the gold standard for diagnosis:  villous atrophy  crypt hyperplasia  increase in intraepithelial lymphocytes  lamina propria infiltration with lymphocytes  Appearances may resemble severe tropical sprue Rectal gluten challenge has been described but is not widely used Subtotal villous atrophy is seen in a number of conditions other than coeliac disease such as: • Severe tropical sprue • Cow's milk/soya sensitivity in children • Gastroenteritis • Whipple's disease • Hypogammaglobulinaemia • Neomycin therapy • Laxative abuse • Norwalk agent. Other investigations • Imaging  Which would most likely seen on abdominal radiograph with barium contrast?  Decreased jejunal folds, increased ileal folds  imaging and biopsy of the GI mucosa show a characteristic blunting of jejunal villi. This is often associated with a compensatory" jejunization" of the ileum to enhance nutrient absorption. • Screen for other related autoimmunities  In a patient with newly diagnosed celiac disease, it is important to screen for other related autoimmunities as well, e.g. type 1 diabetes mellitus and autoimmune thyroiditis. Management • gluten-free diet.  Gluten containing cereals include:  wheat: bread, pasta, pastry  barley: beer  whisky is made using malted barley. Proteins such as gluten are however removed during the distillation process making it safe to drink for patients with coeliac disease  rye  oats (some patients with coeliac disease appear able to tolerate oats)  Some notable foods which are gluten-free include:  Rice  Potatoes  corn (maize) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad follow-up • Tissue transglutaminase antibodies may be checked to check compliance with a gluten free diet. Associations and Complications If the patient still symptomatic despite being compliant with a gluten free diet  think of T Cell lymphoma • Enteropathy associated T Cell lymphoma (EATL)  is a form of Non-Hodgkin's lymphoma  coeliac disease increase the risk of developing EATL within the 1st year of diagnosis, however with a strict gluten free diet, the risk returns to that of the general population after this point. • Recurrent mouth ulcers • Hyposplenism (Splenic atrophy): seen in 50% of cases and responds poorly to gluten withdrawal. • selective Ig A deficiency • Small-bowel ulceration is associated with ulcerating jejunitis, but not colonic or gastric ulcers. MRCPUK-part-1-January 2016 exam: Why do patients with coeliac disease require regular immunisations?  Functional hyposplenism Whipple's disease Whipple's disease: jejunal biopsy shows deposition of macrophages containing Periodic acid-Schiff (PAS) granules • Whipple's disease is a rare multi-system disorder • Caused by Tropheryma whippelii, a Gram positive bacterium Epidemiology • more common in those who are HLA-B27 positive • most common in white males aged 40-50 years • rarely is described in women (M:F ratio 9:1). Pathophysiology • Malabsorption in Whipple disease is caused by macrophages in the small bowel lamina propria compressing the lacteals. Features • malabsorption: diarrhoea, weight loss • large-joint arthralgia • lymphadenopathy • skin: hyperpigmentation and photosensitivity • pleurisy, pericarditis • neurological symptoms (rare): ophthalmoplegia, dementia, seizures, ataxia, myoclonus, characteristic oculo-masticatory movements Investigation • jejunal biopsy shows deposition of macrophages containing Periodic acid-Schiff (PAS) granules • • • presence of T. whippelei DNA in tissue by PCR. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Management • oral co-trimoxazole for a year is thought to have the lowest relapse rate, sometimes preceded by a course of IV penicillin • other option:  initial two week course of parenteral penicillin and streptomycin; followed by a prolonged course (one year) of tetracycline. Tropical Sprue • most common in the Carribbean and the Far-East.  occurs in tropical regions, predominantly central America and South-Eastern Asia. • characterized by a picture of small intestinal malabsorption and the cause is thought to be infectious in origin.  It is thought that an initial GI infection results in small bowel stasis, opportunistic colonisation by organisms such as coliforms, and then a degree of villous atrophy leading to malabsorption and B12, folate deficiency.  deficiency in folate contributes to greater mucosal injury. Features • Patients classically have a history of recent travel to a tropical area • present with indigestion, cramps within 2 or 3 weeks after an acute enteric infection. • Megaloblastic anemia due to folate or B12 deficiency is a common finding. Diagnosis: • Jejunal biopsy reveals:  Mild villous atrophy  ↑↑ villous crypts  Mononuclear cellular infiltrates  Enlarged epithelial cells  Large nuclei caused by folate and/or vitamin B12 deficiency. • barium swallow may show thickening of mucosal folds Treatment: • The main treatment for tropical sprue is broad-spectrum antibiotics (i.e., tetracycline) and vitamin supplementation (i.e., folic acid, vitamin B12).  Tetracyclines 250mg qds up to 6 months  Ampicillin may be used as an alternative in patients who are intolerant of tetracyclines.  Folate and B12 deficiencies should also be corrected • Complete recovery is possible with appropriate therapy. Irritable bowel syndrome (IBS) Pathophysiology • Studies looking at dietary restriction followed by reintroduction suggest food intolerance in 30-60% of patients with IBS. • increased intestinal contractile and electrical activity with increased sensitivity to visceral stimulation. • Proliferation of intestinal mast cells is a proposed mechanism by which food and stress may trigger symptoms. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Feature • features supporting a diagnosis of IBS include:  A long history with a relapsing and remitting course  Exacerbations triggered by life events  Symptoms aggravated by eating, and  Coexistence of anxiety and depression. • features which suggest organic disease rather than IBS include:  Fever  Onset of symptoms in old age  Progressive deterioration  Weight loss  Rectal bleeding (not due to fissures or haemorrhoids)  Steatorrhoea, and  Dehydration. Diagnosis (NICE 2008) • The diagnosis of IBS should be considered if the patient has had the following for at least 6 months: abdominal pain, and/or bloating, and/or change in bowel habit • A positive diagnosis of IBS should be made if the patient has abdominal pain relieved by defecation or associated with altered bowel frequency stool form, in addition to 2 of the following 4 symptoms: altered stool passage (straining, urgency, incomplete evacuation) abdominal bloating (more common in women than men), distension, tension or hardness symptoms made worse by eating passage of mucus • Features such as lethargy, nausea, backache and bladder symptoms may also support the diagnosis • Red flag features should be enquired about: rectal bleeding unexplained/unintentional weight loss family history of bowel or ovarian cancer onset after 60 years of age • Also on clinical examination the other 'red flag' indicators are:  Anaemia  Abdominal mass  Rectal mass, and  Inflammatory markers for inflammatory bowel disease. • Suggested primary care investigations are:  full blood count  ESR/CRP  coeliac disease screen (tissue transglutaminase antibodies) Management (NICE 2015). First-line pharmacological treatment - according to predominant symptom • pain: antispasmodic agents  Pinaverium is used to reduce the pain duration associated with (IBS). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • diarrhoea: loperamide is first-line • constipation: laxatives but avoid lactulose • For patients with constipation who are not responding to conventional laxatives linaclotide may be considered, if:  optimal or maximum tolerated doses of previous laxatives from different classes have not helped and  they have had constipation for at least 12 months Second-line pharmacological treatment • low-dose tricyclic antidepressants (e.g. amitriptyline 5-10 mg) are used in preference to selective serotonin reuptake inhibitors Other management options • psychological interventions - if symptoms do not respond to pharmacological treatments after 12 months and who develop a continuing symptom profile (refractory IBS), consider referring for cognitive behavioural therapy, hypnotherapy or psychological therapy • complementary and alternative medicines: 'do not encourage use of acupuncture or reflexology for the treatment of IBS' General dietary advice • have regular meals and take time to eat • avoid missing meals or leaving long gaps between eating • drink at least 8 cups of fluid per day, especially water or other non-caffeinated drinks such as herbal teas • restrict tea and coffee to 3 cups per day • reduce intake of alcohol and fizzy drinks • consider limiting intake of high-fibre food (for example, whole meal or high-fibre flour and breads, cereals high in bran, and whole grains such as brown rice) • reduce intake of 'resistant starch' often found in processed foods • limit fresh fruit to 3 portions per day • for diarrhoea, avoid sorbitol • for wind and bloating consider increasing intake of oats (for example, oat-based breakfast cereal or porridge) and linseeds (up to one tablespoon per day). Fibre • There are two main types of fibre - soluble fibre (which dissolves in water) and insoluble fibre. • It is soluble fibre rather than insoluble fibre that seems to help ease symptoms in some cases.  A diet high in soluble fibre is often prescribed for the treatment of IBS  Dietary sources of soluble fibre include oats, ispaghula (psyllium), nuts and seeds, some fruit and vegetables and pectins.  A fibre supplement called ispaghula powder is also available from pharmacies and health food shops. This seems to be the most beneficial type of supplement. • Insoluble fibre is chiefly found in corn (maize) bran, wheat bran and some fruit and vegetables. In particular, avoid bran as a fibre supplement. Malnutrition • Pathophysiology  Food intolerance (in 30-60% of patients with (IBS).)  increased intestinal contractile and electrical activity with increased sensitivity to visceral stimulation.  Proliferation of intestinal mast cells is a proposed mechanism by which food and stress may trigger symptoms. • definition: NICE define malnutrition as the following: a Body Mass Index (BMI) of less than 18.5; or Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad unintentional weight loss greater than 10% within the last 3-6 months; or a BMI of less than 20 and unintentional weight loss greater than 5% within the last 36 months • Around 10% of patients aged over 65 years are malnourished, the vast majority of those living independently, i.e. not in hospital or care/nursing homes. • Screening for malnutrition if mostly done using MUST (Malnutrition Universal Screen Tool).  it should be done on admission to care/nursing homes and hospital, or if there is concern. For example an elderly, thin patient with pressure sores (The Waterlow score is used to estimate the risk of a patient developing a pressure sore)  it takes into account BMI, recent weight change and the presence of acute disease  categorises patients into low, medium and high risk • Management of malnutrition is difficult. NICE recommend the following points:  dietician support if the patient is high-risk  a 'food-first' approach with clear instructions (e.g. 'add full-fat cream to mashed potato'), rather than just prescribing oral nutritional supplements (ONS) such as Ensure  if ONS are used they should be taken between meals, rather than instead of meals Waterlow score is used to estimate the risk of a patient developing a pressure sore, this includes an assessment of malnutrition as one of it's components Lactose intolerance • Lactase acts on lactose to generate glucose and galactose. • more common in Asian, and East Asian races.  South-east Asian people, like the Vietnamese, Thais, and Chinese, have a very high prevalence of lactase deficiency. • Any GI infection may precipitate the diagnosis of lactose intolerance, as gut flora may be altered by large bowel bacterial or viral load, as well as the treatment of infection. • A change from an Eastern to a Western high lactose diet may also reveal lactose intolerance. • Many patients labelled as having IBS may suffer from undiagnosed lactose intolerance • many medications use lactose as a binding and stabilising agent. • Diagnosed with a DNA assay of the lactase gene along with a hydrogen breath test. • Treatment of lactose intolerance is with careful replacement of lactase. Functional constipation • The Rome III criteria for functional constipation is as follows (it must include two or more of the following):  straining during at least 25% of defecations  lumpy or hard stools in at least 25% of defecations  sensation of incomplete evacuation for at least 25% of defecations  sensation of anorectal obstruction/blockage for at least 25% of defecations  manual manoeuvres to facilitate at least 25% of defecations (e.g., digital evacuation, support of the pelvic floor)  fewer than three defecations per week  loose stools are rarely present without the use of laxatives, and  insufficient criteria for irritable bowel syndrome. • These criteria must be fulfilled for the last three months with symptom onset at least six months prior to diagnosis. 019 - Chapter 3 019 Chapter 3 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Energy from food • The amount of energy that may be derived from 1 gram of food is as follows:  carbohydrates: 4 kcal  protein: 4 kcal  fat: 9 kcal • The amount of energy a food product contains is expressed in calories (kcal). In simple terms, per unit weight, fats contain twice as many calories as protein or carbohydrates. Protein losing enteropathy Definition • excessive leakage of plasma proteins into the lumen of the GIT • refers to any condition of the GIT that results in a net loss of protein from the body. Causes • lymphatic obstruction, (lymphatic leakage secondary to obstruction.): e.g:  primary intestinal lymphangiectasia,  conditions associated with venous stasis such as right-sided heart failure. • mucosal disease:  inflammatory exudation through mucosal damage:  inflammatory bowel diseases,  NSAID enteropathy,  GI malignancy.  increased permeability from non-erosive mucosal disease  amyloidosis,  GI infections,  rheumatic diseases, Features • The most common presenting symptom is swelling of the legs due to decreased plasma oncotic pressure.  bilateral oedema from hypoproteinaemia is generalised and may be seen in the periorbital region as well as in the extremities • diarrhoea Investigations • Measurement of α1-Antitrypsin in a sample of faeces  the most appropriate to confirm the diagnosis  Albumin is degraded by proteases in the gut; however, α1-antitrypsin is a plasma protein that is resistant to degradation by proteases (it is a protease inhibitor) and its measurement can indicate leakage of plasma proteins into the gut. • Serum albumin  albumin level <20 g/L (<2 g/dL) is usually required to cause peripheral oedema  Finding of low serum albumin prompts investigation to determine whether the aetiology is due to loss in the urine, hepatic synthetic dysfunction, or gastrointestinal losses. History of significant diarrhoea in conjunction with ruling out alternative causes makes the diagnosis. Treatment • Treat the underlying disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Enteral feeding Definition • Enteral feeding = any route of feeding that utilizes the patient's GI tract to deliver appropriate nutrition (differs from parenteral nutrition, which delivers nutrition intravenously, completely bypassing the GI tract) Enteral nutrition VS parenteral nutrition • Enteral nutrition is preferred to parenteral nutrition whenever feasible - if the GI tract is functional, use it - benefits include improved absorption, immunological benefits, and helps maintain a healthy and functional GI tract Routes of enteral feeding: • Short-term: nasogastric tubes  Consider gastric feeding unless upper GI dysfunction (then for duodenal or jejunal tube) • Long-term (> 2–3 weeks): gastrostomy or jejunostomy tubes  Gastric feeding > 4 weeks consider long-term gastrostomy  gastrostomy tube:  mainly used in cases of proximal gastrointestinal tract obstruction to facilitate feeding.  If it withdrew accidentally, reinsertion of the tube as soon as possible would be the preferred action. However, it needs a good level of expertise to do this.  Therefore, in this case, insertion of a Foley's catheter is the best practice as it is easy to do, and this should preserve the opening of the skin and anterior abdominal wall muscles until a someone experience enough is available to re-insert the gastrostomy tube. How to check NG placement? • Check NG placement using aspiration and pH (check post pyloric tubes with AXR)  The first line investigation to confirm correct placement of a nasogastric tube is  pH testing of gastric aspirate using indicator paper  If the pH is between 1 and 5.5 then this is confirmatory evidence of correct placement.  If the pH reading is between 5.5 and 6 it is recommended that a second independent reading is made to confirm.  if aspirate pH ≥6  nasogastric feeding tubes feeding cannot be commenced  If there is any doubt, then an appropriately interpreted chest x ray is a second line investigation. Key points • Identify patients as malnourished or at risk (see below) • Identify unsafe or inadequate oral intake with functional GI tract • Consider bolus or continuous feeding into the stomach • PEG can be used 4 hours after insertion but should not be removed until >2 weeks after insertion. Indications • pre-operative  Surgical patients due to have major abdominal surgery: if malnourished, unsafe swallow/inadequate oral intake and functional GI tract then consider pre-operative enteral feeding. • ITU patients  ITU patients should have continuous feeding for 16-24h (24h if on insulin)  Consider motility agent in ITU or acute patients for delayed gastric emptying. If this doesn't work, then try post pyloric feeding or parenteral feeding. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Contraindications • Mechanical ileus, bowel obstruction • Acute abdomen (e.g., severe pancreatitis, peritonitis) • Upper GI bleeding • Mucositis • Severe substrate malabsorption • Congenital GI anomalies • High-output fistulas • Nonfunctional GI tract (e.g., gastroschisis, short bowel syndromes) Patients identified as being malnourished • BMI < 18.5 kg/m2 • unintentional weight loss of > 10% over 3-6/12 • BMI < 20 kg/m2 and unintentional weight loss of > 5% over 3-6/12 AT RISK of malnutrition • Eaten nothing or little > 5 days, who are likely to eat little for a further 5 days • Poor absorptive capacity • High nutrient losses • High metabolism Causes of diarrhoea in patients receiving enteral nutrition: • hyperosmolar feed • bacterial contamination • low feed temperature • reduced intestinal absorptive capacity • too rapid or irregular administration • lactose intolerance. Causes of constipation in patients receiving enteral nutrition: • Inadequate fluid replacement Refeeding syndrome Refeeding syndrome  hypophosphataemia Definition: • Refeeding syndrome describes the metabolic abnormalities which occur on feeding a person following a period of starvation (≥ 5 days). Pathophysiology: • When malnourished, the body uses endogenous fuel stores for energy and maintains serum electrolytes by redistribution from intracellular spaces. • Exogenously administered glucose results in insulin release. This results in rapid uptake of glucose, potassium, phosphate and magnesium into cells, with dramatic falls in the extracellular concentrations. Features • Hypophosphataemia (symptoms are due predominantly to hypophosphataemia,) • hypokalaemia • hypomagnesaemia • abnormal fluid balance • Due to understood reasons, the body retain fluid  ↑ extracellular space  ↑cardiac work  acute heart failure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • neurological problems resulting in:  Oedema  Lethargy  Confusion  Coma  Convulsions, and  Death. • Nausea and diarrhoea is also common due to gut intolerance. Prevention (NICE 2006) • Identify patients at a high-risk of developing refeeding syndrome  Patients are considered high-risk:  if one or more of the following: BMI < 16 kg/m2 unintentional weight loss >15% over 3-6 months little nutritional intake > 10 days hypokalaemia, hypophosphataemia or hypomagnesaemia prior to feeding (unless high)  If two or more of the following: BMI < 18.5 kg/m2 unintentional weight loss > 10% over 3-6 months little nutritional intake > 5 days history of: alcohol abuse, drug therapy including insulin, chemotherapy, diuretics and antacids • Decrease oral calorific intake to less than 50% of the recommended amount.  NICE recommend that if a patient hasn't eaten for > 5 days, aim to re-feed at no more than 50% of requirements for the first 2 days.  limit initial dietary intake to 1000–1500 kcal/day Management • Correcting electrolyte abnormalities aggressively  it may be preferable to provide electrolyte replenishment prior to commencing calorific intake A patient with a history of alcoholism is admitted for re-feeding. Which component of the feed may need to be reduced to avoid encephalopathy?  Protein  protein content of feeds should be strictly managed in patients with alcoholism.  Protein rich feeds  ↑ total ammonia burden ↑ risk of encephalopathy. Melanosis coli • Melanosis coli is a disorder of pigmentation of the bowel wall. • Causes  It is associated with laxative abuse, especially anthraquinone compounds such as senna  This phenomenon is seen in over 70% of persons who use anthraquinone laxatives (for example, cascara sagrada, senna, and frangula) within several months of use.  Also alternative "medicine" drugs contain ingredients like cascara which contain anthraquinones.  The modern laxatives such as liquid paraffin and polyethylene glycol do not cause these changes. • Pathophysiology Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Chronic use of anthraquinone laxatives cause injury to the colonic epithelium, with generation of lipofuscin pigment. This pigment is subsequently engulfed by the macrophages to give rise to the histological picture. • Diagnosis  Melanosis coli is a histological diagnosis made from rectal biopsy material which shows numerous macrophages filled with brown pigment within the lamina propria.  Histology demonstrates pigment-laden macrophages  The macroscopic appearance varies from deep black pigmentation to reticulated brown discolouration. • Treatment  The condition is benign and reversible on stopping the laxatives. Mesenteric ischaemia (ischaemic colitis) The two most common symptoms of ischemic colitis are severe abdominal pain and hematochezia (passage of fresh blood through the anus). • Mesenteric ischaemia is primarily caused by arterial embolism resulting in infarction of the colon. • More likely occur in areas such as the splenic flexure that are located at the borders of the territory supplied by the superior and inferior mesenteric arteries.  especially the superior mesenteric artery. Predisposing factors • increasing age • atrial fibrillation • other causes of emboli: endocarditis • cardiovascular disease risk factors: smoking, hypertension, diabetes Features • abdominal pain  abdominal pain exacerbated by eating is suggestive of mesenteric ischaemia.  Pain that is disproportionately severe compared to the abdominal findings is characteristic. • rectal bleeding • diarrhoea • fever • bloods typically show an elevated WBC associated with acidosis • Acute mesenteric ischaemia is a cause of elevated amylase that is unrelated to pancreatitis. • Elevated serum lactate also suggests ischaemic aetiology. Diagnosis • CT scanning: the imaging modality of choice, with a sensitivity and specificity over 90%.  If the presentation is clearly of acute bowel ischaemia then a CT angiography would be the best test.  the presentation is consistent with several other possible causes of bloody diarrhoea and abdominal pain (i.e. acute colitis), Flexible sigmoidoscopy would be the best investigation - safer than colonoscopy (relative contraindication in active colitis), allowing biopsies to be taken and the viewing of a possible pseudomembrane.  Occasionally the mucosa has a characteristic appearance.  Biopsies show ulceration and a polymorphonuclear infiltrate.  Haemosiderin-laden macrophages are characteristic but uncommon. • Angiography: if the diagnosis is in doubt. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Mucosal edema can be seen as the thumbprinting sign on plain abdominal radiograph and barium enema. • Flexible sigmoidoscopy  The finding of ulceration which spares the rectum is typical  ulceration extending to the splenic flexure corresponds with the arterial supply of the inferior mesenteric artery. Management • supportive care • balloon angioplasty and stenting  the preferred treatment for hemodynamically stable patients with acute mesenteric ischemia who do not present with signs or symptoms of advanced intestinal ischemia (peritonitis, sepsis) because this procedure is minimally invasive and studies suggest similar efficacy to open surgical treatment. • laparotomy and bowel resection  laparotomy is reserved for acutely ill patients who are hemodynamically unstable or have evidence of peritonitis (rebound tenderness and involuntary guarding). MRCPUK-part-1-jan-2018: Which part of the bowel is most prone to ischaemic colitis?  Splenic flexure  because it receives its blood supply from terminal branches of the superior mesenteric and inferior mesenteric arteries, creating a watershed area. Small bowel bacterial overgrowth syndrome (SBBOS) Definition • (SBBOS) is a disorder characterised by excessive amounts of bacteria in the small bowel resulting in gastrointestinal symptoms of bloating, abdominal distension and diarrhoea .Risk factors for SBBOS • neonates with congenital gastrointestinal abnormalities • scleroderma • absent gastric acid secretion • small bowel diverticulae • fistulae between the small and large bowel • small bowel strictures • diabetes mellitus (diabetic neuropathy) • adhesions. Features: It should be noted that many of the features overlap with irritable bowel syndrome: • chronic diarrhoea • bloating, flatulence • abdominal pain • Biochemically there is classically a low vitamin B12 level and normal or elevated folate level as a result of bacterial metabolism of B12 to folate. Steatorrhoea and flatulence are classic presenting features of small bowel bacterial overgrowth. Investigation • The gold standard investigation of bacterial overgrowth is small bowel aspiration and culture • Other possible investigations include:  hydrogen breath test Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  14C-xylose breath test  14C-glycocholate breath test: used increasingly less due to low specificity • In practice many clinicians give an empirical course of antibiotics as a trial Management • correction of underlying disorder • antibiotic therapy: rifaximin is now the treatment of choice due to relatively low resistance. • Co-amoxiclav or metronidazole are also effective in the majority of patients. Spontaneous bacterial peritonitis (SBP) • (SBP) is a form of peritonitis usually seen in patients with ascites secondary to liver cirrhosis. most commonly seen in alcoholic cirrhosis • typically caused by aerobic gram negative bacteria. (usually Escherichia coli, Klebsiella)  sponteanous bacterial peritonitis is almost without exception caused by a single organism. • Diagnosis  paracentesis: neutrophil count > 250 cells/ul  Sending some ascitic fluid in blood culture bottles increases the yield.  high serum ascites albumin gradient (SAAG) (>11 g/L) ascitic fluid and the white cells will be predominantly neutrophils (>500 WBCs/mm3and >50% neutrophils). • Management:  intravenous cefotaxime is usually given  other option: IV piperacillin-tazobactam  It is important to start antibiotics promptly pending the results of an ascitic analysis.  Antibiotic prophylaxis should be given if:  patients who have had an episode of SBP  patients with fluid protein <15 g/l and either Child-Pugh score of at least 9 or hepatorenal syndrome  Norfloxacin is recommended for short term prophylaxis. • Prognosis  Alcoholic liver disease is a marker of poor prognosis in SBP.  Has poor prognostic significance with a one-year survival after a diagnosis of between 30-50%.  An episode of spontaneous bacterial peritonitis carries a two-year mortality rate of 50%. • Differential diagnosis  pancreatic ascites (eg. Acute pancreatitis)  elevated fluid amylase helps confirm this (particularly the characteristic way in which it is in excess of the serum value).  The low lactate dehydrogenase (<225 IU/L) helps exclude a polymicrobial ascitic fluid infection which has similar findings  no mention of finding any organisms on the Gram stain.  Bacterial growth occurs in about 80% of specimens with polymorphonuclear (PMN) count of >250 cells/mm3.  Ascitic fluid analysis demonstrates a low serum albumin ascites gradient (SAAG) (<11 g/L). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Cirrhosis and spontaneous bacterial peritonitis are both characterised by a high SAAG (>11 g/L) and are differentiated from each other on the basis of white cell count, Gram stain and culture results.  secondary bacterial peritonitis (ruptured viscus or loculated abscess).  Lactate dehydrogenase >225mU/L, glucose <50mg/dL, total protein >1g/dL and multiple organisms on gram stain suggest secondary bacterial peritonitis (ruptured viscus or loculated abscess).  Chylous ascites  A high level of triglycerides confirms chylous ascites.  elevated amylase level suggest pancreatitis or gut perforation.  elevated bilirubin level suggest biliary or gut perforation. Abdominal tuberculosis (Tubercular peritonitis) Features • risk of tuberculosis • should always be suspected in the severely malnourished patient • Constitutional symptoms are common, including fever, anorexia and weight loss. • extensive lymphadenopathy. Investigations • The cut-off for considering ascitic fluid to be exudative would be 30 g/l, but in the setting of hypoproteinaemia, this is less relevant. • The marked increase in white cell count is strongly supportive of a diagnosis of infective ascites. Diagnosis • The most sensitive test to establish the diagnosis is visually directed (laparoscopic) peritoneal biopsy with histology and culture for TB. • Although PCR of ascitic cells/fluid has increased non-invasive diagnosis, the best yield remains from laparoscopy and peritoneal biopsy, which in recent series led to a diagnosis in 95% of cases. • An alternative in this setting might be to perform fine needle aspiration or excision biopsy of one of the palpable lymph nodes. • The diagnostic yield of ascitic culture for mycobacteria is very low (<10%) even with closed culture systems. Which investigation is most likely to yield a diagnosis?  Laparoscopy and peritoneal biopsy VIPoma VIP (vasoactive intestinal peptide) • source: small intestine, pancreas • stimulation: neural • actions:  stimulates water and electrolytes secretion by pancreas and intestines,  inhibits gastric acid and pepsinogen secretion  peripheral vasodilation ,  potentiates acetylcholine action on salivary glands. VIPoma: WDHA syndrome Watery Diarrhea, Hypokalemia, Achlorhydria. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology VIPoma • 90% arise from pancreas • large volume diarrhoea, secretory diarrhoea ('pancreatic cholera')  The normal daily stool weight is 250–300 g  A stool volume of <700 mL/d excludes the diagnosis of VIPoma.  What is the most likely mechanism of diarrhoea?  Secretory due to enterocyte stimulation • weight loss • dehydration • hypokalaemia, hypochlorhydria. Achlorhydria • hypokalaemic acidosis (loss of alkaline secretions) • mildly raised glucose. • raised plasma pancreatic polypeptide • abdominal colic • cutaneous flushing • raised plasma VIP Volvulus • Volvulus defined as torsion of the colon around it's mesenteric axis resulting in compromised blood flow and closed loop obstruction. • Sigmoid volvulus (around 80% of cases) describes large bowel obstruction caused by the sigmoid colon twisting on the sigmoid mesocolon. A similar problem may also occur at the caecum (20% of cases). • In most people (around 80%) the caecum is a retroperitoneal structure so not at risk of twisting. In the remaining minority there is however developmental failure of peritoneal fixation of the proximal bowel putting these patients at risk of caecal volvulus. Sigmoid volvulus associations Caecal volvulus associations • older patients • chronic constipation • Chagas disease • neurological conditions e.g. Parkinson's disease, Duchenne muscular dystrophy • psychiatric conditions e.g. schizophrenia  all ages  adhesions  pregnancy Features • constipation • abdominal bloating • abdominal pain • nausea/vomiting Diagnosis • usually diagnosed on the abdominal film  The most helpful early diagnostic tool of intestinal obstruction is the plain abdominal X-ray. • sigmoid volvulus:  large bowel obstruction (large, dilated loop of colon, often with air-fluid levels) + coffee bean sign (omega sign) • caecal volvulus:  small bowel obstruction may be seen Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sigmoid volvulus The most important feature of a sigmoid volvulus rather than a large redundant distended loop of sigmoid colon is the absence of haustra. Management • sigmoid volvulus:  rigid sigmoidoscopy with rectal tube insertion • caecal volvulus:  management is usually operative. Right hemicolectomy is often needed Imaging in bowel obstruction Looking for small and large bowel obstruction is one of the key indications for performing an abdominal film. Small bowel Large bowel Maximum normal diameter = 35 mm Valvulae conniventes extend all the way across Maximum normal diameter = 55 mm Haustra extend about a third of the way across Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Small bowel obstruction CT from a patient with small bowel obstruction secondary to adhesions. Distension of small bowel loops proximally (duodenum and jejunum) with abrupt transition to intestinal segment of normal caliber. Presence of small amount of free fluid intracavity. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Radiology: pneumoperitoneum • An erect chest x-ray is a useful investigation in patients with an acute abdomen as it may demonstrate free air in the abdomen (pneumoperitoneum) - an abnormal finding suggestive of a perforated abdominal viscus (e.g. a perforated duodenal ulcer). • Rigler's sign (double wall sign) may be seen on an abdominal film. CT is now the preferred method for detecting free air in the abdomen. Erect chest x-ray with air visible under the diaphragm on both sides. Abdominal x-ray demonstrates numerous loops of small bowel outlined by gas both within the lumen and free within the peritoneal cavity. Ascites is also seen, with mottled gas densities over bilateral paracolic gutters. In a normal x-ray only the luminal surface (blue arrows) should be visible outlined by gas. The serosal surface (orange) should not be visible as it is normally in contact with other intra-abdominal content of similar density (other loops of bowel, omentum, fluid). In this case gas abuts the serosal surface rendering it visible. As this film has been obtained i ( t b f i fl id l l ) it l i th li tt ith fl id i d i Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Dumping syndrome • occur in up to 50% of patients who have undergone gastric bypass when high levels of simple carbohydrates are ingested. • early dumping syndrome  rapid onset , usually within 15 minutes of eating  results from rapid emptying of food into the small bowel.  Due to the hyperosmolality of the food there are rapid fluid shifts from the plasma into the bowel leading to hypotension and a sympathetic nervous system response.  The presenting symptoms are often colicky abdominal pain, diarrhoea, nausea, and tachycardia.  Treatment:  usually self-limiting and resolves within 7 to 12 weeks.  Patients should avoid foods high in simple sugar and replace them with high fibre, complex carbohydrates and protein-rich foods.  Small, frequent meals  leaving a 30 minute gap between solids and liquids • Late dumping syndrome  occurs as a result of the hyperglycaemia and subsequent insulin response leading to hypoglycaemia which takes place two to three hours after a meal.  Symptoms include dizziness, fatigue, sweating, and weakness.  Management is similar to early dumping syndrome. Small bowel lymphoma Pain is the most common presenting feature of small bowel lymphoma • Lymphoma comprises 15-20% of all small bowel tumours with the ileum most commonly affected. • Primary lymphomas of the small bowel include  mucosa-associated lymphoid tissue (MALT) lymphoma  diffuse large B cell lymphoma  immunoproliferative small intestinal disease (IPSID), and  enteropathy-associated T cell lymphoma (EATL). • Patients with coeliac disease are at higher risk of T cell lymphoma. • There is a male predominance • the median age at presentation of 25 years. • Patients may present with:  anorexia  weight loss  nausea and vomiting  chronic pain  abdominal fullness  early satiety, and  constipation.  Findings on CT vary and may include multiple tumours, narrowing of the bowel lumen and mesenteric nodal masses. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pancreatic conditions Acute pancreatitis • acute inflammation of the pancreas  release of exocrine enzymes  auto-digestion. Pathophysiology • Sequence of events leading to pancreatitis:  Intrapancreatic activation of pancreatic enzymes: secondary to pancreatic ductal outflow obstruction (e.g., gallstones, cystic fibrosis) or direct injury to pancreatic acinar cells (e.g., alcohol, drugs)  Enzymatic autodigestion of pancreatic parenchyma  Attraction of inflammatory cells (neutrophils, macrophages) → release of inflammatory cytokines → pancreatic inflammation (pancreatitis) • Sequelae of pancreatitis (depending on the severity of pancreatitis)  Capillary leakage: Release of inflammatory cytokines and vascular injury by pancreatic enzymes → vasodilation and increased vascular permeability → shift of fluid from the intravascular space into the interstitial space (third space loss) → hypotension, tachycardia→ distributive shock  Pancreatic necrosis: Uncorrected hypotension and third space loss → decreased organ perfusion → multiorgan dysfunction (mainly renal) and pancreatic necrosis  Hypocalcemia: Lipase breaks down peripancreatic and mesenteric fat → release of free fatty acids that bind calcium → hypocalcemia Causes Popular mnemonic is GET SMASHED • Gallstones  account for 50% of cases, with the majority of the rest being associated with alcohol.  For prediction of a biliary etiology, an ALT level has the highest positive predictive value of any biochemical test. • Ethanol  Amylase/lipase levels are markedly elevated in gallstone pancreatitis (thousands), whereas less increased in alcoholic (hundreds)  raised mean corpuscular volume (MCV) suggests chronic high alcohol use • Trauma • Steroids • Mumps (other viruses include Coxsackie B) • Autoimmune (e.g. polyarteritis nodosa), Ascaris infection • Scorpion venom • Hypertriglyceridaemia, Hyperchylomicronaemia, Hypercalcaemia,Hypothermia • ERCP (acute pancreatitis following ERCP should be treated with I.V fluids + analgesia) • Drugs (azathioprine, mesalazine, didanosine, bendroflumethiazide, furosemide, pentamidine, steroids, sodium valproate)  pancreatitis is 7 times more common in patients taking mesalazine than sulfasalazine Hypertriglyceridaemia (with level > 10 mmol/l) is a risk factor for acute pancreatitis The aetiology of acute pancreatitis should be determined in at least 80% of cases and no more than 20% should be classified as idiopathic The commonest causes in UK are gallstones and alcohol Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Hypertriglyceridaemia • Definitions:  hypertriglyceridaemia > 1.7 mmol/L.  Severe hypertriglyceridaemia >11.2-22.4 mmoL/L  very severe as > 22.4 mmol/L. • The third commonest cause of acute pancreatitis after alcohol and gallstones. • Considered a risk factor for pancreatitis when triglyceride levels are above 11.2 mmol/L. • In a patient with hypertriglyceridaemia and acute abdominal pain, an amylase should be checked to exclude acute pancreatitis. Features • Patients typically present with severe epigastric pain which radiates to the back, and vomiting. • there is often a systemic inflammatory response (SIRS) • Serum amylase is classically raised three or more times normal, • hypocalcaemia is relatively common. • Raised bilirubin and/or serum aminotransferase suggest underlying gallstones. • Cirrhosis results in a small shrunken liver and raised ALT and ALP (and gamma-GT if the cause is alcohol). • Rare features associated with pancreatitis include:  ischaemic (Purtscher) retinopathy - may cause temporary or permanent blindness • Skin changes (rare)  Cullen's sign: periumbilical ecchymosis and discoloration (bluish-red)  Grey Turner's sign: flank ecchymosis with discoloration  Fox's sign: ecchymosis over the inguinal ligament Marker of severity • CRP is now a widely used marker of severity in acute pancreatitis. • Other methods which have to correlate with prognosis include the Ranson criteria and APACHE II score Prognosis • Criteria of poor prognosis  There are a number of scoring systems which can be used to guide prognosis, but they are unreliable within the first 48 hours of the illness.  Ranson's scoring system reflect prognosis associated with acute pancreatitis. • Ranson's criteria on admission that signify a worse prognosis include:  Criteria present at 0 hours:  Age >55 years old - 1 point  WBC >16 ×109 - 1 point  Glucose >11.1 mmol/L - 1 point  LDH >350 U/L - 1 point  AST >250 U/L - 1 point  Criteria present at 48 hours:  Hematocrit fall of 10% or greater - 1 point  Urea rise of 1.8 mmol/L or more despite fluids - 1 point  Serum Calcium <2 mmol/L - 1 point  pO2 <60 mmHg - 1 point (PaO2 of < 8.0 kPa)  Base deficit >4 meq/L - 1 point  Fluid sequestration >6000 mL - 1 point • The mortality associated with severe acute pancreatitis  20%  often due to sepsis or multiorgan failure. • Hematocrit (Hct) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Should be conducted at presentation as well as 12 and 24 hours after admissions  ↑ Hct (due to hemoconcentration) indicates third space fluid loss and inadequate fluid resuscitation  ↓ Hct indicates the rarer acute hemorrhagic pancreatitis • The following portend a poor prognosis in patients with acute pancreatitis: WCC 15 Urea 16 Calcium <2.0 Glucose 10 CRP 150 Complications • ARDS (adult respiratory distress syndrome), • acute kidney injury • disseminated intravascular coagulation (DIC).  due to pancreatic enzymes entering the blood and acting on coagulation factors, thereby activating them. • Pancreatic pseudocyst Investigations • lab  Tests to confirm clinical diagnosis  Amylase is markedly raised, often in excess of four times the normal value.  nonspecific  Lipase: if ≥ 3 x the upper reference range → highly indicative of acute pancreatitis  More specific and preferred for the diagnosis  The enzyme levels are not directly proportional to severity or prognosis  Tests to assess severity  Hematocrit (Hct)  Should be conducted at presentation as well as 12 and 24 hours after admissions  ↑ Hct (due to hemoconcentration) indicates third space fluid loss and inadequate fluid resuscitation  ↓ Hct indicates the rarer acute hemorrhagic pancreatitis  WBC count  Blood urea nitrogen  ↑ CRP and procalcitonin levels  ↑ ALT • Images  Ultrasound  the most useful initial test  Main purpose: detection of gallstones and/or dilatation of the biliary tract (indicating biliary origin)  Signs of pancreatitis  Indistinct pancreatic margins (edematous swelling) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Peripancreatic build-up of fluid ; evidence of ascites in some cases  Evidence of necrosis, abscesses, pancreatic pseudocysts  CT with contrast  not routinely indicated  only when the diagnosis is in doubt  would be preferable to ultrasound in establishing the presence of inflammation (acute or chronic) of the pancreas and severity of disease  Abdominal x ray  has NO role in acute pancreatitis  Sentinel loop sign:  dilatation of a loop of small intestine in the upper abdomen (duodenum/jejunum)  Colon cut off sign:  gaseous distention of the ascending and transverse colon that abruptly terminates at the splenic flexure  Evidence of possible complications:  pleural effusions,  pancreatic calcium stones;  helps rule out intestinal perforation with free air  may demonstrate calcification in chronic pancreatitis. Follow-up: • All patients with persistent symptoms and greater than 30% pancreatic necrosis, and those with smaller areas of necrosis and clinical suspicion of sepsis, should undergo image guided fine needle aspiration to obtain material for culture 7–14 days after the onset of pancreatitis Treatment • supportive, and monitoring (often in the intensive care unit).  Fluid resuscitation: aggressive hydration with crystalloids (e.g., normal saline)  Analgesia: IV opioids (e.g., fentanyl)  Bowel rest (NPO)and IV fluids are recommended until the pain subsides  Nasogastric tube insertion:  not routinely recommended;  indicated in patients with vomiting and/or significant abdominal distention  Nutrition  Begin enteral feeding (oral/nasogastric/naso-jejunal) as soon as the pain subsides  Total parenteral nutrition:  only in patients who cannot tolerate enteral feeds (e.g., those with persistent ileus and abdominal pain) • if there is gallstones:  urgent ERCP when stable.  All should have a cholecystectomy either during the same admission or within four weeks depending on their clinical progress. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Systemic inflammatory response syndrome (SIRS) Causes • sepsis • pancreatitis Criteria • SIRS is defined as two or more of the following: Temperature more than 38°C or less than 36°C Heart rate more than 90 beats/min Respiratory rate more than 20 breaths/min or PaCO2 less than 4.3 kPa WBC count 12,000/mm3, less than 4000/mm3 , or more than 10% immature (bands) form. Management • resuscitation of the sick patient still follows the ABC algorithm: Airway Breathing Circulation.  Airway control and oxygen to maintain normal saturations is the first part of that algorithm.  Subsequent fluid resuscitation and treatment of the underlying cause can then be initiated.  The need for invasive monitoring and intensive care is then assessed, depending on the response to initial treatment. • Early goal-directed therapy (EGDT) in cases of SIRS or septic shock is becoming increasingly recognised as potentially beneficial.  EGDT aims to:  increase organ perfusion through restoration of mean arterial pressure using inotropes if necessary,  maintaining central venous pressure (CVP),  maintaining oxygenation  using SjVO2 (jugular venous oxygen saturation) as a guide to oxygen utilisation at the tissue level.  If fluids are not achieving haemodynamic stability, and there is hypoperfusion (indicated by oliguria or lactataemia)  the most appropriate course of action  central line  vigorous resuscitation is indicated.  Insertion of a central line allows measurement of CVP, SjVO2 and the use of inotropes.  SjVO2 higher than 70% is indicative of organ hypoperfusion, as oxygen is not being extracted. • Obtain blood cultures prior to antibiotic administration Pancreatic pseudocysts Definition • encapsulated collection of pancreatic fluid which develops 4 weeks after an acute attack of pancreatitis; can occur in both acute and chronic pancreatitis Pathophysiology • pancreatic secretions leak from damaged ducts → inflammatory reaction of surrounding tissue → encapsulation of secretions by fibrous tissue Clinical features • Often asymptomatic • Painless abdominal mass • Pressure effects • Gastric outlet obstruction (early satiety, non-bilious vomiting, abdominal pain) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Bile duct obstruction with jaundice Diagnostics • abdominal ultrasound/CT/MRI → extrapancreatic fluid collection withinwell-defined wall/capsule, no solid cyst components detectable Treatment • Surgical/endoscopic; ultrasound/CT-guided percutaneous drainage Chronic pancreatitis Definition • Chronic pancreatitis is an inflammatory condition, which can ultimately affect both the exocrine and endocrine functions of the pancreas. Causes • alcohol excess (80%)  what is the general mechanism by which alcohol induces the likely condition?  Alcohol increases acinar cell sensitivity to CCK (cholecystokinin), stimulating trypsinogen production in the cell • Unexplained (20%) • PRSS-1 mutation can cause a hereditary form of the disease.  It does this by allowing trypsin to be activated in the pancreas, thus causing enzymatic damage. • SPINK-1 mutation can cause a hereditary form of the disease.  It does this by allowing trypsin to be activated in the pancreas, thus causing enzymatic damage. Features • pain is typically worse 15 to 30 minutes following a meal • steatorrhoea:  symptoms of pancreatic insufficiency usually develop between 5 and 25 years after the onset of pain  Late manifestation (after 90% of the pancreatic parenchyma is destroyed) • diabetes mellitus develops in the majority of patients. It typically occurs more than 20 years after symptom begin Investigation • abdominal x-ray shows pancreatic calcification in 30% of cases. • CT is more sensitive at detecting pancreatic calcification.  Sensitivity is 80%, specificity is 85%  More sensitive in moderate to advanced chronic pancreatitis  Malabsorption is only present in moderate to advanced chronic pancreatitis  abnormalities include:  pancreatic calcification,  pseudocyst formation and  ductal distortion.  CT scanning is much less effective in the diagnosis of early chronic pancreatitis and a normal scan does not exclude the diagnosis. • functional tests: faecal elastase may be used to assess exocrine function if imaging inconclusive • Both 72-hour faecal fat estimation and D-xylose absorption testing are used for their ability to indicate the presence, or absence, of malabsorption, neither is diagnostic of an underlying condition.  associated with normal urinary D-xylose test findings Management • pancreatic enzyme supplements  Pancrelipase (Creon) • Analgesia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  In a patient with chronic liver disease presented with features of decompensation associated with chronic pancreatitis  Naloxone  Patients with alcoholic liver disease are often surprisingly sensitive to opiate analgesia which should only be used with caution. • antioxidants: limited evidence base - one study suggests benefit in early disease Complications • Pancreatic pseudocysts • Splenic vein thrombosis  Occur in 10% of patients with chronic pancreatitis  Pathophysiology: inflammation of the splenic vein → thrombus formation → leftsided portal hypertension → gastric varices  Clinical features: can present with upper GI bleeding, ascites, and splenomegaly  Diagnosis: ultrasound with doppler, CT/MR angiography  Treatment  Acute: anticoagulation and/or thrombectomy  Chronic and symptomatic: splenectomy • Pancreatic ascites • Pancreatic diabetes • Pancreatic cancer (especially in patients with hereditary pancreatitis) Pancreatic cancer • Pancreatic cancer is often diagnosed late as it tends to present in a non-specific way. • Over 80% of pancreatic tumours are adenocarcinomas • typically occur at the head of the pancreas.  most often found in the ductal cells in the head of the pancreas. Associations • increasing age • smoking • diabetes • chronic pancreatitis (alcohol does not appear an independent risk factor though) • hereditary non-polyposis colorectal carcinoma • multiple endocrine neoplasia • BRCA2 gene • Jewish or African descent. Features • classically painless jaundice • however, patients typically present in a non-specific way with anorexia, weight loss, epigastric pain • loss of exocrine function (e.g. steatorrhoea) • atypical back pain is often seen  the first symptom is often pain that radiates to the back.  because it is found very late when it has already impinged on other structures. • migratory thrombophlebitis (Trousseau sign) is more common than with other cancers  Migratory thrombophlebitis causes recurrent tender, palpable small blood clots that come and go in various locations on the body, Investigation • ultrasound has a sensitivity of around 60-90% • high resolution CT scanning is the investigation of choice if the diagnosis is suspected • Carbohydrate Antigen 19-9 (CA-19-9) is a tumour marker is usually used to monitor response to treatment and possible recurrance, rather than for diagnosis. Management • less than 20% are suitable for surgery at diagnosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • a Whipple's resection (pancreaticoduodenectomy) is performed for resectable lesions in the head of pancreas.  Side-effects of a Whipple's include dumping syndrome and peptic ulcer disease • adjuvant chemotherapy is usually given following surgery • ERCP with stenting is often used for palliation  relief of symptoms as soon as possible is the main objective of therapy.  Stenting relieves symptoms of itching and reverses jaundice in about 85% of patients.  Stents can be inserted during an ERCP or percutaneously in those with extensive disease or in those otherwise unsuitable for surgery. Prognosis • It has a very high mortality rate (approximately 1 year from diagnosis), usually because it is found very late when it has already impinged on other structures. Biliary conditions Ascending cholangitis • Ascending cholangitis is a bacterial infection of the biliary tree. • The most common predisposing factor is gallstones. Features • Charcot's triad (occurs in about 20-50% of patients) right upper quadrant (RUQ) pain, (70%) fever (the most common feature, seen in 90%) jaundice (60%) • hypotension and confusion are also common  Combining these two additional symptoms to Charcot’s triad results in Reynold’s pentad. • elevated alkaline phosphatase and elevated direct bilirubin suggest obstruction of the biliary tree Investigation • The initial imaging study is ultrasonography. • The gold standard for diagnosis is (ERCP) endoscopic retrograde cholangiopancreatography. Management • intravenous antibiotics • endoscopic retrograde cholangiopancreatography (ERCP) after 24-48 hours to relieve any obstruction Gallstones (Cholelithiasis) Risk factors for biliary stones • Cholesterol gallstones are thought to arise as a result of a triple defect: Super saturation of gallbladder bile (high in cholesterol, low in bile salts) Increased rate of cholesterol nucleation in the gallbladder Reduction in gallbladder contractility • Predisposing factors to gallstone formation:  Older age  Female sex (oestrogens)  Oral contraceptive use  Cirrhosis (bile pigment stones)  ileal resection (by reducing entero-hepatic circulation and increasing bile salt loss) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Clofibrate (by increasing biliary supersaturation) rapid weight loss  Cholestyramine (by binding bile salts) Crohn's disease Features • most will be asymptomatic • Classic symptoms include biliary colic, nausea, and/or vomiting biliary colic: sharp, colicky pain made worse with fatty food due to ↑ release of CCK contraction of gallbladder Investigation • liver function tests : obstructive jaundice • Ultrasound abdominal/right upper quadrant ultrasound is the test of choice for gallstone disease  ultrasound finding of a common bile duct dilatation is suggestive of an obstructing stone Whilst ultrasound is a good preliminary investigation for common bile duct stones it lacks sensitivity.  The sensitivity of ultrasound for detecting stones is significantly reduced during an episode of acute pancreatitis (around 70%) so repeating an ultrasound is a reasonable suggestion as it would perform better in the current clinical context than it had done previously. However, its ability to detect CBD stones remains poor.  MRI is highly effective in confirming the presence of common bile duct stones, endoscopic ultrasound (EUS) is a suitable alternative.  CT does not perform well when compared to MRI. • Radiographs cannot rule out stone with negative radiograph because cholesterol stones are radiolucent pigment stones are radiopaque so may show up on radiograph • Endoscopic retrograde cholangiopancreatography (ERCP), along with intra-operative cholangiography, is considered the gold standard for diagnosis of common bile duct stones. However it is an invasive procedure associated with significant morbidity; thus it should ideally be performed as a therapeutic rather than diagnostic procedure. The indication for ERCP is for the removal of ductal stones (predominantly CBD stones). • Magnetic resonance cholangiopancreatography (MRCP) The presence of a CBD calculus should be confirmed prior to subjecting the patient to a potentially dangerous procedure such as an ERCP - MRCP would be the most appropriate test to do this. the most sensitive for a diagnosis of gallstones  In terms of sensitivity for determining the presence of stones anywhere within the biliary tract, MRCP and EUS would be the most sensitive investigations with little to choose between them (ERCP may well miss small stones in the gallbladder). Management • In patients with severe gallstone pancreatitis ERCP and endoscopic stone extraction should be performed within 72 hours of the onset of pain. • In patients with mild gallstone pancreatitis, in the absence of cholangitis, there is no evidence to support ERCP and stone extraction in the acute setting; however arrangements Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology must be made for definitive management of common bile duct stones on the same admission or within two weeks of recovery. • Asymptomatic gallstones which are located in the gallbladder are common and do not require treatment. • However, if stones are present in the common bile duct there is an increased risk of complications such as cholangitis or pancreatitis and surgical management should be considered. • endoscopic retrograde cholangiopancreatography (ERCP) for biliary sphincterotomy and stone extraction.  the most common procedure-related complication is  Pancreatitis  risks of developing this complication:  Female sex,  age less than 60 and  a low probability of structural disease (suggested by a normal bilirubin, non-dilated ducts or suspected sphincter of Oddi dysfunction) • Percutaneous transhepatic cholangiography is an interventional radiological procedure which is generally reserved for therapeutic decompression of an obstructed biliary system where ERCP is unsuccessful or not possible. Complications • Cholecystitis • Acute pancreatitis • Gallbladder cancer • Choledocolithiasis  calculi in the common bile duct • Fistula between gallbladder and small intestine  passed gallstone can obstruct the ileocecal valve Glasgow score for Pancreatitis: PaO2 <7.29 kPa Glucose >10 mmol/L Age >55 years WBC >15 Calcium <2.0 mmol/L Urea >16 mmol/L LDH >600 IU/L Albumin <32 g/L Interpretation of glasgow score for pancreatitis: • The presence of three or more of these criteria within the first 48 hours is indicative of severe pancreatitis. • If the score ≥3, severe pancreatitis is likely Referral to the HDU/ICU is suggested in this case. If the score <3, severe pancreatitis is unlikely. Functional gall bladder pain • The Rome III criteria for functional gall bladder pain are as follows:  episodes lasting 30 minutes or longer  recurrent symptoms occurring at different intervals (not daily)  the pain builds up to a steady level  the pain is moderate to severe enough to interrupt the patient's daily activities or lead to an Emergency Department visit  the pain is not relieved by bowel movements Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  the pain is not relieved by postural change  the pain is not relieved by antacids, and  exclusion of other structural disease that would explain the symptoms. • The pain may present with one or more of the following supportive criteria:  associated with nausea and vomiting  radiates to the back and/or right infra subscapular region, and  awakens from sleep in the middle of the night. Choledochal cysts • Choledochal cysts are congenital bile duct anomalies, cystic dilatations of the biliary tree • The classic triad in adults with choledochal cysts is: abdominal pain, (Most common symptom) jaundice, and palpable right upper quadrant abdominal mass.  However, this triad is found in only 10-20% of patients. • Adults may present with complications (eg, hepatic abscesses, cirrhosis, portal hypertension, recurrent pancreatitis, cholelithiasis) • Abdominal ultrasonography is the investigation of choice • Choledochal cysts are usually diagnosed in the neonatal period but a few are delayed until adulthood. The Todani classification is used to define these:  Type 1 - a fusiform dilation of the common hepatic duct (CHD) - the most common  Type 2 - a diverticulum of the CHD  Type 3 - a choledochcele  Type 4 - describes extension into the intrahepatic ducts (the second most common)  Type 5 - intrahepatic cystic disease only. • Treatment  Resection and reconstruction is advised to prevent recurrent cholangitis, pancreatitis, and malignant change. Sphincter of Oddi dysfunction • Type 1 Sphincter of Oddi dysfunction (SOD) is characterised by:  abdominal pain,  deranged liver function tests,  a dilated biliary tree without strictures, and  delayed emptying of contrast at ERCP.  Delayed excretion of contrast is definitive and Sphincter of Oddi manometry need not be carried out with this finding. • Type 2 SOD  pain with only one or two other criteria from the type 1 definition • type 3 SOD  biliary type pain only.  Diagnosis in type 3 is supported by abnormal manometry although this will only be present in 12-28% of these patients so the diagnosis is most often one of exclusion. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Post-cholecystectomy syndrome • Post-cholecystectomy syndrome is a recognised complication of cholecystectomies. • Typically, symptoms of dyspepsia, vomiting, pain, flatulence and diarrhoea occur in up to 40% patients post-surgery. • The pathology behind the syndrome isn't completely clear, however there is some association with remnant stones and biliary injury. • Pain is often due to sphincter of Oddi dysfunction and the development of surgical adhesions. • Management:  low-fat diet  bile acid sequestrants, such as Cholestyramine, to bind the excess bile acids and thus preventing lower gastrointestinal signs.  Proton-pump inhibitors like Lansoprazole do play a role, if the patient is complaining of dyspeptic like symptoms. Bile-acid malabsorption • Although a small proportion of bile acids (3%) are excreted in the faeces, about 97% of bile acids are recycled. • Bile-acid malabsorption is a cause of chronic diarrhoea.  the bile, with no gall bladder to store it, is excreted directly into the gut  diarrhoea • In people with bile acid malabsorption, excess bile in the colon stimulates electrolyte and water secretion, which results in chronic watery diarrhoea. • May affect 10% of patients following cholecystectomy. • Typically it is post-prandial • There is evidence suggesting that up to one-third of people with a diagnosis of IBS with diarrhoea (IBS-D) have bile acid malabsorption mechanisms • Bile acid malabsorption causes diarrhoea by 1 of the following mechanisms:  inducing secretion of sodium and water increasing colonic motility  stimulating defecation  inducing mucus secretion  damaging the mucosa, thereby increasing mucosal permeability. Types: divided into 3 types depending on aetiology: • type 1: following ileal resection, disease or bypass of the terminal ileum • type 2: primary idiopathic malabsorption • type 3: associated with cholecystectomy, peptic ulcer surgery, chronic pancreatitis, coeliac disease or diabetes mellitus. Causes: Primary: due to an excessive production of bile acid, Secondary: Due to an underlying gastrointestinal disorder, causing reduced bile acid absorption  often seen in patients with ileal disease, such as with Crohn's.  cholecystectomy  coeliac disease 020 - Pages 476-500 020 Pages 476-500 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  small intestinal bacterial overgrowth  Ileal resection  drugs:  Biguanides (metformin) ,  Colchicine, used for treating gout in patients where (NSAIDs) are contraindicated Investigation • the test of choice is SeHCAT  nuclear medicine test using a gamma-emitting selenium molecule in selenium homocholic acid taurine or tauroselcholic acid (SeHCAT) (75Selenium HomotauroCholic Acid Test )  scans are done 7 days apart to assess the retention/loss of radiolabelled75SeHCAT  Retention values of less than 15% have been considered abnormal and indicative of bile acid malabsorption.  retention values of 10–15% (mild bile acid malabsorption)  retention values of 5–10% (moderate bile acid malabsorption)  retention values of 0–5% (severe bile acid malabsorption). Management • bile acid sequestrants e.g. cholestyramine Primary biliary cirrhosis Primary biliary cirrhosis - the M rule • IgM • anti-Mitochondrial antibodies, M2 subtype • Middle aged females Aetiology • autoimmune condition. Mechanism • chronic inflammatory process  damage to interlobular bile ducts  cholestasis & cirrhosis. Epidemiology • female: male ratio  9:1 Associations • Sjogren's syndrome (seen in up to 80% of patients) • rheumatoid arthritis • systemic sclerosis • thyroid disease Clinical features The two main conditions causing pigmentation and chronic liver disease are: primary biliary cirrhosis (PBC) and Haemochromatosis. • early: may be asymptomatic (e.g. raised ALP on routine LFTs) or fatigue, pruritus  classic presentation  itching in a middle-aged woman • cholestatic jaundice • hyperpigmentation, especially over pressure points • xanthelasmas, xanthomata • also: clubbing, hepatosplenomegaly • Fat malabsorption leading to deficiency of the vitamins A, D, E, K (hence osteomalacia and also bruising). • Back pain Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  due to osteomalacia resulting from malabsorption or osteoporosis - hepatic osteodystrophy. • late: may progress to liver failure Diagnosis • anti-mitochondrial antibodies (AMA) M2 subtype are present in 98% of patients and are highly specific  (AMAs) targeted against pyruvate dehydrogenase.  Pyruvate dehydrogenase (PD) is found in the mitochondria. required for the generation of acetyl-CoA from pyruvate for entry into the tricarboxylic acid (TCA) cycle. • smooth muscle antibodies in 30% of patients • raised serum IgM • Liver function tests  LFT correlate poorly with histology in PBC – the disease may progress insidiously with normal or near-normal LFTs. Complications • malabsorption: osteomalacia, coagulopathy • Osteoporosis is a common complication, possibly due to vitamin D malabsorption and/or premature ovarian failure. All patients with PBC should be screened for the condition  The patient should undergo bone mineral densitometry. • sicca syndrome occurs in 70% of cases • portal hypertension: ascites, variceal haemorrhage • hepatocellular cancer (20-fold increased risk) Management • pruritus: cholestyramine • fat-soluble vitamin supplementation • ursodeoxycholic acid (UDCA)  UDCA delays the need for liver transplantation  improves liver biochemistry and may slow disease progression.  The effectiveness of UDCA is monitored by improvements in ALP and GGT, but ALP is more widely used than GGT. • liver transplantation  e.g. if bilirubin > 100 (PBC is a major indication)  Liver transplantation has a good prognosis (90–95% survival)  recurrence in graft can occur but is not usually a problem  occur in 10% to 40% of patients  but recurrent PBC does not affect either graft or patient survival rates.  contraindication to liver transplantation:  Psychological factors that may impair compliance with immunosuppression Primary sclerosing cholangitis (PSC) Definition • Primary sclerosing cholangitis is a biliary disease of unknown aetiology characterised by inflammation and fibrosis of intra and extra-hepatic bile ducts Epidemiology • Sex: ♂ > ♀ (2:1) • Age: The median age at diagnosis is ∼ 40. • primarily seen in middle-aged men with inflammatory bowel disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Associations • ulcerative colitis: 4% of patients with UC have PSC, 80% of patients with PSC have UC • Crohn's (much less common association than UC) • HIV If a patient with pre-existing chronic inflammatory bowel disease displays increased ALP, GGT, and conjugated bilirubin, always consider PSC Features • asymptomatic  50 % of patients • cholestasis: (alkaline phosphatase greater than transaminases)  jaundice and pruritus  conjugated hyperbilirubinemia. • right upper quadrant pain • fatigue • intermittent diarrhoea. Investigation • MRCP (Magnetic resonance cholangiopancreatography)  Non-invasive , often performed initially.  the initial diagnostic investigation of choice • ERCP  the standard diagnostic tool,  More invasive but also more accurate than MRCP  Good alternative for patients who cannot undergo MRI testing (e.g., patients with pacemaker)  showing multiple biliary strictures giving a 'beaded' appearance • Antibodies:  ANCA may be positive (pANCA 84%, aCL 66%, , and ANA 53% ) • IgM increased (hypergammaglobulinaemia) • Liver biopsy  there is a limited role for liver biopsy,  may show fibrous, obliterative cholangitis often described as 'onion skin' Complications • cholangiocarcinoma (in 10%) • increased risk of colorectal cancer • PSC  ↓ secretion of bile acids;  steatorrhea ↓ fat-soluble vitamins  Night blindness Treatment • Liver transplant is the definitive treatment Prognosis • The median time to liver failure around 12 years. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Cholangiocarcinoma • The vast majority of cholangiocarcinomas (70%) are sporadic. • Risk factors:  Primary sclerosing cholangitis (PSC) is the most common risk factor  Others  diabetes  fatty liver disease, and  inflammatory bowel disease without PSC.  Alcohol  Smoking  Chronic hepatitis B  obesity • The imaging characteristics of a cholangiocarcinoma are hypovascularity with scarring and calcification.  CT contrast is delivered in early (hepatic arterial) phase and delayed (portal venous) phase.  80% of normal liver tissue derives its blood supply from the portal vein, but tumours generally derive their blood supply from the hepatic artery and are therefore hypervascular.  Cholangiocarcinomas are an exception as hypovascular lesions. • The Bismuth-Corlette classification is as follows:  Type I - below confluence of left and right hepatic ducts  Type II - reaching confluence but not involving left or right hepatic ducts  Type III - occluding common hepatic duct and either right (IIIa) or left (IIIb) hepatic duct Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Liver conditions Hepatomegaly Common causes of hepatomegaly • Cirrhosis: if early disease, later liver decreases in size. Associated with a non-tender, firm liver • Malignancy: metastatic spread or primary hepatoma. Associated with a hard, irregular. liver edge • Right heart failure: firm, smooth, tender liver edge. May be pulsatile Other causes • viral hepatitis • glandular fever • malaria • abscess: pyogenic, amoebic • hydatid disease • haematological malignancies • haemochromatosis • primary biliary cirrhosis • sarcoidosis, amyloidosis Hepatosplenomegaly Causes of hepatosplenomegaly • chronic liver disease* with portal hypertension • infections: glandular fever, malaria, hepatitis • lymphoproliferative disorders • myeloproliferative disorders e.g. CML • amyloidosis *the latter stages of cirrhosis are associated with a small liver Gaucher's disease is a lysosomal storage disease, due to deficiency of the lysosomal hydrolase beta-glucosidase. most commonly seen in Ashkenazi Jews. Its features include hepatosplenomegaly, haematological abnormalities and skeletal involvement. Liver function test • Gamma-glutamyl-transferase (GGT)  ↑↑ by drugs such as phenytoin and alcohol.  Mild raises in GGT can occur with any alcohol intake, and a rise does not always indicate liver pathology.  ↑↑ in fatty liver • Transaminase  differential diagnosis for elevated serum aminotransferases:  viral hepatitis,  hepatotoxicity from drugs or toxins,  alcoholic liver disease,  hepatic ischemia, and  malignant infiltration  Only ischaemic hepatitis and paracetamol overdose tend to produce transaminase levels that are raised to very high degree (more than 100 times the upper limit of normal).  hypotension (particularly in an individual who is normally hypertensive) is the usual precipitant for ischaemic hepatitis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Remember that the level to which transaminases are elevated cannot be used to judge the degree of liver damage and impairment of hepatic function.  Patients with a hepatocellular process generally have a disproportionate elevation in the serum aminotransferases compared with the alkaline phosphatase, while those with a cholestatic process have the opposite findings.  AST/ALT ratio:  fatty liver: AST/ALT usually <1  alcohol abuse: AST/ALT ratio >2:1 • Alkaline phosphatase (ALP)  Causes of raised (ALP):  liver: cholestasis, hepatitis, fatty liver, neoplasia  In cholestasis, ALP is typically elevated to at least four times the upper limit of normal.  Lesser degrees of elevation are nonspecific and may be seen in other liver diseases  Paget's  osteomalacia  bone metastases  hyperparathyroidism  renal failure  physiological: pregnancy, growing children, healing fractures The table below splits the causes according to the calcium level Raised ALP and raised calcium Raised ALP and low calcium • Bone metastases • Hyperparathyroidism • Osteomalacia • Renal failure ↑ALP  do ultrasonography: • presence of biliary dilatation  extrahepatic cholestasis (gallstones, strictures, or malignancy). • absence of biliary dilatation  intrahepatic cholestasis (drug toxicity, primary biliary cholangitis, primary sclerosing cholangitis, viral hepatitis, cholestasis of pregnancy, benign postoperative cholestasis, infiltrative diseases, and total parenteral nutrition). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Evaluation of elevated serum alkaline phosphatase (2019 UpToDate) AMA: antimitochondrial antibodies; ERCP: endoscopic retrograde cholangiopancreatography; MRCP: magnetic resonance cholangiopancreatography; ULN: upper limit of normal. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Liver biopsy Contraindications to percutaneous liver biopsy • deranged clotting (e.g. INR > 1.4)  Percutaneous liver biopsy should be avoided if the INR is greater than 1.3 (prothrombin time greater than three seconds above normal).  If the INR is >1.4, fresh frozen plasma (FFP) may be administered and liver biopsy then carried out if the INR is less than 1.4. • low platelets (e.g. < 60 * 109/l)  The minimum safe lower limit of platelets is 60.  Where the platelet count is 40-60 biopsy can be performed immediately after platelet transfusion provided there has been an increment to the recommended level. • Anti-platelet medication  should be stopped for at least one week prior to liver biopsy. • anaemia • extrahepatic biliary obstruction • hydatid cyst • haemoangioma • uncooperative patient • ascites  Significant volume ascites is a contraindication to percutaneous liver biopsy but a trans-jugular biopsy can be performed as an alternative. Acute liver failure Acute liver failure describes the rapid onset of hepatocellular dysfunction leading to a variety of systemic complications. Causes • paracetamol overdose • alcohol • viral hepatitis (usually A or B) • acute fatty liver of pregnancy Features* • jaundice • coagulopathy: raised prothrombin time • hypoalbuminaemia • hepatic encephalopathy • renal failure is common ('hepatorenal syndrome') Note: • *remember that 'liver function tests' do not always accurately reflect the synthetic function of the liver. This is best assessed by looking at the prothrombin time and albumin level. Ascites Causes • The serum ascites albumin gradient (SAAG) is the most sensitive and specific method of categorising ascites.  To calculate the ascitic fluid albumin should be subtracted from the serum albumin.  A value that is ≥11 g/L (high SAAG) indicates a transudate (e.g. cirrhosis, cardiac failure),  <11 g/L (low SAAG) indicates an exudate (e.g. malignancy, pancreatitis). • The causes of ascites can be grouped into those with a serum-ascites albumin gradient (SAAG) <11 g/L or a gradient >11g/L as per the table below: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad SAAG > 11g/L SAAG <11g/L Cirrhosis Alcoholic hepatitis Cardiac ascites Mixed ascites Massive liver metastases Fulminant hepatic failure Budd-Chiari syndrome Portal vein thrombosis Veno-occlusive disease Myxoedema Fatty liver of pregnancy Peritoneal carcinomatosis Tuberculous peritonitis Pancreatic ascites Bowel obstruction Biliary ascites Post operative lymphatic leak Serositis in connective tissue diseases Characteristics of ascitic fluid • Causes of a transudate (protein < 30 g/l, assuming a normal albumin level):  Hepatic cirrhosis  Right-sided cardiac failure  Hypoalbuminaemia (nephrotic syndrome)  Acute nephritis  Budd-Chiari syndrome • Causes of an exudate (protein > 30 g/l):  Infection (tuberculosis, peritonitis)  Inflammation (vasculitis)  Malignancy  inhaler. Treatment • Large, symptomatic ascites  therapeutic paracentesis.  Several large randomised, controlled trials have shown that repeated large volume paracentesis (4-6 L) is safer and more effective for the treatment of tense ascites compared with larger than usual doses of diuretics.  Paracentesis is relatively contraindicated if the patient is encephalopathic,  Paracentesis is less likely to be successful if the patient has peripheral oedema  Whilst therapeutic paracentesis will be necessary in light of the large volume tense ascites it would be advisable to consider doing this with FFP cover. • Not large, asymptomatic ascites  dietary salt restriction (to no more than 90 mmol/day) + spironolactone.  The initial management would be spironolactone  Initial dose of spironolactone is 100 mg/day and may be titrated up to 400 mg/day.  Once the maximum dose of spironolactone has been reached furosemide can be added if there is still significant ascites accumulation and the renal function and electrolytes will tolerate further diuresis.  Doses of furosemide are advised start at 40 mg/day titrating up to 160 mg/day as tolerated or needed.  Furosemide alone has poor efficacy in cirrhosis.  A major reason for so-called diuretic-resistant ascites is an excess sodium intake,  no-added salt diet is recommended for all patients with ascites secondary to chronic liver disease.  Spironolactone is more effective than furosemide because the site of sodium retention in cirrhosis is the distal nephron  The ideal weight loss is 0.5 kg/day, as any more than this may cause cardiovascular strain. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • transcutaneous liver biopsy is contraindicated with ascites (use transjugular biopsy if absolutely necessary). • Management of hyponatraemia in patients with chronic liver disease and ascites: serum sodium is 126-135 mmol/L No specific intervention other than monitoring serum sodium is 121-125 mmol/L + normal creatinine Reduce diuretics serum sodium is 121-125 mmol/L + high creatinine Stop diuretics + give volume expansion serum sodium is ≤120 mmol/L Stop diuretics + give volume expansion with colloid or normal saline. • Management of hypoproteinemia in patients with chronic liver disease Cirrhotic ascites has significantly lower protein and complement levels than noncirrhotic ascites.  This can result in less opsonic activity of the peritoneal fluid predisposing to spontaneous bacterial peritonitis. indications for the use of albumin in cirrhosis:  post-paracentesis circulatory dysfunction,  spontaneous bacterial peritonitis, and  hepatorenal syndrome. Albumin replacement treatment is warranted in this diagnosis and can also decrease the development of the hepatorenal syndrome. 20% salt poor albumin (human albumin solution)  The salt-poor preparation of albumin is particularly important in this scenario as high salt load will encourage fluid to shift into the extravascular compartment resulting in fluid overload. What is the most characteristic physiological activity that retains sodium in the face of salt and water overload? Arterial underfilling  In liver cirrhosis, arterial vasodilatation due to nitric oxide overactivity, coupled with hypoalbuminemia, which drives low colloid osmotic pressure, leads to arterial underfilling. Meig's syndrome ovarian fibroma associated with a pleural effusion and ascites Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Summary table of the current uses of albumin in hepatology, according to the main international guidelines and looking at future perspectives (PPCD: post-paracentesis circulatory dysfunction; SBP: spontaneous bacterial peritonitis; HRS: hepatorenal syndrome; HE: hepatic encephalopathy; ACLF: acute-on-chronic liver failure). Liver cirrhosis Pathophysiology • which hepatic cells are central to the process of fibrosis?  The hepatic stellate cells are central to the process of fibrosis within the liver. • What is the pro-inflammatory factor in fibrotic liver injury which activate the stellate cells?  Tumour necrosis factor-a is a pro-inflammatory effector in fibrotic liver injury, through activation of the stellate cells. These cells then secrete the fibrillar collagen constituting the defining features of hepatic fibrosis.  Interleukin-10 is thought to exert anti-inflammatory effects on the stellate cell. • Which mediator is released by stellate cells that causes fibrosis seen in cirrhosis?.  Transforming growth factor-beta is the mediator released by stellate cells that causes fibrosis • Which factor that causing contraction of the hepatic stellate cells?  Endothelin is a vasoconstrictor in the hepatic sinusoids (similarly in the endothelium of the systemic circulation) and functions by causing contraction of the hepatic stellate cells thus increasing intrahepatic sinusoidal resistance and promoting portal hypertension.  Nitric oxide antagonises the effects of endothelin in the liver. • Pathogenesis includes the replacement of type IV collagen in the perisinusoidal space (space of Disse) with type I and III collagen. Features • Cardiac  Cardiac output is often elevated  The cardiomyopathy of alcoholism is a dilated or congestive form. Chapter 3 Gastroenterology  Dilated cardiomyopathy  hyperdynamic circulation  systemic vasodilatation  ↓↓ vascular resistance,  increased plasma volume  low serum sodium.  Most patients have sodium and water retention.  Secondary hyperaldosteronism will result in total body sodium overload but not necessarily hypernatraemia.  Remember that the sodium level is a concentration, therefore if the amount of solvent (water) is increased then it will not necessarily rise. • Abdominal symptoms  Hepatomegaly (possibly causing RUQ pain)  Splenomegaly  Ascites • Portal hypertension  Hepatic intrasinusoidal pressure is elevated  Which features is most indicative of decompensated portal hypertension?  Caput medusae • Which sign is a direct result of decreased hepatic oncotic function in cirrhotic patients?  Lower limb swelling • Hormone disorders  Hyperestrogenism  Gynecomastia, decreased body hair (e.g., chest hair)  Gynaecomastia  What is the cause of gynaecomastia in cirrhosis? Altered oestrogen metabolism (an aldosterone antagonist).  Hypogonadism (testicular atrophy)  Reduced libido, erectile dysfunction, infertility  Amenorrhea Classifications Why do patients get oedema in liver disease? Low albumin Stimulation of RAAS leads to fluid retention • Child-Pugh classification of liver cirrhosis  The Child-Pugh classification is a scoring system to assess the severity of liver cirrhosis Score Bilirubin (m mol/l) <34 34-50 50 Albumin (g/l) 35 28-35 <28 Prothrombin <4 4-6 6 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ∗ ↓↓ metabolism of sex steroids  ↑↑ oestrogen level. ∗ there is associated testicular atrophy and loss of body hair. ∗ May occur as a result of spironolactone therapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Score time, prolonged by (s) Encephalopathy None mild marked Ascites None mild marked  Summation of the scores allows the severity to be graded either A, B or C:  < 7 = A  7- 9 = B  9 = C • Cirrhosis can be micro- or macronodular in type. micronodular form: the nodules are less than 3 mm across with uniform liver involvement - seen in alcohol or biliary disease. macronodular form: there are larger nodules, classically seen in chronic viral hepatitis. Investigations • ALT is more specific than other liver enzymes in diagnosing hepatic injury. • the most important immediate investigation for patient with hepatic cirrhosis presented in a confused and drowsy state  Blood glucose (hepatic gluconeogenesis can be significantly down-regulated) • ↑↑ plasma volume • ↓↓ serum sodium  Patients with cirrhosis are frequently hyponatraemic.  This is a function of an inability to excrete free water (increased ADH levels and systemic vasodilation contribute, but the underlying mechanism is complex and not entirely understood). • Urinary sodium concentration is usually less than 10 mmol/l  Reduced urinary sodium excretion  Patients with cirrhosis are frequently hyponatraemic. This is a function of an inability to excrete free water (increased ADH levels and systemic vasodilation contribute, but the underlying mechanism is complex and not entirely understood). Thrombocytopenia is a common finding in chronic liver disease. Sex hormones in liver cirrhosis • Clinical features of male cirrhotic subjects are feminization(gynecomastia etc) and hypogonadism(testicular atrophy, reduced fertility, loss of libido, impotence etc). • sex hormones  decrease in serum testosterone levels  increase in serum estrogen levels  increase in ratio of estrogen to testosterone  Hyperestrogenization may be related with feminization of male cirrhotic subjects, whereas hypogonadism is the result of alcohol abuse per se, rather than the indirect consequence of liver cirrhosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Prognosis • Five-year survival after liver transplantation is now 75%. Liver transplant Guidelines for referral to a liver unit following paracetamol overdose include • Metabolic acidosis (pH <7.3 or bicarbonate <18 mmol/L). • INR >3 (or prothrombin time >50 seconds)  INR >2.0 at or before 48 hours or >3.5 at or before 72 hours should prompt referral to a specialist unit.  Peak elevation occurs around 72-96 hours. • Oliguria • Creatinine >200 µmol/L,  (use haemodialysis if >400 μmol/L) • Hypoglycaemia. • Systolic BP <80 mm Hg despite adequate fluid resuscitation • Any degree of encephalopathy 48 hours after ingestion. • raised intracranial pressure (ICP)  signs of CNS oedema include:  BP >160/90 mmHg (sustained) or brief rises (systolic >200 mmHg),  bradycardia,  decerebrate posture,  extensor spasms, and  poor pupil responses Criteria for liver transplant in fulminant failure in cases of paracetamol overdose include: • arterial pH lower than 7.3 or • all of the following:  Prothrombin time greater than 100 seconds  Creatinine greater than 300 µmol/L, and  Grade 3-4 encephalopathy. Criteria for liver transplant in fulminant failure in non-paracetamol cases include: • INR greater than 6.7 or • prothrombin time greater than 100 seconds, or • any three of the following:  Aetiology that is not due to hepatitis A, hepatitis B or a drug reaction  Age less than 10 years or more than 40 years  Jaundice more than seven days before encephalopathy  INR greater than 4 or prothrombin time greater than 50 seconds, and  Bilirubin greater than 300 µmol/L. What are the causes of decompensation in liver disease • Infection • Spontaneous bacterial peritonitis • GI bleeding • Sedatives • HCC Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Portal hypertension Basics • The liver receives approximately 1500 ml of blood each minute, two-thirds of which is provided by the portal vein. Definition: • abnormally high pressure in the hepatic portal vein ( hepatic venous pressure gradient of 10 mm Hg or more). • Portal hypertension is present when the wedged hepatic vein pressure is more than 5 mmHg higher than the inferior vena cava pressure. Mechanism of porto-systemic collaterals • Because the veins in the portal system lack valves, increased resistance to flow at any point between the splanchnic venules and the heart will increase the pressure in all vessels on the intestine site of the obstruction. • This is manifest clinically by the development of porto-systemic collaterals (oesophageal varices), splenomegaly and/or ascites. Site of Anastomosis Clinical Sign Portal ↔ Systemic Esophagus Esophageal varices Left gastric ↔ esophageal Umbilicus Caput medusae Paraumbilical ↔ superficial and inferior epigastric Rectum Anorectal varices (sometimes referred to as internal hemorrhoids though they are different) Superior rectal ↔ middle and inferior rectal Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Causes : (Vascular resistance and blood flow are 2 important factors in its development). • Pre-hepatic - (pre-sinusoidal) blockage of the portal vein before the liver Congenital atresia or stenosis. Portal vein thrombosis (idiopathic, umbilical and portal sepsis, malignancy, hypercoagulable states, pancreatitis).  Longstanding portal vein thrombosis is a well recognised complication in premature neonates due to cannulation of the umbilical vein during neonatal intensive care. the best initial investigation is Ultrasound with Doppler Splenic vein thrombosis. Extrinsic compression - eg, tumours. • Hepatic (sinusoidal) Cirrhosis. (the most common cause) Chronic hepatitis. Schistosomiasis. Myeloproliferative diseases. Idiopathic portal hypertension. Granulomata - eg, sarcoid. Nodular (nodular regenerative hyperplasia, partial nodular transformation). Toxins (arsenic, vinyl chloride). Fibropolycystic disease (including congenital hepatic fibrosis). • Post-hepatic - (post-sinusoidal) blockage of hepatic veins or venules Budd-Chiari syndrome (hepatic vein obstruction). Constrictive pericarditis. Right heart failure. Veno-occlusive disease of the smaller hepatic veins/venules (due to ingestion of pyrrolizidine alkaloids; antileukaemic drugs, radiation). Sclerosing hyaline necrosis. Portal hypertension measurement: • Portal pressure is indirectly measured in clinical practice by the hepatic venous pressure gradient (HVPG). • The HVPG is calculated by subtracting the free hepatic venous pressure (which reflects intraabdominal pressure) from the wedged hepatic venous pressure (which reflects portal venous pressure). These values are obtained by hepatic venous catheterization. • Normal HVPG values are <5 mm Hg. • HVPG >10 mm Hg predicts the development of oesophageal varices. • However, HVPG is moderately invasive and its clinical role is uncertain. • The normal hepatic venous pressure gradient (normal HVPG = 1-5 mmHg) means that the portal hypertension is not related to post-sinusoidal intrinsic liver disease such as cirrhosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad (caused in children by metabolic disorders such as A1ATD) or post-hepatic venous obstruction (HV thrombosis). • The haemodynamic goal of treatment is reduce the HVPG by 20% or to less than 12 mmHg, using a non-selective beta blocker. If this is not achievable despite titrating the beta-blocker dose, then endoscopic variceal ligation must be considered. • Wedged hepatic venous pressure  the pressure recorded by a catheter wedged in a hepatic vein. It reflects the portal venous pressure in the hepatic sinusoids.  ↑↑ in sinusoidal and post-sinusoidal portal hypertension,  remains normal in pre-sinusoidal portal hypertension. Complications of portal hypertension: • Haematemesis or melaena - suggest bleeding varices. • Lethargy, irritability and changes in sleep pattern - suggest encephalopathy. • Increased abdominal girth, weight gain - suggest ascites. • Abdominal pain and fever - suggest spontaneous bacterial peritonitis. • Pulmonary involvement is common in patients with portal hypertension Trans-jugular intrahepatic porto-systemic shunt (TIPSS) • Indications are:  Diuretic resistant ascites (Intractable ascites )  Intractable portal hypertensive bleeding and  Hepato-renal failure. • contraindications to shunting:  Severe hepatic encephalopathy  Severe heart failure  Septicaemia Hepatic encephalopathy • Hepatic encephalopathy may be seen in liver disease of any cause. • The aetiology is not fully understood but is thought to include excess absorption of ammonia from bacterial breakdown of proteins in the gut Features • confusion, altered GCS (see below) • hepatic flap  Asterixis (also called the flapping tremor, or liver flap) is a tremor of the hand when the wrist is extended, sometimes said to resemble a bird flapping its wings.  hepatic encephalopathy is unlikely to be present if a liver flap (asterixis) cannot be detected. • constructional apraxia: inability to draw a 5-pointed star • triphasic slow waves on EEG • raised ammonia level (not commonly measured anymore) Grading of hepatic encephalopathy • Grade I: mood changes like depression or irritability, and sleep abnormalities (typically sleep inversion) • Grade II: Confusion, inappropriate behaviour • Grade III: Incoherent, restless Chapter 3 Gastroenterology • Grade IV: Coma Precipitating factors • infection e.g. spontaneous bacterial peritonitis • GI bleed • constipation • drugs: sedatives, diuretics • hypokalaemia • renal failure • increased dietary protein (uncommon) Treatment • Treat precipitating cause (e.g., give K+ if hypokalemic) • Lactulose  metabolized to lactic acid by colonic flora, converts NH3 to NH4+ which can be absorbed • Neomycin  replaced with rifamixin, neomycin no longer routinely used  antibiotics kill colonic flora leading to decreased NH3 production Hepatorenal syndrome (HRS) Pathophysiology • vasoactive mediators cause  splanchnic vasodilation  ↓↓ systemic vascular resistance  'underfilling' of the kidneys  activation of the renin-angiotensin-aldosterone system by the juxtaglomerular apparatus  renal vasoconstriction which is not enough to counterbalance the effects of the splanchnic vasodilation. Types • Hepatorenal syndrome has been categorized into two types: Type 1 HRS Type 2 HRS • Rapidly progressive • Doubling of serum creatinine to > 221 mmol/L or a halving of the creatinine clearance to less than 20 ml/min over a period of less than 2 weeks • Very poor prognosis Management • The ideal treatment is liver transplantation, but patients are often too unwell to have surgery and there is a shortage of donors • Other Management options  agonists of vasopressin V1 receptors such as terlipressin  vasoconstriction of the splanchnic circulation  volume expansion with 20% albumin  transjugular intrahepatic portosystemic shunt Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Slowly progressive • characterised by a moderate and stable reduction in renal function, hypotension and diuretic resistance. • Prognosis poor, but patients may live for longer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Wilson's disease Wilson's disease - serum caeruloplasmin is decreased Wilson's disease is an autosomal recessive Definition • Wilson's disease is an autosomal recessive disorder characterised by impaired copper transport via caeruloplasmin results in excessive copper deposition in the tissues. • Wilson disease is a disorder resulting from impaired copper excretion into bile. Copper overload and deposition in tissues leads to predominantly hepatic and neuropsychiatric symptoms. • Metabolic abnormalities include increased copper absorption from the small intestine and decreased hepatic copper excretion. Aetiology and pathophysiology • autosomal recessive • caused by a defect in the ATP7B gene located on chromosome 13. • Mutations within the ATP7B gene result in disruption of an ATPase within hepatocytes which is responsible for the movement of copper across intracellular membranes. This results in hepatic retention of copper, and low serum levels. • The mechanism of tissue damage in Wilson disease is copper-mediated hydroxyl free radical tissue damage. Features • The onset of symptoms is usually between 10 - 25 years. • Children usually present with liver disease whereas the first sign of disease in young adults is often neurological disease • liver: hepatitis, cirrhosis • neurological:  basal ganglia degeneration, speech and behavioural problems are often the first manifestations.  The most common early neurological sign is an asymmetrical tremor,  Also: the initial sign is usually increased clumsiness.  parkinsonism,  dystonia.  asterixis,  chorea,  dementia • Kayser-Fleischer rings  Golden corneal rings  in the posterior surface of the retina, within its Descemet’s membrane.  Detected by Slit lamp examination  Present in up to 90% of symptomatic patients but is not pathognomonic. • renal tubular acidosis (esp. Fanconi syndrome) • haemolysis • blue nails Diagnosis • Reduced serum caeruloplasmin  Ceruloplasmin is normal in approximately 5% of cases • Slit lamp examination Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  slit lamp examination will detect Kayser-Fleischer corneal rings in approximately 98% of untreated cases and the sunflower cataract will be more obvious. • ↓ Total serum copper • increased 24hr urinary copper excretion  greater than 1.6 μmol/day • Liver biopsy  The most reliable investigation to confirm the diagnosis  Shows:  increased hepatic parenchymal copper concentration  steatosis, glycogenated nuclei, focal hepatocellular necrosis, fibrosis and cirrhosis. • MRI of the brain  commonly shows increased density in the basal ganglia. • Genetic testing for ATP7B mutation  usually reserved for patients where the diagnosis is in doubt, or for screening of siblings. Complications • higher risk of hepatocellular carcinoma. Management • General management  Low-copper diet: avoid foods such as organs, shellfish, nuts, and chocolate  Hepatotoxic drugs, alcohol and foods high in copper (liver, chocolate, shellfish etc.) should be avoided.  Regular check-ups: liver biochemical tests every 6 months if disease is stable[9]  Liver transplantation in cases of fulminant liver failure • Medical therapy  Initial therapy: chelating agents  Penicillamine:  first-line treatment  side effects in ∼ 30% of cases  (e.g., sensitivity reactions)  bone marrow suppression  Alternatives: trientine or zinc salts  Trientine  may become first-line treatment in the future  better tolerated than penicillamine, and is therefore used as an alternative where side effects are seen when penicillamine is initiated.  Maintenance therapy: zinc salts or low dose chelating agents • Zinc acetate is the intervention of choice for patients with asymptomatic Wilson’s disease (i.e. those who present with elevated transaminases without evidence of cirrhosis or neurological dysfunction). • screening of first degree relatives  Once a diagnosis of Wilson's disease is made, screening of first degree relatives (with genetic testing) should be done.  Treatment with a chelating agent should be administered gradually over the course of 3 to 6 months, as mobilizing the copper stored in tissues too rapidly may exacerbate neurological symptoms Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prognosis • Early treatment allows a normal length of life, • however without treatment Wilson's disease is usually fatal by the age of 40 years. MRCPUK-part-1-September 2014 exam: A 23-year-old woman developed unilateral hand tremor at rest, behaviour & mood changes, speech problems & bradykinesia. Dark circular marks noted around the iris. her uncle died of liver cirrhosis at the age of 40 years. Given the likely diagnosis, what is the mode of inheritance?  Autosomal recessive Hyponatraemia in Patients with chronic liver disease • Patients with chronic liver disease and ascites often develop hyponatraemia, the management of which can be difficult. • Diuretic therapy for the management of ascites often contributes to the hyponatraemia. • The British Society of Gastroenterology guidelines suggest that:  serum sodium is ≤120 mmol/L normal saline + stop diuretic  serum sodium is 126-135 mmol/L  No intervention other than careful monitoring.  serum sodium is 121-125 mmol/L + normal serum creatinine  reduce diuretics or stop it if necessary  serum sodium is 121-125 mmol/L +↑↑ serum creatinine  volume expansion + stop diuretics  fluid restriction should only be used in patients who are clinically euvolaemic, not on diuretics and have severe hyponatraemia with a normal serum creatinine. Alcohol After drinking excessive amounts alcohol • Mechanism of polyuria  Ethanol inhibits ADH secretion • Mechanism of nausea  vagal stimulation to the vomiting centre. • Mechanism of tremors  increase glutamate production by neurones to compensate for the previous inhibition by ethanol. • Mechanism of hypoglycemia  hepatic sequestration of Reduced nicotinamide adenine dinucleotide (NADH)  In the liver alcohol dehydrogenase converts ethanol to acetaldehyde but to do so requires the reduction of oxidized nicotinamide adenine dinucleotide (NAD+) to reduced nicotinamide adenine dinucleotide (NADH).  Acetaldehyde is then further oxidized to acetate to aldehyde dehydrogenase, which requires the reduction of another NAD+ to NADH.  When excess alcohol is consumed then the system becomes overwhelmed and NADH accumulates in hepatocytes.  This sequestration of NADH reduces the amount of NAD+ available to oxidize gluconeogenic precursors  hypoglycemia Alcohol induced hypoglycemia • Alcohol metabolized to acetyl-CoA. • NADH produced during alcohol metabolism interferes with gluconeogenesis. • NADH causes production of: lactate, malate, and glycerol 3-phosphate. • Thus, glycerol 3-phosphate causes lipid accumulation in liver alcoholic disease. • NAD, required for lactate metabolism (and lactate is used for gluconeogenesis), is being used for alcohol metabolism. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology The large anion gap and hypoglycemia in alcoholic patients can be explained by which mechanism?  Inhibition of dehydrogenase enzymes by NADH  Excess alcohol intake leads to accumulation of NADH that decreases gluconeogenesis as well as impairs fatty acid oxidation.  ( Key gluconeogenic dehydrogenases are inhibited by the elevated levels of NADH, including:  lactate dehydrogenase,  glycerol 3-phosphate dehydrogenase, and  malate dehydrogenase). Alcohol - drinking problems: management Nutritional support • SIGN recommends alcoholic patients should receive oral thiamine if their 'diet may be deficient' Drugs used • benzodiazepines for acute withdrawal • disulfram: promotes abstinence - alcohol intake causes severe reaction due to inhibition of acetaldehyde dehydrogenase. Patients should be aware that even small amounts of alcohol (e.g. In perfumes, foods, mouthwashes) can produce severe symptoms. Contraindications include ischaemic heart disease and psychosis • acamprosate: reduces craving, known to be a weak antagonist of NMDA receptors, improves abstinence in placebo-controlled trials Disulfiram • Indication: used as an aid to stop alcohol abuse. • Mode of action: irreversible inhibitor of aldehyde dehydrogenase, therefore if alcohol is ingested, aldehyde accumulates causing unpleasant reactions including vomiting, palpitations and breathlessness. • The reaction with alcohol only occurs at least 12 hours after the start of disulfiram therapy and may occur up to 10 days after stopping disulfiram therapy. • Disulfiram is active against scabies, although other treatments are usually preferred. Alcoholic liver disease The recommended maximum alcohol intake per week is 21 units for men and 14 units for women. Governmental guidelines suggest that women should not have more than 2-3 units per day and men should not have more than 3-4 units per day Alcoholic liver disease includes fatty liver, alcoholic hepatitis and cirrhosis. • fatty liver (hepatic steatosis)  accumulation of fat within the hepatocytes.  Mechanism:  increased generation of NADH reduces the activity of the TCA cycle, the acetyl-Co A is diverted to fatty acid synthesis.  reduction in cytosolic NAD+ leads to reduced activity of glycerol-3-phosphate dehydrogenase resulting in increased levels of glycerol 3-phosphate which is the backbone for the synthesis of the triglycerides, lead to fatty acid deposition in the liver leading to fatty liver syndrome.  asymptomatic and detected incidentally.  Elevated transaminases and a background of alcoholism are clues to the diagnosis.  macrovesicular fatty changes.  Microvesicular fatty changes are not found in hepatic steatosis.  An ultrasound demonstrates hyper-echogenicity and a bright liver.  This is reversible with abstention from alcohol. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Alcoholic hepatitis presents as:  acute right upper quadrant (RUQ) pain  Tender hepatosplenomegaly  jaundice  fever  frequently occurs on a background of cirrhosis  marked derangement of LFTs  LFT typically show an AST elevated greater than the ALT with at least a 2:1 ratio  AST:ALT ratio can be useful in diagnosing alcoholic liver disease, because more than two-thirds of patients will have a ratio greater than 2.  transaminases are typically only slightly elevated rarely over 300 and virtually never over 500.  The alkaline phosphatase may well be significantly elevated giving the liver profile an 'obstructive' appearance.  High IgA levels are seen in alcoholic liver disease.  At a microscopic level there is inflammation of the liver. • liver cirrhosis,  the hepatocytes are damaged so much that they are replaced by scar tissue which is permanent.  Alcoholic hepatitis and cirrhosis may co-exist.  Alcoholic hepatitis and cirrhosis may lead to encephalopathy, portal vein hypertension and hepato-renal syndrome, increase risk of infections and they are usually malnourished.  There is no specific therapy for alcohol-related hepatitis and cirrhosis. • Cardiomyopathy of alcoholism is a dilated or congestive form. • Gout  Gout is a common finding in chronic alcoholics.  Mechanism:  Lactate accumulate in alcoholics causes lactic acidosis (Metabolic acidosis).  Lactate competes with uric acid for excretion, decreasing its excretion and thus aggravating gout. Chronic alcohol abuse is typically associated with  Increased carbohydrate deficient transferrin (CDT) Which feature would suggest a diagnosis of hepatic steatosis rather than non-alcoholic fatty liver disease?  Reversible hepatic damage after discontinuing alcohol consumption The common abnormalities in chronic alcohol dependence • Macrocytosis • Hypertriglyceridaemia - can contribute to pancreatitis • Hyperuricaemia - can cause gout • Hypoglycaemia - can contribute to seizures and coma • Increased carbohydrate deficient transferrin - considered a marker of chronic abuse and sometimes checked to ensure abstinence, for example, while awaiting liver transplantation • Hypogonadism • Thiamine deficiency • Abnormal iron  Iron levels are variable in alcohol dependence: hepatitis causes increased serum iron while poor diet can result in iron deficiency  Ferritin can be elevated in the acute phase response, but reduced in advanced liver disease due to possible reduced synthesis rates Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Abnormal electrolytes  Hyponatraemia and hypokalaemia are often seen in established liver disease  Hypomagnesaemia  hypocalcaemia which may be linked to alcohol-related hypomagnesaemia and poor dietary intake of calcium and vitamin D; • Elevated liver enzymes  Elevated GGT - this is due to enzyme induction but does not necessarily indicate that there is liver damage  ALT is elevated in liver disease and hepatocellular damage  AST is elevated (but can also be increased in cardiac or muscular damage).  AST:ALT ratio can be elevated due to the mitochondrial effects of alcohol causing a disproportionate increase in AST. However, this is not specific. Patients with alcoholic liver disease are often surprisingly sensitive to opiate analgesia which should only be used with caution. (eg: a patient prescribed dihydrocodeine regularly for abdominal pain associated with chronic pancreatitis, became drowsy with deterioration in his Glasgow coma scale. What is the agent should be administered initially?  Naloxone) Alcoholic ketoacidosis Definition • Alcoholic ketoacidosis is a non-diabetic euglycaemic form of ketoacidosis. Features • Metabolic acidosis • Elevated anion gap • Elevated serum ketone levels • Normal or low glucose concentration Treatment • The most appropriate treatment is an infusion of saline & thiamine.  Thiamine is required to avoid Wernicke encephalopathy or Korsakoff psychosis. Non-alcoholic fatty liver disease (NAFLD) (Non-alcoholic steatohepatitis (NASH) Definition • liver changes similar to those seen in alcoholic hepatitis in the absence of a history of alcohol abuse. • NAFLD is subdivided into:  nonalcoholic fatty liver (NAFL): hepatic steatosis without inflammation  nonalcoholic steatohepatitis (NASH): hepatic steatosis with hepatic inflammation that may be histologically indistinguishable from alcoholic steatohepatitis • the diagnosis is made only by histology of liver biopsy which shows lesions suggestive of ethanol intake in a patient known to consume less than 40 g of alcohol per week. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Epidemiology • Non-alcoholic fatty liver disease (NAFLD) is now the most common cause of liver disease in the developed world. • relatively common and though to affect around 3-4% of the general population. • It is projected to become a leading indication for liver transplantation, superseding hepatitis C. Mechanism • NAFLD is thought to represent the hepatic manifestation of the metabolic syndrome and hence insulin resistance is thought to be the key mechanism leading to steatosis Associated risk factors • Obesity • Hyperlipidaemia • Type 2 diabetes mellitus • Jejuno-ileal bypass • Sudden weight loss/starvation Complications • Liver cirrhosis • NASH is associated with insulin resistance and diabetes. Features • Usually asymptomatic • Hepatomegaly • Some patients with NASH may complain of fatigue, malaise, and vague right upper abdominal discomfort. Investigations • LFT  ALT is typically greater than AST (ALT > AST = Lipids)  normal aminotransferase levels do not exclude NAFLD • Radiographic finding:  U/S → increased echogenicity on ultrasound  CT → decreased hepatic attenuation  MRI → an increased fat signal • Liver biopsy  The hallmark of the condition on liver biopsy is the association of inflammation with fatty infiltration of the liver. This can progress to fibrotic change and eventually to cirrhosis.  fatty infiltration of hepatocytes causing cellular “ballooning” and eventual necrosis. Diagnosis • A definitive diagnosis of NAFLD requires all of the following: Demonstration of hepatic steatosis by imaging or biopsy exclusion of common liver disorders like viral hepatitis, alcoholic liver disease, drug induced and autoimmune liver disease (e.g. primary biliary cirrhosis). Exclusion of other causes of hepatic steatosis: e.g: 021 - Chapter 3 021 Chapter 3 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Significant alcohol use  Hepatitis C (particularly genotype 3)  Wilson disease  Lipodystrophy  Starvation  Parenteral nutrition  Abetalipoproteinemia  Medications  Reye syndrome  Acute fatty liver of pregnancy  HELLP (hemolytic anemia, elevated liver enzymes, low platelet count) syndrome • The confirmatory test for diagnosis is liver biopsy. Management • Non pharmacological: life style management  Weight loss: the mainstay of treatment  abstinence from alcohol • Pharmacological  there is ongoing research into the role of gastric banding insulin-sensitising drugs (e.g. Metformin)  For patients with NASH and diabetes mellitus:  Although initial therapy for type 2 diabetes mellitus is typically with metformin, but metformin does not improve liver histology  the beneficial impact on liver histology with certain other insulinsensitizing agents could be a consideration when choosing a secondline agent for patients with NASH who cannot take metformin or need additional glucose-lowering therapy. In this setting, pioglitazone and liraglutide are reasonable options.  In patients with diabetes mellitus and biopsy-proven NASH, pioglitazone improves fibrosis as well as inflammation and steatosis.  use of pioglitazone is limited because it is associated with increased risk of weight gain, heart failure, and fractures.  Although less well studied, liraglutide also appears to improve liver biopsy evidence of NASH.  Liraglutide is a GLP-1 agonist which results in significant weight loss of up to 7% over 1 year at high dose, (3mg), By driving weight loss it leads to a significant reduction in hepatic fat and may impact on the long-term prognosis of fatty liver disease. Prognosis • Approximately 20% develop cirrhosis Which liver function test is the best marker of non-alcoholic fatty liver disease in type 2 diabetes mellitus? → alanine aminotransferase Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Liver abscess Pyogenic liver abscess • The most common organisms found in pyogenic liver abscesses are Staphylococcus aureus in children and Escherichia coli in adults. • usually complicates pre-existing biliary and gastrointestinal tract infections. • Management  Ideally, a penicillin-based β-lactamase antibiotic combined with metronidazole to provide anaerobic cover would be the treatment of choice.  amoxicillin + ciprofloxacin + metronidazole  if penicillin allergic: ciprofloxacin + clindamycin The CT demonstrates a hypodense lesion (A) with surrounding oedema (B). Amoebic liver abscess • A solitary abscess in the right lobe of the liver is typical of amoebic liver abscess.  The collection is commonly single and confined to the right lobe, but multiple leftsided abscesses may also occur. • Liver abscesses due to amoebae mainly occur in endemic tropical countries. • A history of chronic diarrhoea might be elicited in patients with amoebic liver abscess. • Clinical presentation can be indistinguishable from pyogenic abscesses. • Specific anti-E. histolytica antibodies can be found in 90% • Management  10-day course of metronidazole.  For larger liver abscesses aspiration is the intervention of choice, combined with antibiotic therapy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology CT showing a pyogenic liver abscess in the right lobe of the liver. Hydatid cysts Asymptomatic, calcified cystic lesions in the liver are typical of hydatid cysts. • Hydatid cysts are endemic in Mediterranean and Middle Eastern countries. • Hydatid infection was endemic in sheep farming regions (such as Wales or New Zealand) in the past and sheep dogs were infected by eating infected offal. Humans contract hydatids via faecal/oral spread from dogs.  most commonly seen in farming and rural communities • They are caused by the tapeworm parasite Echinococcus granulosus. • Up to 90% cysts occur in the liver and lungs • An outer fibrous capsule is formed containing multiple small daughter cysts. • These cysts are allergens which precipitate a type 1 hypersensitivity reaction. Clinical features: • Can be asymtomatic, or symptomatic if cysts > 5cm in diameter  The liver cysts are usually asymptomatic, and calcification usually denotes a nonviable cyst. • Morbidity caused by cyst bursting, infection and organ dysfunction (biliary, bronchial, renal and cerebrospinal fluid outflow obstruction) • In biliary rupture there may be the classical triad of; biliary colic, jaundice, and urticaria Investigations • Ultrasonography is the most helpful initial test since it can usually differentiate a simple cyst from other cystic lesions. It should also be used for follow up studies. • CT scan shows characteristic daughter cysts. • Hydatid serology has a sensitivity of 80-90%. • If hydatid serology is negative, then further imaging (CT/MRI) +/- aspiration may be required to make a diagnosis. • CT is the best investigation to differentiate hydatid cysts from amoebic and pyogenic cysts. Treatment • Surgery is the mainstay of treatment (the cyst walls must not be ruptured during removal and the contents sterilised first). • benzimidazoles Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Drug-induced liver disease Hepatocellular Picture Cholestasis (+/- Hepatitis) Liver Cirrhosis • Alcohol • Amiodarone • Anti-tuberculosis: isoniazid, rifampicin, pyrazinamide • Ketoconazole • Halothane • MAOIs • Methyldopa • Paracetamol • Sodium valproate, phenytoin • Statins • Nitrofurantoin  chronic active hepatitis. • Anabolic steroids, testosterones • Antibiotics: flucloxacillin, coamoxiclav*, erythromycin**, nitrofurantoin • Fibrates • Oral contraceptive pill • Phenothiazines:  chlorpromazine,  prochlorperazine • Rarely: nifedipine • Sulphonylureas • Amiodarone • Methotrexate • Methyldopa Notes • with co-amoxiclav, a four-week delay in symptoms and signs is not unusual. • ** with erythromycin risk may be reduced with erythromycin stearate Epidemiology • commoner in women Features • jaundice (elevated bilirubin) • hepatomegaly, • deranged transaminases • associated with anti-LKM2 autoantibodies. Differential diagnosis • autoimmune hepatitis  may also be associated with anti-LKM positivity,  short history and drug exposure make drug-induced hepatitis more likely . Prognosis • Liver function can improve after drug withdrawal, but relapses are possible. Budd-Chiari syndrome Triad of abdominal pain, ascites and liver enlargement. Definition • obstruction of the main hepatic veins by thrombus. • Budd-Chiari syndrome, or hepatic vein thrombosis, is usually seen in the context of underlying haematological disease or another procoagulant condition Causes • polycythaemia rubra vera Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • thrombophilia: activated protein C resistance, antithrombin III deficiency, protein C & S deficiencies • pregnancy • oral contraceptive pill Features • abdominal pain: sudden onset, severe • ascites • tender hepatomegaly • Signs of portal hypertension are present and patients may develop acute variceal haemorrhage as a complication. Diagnosis • Ultrasound Doppler or contrast CT scan is often used to make the diagnosis.  Hypertrophy of the caudate lobe on imaging is a characteristic sign but is seen in only 50% of cases. • Ascitic tap usually demonstrates a high SAAG (>11 g/L). Management • Thrombolysis and subsequent anticoagulation Prognosis • Three-year survival in patients with chronic Budd-Chiari syndrome has been reported as 50%. Gilbert's syndrome • Gilbert's syndrome is an autosomal recessive condition of defective bilirubin conjugation due to a deficiency of UDP glucuronyl transferase. • The prevalence is approximately 1-2% in the general population Features • unconjugated hyperbilinaemia (i.e. not in urine) • normal dipstix urinalysis excludes Dubin-Johnson and Rotor syndrome as these both produce a conjugated bilirubinaemia. • jaundice may only be seen during an intercurrent illness Investigation • rise in bilirubin following prolonged fasting or IV nicotinic acid Management • no treatment required Crigler-Najjar syndrome • Crigler-Najjar syndrome refers to a condition of absent UDP-glucuronyl transferase. • This condition presents early in life with jaundice, increased unconjugated bilirubin and kernicterus. • This disease is life threatening and the only cure is liver transplant. Dubin-Johnson syndrome • benign autosomal recessive disorder • Resulting in hyperbilirubinaemia (conjugated, therefore present in urine). • It is due to a defect in the canillicular multispecific organic anion transporter (cMOAT) protein. This causes defective hepatic bilirubin excretion • patients have a black liver on gross examination of the tissue. • On microscopic examination, patients have epinephrine metabolite accumulations in their hepatocytes. • No treatment is necessary. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Autoimmune hepatitis The combination of deranged LFTs combined with secondary amenorrhoea in a young female strongly suggest  autoimmune hepatitis • Autoimmune hepatitis is condition of unknown aetiology which is most commonly seen in young females. • more common in females. Pathophysiology • T-cell mediated progressive necro-inflammatory process resulting in fibrosis and cirrhosis. Associations • Other autoimmune disorders including:  coeliac disease,  pernicious anaemia,  thyroiditis  type 1 diabetes mellitus. • IgG hypergammaglobulinaemia • sicca syndrome (xerostomia/dry eyes, keratoconjunctivitis sicca) may occur. • HLA B8, DR3 and Dw3. Types • Three types of autoimmune hepatitis have been characterised according to the types of circulating antibodies present Type I Type II Type III Anti-nuclear antibodies (ANA) and/or anti-smooth muscle antibodies (SMA). Affects both adults and children Anti-liver/kidney microsomal type 1 antibodies (LKM1) Affects children only Soluble liver-kidney antigen Affects adults in middle-age Features • may present with signs of chronic liver disease • acute hepatitis: fever, jaundice etc (only 25% present in this way) • amenorrhoea (common) Investigations • ANA/SMA/LKM1 antibodies, • raised IgG levels • liver biopsy:  The gold standard for diagnosis  inflammation extending beyond limiting plate 'piecemeal necrosis', bridging necrosis Management • steroids, other immunosuppressants e.g. azathioprine  Prednisolone (with or without azathioprine) is better than azathioprine alone. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Steroid therapy produce symptomatic, biochemical and histological improvement, with improvement in survival.  It does not, however, prevent progression to frank cirrhosis. • liver transplantation Prognosis • The prognosis with long-term immunosuppression is excellent even in the presence of cirrhosis and few patients subsequently develop liver failure. Ischaemic hepatitis • Ischaemic hepatitis is a diffuse hepatic injury resulting from acute hypoperfusion (sometimes known as 'shock liver'). • It is diagnosed in the presence of an inciting event (eg: cardiac arrest) and marked increases in aminotransferase levels (exceeding 1000 international unit/L or 50 times the upper limit of normal). • Often, it will occur in conjunction with acute kidney injury (tubular necrosis) or other end organ dysfunction. Pregnancy: jaundice Physiological liver changes during pregnancy • albumin level decreases earlier in 1st trimester due to hemodilution • ALT& AST aminotransferase remains normal. Thus, serum aminotransferase levels is the most useful test for the routine diagnosis of liver diseases during pregnancy. • total and free bilirubin decreases during all three trimesters. Conjugated bilirubin ↓↓in 2nd & 3rd trimesters. • ALP ↑↑ in late pregnancy, due both to the production of the placental isoenzyme and to the increase in bone isoenzyme. (Thus ALP levels is not a suitable test for the diagnosis of cholestasis during pregnancy). • Serum gamma-glutamyl transferase ↓↓ in 2nd & 3rd trimesters, • serum 5'nucleotidase slightly ↑↑ in 2nd & 3rd trimesters. • Serum total bile acid concentrations not changed during pregnancy. Measurement of serum bile acids may be useful for the diagnosis of cholestasis, especially when serum aminotransferase levels are within normal limits. • Intrahepatic cholestasis of pregnancy would not occur in the first trimester. Gilbert's & Dubin-Johnson syndrome, • may be exacerbated during pregnancy HELLP syndrome • HELLP syndrome is a mnemonic that stands for Hemolysis, Elevated Liver enzymes, and Low Platelets in a patient with severe preeclampsia. • HELLP syndrome is a manifestation of severe preeclampsia that can lead to hepatic subcapsular hematoma formation. • Schistocytes are an erythrocyte variant that may be seen in HELLP syndrome. • Immediate delivery is the only definitive treatment Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Obstetric cholestasis Epidemiology • Obstetric cholestasis affects around 0.7% of pregnancies in the UK • most common in the third trimester Pathophysiology • Caused by a bile acid transporter defect Features • pruritus - may be intense - typical worse palms, soles and abdomen • Jaundice occurs in less than 10% of patients. Diagnosis (cholestatic picture of (LFTs) with a high ALP and, with a lesser rise in ALT.) • ↑ Total Serum bile acid levels (cholic acid and chenodeoxycholic acid) >10 micromol/L • ↑↑ GGT • ↑ ALT, AST • ↑ direct bilirubin  bilirubin < 100  only slightly elevated in about 10% • ↑ ALP  ALP is not useful as it is normally raised in late pregnancy anyway. • prothrombin time may be prolonged in any cholestatic process due to vit k deficiency Complications • increased risk of prematurity and still birth. Differential diagnosis: • Viral hepatitis is the commonest cause of jaundice in pregnancy but the elevated bile acids make this unlikely Management • ursodeoxycholic acid  First-line medication  widely used but evidence base not clear  early therapy with ursodeoxycholic acid reduces the risk of preterm birth and stillbirth. • Cholestyramine  SE: may cause a deficiency in fat-soluble vitamins  Rarely, there are cases of cerebral hemorrhage associated with vitamin K shortage under cholestyramine therapy. • induction of labour at 37 weeks is common practice but may not be evidence based • vitamin K supplementation • phenobarbital Prognosis • fully reversible postpartum • Recurrence in following pregnancies (40–60%) Cardiac output and blood volume increase in pregnancy but hepatic blood flow does not. Acute fatty liver of pregnancy (AFLP) Definition • a rare disease most common in the third trimester characterized by extensive fatty infiltration of the liver, which can result in acute liver failure Risk factors • older maternal age, • primiparity, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • multiple pregnancies, • pre-eclampsia, • male foetus • previous AFLP. Pathophysiology • dysfunction of fatty acid β-oxidation  microvesicular fat deposition. Features • abdominal pain • nausea & vomiting • headache • jaundice • hypoglycaemia • severe disease may result in pre-eclampsia • Coagulopathy with an increased risk of disseminated intravascular coagulation (DIC) • Hypoalbuminemia → ascites • encephalopathy later. Investigations • ALT is typically elevated e.g. 500 u/l • ↑ WBC, ↓ platelets Management • support care • once stabilised delivery is the definitive management Haemochromatosis • Haemochromatosis is an autosomal recessive disorder of iron absorption and metabolism resulting in iron accumulation. Aetiology • It is caused by inheritance of mutations in the HFE gene on both copies of chromosome 6*.  *there are rare cases of families with classic features of genetic haemochromatosis but no mutation in the HFE gene • 90 % of cases are caused by the substitution of tyrosine for cysteine at position 282 of the HFE gene found on chromosome 6. • HLA-A3 is associated with haemochromatosis Epidemiology • 1 in 10 people of European descent carry a mutation genes affecting iron metabolism, mainly HFE • prevalence in people of European descent = 1 in 200 • Haemochromatosis is the most prevalent genetic condition in Caucasian population, with a carrier rate of 1 in 10 and is present in about 1 in 200-400 people • Males and females are affected equally but females are often 'protected' from the clinical features by menstrual blood loss. Pathophysiology • Iron absorption is regulated in the duodenal crypts. • HFE is a protein that regulates iron absorption, • HFE  forms a complex at the basolateral membrane that if bound to transferrin + iron at the basolateral membrane of the duodenal crypt cells prevents maturation and consequently absorption of iron in the bowel. • mutation in the HFE gene  failure of complex formation and constant maturation of duodenal crypt cells  subsequent unregulated uptake of iron. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Presenting features • often asymptomatic in early disease • early symptoms include  fatigue,  erectile dysfunction  arthralgia (often of the hands)  Joint x-rays characteristically show chondrocalcinosis • 'bronze' skin pigmentation • diabetes mellitus • liver: stigmata of chronic liver disease, hepatomegaly, cirrhosis, hepatocellular deposition) • cardiac failure (2nd to dilated cardiomyopathy) • hypogonadism (2nd to cirrhosis and pituitary dysfunction - hypogonadotrophic hypogonadism) • arthritis (especially of the hands). Joint x-rays characteristically show chondrocalcinosis Questions have previously been asked regarding which features are reversible with treatment: Reversible complications • Cardiomyopathy • Skin pigmentation Irreversible complications • Liver cirrhosis** • Diabetes mellitus • Hypogonadotrophic hypogonadism • Arthropathy **whilst elevated liver function tests and hepatomegaly may be reversible, cirrhosis is not Investigation The best investigation to screen for haemochromatosis • General population: transferrin saturation is considered the most useful marker.  Ferritin should also be measured but is not usually abnormal in the early stages of iron accumulation. • testing family members: genetic testing for HFE mutation These guidelines may change as HFE gene analysis become less expensive Diagnostic tests • liver biopsy: Perl's stain  the gold standard investigation (as it quantifies iron deposition and also stages the amount of fibrosis) • molecular genetic testing for the C282Y and H63D mutations  found in 90%  there is substitution of tyrosine for cysteine at position 282 of the HFE gene on chromosome 6.  However, there is low penetrance of clinical disease and haemochromatosis also occurs in patients who are negative for this mutation.  genetic testing for HFE gene mutations is indicated for an individuals meeting one of the following criteria:  Elevated serum ferritin (> 300 microgram / L in males; > 200 microgram / L in females)  Elevated transferrin saturation (> 45 %)  First degree relative with haemochromatosis • MRI has high specificity but low sensitivity for demonstrating iron overload in the liver - it has not replaced the need for biopsy in the majority of cases. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Typical iron study profile in patient with haemochromatosis • transferrin saturation > 55% in men or > 50% in women • raised ferritin (e.g. > 500 ug/l).  Ferritin is measured to help guide further investigation and treatment:  if more than 1000 a liver biopsy should be performed, and treatment initiated. • low TIBC 0BDiabetes and impotence associated with high ferritin → haemochromatosis • The combination of DM and hypogonadotrophic hypogonadism (HH) ( low testosterone & FSH)) is compatible with a diagnosis of haemochromatosis and measuring ferritin would be a reasonable investigation. • The next investigation would be measurement of transferrin saturation Treatment • Venesections  survival and morbidity are improved if phlebotomy is initiated prior to the development of cirrhosis.  weekly or twice weekly (if tolerated) venesections of 500 cm3 until the serum ferritin is less than 50 ng/mL & transferrin saturation less than 50% • Chelation with desferrioxamine  When iron overload and anaemia are present concomitantly.  may be utilised where venesection cannot be continued and there is still evidence of iron overload.  It is more commonly used in other conditions associated with iron overload such as thalassaemia major. • Avoid vitamin C supplementation  as this can enhance iron toxicity. • liver transplantation  End stage liver disease, portal hypertension and hepatocellular carcinoma (which is increased up to 200-fold) may necessitate liver transplantation. Monitoring adequacy of venesection • BSCH recommend 'transferrin saturation should be kept below 50% and the serum ferritin concentration below 50 ug/l' MRCPUK-part-1-May 2005 exam: Which feature of haemochromatosis may be reversible with treatment?  Cardiomyopathy MRCPUK-part-1-May 2014 exam: H/O fatigue and arthralgia. The joint pain is worse around his metacarpophalangeal joints and knees. polyuria and polydipsia. An x-ray of his knees reveals chondrocalcinosis. What is the mode of inheritance of the likely underlying diagnosis?  Autosomal recessive  (This patient has typical symptoms of haemochromatosis: 1/ Lethargy. 2/arthralgia, with evidence of chrondrocalcinosis. 3/diabetes mellitus (polyuria and polydipsia) MRCPUK-part-2-march-2018: abnormal liver function, low testosterone level, diabetes mellitus and elevated serum ferritin level. What is the most effective intervention to treat Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad iron overload?  Venesection  ∆ haemochromatosis. Hepatocellular carcinoma (HCC) • Hepatocellular carcinoma (HCC) is the third most common cause of cancer worldwide. • Chronic hepatitis B is the most common cause of HCC worldwide with chronic hepatitis C being the most common cause in Europe. Risk factors • The main risk factor for developing HCC is  Liver cirrhosis, for example secondary* to hepatitis B & C, alcohol, haemochromatosis and primary biliary cirrhosis.  *Wilson's disease is an exception  75% to 90% of patients with HCC have cirrhosis.  HCC develops in 4% of cirrhotics per year.  Patients with chronic hepatitis B have 100-fold higher risk of developing HCC. • Other risk factors include:  alpha-1 antitrypsin deficiency  hereditary tyrosinosis  glycogen storage disease  aflatoxin  drugs: oral contraceptive pill, anabolic steroids  porphyria cutanea tarda  male sex  diabetes mellitus, metabolic syndrome Features • tends to present late • features of liver cirrhosis or failure may be seen: jaundice, ascites, RUQ pain, hepatomegaly, pruritus, splenomegaly • possible presentation is decompensation in a patient with chronic liver disease Screening with ultrasound (+/- alpha-fetoprotein) should be considered for high risk groups such as: • patients liver cirrhosis secondary to hepatitis B & C or haemochromatosis • men with liver cirrhosis secondary to alcohol Management options • early disease: surgical resection • liver transplantation • radiofrequency ablation • transarterial chemoembolisation • sorafenib: a multikinase inhibitor Management of liver capsule pain • Stretching of the liver capsule by a primary hepatoma or metastases within the liver can cause chronic cancer pain. • This commonly presents as dull, right-sided subcostal pain. • Referred pain at the top of the ipsilateral shoulder occurs due to diaphragmatic irritation if the superior aspect of the capsule is involved. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Corticosteroids can be used in the management of liver capsule pain and dexamethasone is usually the choice of steroid. • Which analgesics would be most suitable for the management of liver capsule pain?  Dexamethasone Carcinoid syndrome Which biochemical markers is most likely depleted in carcinoid syndrome?  Biosynthesis of serotonin begins with tryptophan, so tryptophan depletion is most likely. • usually occurs when metastases are present in the liver and release serotonin into the systemic circulation • may also occur with lung carcinoid as mediators are not 'cleared' by the liver Features • flushing (often earliest symptom) • diarrhoea • bronchospasm • hypotension • right heart valvular stenosis (left heart can be affected in bronchial carcinoid)  (mostly tricuspid insufficiency) and pulmonary stenosis,  Endocardial fibrosis is due to constant exposure of the right heart to serotonin. • other molecules such as ACTH and GHRH may also be secreted resulting in, for example, Cushing's syndrome • pellagra can rarely develop as dietary tryptophan is diverted to serotonin by the tumour Investigation • urinary 5-hydroxy-indole-acetic acid (5-HIAA) (specificity 100% , sensitivity 70%) • plasma chromogranin A y (The most sensitive marker 100% ) Management • somatostatin analogues e.g. Octreotide (Side effects of octreotide therapy include increased risk of gallstones)  The best treatment for symptoms of carcinoid is the somatostatin analogue, octreotide, which improves symptoms and prognosis • Other potential treatments following resistance or failure of octreotide include hepatic artery embolisation. • diarrhoea: cyproheptadine may help  the treatment for the diarrhoea will be through treating the underlying diagnosis, which is carcinoid  octreotide  Cyproheptadine is not a first line treatment for diarrhoea and in fact may cause diarrnoea as a side effect.  Telotristat inhibits tryptophan hydroxylase, which mediates serotonin biosynthesis. It is indicated for carcinoid syndrome diarrhea in combination with somatostatin analog (SSA) therapy in adults inadequately controlled by SSA therapy.  Telostristat approved by (FDA) in 2017 for carcinoid syndrome diarrhea in combination with somatostatin analog (SSA) therapy in adults inadequately controlled by an SSA. Which vitamin deficiency may be associated with carcinoid syndrome? Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Vitamin B3  Vitamin B3, niacin, is used to make NAD and is derived from tryptophan.  In carcinoid syndrome, the increased synthesis of serotonin would deplete the supply of tryptophan needed to make niacin.  A deficiency of niacin would result in pellagra, which is characterized by diarrhea, dermatitis, and dementia MRCPUK-part-1-May 2007 exam: If the patient develops carcinoid syndrome, which one of the following symptoms is most likely to occur first?  Facial flushing hepatic metastases The abdominal CT demonstrates a number of ill-defined low-density deposits in the liver consistent with hepatic metastases (A) along with significant intrahepatic biliary duct dilatation (B). The likely diagnosis is metastatic pancreatic cancer causing biliary obstruction with a concomitant cholangitis. Viral hepatitis Hepatitis A (HAV) The classic story of (HAV) is initial GIT symptoms then improved condition followed by jaundice and very high alanine aminotransferase (ALT) . Diagnosis • Anti-hepatitis A IgM antibody will confirm the diagnosis • IgG antibody would suggest:  a previous hepatitis A infection or  another underlying cause such as cytomegalovirus. Indicator of poor prognosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Hepatitis A infection on a background of hepatitis C (but not B) has very poor prognosis. Hepatitis B • Hepatitis B is a double-stranded DNA hepadnavirus Spread through • vertical transmission from mother to child.  Perinatal transmission is the most common route of hepatitis B infection worldwide  the infection rate is 90% in infants born to HBeAg (hepatitis B envelope antigen) positive mothers. • exposure to infected blood or body fluids,  Sexual transmission comprises 30% of hepatitis B infections in developed countries. Incubation period • 6-20 weeks. Features: • fever, • jaundice • elevated liver transaminases.  (ALT) will be elevated more than (AST). • Symptoms of decompensated liver disease include:  ascites,  encephalopathy and  gastrointestinal haemorrhage. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Complications • chronic hepatitis (5-10%) • fulminant liver failure (1%) • hepatocellular carcinoma • polyarteritis nodosa  the vascular extrahepatic manifestation of hepatitis B.  There is a hepatitis B seropositivity in 30% of patients with polyarteritis nodosa. • cryoglobulinaemia • hematologic extrahepatic manifestation of hepatitis B  Aplastic anemia • renal extrahepatic manifestations of hepatitis B  Membranous glomerulonephritis (more common)  membranoproliferative glomerulonephritis (less common) are. Prognosis • Most adults with hepatitis B will progress to full resolution. Immunisation against hepatitis B • contains what?:  HBsAg adsorbed onto aluminium hydroxide adjuvant • prepared from what?  prepared from yeast cells using recombinant DNA technology • schedule?  give 3 doses of the vaccine + one-off booster 5 years following the initial primary vaccination • At risk groups who should be vaccinated include:  healthcare workers,  intravenous drug users,  sex workers, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  close family contacts of an individual with hepatitis B,  individuals receiving blood transfusions regularly,  chronic kidney disease patients who may soon require renal replacement therapy,  prisoners,  chronic liver disease patients • failure to respond or respond poorly to 3 doses of the vaccine  occur in 10-15% of adults.  Risk factors include:  age over 40 years,  obesity,  smoking,  alcohol excess and  immunosuppression  how to check response?  testing for anti-HBs levels  testing for anti-HBs is only recommended for: those at risk of occupational exposure (i.e. Healthcare workers) and patients with chronic kidney disease.  In these patients anti-HBs should be checked 1-4 months after primary immunisation  how to interpret anti-HBs levels? the table below shows Anti-HBs level (mIU/ml) Response 100 Indicates adequate response, no further testing required. Should still receive booster at 5 years 10 - 100 Suboptimal response - one additional vaccine dose should be given. If immunocompetent no further testing is required < 10 Non-responder. Test for current or past infection. Give further vaccine course (i.e. 3 doses again) with testing following. If still fails to respond then HBIG would be required for protection if exposed to the virus Hepatitis B serology Interpreting hepatitis B serology: It is important to remember a few key facts: • surface antigen (HBsAg)  is the first marker to appear and causes the production of anti-HBs  appears in the serum 1 to 10 weeks following acute exposure, even before symptoms or (ALT) rise.  normally implies acute disease (present for 1-6 months)  if present for > 6 months then this implies chronic disease (i.e. Infective)  In those who recover HBsAg will usually become undetectable after 4 to 6 months. • Anti-HBs  implies immunity (either exposure or immunisation).  It is negative in chronic disease • Anti-HBc  implies previous (or current) infection.  IgM anti-HBc appears during acute or recent hepatitis B infection and is present for about 6 months.  Anti-HBc IgM is detectable between 6 and 32 weeks after exposure  IgG anti-HBc persists • HbeAg  results from breakdown of core antigen from infected liver cells as is therefore a marker of infectivity  HBeAg is a marker of infectivity in all patients except those who have Hepatitis B virus (HBV) pre-core mutant or the core promoter mutant, because they do not synthesise HbeAg,  this is most commonly due to a stop-codon mutation at nucleotide 1896.  So the learning here is that although the e antigen is negative, the patient may still be infective. • previous immunisation: anti-HBs positive, all others negative • previous hepatitis B (> 6 months ago), not a carrier: anti-HBc positive, HBsAg negative • previous hepatitis B, now a carrier: anti-HBc positive, HBsAg positive IgM anti-HBc jointing HBV-DNA is most effective and most practicable in distinguishing Acute Hepatitis B from Chronic Hepatitis B With Acute Flare. Acute Infection Chronic Carrier HBs + + Anti-HBs Anti-HBc + (IgM) (IgG) (IgG) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Window Complete Recovery Immunized Period Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Distinguish between acute HBV and a flare of chronic disease • originates from an area of the world with a high prevalence of HBV infection  In areas of low HBV prevalence, such as the United Kingdom, a combination of HBsAg positivity and features of acute hepatitis usually indicates acute self-limiting hepatitis B infection.  In countries with high prevalence of hepatitis B the majority of infection is acquired vertically during childhood and leads to chronicity rather than acute infection. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Anti-HBc-IgM is typically found in acute HBV infection; however it can be found in10-15% of patients with chronic HBV. This is especially true when considering acute flares of chronic hepatitis.  The sensitivity and specificity for HBc-IgM to distinguish between acute HBV and a chronic flare has been reported as low as 77% and 70% respectively.  Using high titres to determine cut-offs (1:10,000 or greater) does improve this significantly however. • Flares of chronic HBV are typically associated with higher levels of HBV DNA and AFP than acute self-limiting disease.  The alpha-fetoprotein is commonly elevated during acute hepatitis due to hepatic regeneration. • flares of chronic HBV tend to be associated with less necroinflammation, and thus ALT tends to be as raised as in acute HBV, but hepatic synthetic dysfunction is more common. Distinguish between patients who have recovered from hepatitis B and those immunized for it • Although both patients who have recovered from hepatitis B and those immunized for it will test positive for antibody to hepatitis B surface antigen, only patients who have recovered from hepatitis B will be positive for IgG antibody to hepatitis B core antigen. Assessment of liver disease in secondary specialist care for adults with chronic hepatitis B • The initial test for liver disease in adults newly referred for assessment is  transient elastography  Transient elastography (FibroScan) is a new, non‐invasive, rapid method allowing evaluation of liver fibrosis by measurement of liver stiffness.  Interpretation of transient elastography score  ≥ 11 kPa  antiviral treatment without a liver biopsy  between 6 and 10 kPa  liver biopsy to confirm the level of fibrosis  < 6 kPa  liver biopsy, if the:  Age < 30 years and HBV DNA > 2000 IU/ml and abnormal ALT (≥30 IU/L for males and ≥ 19 IU/L for females) on 2 consecutive tests conducted 3 months apart.  < 6 kPa  NO liver biopsy, if the:  HBV DNA < 2000 IU/ml and normal ALT.  Offer annual reassessment of liver disease using transient elastography to adults who are not taking antiviral treatment. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • Acute HBV  the majority of patients will resolve spontaneously,  treatment with an oral anti-HBV agent is not necessary. Patients who are positive for HBsAg for more than six months but are HBeAg negative, HBV DNA negative and have normal ALT do not require liver biopsy nor do they require antiviral therapy, but hepatitis B serology and ALT should be monitored annually. • Chronic HBV  Indications of antiviral treatment in adults with chronic hepatitis B (NICE 2013)  age ≥ 30 years + HBV DNA > 2000 IU/ml + abnormal ALT (≥30 IU/L in males ≥19 IU/L in females) on 2 consecutive tests conducted 3 months apart.  Age < 30 years + HBV DNA > 2000 IU/ml + abnormal ALT if there is:  evidence of necro-inflammation or fibrosis on liver biopsy  or a transient elastography score > 6 kPa.  HBV DNA > 20,000 IU/ml + abnormal ALT regardless of age or the extent of liver disease. (on 2 consecutive tests conducted 3 months apart)  cirrhosis + detectable HBV DNA, regardless of HBeAg status, HBV DNA and ALT levels.  HBV DNA > 2000 IU/ml + evidence of necro-inflammation or fibrosis on liver biopsy.  with compensated liver disease  First-line  48-week course of pegylated interferon-alpha  ↓↓ viral replication in up to 30% of chronic carriers.  better response is predicted by being female, < 50 years old, low HBV DNA levels, non-Asian, HIV negative, high degree of inflammation on liver biopsy  Interferon alfa is usually given short term and is not very effective in patients without an elevated ALT.  stopping peginterferon alfa-2a 24 weeks after starting treatment if HBV DNA level has decreased by less than 2 log10 IU/ml and/or if HBsAg is greater than 20,000 IU/ml  2nd line  second-line  tenofovir disoproxil ( nucleotide analogue, reverse transcriptase inhibitor (NRTI) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  to people who do not undergo HBeAg seroconversion or who relapse (revert to being HBeAg positive following seroconversion) after firstline treatment with peginterferon alfa-2a.  would be of most value for long-term treatment of HBV  Offer entecavir ( nucleoside analogue, reverse transcriptase inhibitor) as an alternative second-line treatment to people who cannot tolerate tenofovir disoproxil or if it is contraindicated.  Entecavir is a pro-drug and requires phosphorylation to the triphosphate form before it becomes active. Nucleoside = Sugar + Base Nucleotide = Sugar + Base + Phosphate  Lamivudine would be an alternative, although resistance develops commonly.  If HBV DNA remains detectable at 96 weeks:  If No history of lamivudine resistance  add lamivudine to tenofovir disoproxil.  With a history of lamivudine resistance  add entecavir to tenofovir disoproxil.  with decompensated liver disease (portal hypertension, bleeding varices, ascites and encephalopathy)  Do not offer peginterferon alfa-2a  worsen hepatic decompensation  First-line  entecavir (if there is no history of lamivudine resistance).  people with a history of lamivudine resistance  tenofovir disoproxil • When to consider stopping nucleoside or nucleotide analogue treatment?  without cirrhosis  12 months after HBeAg seroconversion  with cirrhosis  do not stop • Co-infection with chronic hepatitis B and C  peginterferon alfa + ribavirin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hepatitis B and pregnancy Risk of vertical transmission • Without intervention the vertical transmission rate is around 20%, • increases to 90% if the woman is positive for HBeAg. • there is little evidence to suggest caesarean section reduces vertical transmission rates Treatment • Treatment of the baby:  babies born to mothers who are chronically infected with hepatitis B or to mothers who've had acute hepatitis B during pregnancy should receive a complete course of vaccination + hepatitis B immunoglobulin  Breastfeeding  hepatitis B cannot be transmitted via breastfeeding (in contrast to HIV)  they may continue antiviral treatment while they are breastfeeding. • Treatment of the woman:  all pregnant women are offered screening for hepatitis B  Interferon is contraindicated  Offer tenofovir disoproxil to women with HBV DNA > 107 IU/ml in the third trimester to reduce the risk of transmission of HBV to the baby.  Monitor quantitative HBV DNA 2 months after starting tenofovir disoproxil and ALT monthly after the birth to detect postnatal HBV flares in the woman.  Stop tenofovir disoproxil 4 to 12 weeks after the birth unless the mother meets criteria for long-term treatment Hepatitis C • Hepatitis C is likely to become a significant public health problem in the UK in the next decade. • It is thought around 200,000 people are chronically infected with the virus. • The most common route of transmission of hepatitis C in the United States is intravenous drug use. • Zone I of the liver is the zone first affected by hepatitis C infection. • Hepatitis C virus genotypes  There are 6 genotypes and more than 50 subtypes.  In England and Wales genotypes 1 and 3 account for more than 90% of all diagnosed infections.  In Japan, North America, and western Europe, the majority of infections are with genotypes 1, 2, and 3.  Subtype 1a is the most predominant genotype in the US,  subtype 1b predominates in Asia and Europe. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Genotype 4 is more prevalent in the middle east and in northern and central Africa.  Genotypes 5 and 6 have been identified in South Africa and southeast Asia, respectively.  Differences in subtype can result in subtle differences in response to antiviral therapies.  Hepatitis C genotype 3 is associated with insulin resistance and hepatic steatosis  Genotype 3a is most strongly associated with a positive response to therapy  Genotypes 2 and 3 respond reasonably well to polyethylene glycol (PEG) interferon and ribavirin; genotypes 1and 4 less well. Risk factors • intravenous drug users • patients who received a blood transfusion prior to 1991 (e.g. haemophiliacs). Pathophysiology • hepatitis C is a RNA flavivirus • incubation period: 6-9 weeks The risk of Transmission: • vertical transmission rate from mother to child is about 6%. • sexual intercourse is probably less than 5% (in contrast to hepatitis B, sexual transmission is uncommon). • needle stick injury is about 2%  The risk is higher if there is coexistent HIV • breast feeding is not contraindicated in mothers with hepatitis C Features • after exposure to the hepatitis C virus less than 20% of patients develop an acute hepatitis • Chronic hepatitis C is a very common cause of minor elevations in serum transaminases. Other liver function tests can be entirely normal Diagnosis • first  Arrange an anti-HCV antibody test • HCV RNA tests are normally only ordered following a positive antibody test. Associations • chronic hepatitis C associated with insulin resistance • insulin sensitising drugs may improve response to anti-viral therapy Extrahepatic association of hepatitis C • Sjögren's syndrome • dermatologic  Porphyria cutanea tarda  Lichen planus • hematologic  Cryoglobulinaemia (mixed essential type)  myeloma and monoclonal gammopathies  non-Hodgkin lymphoma,  immune thrombocytopenia,  autoimmune hemolytic anemia • renal  membranoproliferative glomerulonephritis (more common)  Membranous glomerulonephritis (less common) Complications • chronic infection (80-85%) • cirrhosis (20-30% of those with chronic disease) • hepatocellular cancer • cryoglobulinaemia 022 - Pages 526-550 022 Pages 526-550 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • porphyria cutanea tarda (PCT) Management of chronic infection • chronic hepatitis C is defined as infection that lasts for more than 6 months. • Combination therapy  interferon-alfa and ribavirin  recommended for those with moderate-sever disease  (histological diagnosis of significant scarring and/or significant necrotic inflammation).  In cases where a liver biopsy carries a high risk (e.g. haemophilia), treatment can be initiated without histological confirmation.  currently a combination of pegylated interferon-alpha, ribavirin and a protease inhibitor (e.g. boceprevir, simprevir and telaprevir) is used  Genotype 1 hepatitis C have low rates of viral clearance with dual interferon and ribavirin therapy alone. the recommended duration of therapy is 48 weeks  Ledipasvir/sofosbuvir  modern anti-hepatitis C antivirals, which work via inhibition of NS5A and NS5B  can be used without ribavirin or interferon and hence lend themselves well to treatment of hepatitis C in the context of mixed cryoglobulinaemia.  Because they can be used without interferon, they do not increase renal inflammation and reduce the viral load, impacting positively on progression of renal impairment. • Duration of treatment:  The effectiveness of antiviral treatment depends on the viral genotype; the response is generally better in people infected with genotypes 2 or 3 than in those infected with genotypes 1, 4, 5 or 6.  The recommended treatment duration is 24 weeks (genotypes 2 or 3) or 48 weeks (all other genotypes)  Both treatment-naïve (new) patients and those who have relapsed following initial response to interferon-alfa should be considered for 6 months of combination therapy. • Cure rates:  cure rates are now approaching 90%, including for some strains which have been previously difficult to treat • The aim of treatment:  the aim of treatment is sustained virological response (SVR), defined as undetectable serum HCV RNA six months after the end of therapy • Contra-indications:  treatment is not generally recommended in those patients who consume large quantities of alcohol, given the increased risk of liver damage. • Treatment follow-up:  the best way to assess response to treatment  Viral load • Relapses  relapse occurs in approximately 5% of people after 5 years. Complications of treatment • Ribavirin - side-effects:  haemolytic anaemia,  cough,  teratogenicity  Women should not become pregnant within 6 months of stopping ribavirin • interferon alpha - side-effects:  flu-like symptoms,  fatigue, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  depression,  Peginterferon alfa 2a and 2b are contraindicated in severe psychiatric conditions.  leukopenia, thrombocytopenia.  close monitoring of FBC is recommended, with initial review after 4 weeks of therapy. Factors Associated with Accelerated Fibrosis Progression Host Viral Nonmodifiable • Fibrosis stage • Inflammation grade • Older age at time of infection • Male sex • Organ transplant Modifiable • Alcohol consumption • Nonalcoholic fatty liver disease • Obesity • Insulin resistance • Genotype 3 infection • Coinfection with hepatitis B virus or HIV MRCPUK-part-2-march-2018: A patient with H/O IV drug abuse, deteriorating renal function, spider naevi consistent with chronic liver disease, and the purpuric rash. Hepatitis C is positive. is the most appropriate intervention?  Ledipasvir/sofosbuvir  ∆ hepatitis C with mixed cryoglobulinaemia  do not increase renal impairment  Ribavirin is less effective than NS5A and NS5B inhibition Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hepatitis D Hepatitis D virus infection can only occur with coexistent hepatitis B infection. Virology • Hepatitis D is a single stranded RNA delta virus • It is an incomplete RNA virus that requires hepatitis B surface antigen to complete its replication and transmission cycle. • It is transmitted in a similar fashion to hepatitis B (exchange of bodily fluids) and patients may be infected with hepatitis B and hepatitis D at the same time. Hepatitis D terminology: • Co-infection:  Hepatitis B and Hepatitis D infection at the same time. • Superinfection:  a hepatitis B surface antigen positive patient subsequently develops a hepatitis D infection.  Superinfection is associated with high risk of fulminant hepatitis, chronic hepatitis status and cirrhosis. Diagnosis • made via reverse polymerase chain reaction of hepatitis D RNA. Treatment • Interferon is currently used as treatment, but with a poor evidence base. Hepatitis E Virology • RNA hepevirus • spread by the faecal-oral route • incubation period: 3-8 weeks Epidemiology • common in Central and South-East Asia, North and West Africa, and in Mexico Features • causes a similar disease to hepatitis A, • liver biopsy  Marked cholestasis is a hallmark histological finding in hepatitis E virus infection.  Other liver biopsy features of a hepatitis E patient shows patchy necrosis Management • supportive • In general, hepatitis E is a self-limiting viral infection followed by recovery. Prolonged viraemia or faecal shedding are unusual • a vaccine is currently in development, but is not yet in widespread use Prognosis • does not result in a carrier state • carries a significant mortality (about 20%) during pregnancy • does not cause chronic disease or an increased risk of hepatocellular cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Hepatitis histology • hepatitis E  Marked cholestasis • chronic hepatitis  Ground-glass hepatocytes (large hepatocytes containing surface antigen). • Hepatitis A Hepatocyte swelling, monocyte infiltration, and Councilman bodies • hepatitis B  shows a granular eosinophilic “ground glass” appearance; cytotoxic Tcells mediate damage. • hepatitis C  Lymphoid aggregates and a marked increase in the activation of sinusoidal lining cells • hepatitis D  Microvesicular steatosis Colorectal conditions Colorectal cancer (CRC) Epidemiology • Colorectal cancer is the third most common type of cancer in the UK and the second most cause of cancer deaths • Adenocarcinomas comprise the vast majority (98%) of colon and rectal cancers • Location of cancer (averages)  rectal: 40%  sigmoid: 30%  descending colon: 5%  transverse colon: 10%  ascending colon and caecum: 15% Risk factors • Colorectal adenomas • Family history • Hereditary syndromes  Familial adenomatous polyposis: 100% risk by age 40  Hereditary nonpolyposis colorectal cancer (HNPCC): 80% progress to CRC. • Conditions associated with an increased risk of colorectal cancer  Inflammatory bowel disease (IBD): ulcerative colitis and Crohn's disease  Endocarditis and bacteremia due to Streptococcus gallolyticus is associated with CRC.  Bovis in the Blood = Cancer in the Colon.  Acromegaly • Diet and lifestyle  Smoking  Alcohol consumption  Obesity  Processed meat; high-fat, low-fiber diets • Older age Protective factors • Physical activity • Diet rich in fiber and vegetables and lower in meat • Long-term use of aspirin and other NSAIDs Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Risks for colorectal carcinoma Population risk 1 in 40 One first-degree relative more than 45 years old 1 in 17 One first-degree plus one second-degree relative 1 in 12 Two first-degree relatives 1 in 6 Familial polyposis 1 in 2 Which drugs may reduce the risk of colon cancer?  Vitamin D  Aspirin and NSAID Types • There are three types of colon cancer: Sporadic (95%) Hereditary non-polyposis colorectal carcinoma (HNPCC, 5%) Familial adenomatous polyposis (FAP, <1%) • Sporadic colon cancer  may be due to a series of genetic mutations. For example:  allelic loss of the APC gene  more than half of colon cancers  further gene abnormalities e.g.  activation of the K-ras oncogene,  RAS is an intracellular signaling molecular that acts downstream of the epidermal growth factor receptor (EGFR) to stimulate cell division and growth  present in 30-50% of colorectal cancers  associated with failure to respond to EGFR based therapies such as the monoclonal antibodies Cetuximab and Panitumumab. The presence of a KRAS mutation is a contraindication to treatment with these agents.  Which histopathological subtypes is essential for successful treatment with cetuximab? K-Ras wild type Cetuximab is licensed by NICE in metastatic colorectal cancer for K-Ras wild type proven patients who require downstaging prior to surgical resection of liver metastatic disease. always given in combination with chemotherapy major side effect  acne type rash.  deletion of p53 and DCC tumour suppressor genes lead to invasive carcinoma • Hereditary non-polyposis colorectal carcinoma (HNPCC)  also known as (Lynch syndrome)  autosomal dominant mutation of DNA mismatch repair genes with microsatellite instability.  most common form of inherited colon cancer.  Around 90% of patients develop cancers, often of the proximal colon, which are usually poorly differentiated and highly aggressive.  The most common genes involved are:  MSH2 (60% of cases) the function of this gene  DNA mismatch repair  MLH1 (30%) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Patients with HNPCC are also at a higher risk of other cancers, with endometrial cancer being the next most common association, after colon cancer.  The Amsterdam criteria are sometimes used to aid diagnosis:  at least 3 family members with colon cancer  the cases span at least two generations  at least one case diagnosed before the age of 50 years  Torre-Muir syndrome, a type of hereditary nonpolyposis colorectal cancer (HNPCC), is characterized by sebaceous adenomas.  These lesions are usually present on the face, near the eyes and forehead and appear as yellow papules/nodules. sebaceous adenomas associated with Torre-Muir syndrome a type of HNPCC  Polyp cancers represent T1 disease and have been sub-classified.  The Haggitt system is used for pedunculated polyps and describes the deepest invasion of carcinoma cells within the polyp:  Level 1 is limited to the head of the polyp  Level 2 is extension into the neck  Level 3 is invasion of the stalk, and  Level 4 is invasion beyond the stalk but above the muscularis propria.  The Kicuchi system describes the depth of invasion in sessile polyp cancers. • Familial adenomatous polyposis (FAP)  FAP is a rare autosomal dominant condition which leads to the formation of hundreds of polyps by the age of 30-40 years.  Patients inevitably develop carcinoma.  It is due to a mutation in a tumour suppressor gene called adenomatous polyposis coli gene (APC), located on chromosome 5.  Genetic testing can be done by analysing DNA from a patients white blood cells.  Patients generally have a total colectomy with ileo-anal pouch formation in their twenties.  Patients with FAP are also at risk from duodenal tumours.  Oesophago-gastroduo-denoscopy (OGD) surveillance is recommended.  A variant of FAP called Gardner's syndrome can also feature:  osteomas of the skull and mandible,  retinal pigmentation,  thyroid carcinoma  and epidermoid cysts on the skin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Carcinoembryonic antigen may be used to monitor for recurrence in patients post-operatively or to assess response to treatment in patients with metastatic disease Features • Colorectal cancer on the left side of the body typically presents with bright red rectal bleeding. • Colorectal cancer on the right side of the body typically presents with iron deficiency anemia and melena.  Colorectal cancer is the most common cause of iron deficiency anemia in postmenopausal women or in men aged 50 or older. • In the descending colon, colorectal cancer presents as colicky pain and hematochezia. • Colorectal cancer on the left side of the body typically presents with obstruction. • In the ascending colon, colorectal cancer presents as an exophytic mass with iron deficiency anemia and weight loss. Colorectal cancer: screening Overview • most cancers develop from adenomatous polyps. Screening for colorectal cancer has been shown to reduce mortality by 16% • the NHS now has a national screening programme offering screening every 2 years to all men and women aged 60 to 74 years. Patients aged over 74 years may request screening • eligible patients are sent faecal occult blood (FOB) tests through the post • patients with a single positive results are offered a colonoscopy • An uncertain or unclear result will result in a request to repeat up to a maximum of two further tests. Persistent unclear results require further investigation with consideration of colonoscopy. • A negative faecal occult blood does not exclude an underlying diagnosis of colorectal cancer. • Any patient with symptoms, irrespective of a negative faecal occult blood test, should be investigated for the possibility of underlying bowel cancer as appropriate. At colonoscopy, approximately: • 5 out of 10 patients will have a normal exam • 4 out of 10 patients will be found to have polyps which may be removed due to their premalignant potential • 1 out of 10 patients will be found to have cancer Streptococcus bovis bacteraemia and endocarditis is associated with colon cancer (in around half of cases). All patients should, therefore, undergo colonoscopy Colorectal cancer: referral guidelines NICE updated their referral guidelines in 2015. The following patients should be referred urgently (i.e. within 2 weeks) to colorectal services for investigation: • patients >= 40 years with unexplained weight loss AND abdominal pain • patients >= 50 years with unexplained rectal bleeding • patients >= 60 years with iron deficiency anaemia OR change in bowel habit • tests show occult blood in their faeces (see below) An urgent referral (within 2 weeks) should be 'considered' if: • there is a rectal or abdominal mass • there is an unexplained anal mass or anal ulceration • patients < 50 years with rectal bleeding AND any of the following unexplained symptoms/findings: Chapter 3 Gastroenterology • -→ abdominal pain • -→ change in bowel habit • -→ weight loss • -→ iron deficiency anaemia Faecal Occult Blood Testing (FOBT) This was one of the main changes in 2015. Remember that the NHS now has a national screening programme offering screening every 2 years to all men and women aged 60 to 74 years. Patients aged over 74 years may request screening. In addition FOBT should be offered to: • patients >= 50 years with unexplained abdominal pain OR weight loss • patients < 60 years with changes in their bowel habit OR iron deficiency anaemia • patients >= 60 years who have anaemia even in the absence of iron deficiency Follow-up period for adenomatous colonic polyps • The British Society of Gastroenterology (BSG) guidelines on the follow-up period for adenomatous colonic polyps includes:  5-year interval is indicated for low-risk patients  (one to two adenomas that are both small, ie <1 cm)  3-year follow up is recommended for medium-risk patients  (three to four adenomas or one or two adenomas where one adenoma bigger than or equal to 1 cm)  1-year follow-up is recommended for high-risk patients  (five or more small adenomas or more than three with at least one at or above 1 cm in size). guidance for colonoscopic surveillance Risk profile Definition Surveillance interval low risk 1 to 2 adenomas that are both small, ie <1 cm) intermediate risk (3 to 4 adenomas or 1 or 2 adenomas where one adenoma ≥ 1 cm) high risk ≥ 5 small adenomas or > 3 with at least one at or above 1 cm in size). Post polypectomy follow-up: • Polyps that are ≤10 mm in size can be removed in a single go with biopsy forceps or snares. • The need for repeat colonoscopy following polypectomy applies to large sessile adenomas removed piecemeal (that is, multiple snares required).  Small areas of residual polyp can then be treated endoscopically, with a further check for complete eradication in two to three months.  India ink tattooing aids recognition of the polypectomy site at follow up.  If extensive residual polyp is seen, surgical resection needs to be considered.  If there is complete healing of the polypectomy site, then there should be a colonoscopy at one year, to check for missed synchronous polyps, before returning to three yearly surveillance. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 5-year 3-year 1-year Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Stages • The stages of colorectal cancer are based on the TNM staging system by the American Joint Committee for Cancer (AJCC). TNM Staging Corresponding Duke's Classification stage Description I A Tumor confined to intestinal wall (confined to the muscularis propria) II B Infiltration into the visceral peritoneum, adjacent organs, or perirectal tissue III C Lymph node involvement IV D Distant metastases AJCCC (American Joint Committee) Staging of Colorectal Cancer Primary Tumor (T) TX Primary tumor cannot be assessed T0 No evidence of primary tumor Tis Carcinoma in situ: intraepithelial or invasion of lamina propria T1 Tumor invades submucosa T2 Tumor invades muscularis propria T3 Tumor invades through the muscularis propria into pericolorectal tissues T4a Tumor penetrates to the surface of the visceral peritoneum T4b Tumor directly invades or is adherent to other organs or structures Regional Lymph Nodes (N) NX Regional lymph nodes cannot be assessed N0 No regional lymph node metastasis N1 Metastasis in 1-3 regional lymph nodes N1a Metastasis in one regional lymph node N1b Metastasis in 2-3 regional lymph nodes N1c Tumor deposit(s) in the subserosa, mesentery, or nonperitonealized pericolic or perirectal tissues without regional nodal metastasis N2 Metastasis in 4 or more regional lymph nodes N2a Metastasis in 4-6 regional lymph nodes N2b Metastasis in 7 or more regional lymph nodes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Distant Metastasis (M) M0 No distant metastasis M1 Distant metastasis M1a Metastasis confined to one organ or site (for example, liver, lung, ovary, nonregional node) M1b Metastases in more than one organ/site or the peritoneum Residual tumour (R) classification exists in addition to the TNM classification and the histological grade (G): • RX presence of residual tumour cannot be assessed • R0 no residual tumour • R1 microscopic residual tumour • R2 macroscopic residual tumour. Management: depends upon the stage. • Stage I (Duke's A):  Definition  Carcinoma in situ limited to mucosa or submucosa (T1, N0, M0).  Management  surgery to remove the tumour.  Additional treatments are not usually needed.  Follow-up  Colonoscopy - indicated on an annual basis for the first 2 years, then this should be done 3-yearly  Faecal occult blood - should be tested 6-monthly for the first 4 years and then once yearly  Carcinoembryonic antigen (CEA) - can be used to monitor for recurrence if it is elevated initially  Prognosis  the five-year survival rate exceeds 90%. • Stage II (Duke's B):  Definition  Cancer that extends into the muscularis (B1), into or through the serosa (B2).  Management  surgical removal of the tumour followed by radiotherapy.  Radiotherapy has been shown to reduce the rate of recurrence.  The role of adjuvant chemotherapy is less clear in Duke's B than in Duke's C (see below).  chemotherapy is not typically given as standard.  Prognosis  the five-year survival rate is 70% - 80% • Stage III (Duke's C):  Definition  Cancer that extends to regional lymph nodes (T1-4, N1, M0).  Management  surgery to remove the tumour,  chemotherapy with 5-FU and leucovorin  in some patients radiotherapy may also be needed (especially if the tumour is large and invading the tissue surrounding the colon). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  There is no role for adjuvant radiation therapy in patients with colon cancer.  Adjuvant radiotherapy is useful in patients with rectal cancer in whom the risk for local recurrence is greater.  Prognosis  The five-year survival rate is less than 60% (40 - 50%) • Stage IV (Duke's D):  Definition  Cancer that has metastasised to distant sites (T1-4, N1-3, M1).  Management  Surgery to remove the tumour or to bypass an obstructing tumour,  Metastatic lesion resection:  Colorectal carcinoma is one of the only oncological diseases where the presence of a metastatic deposit can be treated with curative intent.  A solitary liver lesion should be surgically resected.  In fact, the purpose of following patients with CEA is to identify patients with solitary metastatic lesions amenable to surgical resection.  palliative chemotherapy and/or radiotherapy for symptom relief;  Trans-arterial chemoembolization & Radiofrequency ablation are used as palliative procedures when the lesions are too numerous or large to resect.  use of new agents such as cetumixab (a recombinant human/mouse chimeric epidermal growth factor inhibitor) or bevacizumab (a recombinant human antivascular epidermal growth factor (VEGF) antibody).  Prognosis  Five-year survival is approximately 5%. Radiation therapy is not a standard modality in the treatment of colon cancers MRCPUK-part-1-January 2015 exam: A man has hereditary non-polyposis colorectal cancer secondary to a mutation in the MSH2 gene. which other cancers his daughter will most be at risk from? Endometrial cancer Dysplastic colonic polyps The British Society of Gastroenterology (BSG) published guidelines on the follow-up period for dysplastic colonic polyps in 2002: • 5-year interval is indicated for low-risk patients (one to two adenomas that are both small, ie <1 cm) • 3-year follow up is recommended for medium-risk patients (three to four adenomas or one or two adenomas where one adenoma bigger than or equal to 1 cm) • 1-year follow-up is recommended for high-risk patients (five or more small adenomas or more than three with at least one at or above 1 cm in size). Polyp characteristics: associated with a higher risk of malignant change: • polyps greater than 1.5 cm, which are sessile or flat • Histology demonstrating severe dysplasia, predominantly villous architecture or squamous metaplasia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Peutz-Jeghers syndrome • Peutz-Jeghers syndrome is an autosomal dominant condition • Characterised by:  numerous hamartomatous polyps in the gastrointestinal tract.  pigmented freckles on the lips, face, palms and soles. • Around 50% of patients will have died from a gastrointestinal tract cancer by the age of 60 years. • incidence of 1:50,000 live births. Genetics • autosomal dominant • responsible gene encodes serine threonine kinase LKB1 or STK11 Features • hamartomatous polyps in GI tract (mainly small bowel) • pigmented lesions on lips, oral mucosa, face, palms and soles • intestinal obstruction e.g. intussusception • gastrointestinal bleeding Management • conservative unless complications develop • colonoscopy every two years after the age of 25 for evaluation of the presence of polyps and polypectomy. Capsule endoscopy • Capsule endoscopy is currently used in UK to identify the source of occult gastrointestinal bleeding when an OGD and colonoscopy and failed to show a cause. • It is particularly useful for identifying pathology in the ileum. Pseudomyxoma peritonei • Pseudomyxoma peritonei is a rare mucinous tumour most commonly arising from the appendix. • The disease is characterised by the accumulation of large amounts of mucinous material in the abdominal cavity. • It is rare, with an incidence of 1-2/1,000,000 per year Treatment • usually surgical and consists of cytoreductive surgery (and often peritonectomy) combined with intra-peritoneal chemotherapy with mitomycin C. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Villous adenoma Overview • Villous adenomas are colonic polyps with the potential for malignant transformation. • They characteristically secrete large amounts of mucous, potentially resulting in electrolyte disturbances. • often in the rectum and rectosigmoid, Features: The vast majority are asymptomatic. Possible features: • non-specific lower gastrointestinal symptoms • secretory diarrhoea may occur • microcytic anaemia • hypokalaemia Carcinoid tumours Carcinoid syndrome Left-sided valvular lesions are not observed in carcinoid syndrome because the lung metabolizes serotonin (5-HT). Remember the symptoms of carcinoid syndrome as "Be FDR" : Bronchospasm, Flushing, Diarrhoea, and Right-sided valvular lesions. • Carcinoid syndrome occurs in only 5% of patients with carcinoid tumour • usually occurs when metastases are present in the liver and release serotonin into the systemic circulation • The most common originating sites of carcinoid is the small bowel, particularly the ileum;  Around 55% of all carcinoid tumours arise from the GI tract,  the most common site of origin is the small bowel (45% of those arising within the GI tract).  Within the small bowel, the most common site of origin is the distal ileum. • carcinoid tumors are the most common malignancy of the appendix. • 5-HT, kinins, prostaglandins and other vasoactive substances are secreted. • may also occur with lung carcinoid as mediators are not 'cleared' by the liver • the caecal-appendiceal region is the commonest location for a carcinoid primary. • These tumours are slow growing Features • flushing (often earliest symptom) the most common feature (occurring in 85% of patients) .often provoked by alcohol. • diarrhoea ( 75% )and abdominal cramps in the majority of patients. • bronchospasm • hypotension • right heart valvular stenosis (left heart can be affected in bronchial carcinoid) Cardiac abnormalities develop in 50% of patients and consist of tricuspid regurgitation or pulmonary stenosis. Fibrosis of the heart valves is a recognised feature • other molecules such as ACTH and GHRH may also be secreted resulting in, for example, Cushing's syndrome • pellagra can rarely develop as dietary tryptophan is diverted to serotonin by the tumour Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Investigation • urinary 5-HIAA  24-hour urine collection for 5-hydroxy-indole-acetic acid (5-HIAA) - excretion is greater than 0.3 mmol. • plasma chromogranin A y • Biopsy of the lesion show cells staining for chromogranin A on histology  consistent with a neuroendocrine tumour • Octreotide scanning is positive in up to 85% of cases, however a negative scan does not rule out liver metastases. • The liver should be imaged by high resolution CT with fine cuts or by USS.  The sensitivity of USS may be increased by the use of microbubble contrast medium (levovist), which is available at some centres. • Fasting gut hormones should be measured as neuroendocrine tumours may co-secrete other hormones such as VIP, which may contribute to the diarrhoea. Management • somatostatin analogues e.g. octreotide  Octreotide is less likely to be effective if octreotide scan negative, but other analogues such as lanreotide have different affinities for different somatostatin receptor subtypes, which may be present on the tumour. • diarrhoea: cyproheptadine may help • Other Symptomatic management may include hepatic embolisation, hepatic chemoembolisation and chemotherapy. • echocardiography to screen for carcinoid heart disease (right-sided valvular lesions). Prognosis • generally good. Gorlin syndrome causes: gastric hamartomas, basal cell carcinomas, mandibular bone cysts, intracranial calcification, pits on the palms and soles. Diverticular disease • Diverticulosis  presence of diverticula which are asymptomatic. • Diverticular disease  diverticula associated with symptoms  typically painless bleeding • Diverticulitis  diverticular inflammation (fever, tachycardia) with or without localised symptoms and signs  painful, No bleeding Overview • Diverticula are bulging sacs that push outward on the colon wall.can occur anywhere in the colon, but most commonly form near the end of the colon on the left side (sigmoid colon). • A diverticulum consists of a herniation of mucosa through the thickened colonic muscle. • most common in industrialized countries where diets are lower in fiber and higher in processed carbohydrates. • Diverticular disease is by far the commonest cause of severe fresh bleeding per rectum. Causes: It is believed diverticula form when there is increased pressure in the colon • Diets low in fiber cause hard stool and slower "transit time" through the colon, increasing pressure. • repeated straining during bowel movements also increases pressure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Drugs: diuretics, and narcotic pain relievers, can increase constipation and increase pressure in the colon. Epidemiology • Approximately 50% of all people have diverticula by the time they are 50 years of age, and nearly 70% of all people have diverticula by the time they are 80 years of age • Diverticular disease is rare in people younger than 40 years • Disease is more virulent in young patients, with a high risk of recurrences or complications. • The most common fistula is colovesicular and then colovaginal fistulas. Risk factors • The main risk factors are age over 50 years and low dietary fibre. • Obesity is an important risk factor in young people. • Complicated diverticular disease has an increased frequency in: patients who smoke, use non-steroidal anti-inflammatory drugs (NSAIDs) and paracetamol, and those who are obese and have low-fibre diets Features • Approximately 75% of people with diverticula have asymptomatic diverticulosis • Pain is generally exacerbated by eating and diminished with defecation or flatus. • Other symptoms, such as bloating, constipation or rectal bleeding, may also occur. • Diverticulitis Mechanism  may occur if some faeces get trapped and stagnate in a diverticulum, bacteria then multiply and cause infection. Site of the pain  Generally, presents with left lower quadrant pain.  Asian patients have predominantly right-sided diverticula and will usually present with right lower quadrant pain. Pain may be intermittent or constant and may be associated with a change in bowel habits. Fever and tachycardia are present in most patients One third of patients who develop diverticulitis will develop further complications (perforation, abscess, fistula, stricture/obstruction) Diagnosis: colonoscopy • sensitivities and specificities for CT are significantly better than for contrast enemas. • When an abscess is suspected, CT scanning is the best modality for making the diagnosis and following its course. • Because of risk of perforation, endoscopy is generally avoided in initial assessment of the patient with acute diverticulitis. • Haemorrhage: Flexible sigmoidoscopy is an appropriate initial approach to rule out an obvious rectosigmoid lesion. If no cause is identified, further assessment with non-invasive (nuclear scintigraphy) or invasive (angiography, colonoscopy) techniques can be undertaken in an attempt to localise and treat the bleeding source. Management • asymptomatic No treatment or follow-up needs there may be a prophylactic benefit of a high-fibre diet. The risk of perforation may be increased by the use of NSAIDs and long-term use of opioids. Calcium-channel blockers are associated with a reduction in diverticular perforation but Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology there is insufficient evidence to recommend their use. • Diverticulitis Broad-spectrum antibiotics to cover anaerobes and Gram-negative rods - eg, coamoxiclav or a combination of ciprofloxacin and metronidazole (if allergic to penicillin). Paracetamol should be used for pain. Recommend clear liquids only; gradually reintroduce solid food as symptoms improve over 2-3 days. Review within 48 hours, or sooner if symptoms deteriorate. Hospital admission should be arranged if symptoms persist or deteriorate. Mesalazine has been shown to be more effective in improving the severity of symptoms, bowel habit, and in preventing symptomatic recurrence of diverticulitis, than antibiotics alone Most patients admitted with acute diverticulitis will respond to conservative treatment, but 15-30% will need surgery. The indications for surgery are:  Purulent or faecal peritonitis.  Uncontrolled sepsis.  Fistula.  Obstruction.  Inability to exclude carcinoma. CT-guided percutaneous drainage of abdominal abscesses is now used in preference to surgery when feasible. Risk of recurrent symptoms after an attack of acute diverticulitis is about one in three. Recurrent attacks are less likely to respond to medical treatment and they have a high mortality rate. • Haemorrhage Haemorrhage ceases spontaneously in 70-80% of patients.. Subsequent colonoscopy should be performed to establish the source of the bleeding and to exclude neoplasia. Intra-arterial vasopressin at angiography can control haemorrhage in more than 90% of patients. The benefit is usually only temporary but may allow time to prepare the patient adequately for surgery. Angiographic embolisation of very distal bleeding branches is also effective and safe. Surgery in lower gastrointestinal bleeding is usually reserved until endoscopic or angiographic treatments fail. Segmental resection is most usually done if the bleeding site is clearly identified from a therapeutically unsuccessful angiographic or endoscopic procedure. In patients with persistent bleeding and no angiographic or endoscopic identification of a definite bleeding site, subtotal colectomy may be required. The chance of a third bleeding episode can be as high as 50%, so many authorities recommend surgical resection after a second bleeding episode. • Prognosis Approximately three quarters of patients with anatomical diverticulosis remain asymptomatic. Most complications of diverticulitis are associated with the initial attack, after which the disease tends to run a benign course. Mortality and morbidity are related to complications of diverticulosis, which are mainly diverticulitis and lower gastrointestinal bleeding. These occur in 10-20% of patients with diverticulosis during their lifetime. • Prevention Dietary fibre may prevent development of diverticular disease but, once symptoms develop, the benefit from fibre supplementation is unclear. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Physical exercise has also been shown to help prevent the development of diverticular disease. The presence of mixed Gram-negative and/or anaerobic organisms is highly suggestive of secondary peritonitis due to a perforated large bowel or appendicitis. Meckel's diverticulum • Meckel's diverticulum is the vestigial remnant of the omphalomesenteric duct. • It is normally located in the terminal ileum within ~60 cm of the ileocaecal valve and it averages 6 cm in length. • the diverticulum is frequently located near the ileocecal valve in the small bowel. • In Meckel diverticulum, there is persistence of the vitelline duct, an embryologic structure necessary for receiving nutrients. When this structure persists, the Meckel diverticulum may contain ectopic tissue, such as the acid-secreting gastric mucosa • Although it occurs much more commonly in children it is an important differential consideration for gastrointestinal bleed in adults. • also quite common in Down's syndrome. Features • About 50% of these contain ectopic gastric mucosa, commonly leading to clinical presentations of peptic ulceration and haemorrhage. • Other complications of Meckel's diverticulum include  Diverticulitis  Intussusception  Perforation  Obstruction. Diagnosis • Technetium99m pertechnetate scintigraphy  Tc-99m pertechnetate accumulates in gastric mucosa and is the study of choice for identifying ectopic gastric mucosa in a Meckel's diverticulum. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology The picture shows an excised Meckel's diverticulum. Meckel diverticula: rule of 2’s • occurs in 2% of the population, • commonly located within 2-feet of the ileocecal valve, • 2-inches in length, • commonly occurs before the age of two. Intussusception • Hirschsprung disease is aganglionosis of colon, causing obstruction. It usually presents in neonatal period. • common cause of intestinal obstruction in children in general and in Down's syndrome in particular. • There is a classic triad in intussusception of: acute abdominal pain, currant jelly stool and palpable abdominal mass, usually in right iliac fossa. Aorto-enteric fistulae (AEF) • known to occur following endovascular repair of abdominal aortic aneurysms (AAA) and secondary to aortic grafting of any kind, presumably because of mechanical forces of dislodged or migrating devices. • May occur after aorto-bifemoral graft as treatment for peripheral vascular disease. • Strongly positive faecal occult blood (FOB) suggests significant GI haemorrhage in spite of normal upper GI endoscopy. Angiodysplasia Angiodysplasia is associated with aortic stenosis Definition Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Angiodysplasia is a vascular deformity of the gastrointestinal tract which predisposes to bleeding and iron deficiency anaemia. Epidemiology • generally seen in elderly patients (≥ 60 years). • the most common vascular lesion of the gastrointestinal tract • Second most common cause of lower GI bleeding in patients >60 years of age. Location of lesion • the most common site:  predominantly located in the proximal colon (77%) (located most commonly in the ascending colon and caecum) Associations • associated with aortic stenosis, • In Heyde's syndrome, a syndrome of aortic valve stenosis and colonic angiodysplasia, a possible mechanism is the induction of von Willebrand's disease type IIA by the valvular stenosis. Features • may be asymptomatic, • gastrointestinal bleeding (estimated incidence of active bleeding being about 10% of affected cases). Diagnosis • Colonoscopy  If the initial colonoscopy is negative, the most appropriate next investigation is  repeat colonoscopy.  Pick up of colonic angiodysplasia, (sensitivity), is only 80% by colonoscopy however, this is why it is advisable to move to a repeat colonoscopy.  Once two colonoscopies have taken place, moving to capsule endoscopy is a usual next step. • The repeated negative upper and lower GI endoscopies suggest that small bowel angiodysplasia may be the cause, in an area which is difficult to image via conventional endoscopy. In this situation capsule endoscopy has a higher yield and would be the appropriate next step.  The pathophysiology of angiodysplasia in this situation isn't known, although it may be due to changes in pressure within the mesenteric venous plexus, as the condition often resolves once the valve is treated. • mesenteric angiography if acutely bleeding Management • Bleeding stops spontaneously in >90% of cases. • endoscopic cautery or argon plasma coagulation • antifibrinolytics e.g. Tranexamic acid • oestrogens may also be used Heyde's syndrome  gastrointestinal bleeding from angiodysplasia in the presence of aortic stenosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Anal fissure Anal fissures are longitudinal or elliptical tears of the squamous lining of the distal anal canal. If present for less than 6 weeks they are defined as acute, and chronic if present for more than 6 weeks. Around 90% of anal fissures occur on the posterior midline Management of an acute anal fissure (< 6 weeks) • dietary advice: high-fibre diet with high fluid intake • bulk-forming laxatives are first line - if not tolerated then lactulose should be tried • lubricants such as petroleum jelly may be tried before defecation • topical anaesthetics • analgesia topical steroids do not provide significant relief Management of a chronic anal fissure (> 6 weeks) • the above techniques should be continued • topical glyceryl trinitrate (GTN) is first line treatment for a chronic anal fissure • if topical GTN is not effective after 8 weeks then secondary referral should be considered for surgery or botulinum toxin Anal fistula • Goodsall's rule describes the likely location of the internal opening of a fistula-in-ano based on its external opening.  If the external opening is anterior to the 9-3 o'clock plane, then the fistula forms a direct radial tract and opens internally at the same clock face point.  If the external opening is posterior to this line then it will generally follow a more circuitous route opening at 6 o'clock. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Inflammatory bowel disease (IBD) Crohn's disease Definition • Crohn's disease is a form of inflammatory bowel disease. • Commonly affects the terminal ileum and colon but may be seen anywhere from the mouth to anus. Epidemiology • IBD is more common in white people than in African-Caribbean people or those of Asian origin. • has a lower incidence in non-white races; people of Jewish origin are more prone to inflammatory bowel disease than non-Jews; and Ashkenazi Jews are at higher risk than Sephardic Jews. • slightly more common in females (male to female ratio is 1:1.2) • typically presents in late adolescence or early adulthood. The highest incidence of Crohn's disease in the 15–30 year age • The ratio of Crohn's disease to ulcerative colitis varies between adults and children. In adults, the ratio of Crohn's disease to ulcerative colitis is 2:3, while the ratio in children is much higher (2.3:1). Pathology • cause is unknown but there is a strong genetic susceptibility • inflammation occurs in all layers, down to the serosa. This is why patients with Crohn's are prone to strictures, fistulas and adhesions Features • non-specific symptoms such as weight loss and lethargy • diarrhoea:  the most prominent symptom in adults.  Crohn's colitis may cause bloody diarrhea.  Nocturnal diarrhoea is indicative of organic disease and is typical of a Crohn's disease flare. • abdominal pain:  the most prominent symptom in children.  often in the lower right quadrant • perianal disease: e.g. Skin tags or ulcers  if the patient has sepsis secondary to a perianal abscess, due to underlying Crohn’s disease. The priority is to delineate the extent of the abscess and potential fistula by an urgent pelvis MRI before draining it via Examination under anaesthesia (EUA).  the next best investigation to guide further management  Immediate MRI pelvis  CT is inferior to MRI in detecting perianal pathology • An abdominal mass is often palpable in the presence of small bowel disease which can lead to Vitamin K malabsorption. • extra-intestinal features are more common in patients with colitis or perianal disease Extra-intestinal manifestations of IBD  A PIE SAC: • Aphthous ulcers • Pyoderma gangrenosum • Iritis • Erythema nodosum • Sclerosing cholangitis • Arthritis • Clubbing of fingertips Chapter 3 Gastroenterology Questions regarding the 'extra-intestinal' features of inflammatory bowel disease are common: Common to both Crohn's disease (CD) and Ulcerative colitis (UC) Notes Related to disease activity • Aphthous oral ulcers • Arthritis: pauciarticular, asymmetric • Erythema nodosum • Episcleritis • Osteoporosis Unrelated to disease activity • Arthritis: polyarticular, symmetric • Uveitis • Pyoderma gangrenosum • Clubbing • Primary sclerosing cholangitis Smoking in IBD • Smoking associated with earlier age of onset of disease and more frequent need for immunosuppression among women with Crohn's disease but not men. • Smoking cessation is associated with an increased risk of ulcerative colitis. Investigation Bloods • C-reactive protein correlates well with disease activity Faecal calprotectin • Calprotectin is a protein belonging to the S100 family and occurring in large amounts in neutrophil granulocytes • Increased faecal calprotectin indicates increased migration of neutrophils to intestinal mucosa • ↑↑ Calprotectin in stool is the direct consequence of neutrophil degranulation due to mucosal damage. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • the most common extra-intestinal feature in both CD and UC  Arthritis • more common in CD  Episcleritis  Interstitial lung disease • more common in UC  Primary sclerosing cholangitis  Uveitis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • The logical next step in excluding inflammatory bowel disease • Recommended by NICE to distinguish between inflammatory bowel diseases and noninflammatory bowel diseases, such as irritable bowel syndrome in people presenting with any of the following lower gastrointestinal symptoms for at least 6 weeks: abdominal pain or discomfort, bloating, or change in bowel habit. • ↑↑ when there is any intestinal inflammation  Crohn’s disease or ulcerative colitis. • normal value is approximately 25 mg/kg. • in IBS values may be slightly higher than those of healthy subjects , but in IBD significantly ↑↑ • Calprotectin exceeding 50 mg/kg should be considered positive  do endoscopy to confirm IBD • Non-invasive screen for IBD • Normal faecal calprotectin  makes IBD unlikely • ↑↑ faecal calprotectin  drive further imaging Stool culture • should be performed first • Even if the presentation is highly suggestive of inflammatory bowel disease. However, it is unforgivable not to do a stool culture in a case of diarrhoea and that should be the starting point before considering the other investigations Endoscopy • colonoscopy is the investigation of choice  Crohn's disease most typically affects the terminal ileum and proximal colon, therefore the investigation of choice would be ileo-colonoscopy.  A flexible sigmoidoscopy may not identify any areas of disease. • features suggest of Crohn's include deep ulcers, skip lesions Histology • inflammation in all layers from mucosa to serosa • goblet cells • granulomas • Patchy inflammation Small bowel enema • high sensitivity and specificity for examination of the terminal ileum • strictures: 'Kantor's string sign' • proximal bowel dilation • 'rose thorn' ulcers • fistulae Chapter 3 Gastroenterology Barium study is shown from a patient with worsening Crohn's disease. Long segment of narrowed terminal ileum in a 'string like' configuration in keeping with a long stricture segment. Termed 'Kantor's string sign'. Thumb printing • thumb printing is a predominantly radiological finding due to inflamed, oedematous folds of bowel as a result of mucosal oedema caused by inflammation. Thumb printing may be seen in either Crohn's disease or ulcerative colitis. Management (NICE 2012) CD UC Inducing remission 1st line  • conventional glucocorticosteroids (oral, topical or I.V) , OR • Budesonide (less effective and less side effect): ( for mild to moderate + distal ileal, ileocaecal or right-sided colonic disease + conventional glucocorticosteroids are contraindicated, or not tolerated) OR • enteral nutrition ( If any concern about growth SE of steroids e.g. in children) OR • aminosalicylate (less effective and less side effect): (for mild to moderate + conventional glucocorticosteroids are contraindicated, or not tolerated) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The picture shows the typical 'cobblestone mucosa' of Crohn's disease with isolated areas of normal mucosa surrounded by deep ulceration (ulcerative colitis does not result in such deep ulceration). Mild & moderate UC 1st line: • Rectal & distal colitis  rectal (topical) Aminosalicylates is superior to rectal steroids • Proximal colitis  oral Aminosalicylates Sever UC  hospital  1st line ( I.V steroid) 2nd line  adding azathioprine or mercaptopurine to a conventional glucocorticosteroid or budesonide ( if: • there are 2 or more inflammatory exacerbations in a 12-month period or • the glucocorticosteroid dose cannot be tapered. 3rd line: add methotrexate to a conventional glucocorticosteroid or budesonide (If azathioprine or mercaptopurine not tolerated , or in whom TPMT activity is deficient), Severe form 1st line : conventional glucocorticosteroids 2nd line: (not responded to conventional therapy (including immunosuppressive and/or corticosteroid treatments) Infliximab or adalimumab ( severe active Crohn's disease is defined as very poor general health and one or more symptoms such as weight loss, fever, severe abdominal pain and usually frequent (3 to 4 or more) diarrhoeal stools daily.) Maintaining remission Stop smoking 1st line  azathioprine or mercaptopurine (or methotrexate ONLY if needed to induce remission) 2nd line (if azathioprine or mercaptopurine not tolerated or not appropriate)  methotrexate post-surgery  azathioprine in combination with up to 3 months' postoperative metronidazole, OR azathioprine alone for people who cannot tolerate metronidazole Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 2nd line  oral prednisolone • oral 5-ASA e.g. mesalazine • azathioprine and mercaptopurine (methotrexate is NOT recommended for UC) 023 - Chapter 3 023 Chapter 3 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology General points • patients should be strongly advised to stop smoking • some studies suggest an increased risk of relapse secondary to NSAIDs and the combined oral contraceptive pill but the evidence is patchy • dietary advice  Short-term use of TPN may be helpful in severe cases  There is a significant portion of Crohn’s patients who are lactose intolerant, and hence a dairy free diet may reduce the frequency of diarrhoea. Inducing remission Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • glucocorticoids (oral, topical or intravenous) are generally used to induce remission. Budesonide is an alternative in a subgroup of patients • enteral feeding with an elemental diet may be used in addition to or instead of other measures to induce remission, particularly if there is concern regarding the side-effects of steroids (for example in young children) • 5-ASA drugs (e.g. mesalazine) are used second-line to glucocorticoids but are not as effective • azathioprine or mercaptopurine* may be used as an add-on medication to induce remission but is not used as monotherapy. Methotrexate is an alternative to azathioprine • infliximab is useful in refractory disease and fistulating Crohn's. Patients typically continue on azathioprine or methotrexate • metronidazole is often used for isolated peri-anal disease After a diagnosis of small bowel Crohn’s disease, a patient asked for therapy that is as effective as a course of corticosteroids, but with a better adverse event profile. What would you recommend?  Defined formula diet  One study showed corticosteroids to have an 80% short-term remission rate, while sole-source liquid diets had a 60% remission rate.  However, the rate of remission rose to 80% with sole-source liquid diets for those who were able to tolerate a course of therapy. Maintaining remission • stopping smoking is a priority  (remember: smoking makes Crohn's worse, but may help ulcerative colitis) • first-line  azathioprine or mercaptopurine  *assess thiopurine methyltransferase (TPMT) activity before offering azathioprine or mercaptopurine • second-line  methotrexate • if a patient has had previous surgery  5-ASA drugs (e.g. mesalazine) should be considered Surgery • around 80% of patients with Crohn's disease will eventually have surgery  Side effects  Bile salt malabsorption  Loss of the terminal ileum frequently leads to  bile salt malabsorption  commonly presents with watery diarrhoea.  diagnosis can be confirmed with a SEHCAT scan.  treatment with the bile salt chelator cholestyramine Treatment during pregnancy • For relapse during pregnancy  1st line  Prednisolone is the most appropriate initial treatment  2nd line (in patients who not responds to corticosteroids)  Infliximab  Infliximab is thought to be low risk in pregnancy although it does cross the placenta.  Patients on maintenance infliximab therapy should stop treatment by week 26 gestation.  In patients who require treatment in the last trimester, live vaccines should be avoided in the newborn for the first 6 months. • For maintenance therapy  azathioprine or 6MP Complications: There are 3 main serious intestinal complications in Crohn's disease: Stricture (narrowing) of the bowel  intestinal obstruction Fistulas, which are abnormal connections between sections of the bowel, or between the bowel and bladder. colorectal cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Prognosis :( Nice 2013) Prognostic feature Crohn's disease ulcerative colitis prolonged remission Only 10% 50% surgery within 10 years of diagnosis 50% 20–30% risk of mortality compared with the general population slightly increased Not increased General outlook worse than ulcerative colitis Better than Crohn's Renal calculi are increased in Crohn's due to a mixture of dehydration and increased oxalate due to small bowel pathology and previous surgery. (Non-contrast helical CT abdomen is the investigation of choice for suspected renal calculi.) Crohn's-like enterocolitis with mycophenolate mofetil • Reported in renal transplant patients who have received mycophenolate mofetil. • Investigations will reveal mucosal ulceration and skip lesions ordinarily seen in Crohn's. • Treatment  Withdrawal of mycophenolate  resolution of symptoms Ulcerative colitis (Nice guidelines 2013) • Ulcerative colitis (UC) is a form of inflammatory bowel disease. • Inflammation always starts at rectum (hence it is the most common site for UC), • never spreads beyond ileocaecal valve and is continuous. • The peak incidence of ulcerative colitis is in people aged 15-25 years and in those aged 5565 years. Features The initial presentation is usually following insidious and intermittent symptoms: • bloody diarrhoea • urgency • tenesmus • abdominal pain, particularly in the left lower quadrant • extra-intestinal features (see below) Severity of ulcerative colitis (Mild, moderate and severe) • In adults the severity criteria are based on the Truelove and Witts' severity index • In children (≤ 11 years) and young people (12 to 17 years) these categories are based on the Paediatric Ulcerative Colitis Activity Index (PUCAI) Truelove and Witts' severity index Mild Moderate Severe Bowel movements (no. per day) < 4 4–6 ≥ 6 + at least one of the features of systemic upset (Pyrexia, Pulse > 90, anaemia, ↑ESR ) Blood in stools small amounts Between mild and severe Visible blood Pyrexia (> 37.8°C) No No Yes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pulse > 90 bpm No No Yes Anaemia Haemoglobin <105 g/L No No Yes ESR ≤ 30 ≤ 30 30 C reactive protein ≤ 30 ≤ 30 30 Pathology • red, raw mucosa, bleeds easily • no inflammation beyond submucosa (unless fulminant disease) • widespread ulceration with preservation of adjacent mucosa which has the appearance of polyps ('pseudopolyps') • inflammatory cell infiltrate in lamina propria • neutrophils migrate through the walls of glands to form crypt abscesses • depletion of goblet cells and mucin from gland epithelium • granulomas are infrequent Barium enema • loss of haustrations • superficial ulceration, 'pseudopolyps' • long standing disease: colon is narrow and short -'drainpipe colon' Abdominal x-ray from a patient with ulcerative colitis showing lead pipe appearance of the colon (red arrows). Ankylosis of the left sacroiliac joint and partial ankylosis on the right (yellow arrow), reinforcing the link with sacroilitis. Ulcerative colitis: flares • Non-steroidal anti-inflammatory drugs (NSAIDs) cause flares of inflammatory bowel disease. • Cytomegalovirus is an uncommon cause of non-responsive colitis. Flares of ulcerative colitis are usually classified as either mild, moderate or severe: Mild Moderate Severe • < 4 stools/day, with or without blood • 4-6 stools/day, with minimal systemic • >6 bloody stools per day, containing blood • Evidence of systemic disturbance, e.g. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Mild Moderate Severe • No systemic disturbance • Normal ESR and C-reactive protein values disturbance  fever  tachycardia  abdominal tenderness, distension or reduced bowel sounds  anaemia  hypoalbuminaemia Patients with evidence of severe disease should be admitted to hospital. Risk factors for the precipitation of toxic colonic dilatation ulcerative colitis identify the following as risk factors for the precipitation of toxic colonic dilatation: • Hypokalaemia • Hypomagnesaemia • Under-treatment • Purgative bowel preparations for colonoscopy • Non-steroidals • Opioids • Anti-cholinergics, and • Anti-diarrhoeal agents. • inappropriately delayed Ulcerative colitis: management (NICE 2013) Treatment can be divided into inducing and maintaining remission.. Inducing remission • treatment depends on the extent and severity of disease • rectal (topical) aminosalicylates or steroids: for distal colitis rectal mesalazine has been shown to be superior to rectal steroids and oral aminosalicylates • oral aminosalicylates • oral prednisolone is usually used second-line for patients who fail to respond to aminosalicylates. NICE recommend waiting around 4 weeks before deciding if first-line treatment has failed • severe colitis should be treated in hospital. Intravenous steroids are usually given first-line Maintaining remission • oral aminosalicylates e.g. mesalazine • azathioprine and mercaptopurine • methotrexate is not recommended for the management of UC (in contrast to Crohn's disease) • there is some evidence that probiotics may prevent relapse in patients with mild to moderate disease Inactive (quiescent) colitis: • (ESR) is not raised in quiescent UC • If the ESR, CRP and platelet counts are not raised, indicating that the patient's symptoms are not due to active disease. • Neutrophilic infiltrate is present if disease is active  Involves epithelium of surface and crypts  Frequently forms crypt abscesses Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Step-up approach to treatment based on disease severity. CLINICAL OVERVIEW Ulcerative colitis. Elsevier Point of Care. Updated December 21, 2019. https://www.clinicalkey.com/#!/content/clinical_overview/67-s2.0-0c7ff1f6-29bc-46f1-a7b74bcf12316903?scrollTo=%2367-s2.0-0c7ff1f6-29bc-46f1-a7b7-4bcf12316903-99c15915-a11a-451d-9cb08db17e1930c9-annotated www.clinicalkey.com Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Ulcerative colitis: colorectal cancer Overview • risk of colorectal cancer is significantly higher than that of the general population although studies report widely varying rates • the increased risk is mainly related to chronic inflammation • worse prognosis than patients without ulcerative colitis (partly due to delayed diagnosis) • lesions may be multifocal Factors increasing risk of cancer • disease duration > 10 years • patients with pancolitis • onset before 15 years old • unremitting disease • poor compliance to treatment Colonoscopy surveillance & Risk stratification of IBD • All patients with a diagnosis of colitis should have a screening colonoscopy 10 years after index presentation, preferably when they are in remission. • patients should be decided following risk stratification.  Lower risk  5-year follow up colonoscopy  Extensive colitis with no active endoscopic/histological inflammation  left sided colitis  Crohn's colitis of <50% colon  Intermediate risk  3-year colonoscopy  Extensive colitis with mild active endoscopy/histological inflammation  post-inflammatory polyps  OR family history of colorectal cancer in a first degree relative aged 50 or over  Higher risk  1 year follow up colonoscopy  Extensive colitis with moderate/severe active endoscopic/histological inflammation  stricture in past 5 years  dysplasia in past 5 years declining surgery  primary sclerosing cholangitis / transplant for primary sclerosing cholangitis  family history of colorectal cancer in first degree relatives aged <50 years Inflammatory bowel disease: key differences • The two main types of inflammatory bowel disease are Crohn's disease and Ulcerative colitis. • They have many similarities in terms of presenting symptoms, investigation findings and management options. • There are however some key differences which are highlighted in table below: Venn diagram showing shared features and differences between ulcerative colitis and Crohn's disease. Note that whilst some features are present in both, some are much more common in one of the conditions, for example colorectal cancer in ulcerative colitis Crohn's disease (CD) Ulcerative colitis (UC) Features Diarrhoea usually non-bloody Weight loss more prominent Upper gastrointestinal symptoms, mouth ulcers, perianal disease Abdominal mass palpable in the right iliac fossa Extraintestinal Gallstones are more common secondary to reduced bile acid reabsorption Oxalate renal stones* Complications Obstruction, fistula, colorectal cancer Risk of colorectal cancer high in UC than CD Pathology Lesions may be seen anywhere from the mouth to anus Skip lesions may be present Histology Inflammation in all layers from mucosa to serosa • increased goblet cells • granulomas Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Bloody diarrhoea more common Abdominal pain in the left lower quadrant Tenesmus Primary sclerosing cholangitis more common Inflammation always starts at rectum and never spreads beyond ileocaecal valve Continuous disease No inflammation beyond submucosa (unless fulminant disease) - inflammatory cell infiltrate in lamina propria • neutrophils migrate through the walls of glands to form crypt abscesses • depletion of goblet cells and mucin from gland epithelium • granulomas are infrequent Chapter 3 Gastroenterology Crohn's disease (CD) Ulcerative colitis (UC) Endoscopy Deep ulcers, skip lesions - 'cobble-stone' appearance Radiology Small bowel enema • high sensitivity and specificity for examination of the terminal ileum • strictures: 'Kantor's string sign' • proximal bowel dilation • 'rose thorn' ulcers • fistulae *impaired bile acid reabsorption increases the loss calcium in the bile. Calcium normally binds oxalate. IBD: histology This histological differences between Crohn's and ulcerative colitis are summarised below: Crohn's • inflammation occurs in all layers, down to the serosa. This predisposes to strictures, fistulas and adhesions • oedema of mucosa and submucosa, combined with deep fissured ulcers ('rose-thorn') leads to a 'cobblestone' pattern • lymphoid aggregates • non-caseating granulomas Ulcerative colitis • inflammation in mucosa and submucosa only (unless fulminant disease) • widespread ulceration with preservation of adjacent mucosa which has the appearance of polyps ('pseudopolyps') • inflammatory cell infiltrate in lamina propria • crypt abscesses • depletion of goblet cells and mucin from gland epithelium • granulomas are infrequent Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Widespread ulceration with preservation of adjacent mucosa which has the appearance of polyps ('pseudopolyps') Barium enema • loss of haustrations • superficial ulceration, 'pseudopolyps' • long standing disease: colon is narrow and short -'drainpipe colon' feature Ulcerative colitis Crohn's Most common site Rectum Terminal ileum Distribution Rectum to colon “backwash” ileitis Spread Continuous Discontinuity “skip” lesions Gross features  Extensive ulceration  Focal aphthous ulcers with intervening normal mucosa  Linear fissures  Cobblestone appearance  Thickened bowel wall “linitis plastic”  Creeping fat Micro  Crypt abscess Noncaseating granulomas Inflammation  Limited to mucosa and  Pseudo-polyps submucosa Complication  Toxic megacolon  Strictures  String sign on barium study  Obstruction  Abscess  Fistula  Sinus tract Genetic Association HLA-B27 Common Uncommon Extraintestinal manifestation Cancer risk 5-25% Slight 1-3% Presentation Bloody diarrhea Variable : Pain, diarrhea, weight loss Pseudopolyps are seen in both ulcerative colitis and Crohn's disease. history of previously well-controlled ulcerative colitis, treated with mesalazine 1.2 g daily. presented with a 5-day history of increasing bowel frequency. A diagnosis of active proctitis was made. What is the most appropriate treatment?  increase mesalazine dosage Microscopic colitis (Collagenous colitis and Lymphocytic colitis) • Microscopic colitis (MC) is an inflammatory condition of the colon that presents with two subtypes: collagenous (CC) and lymphocytic colitis (LC). • Both types of MC present with watery diarrhea, and normal endoscopic findings. Differentiation is made by histological examination but treatment is the same. • Risk factors for MC are female gender, higher age, concomitant autoimmune disease, past and current diagnosis of malignancy of organ transplant  Among all autoimmune disorders, celiac disease appears to have the strongest association.  The use of proton pump inhibitors (PPIs) (lansoprazole), low dose aspirin, βblockers, angiotensin II receptor antagonists, nonsteroidal anti-inflammatory drugs (NSAIDs), selective serotonin reuptake inhibitors (SSRI), statins, and bisphosphonates have all been associated with MC Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Mouth to anus Transmural Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Diagnosis histological evaluation through lower endoscopy.  The histology found in MC (both CC and LC) demonstrates lymphocytic infiltration of the lamina propria and the epithelium.  CC differs from LC in that there is marked thickening of the subepithelial layer.  Intraepithelial lymphocytosis (IEL) can be found in both CC and LC, but is more pronounced in LC: ≥ 20 intraepithelial lymphocyte per 100 surface epithelial cells are needed to make the diagnosis • Both MC respond well to oral budesonide. • Prognosis is good with resolution of symptoms after medical therapy. • 38% of the patients achieve spontaneous remission with either no treatment or with simple anti-diarrheals. Histological features of collagenous colitis and lymphocytic colitis Collagenous colitis Lymphocytic colitis Lamina propria Lymphocytic infiltration of the lamina propria with little or no damage in mucosal architecture Subepithelial layer Thickening of subepithelial layer > 10 µm Subepithelial collagen layer not present or < 10 µm Intraepithelial Intraepithelial lymphocytosis could be present, but necessary for the diagnosis Intraepithelial lymphocytosis (≥ 20 IEL per 100 surface epithelial cells) • Management discontinue any potentially offending drug. mild and intermittent symptoms can be treated with anti-diarrheal medication (loperamide).  moderate to severe symptoms: only budesonide has strong supporting evidence and should be the first-line treatment in inducing and maintaining clinical remission in both CC and LC  Prednisone is an alternative corticosteroid that has shown some efficacy in treating MC. however it is less effective than budesonide. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Collagenous colitis • Collagenous colitis is one of the forms of microscopic colitis, i.e. a condition in which the colon appears normal on colonoscopy, but where the diagnosis is made based on the abnormal histology of colonic biopsies. • predominantly affects women (male: female of 1: 4) in the fifth and sixth decades of life. • aetiology is unknown, • although associated with  several medications – in particular, non-steroidal anti-inflammatory drugs  coeliac disease and other autoimmune disorders. • chronic watery diarrhoea (which tends to be worse during the day than at night), and is also often accompanied by crampy, diffuse abdominal pain. • normal blood tests, radiological and macroscopic appearances. • The diagnosis is made based on the typical histological appearances of a thickened subepithelial collagen band, a moderate inflammatory cell infiltrate, and an increase in intraepithelial lymphocytes. • Treatments include antidiarrhoeal agents (such as Loperamide), 5-aminosalicyclate drugs, corticosteroids, and bile acid sequestrants, all of which are variably effective. Lymphocytic colitis • Associations  occur in patients with other forms of GI pathology, including Crohn’s and Coeliac.  Sertraline also appears to be associated with the development of lymphocytic colitis. • Management Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  Withdrawal of the offending agent is preferable,  loperamide is often used as a first line therapy to reduce the severity of diarrhoea, with cholestyramine an alternative if there is bile salt malabsorption.  Other alternatives include immune modulating agents such as azathioprine, although a response to therapy may take many months to appear. _Toxic megacolon (Toxic dilatation of the colon) DON’T GIVE ANTI-DIARRHEAL Rx FOR ACUTE COLLITIS  TOXIC MEGACOLON Flexible sigmoidoscopy is the best investigation - safer than colonoscopy (relative contraindication in active colitis), allowing biopsies to be taken and the viewing of a possible pseudomembrane. Occasionally the mucosa has a characteristic appearance. • Usually associated with severe colitis.  usually due to severe UC but also with Crohn's colitis and rarely ischaemic or infective colitis • The transverse or right colon is usually the most dilated part in toxic megacolon, often greater than 6 cm and occasionally up to 15 cm on supine films. Diagnostic criteria toxic megacolon  transverse colon dilatation ≥ 6 cm + signs of systemic toxicity. • Radiographic evidence of colonic distension • plus at least three of the following:  Fever >38.6°C  Heart rate >120 beats per minute (The most reliable sign is the pulse rate)  Neutrophilic leucocytosis >10.5 × 109/L, or  Anaemia. • Plus, at least one of the following:  Dehydration  Altered mental status  Electrolyte disturbances, or  Hypotension. Investigation • The most helpful investigation is a plain abdominal X-ray. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Radiological colonic dilatation - widest diameter ≥ 6 cm in the transverse colon. Other radiological findings include:  loss of haustral pattern,  mucosal oedema and  thumbprinting. Treatment The treatment of choice for established dilatation is colectomy. • Treatment includes 3 main goals: reduce colonic distention to prevent perforation (5-fold increase in mortality after free perforation)  Rolling techniques (knee-elbow and prone) may be performed to assist in redistribution of colonic gas and decompression  Medical treatment: antibiotics to cover the colonic bacterial flora, gram-negative and anaerobic bacteria steroids: either hydrocortisone 100 mg IV every 6 hours or methylprednisolone 60 mg IV every 24 hours is acceptable. The latter has greater relative anti-inflammatory potency and less relative mineralocorticoid potency. cyclosporine may be effective  colectomy: Most authors recommend colectomy if persistent dilatation is present or if no improvement is observed on maximal medical therapy after 24-72 hours. correct fluid and electrolyte disturbances  fluid replacement, electrolyte repletion, and transfusion should be aggressive. treat toxemia and precipitating factors.  Broad-spectrum (IV) antibiotics with coverage equivalent to ampicillin, gentamicin, and metronidazole should be initiated.  Possible triggers for TM should be stopped, including: narcotics antidiarrheals anticholinergics Prognosis • The mortality rate for non-perforated, acute toxic colitis is about 4%; if perforation occurs, the mortality is approximately 20%. Gastroenteritis and food poisoning Radiation enteritis Overview • Radiation injury to the rectum and sigmoid colon is commonly seen following treatment of cancers of the cervix, uterus, prostate and bladder. • It often occurs 9–14 months following radiation exposure and results in a chronically ischaemic intestinal segment that may lead to stricture. • Symptoms include diarrhoea, obstructed defecation, bleeding, rectal pain or urgency. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Diagnosis • can be confirmed with colonoscopy, and mucosal features consistent with radiation injury include pallor, friability and telangiectasias. • Biopsy is not diagnostic but is helpful to exclude other causes. Treatment • systemic review of available trials shows promising results for rectal sucralfate and metronidazole combined with topical anti-inflammatory treatment and heater probe. Gastroenteritis Travellers' diarrhoea • defined as at least 3 loose to watery stools in 24 hours with or without one of more of abdominal cramps, fever, nausea, vomiting or blood in the stool. • The most common cause is Escherichia coli • Ciprofloxacin is recommended for first line antibiotic therapy (when needed) before stool culture results are available. Acute food poisoning • Sudden onset of nausea, vomiting and diarrhoea after the ingestion of a toxin. • typically caused by Staphylococcus aureus, Bacillus cereus or Clostridium perfringens. • Clostridium perfringens:  a Gram-positive, rod shaped, anaerobic, spore-forming bacterium.  The spores can withstand (ﻳﻘﺎﻭﻡ) cooking temperatures, so if food (meat and poultry) is left to stand for a long time, germination of spores can occur, causing food poisoning.  The CPE (clostridium perfringens enterotoxin) can be detected in food that has been improperly prepared.  Clostridium perfringens can also cause gas gangrene, a necrosis of tissues with gas production. The toxin responsible for gas gangrene is called alphatoxin. • reservoir for this pathogen  Vibrio species are most commonly found in seafood (Fish), are commashaped, and prefer alkaline media.  Improperly canned foods are reservoirs for Clostridium botulinum. This is an anaerobic gram-positive organism that creates spores. If the can is bulging, it is probably contaminated and should not be eaten.  Honey can be a reservoir for Clostridium botulinum. Newborn babies are at risk for contracting spores from eating honey since their immune systems are poorly developed. This can lead to “floppy baby” syndrome.  Meats, mayonnaise, custard and other cream-based dishes are food sources commonly associated with Staphylococcus aureus food poisoning. Diarrhoea • Osmotic diarrhoea occurs in patients with diabetes who ingest too much sorbitol (a common substitute for glucose in so-called 'diabetic foods'. • Secretory diarrhoea commonly occurs in response to endotoxin-producing bacteria, (eg cholera or Escherichia coli). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Chronic radiation enteritis is diagnosed if diarrhoea and abdominal pain persist for 3 or more months following irradiation. Stereotypical histories Infection Typical presentation Escherichia coli Common amongst travellers Watery stools Abdominal cramps and nausea Giardiasis Prolonged, non-bloody diarrhoea Cholera Profuse, watery diarrhoea Severe dehydration resulting in weight loss Not common amongst travellers Shigella Bloody diarrhoea Vomiting and abdominal pain Staphylococcus aureus Severe vomiting Short incubation period Campylobacter commonest cause of bacterial gastroenteritis in the UK A flu-like prodrome is usually followed by crampy abdominal pains (often a prominent feature), 'pseudoappendicitis' (RIF pain), fever and diarrhoea which may be bloody. Treatment: • the most appropriate therapy  IV fluids • most units advocate no antibiotic treatment. • Antibiotic of choice in this infection is erythromycin, though ciprofloxacin and tetracycline may also be appropriate. Complications include Guillain-Barre syndrome Salmonella • After Campylobacter, Salmonella is the most commonly isolated bacterial pathogen when laboratory diagnosis of diarrhea is sought. • acute onset of fever, diarrhea, and cramping • antibiotic treatment of patients with nontyphoidal salmonellosis may actually prolong, rather than limit, fecal shedding of these organisms. • the likely sources are poultry (ﺩﻭﺍﺟﻦ) and eggs. Bacillus cereus Two types of illness are seen • vomiting within 6 hours, stereotypically due to rice • diarrhoeal illness occurring after 6 hours Amoebiasis Gradual onset bloody diarrhoea, abdominal pain and tenderness which may last for several weeks Incubation period • 1-6 hrs: Staphylococcus aureus, Bacillus cereus* • 12-48 hrs: Salmonella, Escherichia coli • 48-72 hrs: Shigella, Campylobacter Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • 7 days: Giardiasis, Amoebiasis Amoebic dysentery • Acute amoebic dysentery is managed with: a course of oral metronidazole or tinidazole, followed by a ten day course of diloxanide to eradicate colonisation of the gut. • Amoebic liver abscess may appear at any time from eight weeks after infection, and presents with night sweats, anorexia and right upper quadrant pain. • mortality from amoebiasis is less than 1%. Biochemical abnormalities in persistent vomiting • persistent vomiting  ↓↓ gastric hydrochloric acid  hypochloraemia and metabolic Alkalosis • In the early stages the urine has low chloride and high bicarbonate levels in order to compensate for the loss of gastric hydrochloric acid and is appropriately alkaline. • With the continued dehydration, sodium is preferentially reabsorbed over the potassium and hydrogen ions which are excreted by the kidneys. • The urine becomes paradoxically acidic, hypokalaemia develops, and alkalosis leads to lower circulating levels of ionised calcium. To quickly remember the PH changes associated with GI losses, think: • With vomiting, both the PH and food come up. • With diarrhoea, both the PH and food go down. Giardiasis Pathogenesis • Giardiasis is caused by the flagellate protozoan Giardia lamblia. • Giardia lamblia is capable of causing epidemic or sporadic diarrheal illness. • It has two morphological forms: cysts and trophozoites. Cysts are the infectious form of the parasite; following cyst ingestion, trophozoites are released in the proximal small intestine. Trophozoites that do not adhere to the small intestine move forward to the large intestine where they revert to the infectious cyst form; these cysts are passed back into the environment in excreted stool. • Transmission: via the faeco-oral route. • The incubation period is 1-2 weeks. Feature • Often asymptomatic  ≈ 50% clear the infection without symptoms  ≈ 15% shed cysts asymptomatically (carriers) • Symptomatic infection ≈ 35%  lethargy, bloating, abdominal pain  non-bloody diarrhoea  malabsorption and acquired lactose intolerance can occur → chronic diarrhoea, steatorrhoea & weight loss Diagnosis • stool microscopy  initial investigation, but frequently not positive , need 3 samples, 2- 3 days apart as cyst and trophozoites are shed intermittently Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Stool antigen tests: immunoassays (eg: ELISA) using antibodies against cyst or trophozoite antigen  the best test for giardia  more sensitive and faster than stool microscopy. • duodenal samples for microscopy: can be obtained by:  the 'string test' (swallowing a gelatin capsule on a string)  endoscopy → duodenal aspirates or biopsy. Treatment • Antiprotozoal (tinidazole, nitazoxanide or metronidazole)  Metronidazole has been the first-line; however, a single-dose tinidazole is superior and the best treatment now (shorter course and fewer side effects) • For pregnant:  1st trimester → paromomycin (Non-absorbable aminoglycoside)  2nd & 3rd trimester → either paromomycin or metronidazole Clostridium perfringens The food poisoning with Colicky abdominal pain and diarrhoea without vomiting after incubation period between 9-13 hours is typical of Clostridium perfringens. Bacillus cereus typical case of Bacillus cereus, profuse vomiting occurs one to five hours after eating (rice ). • B.cereus can cause two patterns of disease: classic emetic form:  caused by the ingestion of toxin  Characterised by nausea and vomiting, similar to Staphylococcus aureus.  Rice products are generally the cause of this form. diarrhoeal form:  less common  Caused by the ingestion of the organism, which releases toxin within the stomach.  Produce an illness similar to C. perfringens (but the incubation period is classically shorter (1-6 hours) with watery diarrhoea and abdominal cramps.  Meats, milk, vegetables and fish have been associated with this form. Shigella • causes bloody diarrhoea, abdominal pain • severity depends on type: S sonnei (e.g. from UK) may be mild, S flexneri or S dysenteriae from abroad may cause severe disease • treat with ciprofloxacin • Reactive arthritis and Reiter's syndrome can develop following infection with a number of enteric pathogens including Shigella, Salmonella, Campylobacter and Yersinia. Yersinia enterocolitica • gram-negative bacillus • the second most common cause of bacterial gastrointestinal infection in children. • most frequently associated with enterocolitis, acute diarrhea, terminal ileitis, mesenteric lymphadenitis and pseudoappendicitis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology • Pseudoappendicitis syndrome is more common in older children and young adults. • Enterocolitis, the most common presentation of Y enterocolitica, occurs primarily in young children, Most cases are self-limited. • Y enterocolitica is potentially transmitted by contaminated unpasteurized milk and milk products, raw pork, tofu, meats, oysters, and fish. • The usual presentation of Y enterocolitica infection includes diarrhea (the most common clinical manifestation of this infection), low-grade fever, and abdominal pain lasting 1-3 weeks. Diarrhea may be bloody in severe cases. Vomiting is present in approximately 1540% of cases • Stool culture is the best way to confirm the diagnosis • Ultrasonography or computed tomography (CT) scanning may be useful in delineating true appendicitis from pseudoappendicitis • Complications  After an incubation period of 4-7 days, infection may result in mucosal ulceration (usually in the terminal ileum and rarely in the ascending colon), necrotic lesions in Peyer patches, and mesenteric lymph node enlargement.  In persons with human leukocyte antigen (HLA)–B27, reactive arthritis is not uncommon, possibly because of the molecular similarity between HLA-B27 antigen and Yersinia antigens. • First-line drugs used against the bacterium include aminoglycosides and trimethoprimsulfamethoxazole (TMP-SMZ). Other effective drugs include third-generation cephalosporins, tetracyclines (not recommended in children < 8 y), and fluoroquinolones (not approved for use in children < 18 y). • Yersinia pestis is the causative agent of the plague. • Yersinia bacteria has an ability to survive, and actively proliferate at temperatures as low as 1–4°C (e.g., on food products in a refrigerator). • Yersinia is one of the causes of reactive arthritis • Yersinia may be associated with Crohn's disease  Iranian sufferers of Crohn's disease were more likely to have had earlier exposure to refrigerators at home, consistent with its unusual ability to thrive at low temperatures. • Which bacteria can multiply and produce endotoxin even in refrigerated blood?  Yersinia  it is a prominent cause of life-threatening post-transfusion infection.  Endotoxins can result in septic shock Gastrointestinal parasitic infections Common infections Organism Notes Enterobiasis • Due to organism Enterobius vermicularis • Common cause of pruritus ani • Diagnosis usually made by placing scotch tape at the anus, this will trap eggs that can then be viewed microscopically • Treatment is with mebendazole Ancylostoma duodenale • Hookworms that anchor in proximal small bowel • Most infections are asymptomatic although may cause iron deficiency anaemia • Larvae may be found in stools left at ambient temperature, otherwise infection is difficult to diagnose Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Organism Notes • Infection occurs as a result of cutaneous penetration, migrates to lungs, coughed up and then swallowed • Treatment is with mebendazole Ascariasis • Due to infection with roundworm Ascaris lumbricoides • Infections begin in gut following ingestion, then penetrate duodenal wall to migrate to lungs, coughed up and swallowed, cycle begins again • Diagnosis is made by identification of worm or eggs within faeces • Treatment is with mebendazole Strongyloidiasis • Due to infection with Strongyloides stercoralis • Rare in west • Organism is a nematode living in duodenum of host • Initial infection is via skin penetration. They then migrate to lungs and are coughed up and swallowed. Then mature in small bowel are excreted and cycle begins again • An auto infective cycle is also recognised where larvae will penetrate colonic wall • Individuals may be asymptomatic, although they may also have respiratory disease and skin lesions • Diagnosis is usually made by stool microscopy • In the UK mebendazole is used for treatment Cryptosporidium • Protozoal infection • Organisms produce cysts which are excreted and thereby cause new infections • Symptoms consist of diarrhoea and cramping abdominal pains. Symptoms are worse in immunosuppressed people • Cysts may be identified in stools • Treatment is with metronidazole Giardiasis • Diarrhoeal infection caused by Giardia lamblia(protozoan) • Infections occur as a result of ingestion of cysts • Symptoms are usually gastrointestinal with abdominal pain, bloating and passage of soft or loose stools • Diagnosis is by serology or stool microscopy • First line treatment is with metronidazole Exotoxins and endotoxins Definition • Exotoxins are secreted by bacteria whereas endotoxins are only released following lysis of the cell. Exotoxins • Exotoxins are generally released by Gram positive bacteria with the notable exceptions of Vibrio cholerae and some strains of E. coli • It is possible to classify exotoxins by their primary effects:  pyrogenic toxins  enterotoxins  neurotoxins  tissue invasive toxins  miscellaneous toxins Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Pyrogenic toxins • Pyrogenic toxins stimulate the release of endogenous cytokines resulting in fever, rash etc. • They are super-antigens which bridge the MHC class II protein on antigen-presenting cells with the T cell receptor on the surface of T cells resulting in massive cytokine release. Organism Toxin Notes Staphylococcus aureus Toxic shock syndrome (TSST-1 superantigen) toxin Results in high fever, hypotension, exfoliative rash Streptococcus pyogenes Streptococcal pyrogenic exotoxin A & C Results in scarlet fever Enterotoxins • Enterotoxins act on the gastrointestinal tract causing one of two patterns of illness:  diarrhoeal illness  vomiting illness ('food poisoning') Organism Toxin Notes Vibrio cholerae Cholera toxin Causes activation of adenylate cyclase (via Gs) leading to increases in cAMP levels, which in turn leads to increased chloride secretion and reduced sodium absorption Shigella dysenteriae Shiga toxin Inactivates 60S ribosome → epithelial cell death Escherichia coli Heat labile toxin Heat stabile toxin Activates adenylate cyclase (via Gs), increasing cAMP → watery diarrhoea Activates guanylate cyclase, increasing cGMP → watery diarrhoea Staphylococcus aureus Staphylococcus aureus enterotoxin Vomiting and diarrhoeal illness lasting < 24 hours Bacillus cereus Cereulide Potent cytotoxin that destroys mitochondria. Causes a vomiting illness which may present within 4 hours of ingestion Neurotoxins • Neurotoxins act on the nerves (tetanus) or the neuromuscular junction (botulism) causing paralysis. Organism Toxin Notes Clostridium tetani Tetanospasmin Blocks the release of the inhibitory neurotransmitters GABA and glycine resulting in continuous motor neuron activity → continuous muscle contraction → lockjaw and respiratory paralysis Clostridium botulinum Botulinum toxin Blocks acetylcholine (ACh) release leading to flaccid paralysis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Tissue invasive toxins Organism Toxin Notes Clostridium perfringens α-toxin, a lecithinase Causes gas gangrene (myonecrosis) and haemolysis Staphylococcus aureus Exfoliatin Staphylococcal scalded skin syndrome Miscellaneous toxins Organism Toxin Notes Corynebacterium diphtheriae Diphtheria toxin ADP ribosylates elogation factor (EF-2), resulting in inhibition, causing a 'diphtheric membrane' on tonsils caused by necrotic mucosal cells. Systemic distribution may produce necrosis of myocardial, neural and renal tissue Pseudomonas aeruginosa Exotoxin A Also inhibits EF-2 by the same mechanism as above Bacillus anthracis Oedema factor (EF) Forms a calmodulin-dependent adenylate cyclase which increases cAMP, impairing the function of neutrophils/macrophages → reduced phagocytosis Bordetella pertussis Pertussis exotoxin Inhibits Gi leading to increases in cAMP levels, impairing the function of neutrophils/macrophages → reduced phagocytosis Endotoxins • Endotoxins are lipopolysaccharides that are released from Gram-negative bacteria such as Neisseria meningitidis. Pseudomembranous colitis (Clostridium difficile) Pathogen • Clostridium difficile is a Gram-positive anaerobic rod • It produces an exotoxin which causes intestinal damage leading to a syndrome called pseudomembranous colitis. Causes • Clostridium difficile develops when the normal gut flora are suppressed by broad-spectrum antibiotics.  Clindamycin is historically associated with causing Clostridium difficile but the aetiology has evolved significantly over the past 10 years.  Second and third generation cephalosporins are now the leading cause of Clostridium difficile.  penicillins and quinolones. Features • Symptoms can occur up to 10 weeks following antibiotic therapy. • Diarrhoea Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  The commonest symptoms  profuse watery diarrhoea (usually without blood or mucus) • abdominal pain • a raised white blood cell count is characteristic • if severe toxic megacolon may develop Severity of C. difficile infection • Mild infection: ˂ 3 episodes of loose stools per day, no ↑WCC. • Moderate infection: 3 to 5 loose stools per day, WCC ˂15 × 109 per litre. • Severe infection:  WCC ˃15 × 109 per litre,  Acutely ↑CRP ˃50% above baseline,  Temperature ˃38.5  Evidence of severe colitis (abdominal or radiological signs), lactic acidosis  The number of stools may be a less reliable indicator of severity. • Life-threatening infection: hypotension, partial or complete ileus, toxic megacolon or CT evidence of severe disease. Diagnosis • Clostridium difficile toxin (CDT) in the stool (the most widely used diagnostic tool). • ELISA tests are specific but not as sensitive. • Culture is sensitive but often does not differentiate between toxigenic and non-toxigenic strains. • Sigmoidoscopy may show → multiple white plaques adhered to the gastrointestinal mucosa (pathognomonic).  90% of cases can be detected macroscopically by flexible sigmoidoscopy  mild cases may not be evident macroscopically → microscopic examination of a biopsy sample  Toxic dilatation should be excluded prior to sigmoidoscopy by doing plain abdominal x-ray.  not used routinely • Plain AXR is useful for diagnosing toxic dilatation  would be the investigation of choice if there is abdominal distension.  To exclude toxic dilatation prior to sigmoidoscopy.  However it does not establish the diagnosis. Management Antibiotic treatment for Clostridium difficile (NICE guideline/July 2021) Treatment Antibiotic First-line for a first episode of mild, moderate or severe C. difficile infection Vancomycin:125 mg orally four times a day for 10 days Second-line for a first episode of mild, moderate or severe C. difficile infection if vancomycin is ineffective Fidaxomicin: 200 mg orally twice a day for 10 days Third-line: if first- and second-line are ineffective Vancomycin: Up to 500 mg orally four times a day for 10 days With or without Metronidazole: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 500 mg intravenously three times a day for 10 days For relapse: (a further episode of C. difficile infection within 12 weeks of symptom resolution) Fidaxomicin: 200 mg orally twice a day for 10 days For recurrence: (a further episode of C. difficile infection more than 12 weeks after symptom resolution) Vancomycin:125 mg orally four times a day for 10 days Or Fidaxomicin: 200 mg orally twice a day for 10 days For life-threatening C. difficile infection (Need urgent surgical assessment) Vancomycin: 500 mg orally four times a day for 10 days With Metronidazole: 500 mg intravenously three times a day for 10 days • Do not offer antimotility medicines such as loperamide. • For a recurrent episode (2 or more previous episodes) → Consider a faecal microbiota transplant. Prognosis • Mortality is high in elderly patients it may be as high as 10% Top tips The main Clostridium species • Clostridium botulinum: produce botulinum toxin in food or wounds and can cause botulism. This same toxin is known as Botox and is used in cosmetic surgery to paralyze facial muscles to reduce the signs of aging; it also has numerous other therapeutic uses. • Clostridium difficile can flourish when other gut flora bacteria are killed during antibiotic therapy, leading to pseudomembranous colitis • Clostridium perfringens causes food poisoning to cellulitis, fasciitis, and gas gangrene. • Clostridium tetani causes tetanus. • Clostridium sordellii can cause a fatal infection in exceptionally rare cases after medical abortions Gastroenteritis (GI) Causes • Viral: Most common causes of GI.  norovirus is the most common cause of acute gastroenteritis and the second most common cause of hospitalisation for acute gastroenteritis.  Characteristics of the history that suggest a viral aetiology of acute gastroenteritis include: intermediate incubation period (24–60 h), short infection duration (12–60 h) and high frequency of vomiting. • Amoebiasis: caused by Entamoeba histolytica (an amoeboid protozoan)  10% of the world's population is chronically infected.  can be asymptomatic, may cause mild diarrhoea Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology  amoebic dysentery →profuse, bloody diarrhoea, stool microscopy may show trophozoites  treatment by metronidazole  Complication → Amoebic liver abscess  usually a single mass in the right lobe (may be multiple)  features: fever, RUQ pain  serology positive in > 90% Scombrotoxin food poisoning • Caused by the ingestion of foods that contain high levels of histamine and possibly other vasoactive amines and compounds. • Histamine and other amines are formed by the growth of certain bacteria and the subsequent action of their decarboxylase enzymes on histidine and other amino acids in food, by spoilage of foods such as;  fishery products, particularly tuna or mahi mahi.  dark meat fish such as tuna, mackerel and marlin.  The most common cause of scombroid poisoning is due to ingestion of spoiled fish following inadequate refrigeration or prolonged time at room temperature. Cooking does not inactivate the toxin/histamines. • Incubation period  10-60 minutes. • Feature  The symptoms are due to ingestions of amines, predominantly histamines, produced by bacterial decarboxylation of histidine in fish meat.  Onset is usually 10-30 minutes post-ingestion of the implicated fish but a delayed onset may occur up to two hours.  Patients with pre-existing conditions such as bronchial asthma, and those taking isoniazid (a histaminase inhibitor) may be more symptomatic.  Presented with diarrhoea, flushing, sweating and a hot mouth, minutes after eating  Urticarial rash, Bronchospasm Treatment • usually self-limiting • In severe cases, symptoms respond rapidly to antihistamines, for example, chlorpheniramine and intravenous cimetidine by slow intravenous injection over at least five minutes. Perforated viscus the most appropriate next step in making the diagnosis  abdominal CT scan Ascitic fluid is normally sterile and any growth of organisms is indicative of infective pathology. Mixed growth suggests a large communication of micro-organisms into the abdominal cavity, which makes perforation the most likely cause. • Ascitic fluid analysis:  very bloody ascites  secondary bacterial peritonitis  very inflammatory (very high neutrophil count)  exudate (low serum albumin ascites gradient - <11 g/L).  Gram stain demonstrates multiple bacteria. • X-ray  distended bowel loops (dilated, oedematous) 024 - Pages 576-600 024 Pages 576-600 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Rigler’s sign, which indicates a perforated viscus.  also known as the double wall sign, is seen on an X-ray of the abdomen when  the air is present on both sides of the intestine, (luminal and peritoneal side of the bowel wall). Dome sign  Air on the top of the liquid (fluid level) pneumatosis coli which are suggestive of ischaemic bowel but not diagnostic of this or perforation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Endoscopy in patients on antiplatelet or anticoagulant therapy British Society of Gastroenterology (BSG) and European Society of Gastrointestinal Endoscopy (ESGE) guidelines (2016) • The risk of endoscopy in patients on anti-thrombotics depends on the risks of procedural haemorrhage versus thrombosis due to discontinuation of therapy. • Where the endoscopic procedure carries a high risk of bleeding and the indication for anticoagulation is low risk for discontinuation then anticoagulation should be discontinued until the INR is <1.5 and restarted post-procedure. Bridging with heparin is not required.  Bridging is only recommended if the indication for anticoagulation is high risk - for example, mechanical mitral valve, atrial fibrillation (AF) and prosthetic valve, recent venous thromboembolism (VTE) (less than three months), thrombophilia.  Low molecular weight heparin (LMWH) is relatively contraindicated in patients with an estimated glomerular filtration rate (eGFR) less than 30 mls/min, these patients may require admission for unfractioned heparin (UFH) infusion. • Where an endoscopic procedure is associated with a low risk of haemorrhage then the BSG recommends continuation of anticoagulation at the current dosage providing an INR within the last seven days is within the therapeutic range. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 3 Gastroenterology Updated 2022 Third edition Notes & Notes For MRCP By Dr. Yousif Abdallah Hamad Volume 2 Foreword With the grace of the Almighty Allah, I have introduced the third edition of the popular book, the Notes & Notes for MRCP Part & 2. The MRCP exam requires a wide range of information, particular thinking, and question directed experience. This book is directed mainly at those who need comprehensive revision of the topics which commonly appear in the written MRCP exams. It will be helpful to go through these topics before you start solving the best of the five questions; it is also recommended to go quickly over this book in the last few weeks before the day of your exam. This new edition contains the new published guidelines. I hope you will find the maximum benefits from this book to get through MRCP written exams. To practice the best of five questions we advise you to join the best website for MRCP passonexam.com For any enquiry or comment, please do not hesitate to contact me. “The mind is not a vessel to be filled, but a fire to be kindled.” ― Plutarch. March - 2022 Dr. Yousif Abdallah Hamad Internal medicine specialist – Sudan medical counsel MRCPS- Glasgow- UK MRCP- Ireland Dryousif23 @gmail.com https://www.facebook.com/dryousif23 The 10 Golden Tips for MRCP written exams you will ever need For MRCP, do not read hard; read smart. Three to six months is usually enough for preparation. Practice the best of the five questions as much as possible. The few days before the exam date, stop revising questions and concentrate on your MRCP notes and top tips. Remember, you are getting ideas and concepts from the questions. Time factor in the exam room is the leading killer after poor preparation. Manage your time wisely. Read the end of the question first; if you can answer it without reading the whole scenario, it will save your time for the other tuff question (long scenario, .what is the action of imatinib?) Take care for any single word in the question, e.g. (the initial test, the diagnostic test, the best test, the next step) Practice, practice and practice. Contents Chapter 4 Neurology Localisation of a brain lesion ................. Cerebellar lesions ................................... Transient ischaemic attack (TIA).............. Ischaemic stroke: Overview .................... Stroke: Clinical features ........................ Lateral medullary syndrome (Wallenberg›s syndrome) Pontine syndromes ....................................... Weber›s syndrome ......................................... Parinaud syndrome (Dorsal midbrain syndrome ) Labyrinthine infarction ..................................... Posterior communicating artery aneurysm (PCA) Ischaemic Stroke management ....................... Haemorrhagic stroke ...................................... Cerebral venous thrombosis (CVT) Cervical vascular dissection (Carotid and Vertebral artery dissection) Carotid artery stenosis ................................... Localisation of speech problems .................... Pupil conditions ............................................ Tonic pupil (Holmes-Adie pupil) .................. Argyll Robertson Pupil (ARP) ...................... Visual field defects ........................................ Cranial nerves ................................................ Optic nerve palsy ........................................... Oculomotor (third nerve) palsy ...................... Trigeminal neuralgia ....................................... Abducens (VIth) nerve palsy .......................... Facial (VII) nerve ......................................... Bell›s palsy .................................................. Ramsay Hunt syndrome / Acoustic neuroma Abnormal gait .............................................. Nystagmus / Spinocerebellar ataxia (SCA) Hemiballism ................................................ Epilepsy: Classification ............................... Epilepsy: investigations ............................... Epilepsy: treatment ...................................... Antiepileptic drugs (AED) .............................. Juvenile myoclonic epilepsy/ Status epilepticus Epilepsy: pregnancy and breast feeding Pseudoseizures ............................................ Rett syndrome / Tourette syndrome ................ Huntington›s disease (HD) ........................... Cluster headache ......................................... Migraine ................................................. Migraine: pregnancy, contraception and other hormonal factors Triptans / Idiopathic intracranial hypertension(IIH) Spontaneous intracranial hypotension (SIH) Medication overuse headache ........................ Parkinsonism / Parkinson›s disease (PD) Anti-Parkinson drugs ...................................... Progressive supranuclear palsy (PSP) ............. Multiple system atrophy (MSA) ................... Normal pressure hydrocephalus (NPH) ........ Delirium (Acute confusional state) ................. Dementia ........................................................ Alzheimer›s disease (AD) .............................. Lewy body dementia (LBD) ........................... Frontotemporal lobar degeneration (FTLD) Creutzfeldt-Jakob disease (CJD) .................. Transient global amnesia ............................... Restless legs syndrome (RLS) ....................... Essential tremor ............................................. Holmes tremor / Friedreich›s ataxia ............. Ataxic telangiectasia / Sleep ......................... Sleep paralysis ............................................... Narcolepsy ..................................................... Head injury .................................................... Subdural haemorrhage ................................... Subarachnoid haemorrhage (SAH) ................ Brain stem herniation ..................................... Encephalitis .................................................... Herpes simplex encephalitis (HSE) ................ HIV: neurocomplications ............................... Progressive multifocal leukoencephalopathy (PML) AIDS dementia complex ........................................... Motor neuron disease (MND) ......................... Bulbar VS Pseudobulbar palsy ....................... Multiple sclerosis (MS) ................................. Internuclear ophthalmoplegia (INO) .............. Chronic progressive external ophthalmoplegia (CPEO) Ptosis, Miosis and Mydriasis / Horner›s syndrome Chapter 4 Neurology Myasthenia gravis (MG) ................................. Lambert-Eaton myasthenic syndrome (LEMS) Neurofibromatosis (NF) .................................. Tuberous sclerosis (TS) .................................. Paraneoplastic syndromes affecting nervous system Von Hippel-Lindau syndrome (VHL).............. Cerebrospinal fluid (CSF) ............................ Vertebral level and corresponding structure Post-lumbar puncture headache .................. Spinal cord lesions ....................................... Metastatic spinal cord compression ................ Disc prolapse ............................................... Prolapsed cervical disc (Cervical radiculopathy) Conus medularis syndrome ................................ Cauda equina syndrome .............................. Autonomic dysreflexia / Spastic paraparesis Absent ankle jerks, extensor plantars ............ Subacute combined degeneration of spinal cord (SACDC) Transverse myelitis ................................................. Syringomyelia ............................................... Arnold-Chiari malformation (CM) ............... Anterior spinal artery thrombosis ................... Brown-Séquard›s syndrome / Lower back pain Wernicke›s encephalopathy ............................. Korsakoff syndrome ...................................... Anti-NMDA receptor encephalitis ................. CADASIL / Myotonic dystrophy .................... Dystrophinopathies ......................................... Foster-Kennedy syndrome................................ Hypokalaemic periodic paralysis and thyrotoxic periodic paralysis Neuromyelitis optica (NMO) .......................... Vertigo ........................................................... Benign paroxysmal positional vertigo .......... Chapter 5 Cardiology Coronary arteries: anatomy and clinical correlation Jugular venous pulse (JVP)................... Central venous access of the Subclavian Vein Subclavian steal syndrome....................... Atrial natriuretic peptide (ANP)........... B-type (Brain) Natriuretic Peptide (BNP) Cardiovascular physiology ........................ Meniere›s disease / Vestibular neuronitis Tinnitus ........................................................... Hearing loss ................................................... Motion sickness / Peripheral neuropathy ...... Alcoholic neuropathy ..................................... Peripheral neuropathy: axonal vs. demyelinating Chronic inflammatory demyelinating polyneuropathy (CIDP) Neuropathic pain / Autonomic neuropathy .... Hereditary sensorimotor neuropathy (HSMN Mononeuritis multiplex / Refsum’s disease Vasculitic neuropathy .................................... Guillain-Barre syndrome ................................ DVLA: neurological disorders ....................... Susac syndrome .............................................. Altitude related disorders............................... Complex regional pain syndrome (CRPS) Dystonia .......................................................... Cervical dystonia (torticollis) / Botulism Botulinum toxin / Paraneoplastic cerebellum syndrome Lumbosacral plexopathy ............................... Upper limb anatomy ........................................ Radial nerve ................................................... Median nerve ................................................. Carpal tunnel syndrome ................................. Pronator teres syndrome / Anterior interosseous syndrome Ulnar nerve ................................................... Rotator cuff muscles / Klumpke’s palsy ........ Commonly tested nerves of the lower limbs Sciatic nerve palsy ....................................... Common peroneal nerve lesion .................... Femoral nerve palsy ....................................... Meralgia paraesthetica ...................................... Saphenous nerve injury / Tarsal tunnel syndrome Physiological changes during pregnancy Physiological changes during exercise ......... Physiological changes associated with age Valsalva manoeuvre ..................................... Cardiac action potential ................................ Pulses ........................................................... Heart sounds .................................................. Murmurs ...................................................... Syncope ....................................................... Vasovagal syncope (VVS) ........................... Vertigo & Dizziness .................................... Sudden cardiac death ................................... Exercise tolerance tests ................................... Cardiac enzymes and protein markers .......... ECG: axis deviation .................................... ECG: coronary territories ............................ ECG: digoxin / ECG: hypothermia ............ ECG: left bundle branch block .................... Right bundle branch block (RBBB) .............. Trifascicular block ....................................... ECG: normal variants / ECG: PR interval ECG: ST depression / T wave ......................... Biphasic T wave / Q waves / ECG: ST elevation (STE) QT Interval .................................................. ECG: Junctional escape rhythm ................... Cardiac amyloidosis ................................... ECG: Wrong leads ..................................... Early repolarization variant / ECG: U wave Cardiac catheterisation and oxygen saturation levels Pulmonary capillary wedge pressure ........... Cardiac imaging: non-invasive techniques excluding echocardiography Mitral stenosis (MS) .................................... Mitral regurgitation (MR) ........................... Mitral valve prolapse (MVP) .......................... Aortic dissection .......................................... Aortic aneurysms ........................................ Aortic regurgitation (AR) ............................ Aortic stenosis (AS) ..................................... Heyde’s syndrome / Williams syndrome Coarctation of the aorta ............................... Bicuspid aortic valve ................................... Tricuspid regurgitation / Prosthetic valves Supraventricular tachycardia (SVT ) ............... Sinus arrhythmia / Premature ventricular ectopic (PVEs) Arrhythmogenic right ventricular cardiomyopathy(ARVC) Atrial fibrillation (AF) ........................... Atrial flutter ....................................... Multifocal atrial tachycardia (MAT) / Atrial myxoma Heart block / First-degree heart block ........................ Second-degree heart block ............................. Third degree (complete) heart block .............. Pacemakers .................................................. Pacemaker syndrome .................................. Brugada syndrome ....................................... Catecholaminergic polymorphic ventricular tachycardia (CPVT) Ventricular tachycardia ................................ QT interval ................................................... Long QT syndrome ...................................... Torsades de pointes (TdP) ........................... Adult advanced life support ............................ Peri-arrest arrhythmias ................................ Wolff-Parkinson White (WPW) ...................... Implantable cardiac defibrillators (ICD) ......... Acute pericarditis ........................................ Pericardial effusion / Constrictive pericarditis Cardiac tamponade ...................................... Hypertension ................................................ Hypertensive emergency ............................. Hypertensive urgency ............................. Malignant hypertension (Accelerated hypertension) Secondary hypertension ............................... Hypokalaemia and hypertension .................... Hypertension in pregnancy .......................... Pre-eclampsia/Eclampsia ............................ Pulmonary arterial hypertension (PAH) ......... Angina pectoris ........................................... Coronary artery bypass graft (CABG) ........... Cardiac syndrome X / Acute coronary syndrome Myocardial infarction ...................................... Heart failure .................................................. Hypertrophic obstructive cardiomyopathy (HOCM) Dilated cardiomyopathy (DCM) ................... Restrictive cardiomyopathy ............................. Peripartum cardiomyopathy (PCM) Takotsubo cardiomyopathy ............................. Congenital heart disease: types ....................... Tetralogy of Fallot (TOF) ............................ Ventricular septal defects (VSD) .................... Atrial septal defect (ASD) ........................... Patent ductus arteriosus ............................... Patent foramen ovale (PFO) / Paradoxical embolisation Eisenmenger›s syndrome .............................. Ebstein›s anomaly / Cardiac manifestations of genetic disorders / Peripheral vascular disease Differential diagnosis of foot ulcers / Rheumatic fever Infective endocarditis (IE) ............................. Myocarditis ..................................................... DVLA: cardiovascular disorders ................... Dextrocardia ................................................... Chapter 6 Nephrology Renal anatomy................................................. Renal Investigations Urinalysis ...................... Renal investigations ..................................... Renal Biopsy / Haematuria ............................ Acute interstitial nephritis (AIN) ................. Contrast induced acute kidney injury (CI- AKI) Acute tubular necrosis vs. prerenal uraemia Acute tubular necrosis (ATN) ........................ Papillary necrosis / Acute Pyelonephritis Acute vs. chronic renal failure ....................... Cholesterol embolization / Chronic kidney disease (CKD) Diabetic nephropathy .................................. CKD: anaemia ............................................. CKD - Management ................................... Prescribing in patients with renal failure Erythropoietin ............................................. Renal replacement therapy .............................. Peritoneal dialysis ........................................... Renal transplant ........................................... Graft versus host disease (GVHD) .............. Post-transplant problems ......................... Autosomal dominant polycystic kidney disease (ADPKD) Autosomal recessive polycystic kidney disease (ARPKD) Medullary sponge kidney / Alport›s syndrome Haemolytic uraemic syndrome ....................... Renal tubular defects / Fanconi syndrome Bartter and Gitelman syndromes ..................... Renal tubular defects ................................... Liddle›s syndrome / Glomerulonephritides Glomerulonephritis and low complement Minimal change disease .............................. Membranous glomerulonephritis ................... Chapter 7 Haematology&Oncology Haematological changes during pregnancy Hyposplenism / Eosinophilia ........................ Hyper-eosinophilic syndrome (HES) .............. Lymphopenia ............................................... Blood films: pathological cell formsalkaline Blood films: typical pictures .......................... Leucocyte alkaline phosphatase / Leukaemoid reaction IgA nephropathy .......................................... Post-streptococcal glomerulonephritis ........... Membrano-proliferative glomerulonephritis (MPGN). Rapidly progressive glomerulonephritis (RPGN) Focal segmental glomerulosclerosis (FSGS) Goodpasture›s syndrome ............................. Nephrotic syndrome .................................... Analgesic nephropathy ................................ Renal stones ................................................ Cystinuria ................................................... Cystinosis ................................................. Renal tubular acidosis (RTA) .......................... Renal vascular disease (RAS) ........................ Lupus nephritis (SLE: renal complications) Urinary incontinence (UI) ........................... Urinary retention / Benign prostatic hypertrophy (BPH) Prostatic carcinoma ..................................... Renal cell cancer (RCC) .............................. Wilms› tumour ............................................ Angiomyolipoma / Bladder cancer ............. Rhabdomyolysis ..................................... Loin pain-haematuria syndrome / Renal tuberculosis Xantho-granulomatous pyelonephritis (XGP) ........ Vesico-ureteric reflux ............................. Chronic reflux nephropathy (Chronic pyelonephritis) Phimosis / Urethral syndrome ...................... Urinary tract infection (UTI) in adults ......... Asymtomatic bacteriuria (ABU) .................... UTI in childhood / Recurrent urinary tract infection (rUTI) Catheter-Associated UTI ............................... Urinary tract obstruction in children (posterior urethral valves) Coagulation study ........................................ Assessment of anaemia .................................. Iron metabolism .............................................. Transferrin / Iron studies ................................ Iron deficiency anaemia (IDA) ...................... Anemia of Chronic Disease / Hepcidin ........ Thalassaemias Beta-thalassaemia ........................................ Aplastic anaemia ............................................. Pure Red Cell Aplasia (PRCA) / Fanconi’s Anaemia Macrocytic anaemia /Vitamin B12 (cobalamin) deficiency Pernicious anaemia .......................................... Sickle cell disease (SCD) ................................ Sideroblastic anaemia ...................................... Haemolytic anaemias: by site .......................... Autoimmune haemolytic anaemia (AIHA) Hereditary spherocytosis ............................... Hereditary elliptocytosis (HE) ...................... Glucose-6-phosphate dehydrogenase (G6PD) deficiency Paroxysmal nocturnal haemoglobinuria ......... Splenectomy .................................................... Blood products ................................................ Blood product transfusion complications ....... Transfusion Related Acute Lung Injury (TRALI) Plasma exchange / Deep vein thrombosis (DVT) Pregnancy: DVT/PE / Post-thrombotic syndrome Venous thromboembolism: prophylaxis in patients admitted to hospital Superficial thrombophlebitis / Thrombophilia: causes Factor V Leiden .............................................. Protein C deficiency ...................................... Antithrombin III deficiency .......................... Hereditary haemorrhagic telangiectasia (HHT) Idiopathic thrombocytopenic purpura (ITP) Langerhans cell histiocytosis .......................... Myelofibrosis / Myelodysplastic syndrome (MDS) Leuco-erythroblastic anaemia / Polycythaemia Myelofibrosis / Disseminated intravascular coagulation (DIC) Thrombocytopenia ......................................... Thrombocytosis / Essential thrombocytosis (ET): Thrombotic thrombocytopenic purpura (TTP) Von Willebrand›s disease ................................ Haemophilia ................................................... Methemoglobinemia ...................................... Cyanosis without hypoxia / Heparin ............... Novel oral anticoagulants (NOACs) ............. Dabigatran ..................................................... Warfarin .......................................................... Porphyrias ...................................................... Non-Hodgkin›s lymphoma (NHL) .............. Haematological malignancies: genetics ......... Haematological malignancies: infections ..... Burkitt›s lymphoma ........................................ Cancer in the UK / Acute lymphoblastic leukaemia (ALL) Chronic lymphocytic leukaemia (CLL) ....... Acute myeloid leukaemia (AML ) ................ Acute promyelocytic leukaemia (APML) Chronic myeloid leukaemia (CML) ............... Allogenic bone marrow transplant ............... Hairy cell leukaemia / Paraproteinaemia Multiple myelom ............................................ Monoclonal gammopathy of undetermined significance (MGUS ) Thymoma ........................................................ Tumour lysis syndrome (TLS).Waldenstrom›s macroglobulinaemia ........................................ ECOG score / Tumour markers ....................... Neutropenic sepsis (Febrile neutropenia) ..... Assessment of neutropenia ........................... Systemic mastocytosis / Cervical cancer ........ Ovarian tumours / Breast cancer ................... Paget›s disease of the breast ........................... Radiotherapy/ Chemotherapy ....................... Salivary Gland Tumors / Palliative care prescribing: pain Opioid toxicity in palliative care ................... Palliative care prescribing: nausea and vomiting Palliative care prescribing: hiccups ............. Palliative care prescribing: Constipation ..... Palliative care prescribing: agitation and confusion Palliative care: Breathlessness ...................... Palliative care: end of life care ....................... Epstein-Barr virus: associated conditions T cell lymphoma (Adult T-cell lymphoma (ATLL) Testicular cancer ........................................... Laryngeal cancer / Von Hippel-Lindau syndrome Haemangiomas ............................................... Cytotoxic agents ............................................ Busulfan / Combinations of chemotherapeutic agents Vinblastine / Cyclophosphamide .................. Cisplatin ......................................................... Trastuzumab / Erlotinib ................................... Imatinib / Tamoxifen ...................................... UK licensed monoclonal antibodies .............. Rituximab / Cetuximab / Capecitabine ........ Chemotherapy side-effects: nausea and vomiting Adverse effects of other cancer treatment Filgrastim .................................................... Third edition Notes & Notes For physician By Dr. Yousif Abdallah Hamad Neurology Updated 2022 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology CNS anatomy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ocalisation of a brain lesion L The following neurological disorders/features may allow localisation of a brain lesion Lobes lesions Lobe lesion Features Frontal lobes lesions • Difficulties with task sequencing and executive skills • Expressive (Broca's) aphasia: (located on the posterior aspect of the frontal lobe, in the inferior frontal gyrus). • Disinhibition • Perseveration • Anosmia • primitive reflexes (positive grasp, pout and palmomental reflexes) • Inability to generate a list • Changes in personality. Parietal lobes lesions • Sensory inattention (contralateral hemihypesthesia) • Apraxia • Astereognosis (tactile agnosia) • Inferior homonymous quadrantanopia • Neglect • Mild hemiparesis • Parietal ataxia • Acalculia (inability to perform mental arithmetic). • Gerstmann's syndrome (lesion of dominant parietal): Alexia (inability to read), acalculia, finger agnosia and right-left disorientation • unilateral impairment of optokinetic nystagmus: a nystagmus that occurs in response to a rotation movement. It is present normally. Temporal lobes lesions • Wernicke's aphasia: this area 'forms' the speech before 'sending it' to Broca’s area. Lesions result in word substitution, neologisms but speech remains fluent • superior homonymous quadrantanopia • auditory agnosia • prosopagnosia (difficulty recognising faces) • Memory impairment. Occipital lobes lesions • homonymous hemianopia (with macula sparing). may present as Anton syndrome where there is blindness, but the patient is unaware or denies blindness. • cortical blindness • visual agnosia • visual illusions and elementary visual hallucinations. Visual- spatial awareness deficit • Due to the Damage to the right parietal lobe • Patient unable to navigate around locations, specially places that are new to him , but also familiar locations Homonymous quadrantanopias • PITS (Parietal-Inferior, Temporal-Superior) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology More specific areas Area Associated conditions Medial thalamus and mammillary bodies of the hypothalamus Wernicke and Korsakoff’s syndrome Subthalamic nucleus of the basal ganglia Hemiballism Striatum (caudate nucleus) of the basal ganglia Huntington chorea Substantia nigra of the basal ganglia Parkinson's disease Amygdala Kluver-Bucy syndrome: • hypersexuality, • hyperorality (insertion of inappropriate objects in the mouth) • hyperphagia, • visual agnosia increased activation to the amygdala is associated with depression Hippocampus pathology Short term memory impairment (for example, Alzheimer's disease). Lateral geniculate nucleus pathology visual field defect. Red nucleus (located in the midbrain). • Tremor, which is present both at rest and during action (for example, multiple sclerosis tremor). • A lesion in this area would cause problems with arm swing and motor co-ordination of the upper limbs, not chorea. Prefrontal cortex damage disinhibition and problems with social interaction and judgement and has been implicated in schizophrenia. Left prefrontal cortex Depression Anterior hypothalamic nucleus • Plays a crucial role in thermoregulation and circadian rhythms • Situated at the inferior border of the paraventricular nucleus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad MRCPUK-part-1-September 2012 exam: (SLE) presents with continuous jerky, irregular movements, which move from one limb to another. Where is the lesion most likely to be? Caudate nucleus Crossed neurological signs (ipsilateral motor and sensory cranial nerve signs and contralateral hemiplegia) localise to the brainstem (midbrain, pons or medulla). • Midbrain (ipsilateral oculomotor nerve palsy , contralateral hemiplegia) • Pons (ipsilateral abducens and facial nerves palsy, contralateral hemiplegia) Stroke and pupils: • Midbrain lesions typically cause fixed, midpoint pupils. • Pontine haemorrhage typically cause bilateral pin point pupils Lesions at the jugular foramen • Nasopharyngeal carcinoma is the commonest cause. • Affected CN →9,10,11 CN IX (Glossopharyngeal nerve) & CN X (Vagus nerve) → palatal weakness and swallowing difficulties , Laryngeal muscle paralysis would result in bovine cough and husky voice. CN XI (Accessory nerve) → shoulder and sternocleidomastoid weakness Cerebellar lesions A history of vertigo, nystagmus, Slurred speech, intention tremor and past pointing, as well as ataxia, suggest the cerebellum as the site of injury. Oppenheim's sign is seen when scratching of the inner side of leg leads to extension of the toes. It is a sign of cerebral irritation Chorea is caused by damage to the basal ganglia, in particular the caudate nucleus Cerebellum lesions: Charcot's neurological triad: scanning speech, nystagmus, and intention tremors Cerebellar lesion localization: • Lesions to the vermis results in → truncal ataxia and nystagmus. • Cerebellar lesions cause neurological deficits on the ipsilateral side • Lesions to the cerebellar hemispheres results in → ipsilateral dysmetria, dysdiadochokinesis, ipsilateral limb ataxia and fast-beat nystagmus towards the lesion. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Transient ischaemic attack (TIA) Definition • Temporary cerebral ischemia that results in brief neurologic deficits lasting < 24 hours Investigations (NICE guidelines. Last updated: March 2019 ) • MRI is the first choice , identifies ischemia earlier than CT, determine the territory of ischaemia, and detect alternative pathologies. • Do not offer CT brain unless there is clinical suspicion of an alternative diagnosis. • Duplex ultrasound for carotid stenosis urgent for possible carotid endarterectomy. the most appropriate next step if bruits in the neck are heard upon auscultation. If ultrasound is not available, a CTA or MRA may be used. Treatment • Immediate therapy (after initial assessment) Aspirin 300 mg immediately unless contraindicated To be seen within 24 hours of onset of symptoms for specialist assessment Do not use scoring systems, such as ABCD2, to assess risk of subsequent stroke or to inform urgency of referral. • Secondary prevention (introduced as soon as the diagnosis is confirmed) Clopidogrel 300 mg loading dose followed by 75 mg daily.  aspirin + dipyridamole should be given to patients who cannot tolerate clopidogrel High intensity (e.g. atorvastatin 20-80 mg daily)  started immediately (as per Royal College guideline 2016)  Immediate initiation of statin is not recommended as per (NICE guideline 2019) Carotid endarterectomy: for people with non-disabling stroke or TIA:  carotid stenosis of 50 to 99%: referred urgently for carotid endarterectomy medical treatment (BP control, antiplatelets, Statin, lifestyle advice).  carotid stenosis of less than 50%: No surgery Medical treatment (BP control, antiplatelets, Statin, lifestyle advice). Control BP: antihypertensive If associated AF →Anticoagulation Top Tips Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Brain imaging for TIA and stroke • MRI brain with diffusion-weighted imaging is the preferred modality in patients with suspected TIA. • Non-contrast cranial CT (gold standard and most important initial imaging in stroke): detects acute hemorrhage but cannot reliably identify early ischemia Ischaemic stroke: Overview Definition • Stroke is an acute neurological deficit lasting more than 24 hours due to occlusion or critical stenosis of a cerebral artery. Epidemiology • Ischemic stroke (∼85%) Risk factors • older age, hypertension, smoking, diabetes mellitus, dyslipidaemia, atrial fibrillation, sickle cell disease, and history of TIA or stroke. Mechanisms • Thrombotic strokes (most common) Atherosclerosis of the extracranial vessels (carotid atheroma) is the most common cause • Embolic strokes Cardiac emboli e.g. Atrial fibrillation Paradoxical embolisation: For a right-sided thrombus (e.g. DVT) to cause a leftsided embolism (e.g. stroke) it must obviously pass from the right-to-left side of the heart.  Causes patent foramen ovale : present in 20% of the population. Transoesophageal echocardiography (TOE) is the investigation of choice for diagnosis atrial septal defect - a much less common cause Assessment • ROSIER score (Recognition Of Stroke In the Emergency Room). It is validated tool recommended by the Royal College of Physicians. useful for medical professionals. Exclude hypoglycaemia first, then assess the following: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Assessment Scoring Loss of consciousness or syncope 1 point Seizure activity 1 point New, acute onset of: • asymmetric facial weakness 1 point • asymmetric arm weakness 1 point • asymmetric leg weakness 1 point • speech disturbance 1 point • visual field defect 1 point stroke is likely if > 0 Imaging • CT without contrast for acute presentation (the best initial test) → to rule out hemorrhage • MRI : if the CT is negative → Diffusion weighted imaging (DWI) MRI is the most sensitive and specific imaging modality for diagnosing acute ischaemic stroke. • Duplex ultrasound for carotid stenosis Diagnostic evaluation • Glucose: the only lab test which should be done before thrombolysis • ECG : to look for cardiogenic thrombus (Atrial fibrillation) • If an embolic stroke is suspected → Echocardiography • Thrombophilia screening: if patient is < 50 years old and/or has a history of thrombosis Only glucose test and CT head are required before thrombolytic therapy. Do not delay treatment to complete the diagnostic evaluation. Management • Exclude hypoglycaemia because it is a stroke mimic • Admission to a stroke unit → improve the overall prognosis. • presentation within 4.5 hours AND thrombolysis not contraindicated → thrombolysis with iv alteplase • presentation after 4.5 hours OR thrombolysis contraindicated → Supportive care • Deep vein thrombosis prophylaxis with subcutaneous heparin or low molecular weight heparin Pulmonary embolism from DVT is the most common cause of early death in patients with acute stroke. Vitamin D has a role as a neuroprotective agent towards large artery atherosclerosis. Many patients with ischemic stroke have vitamin D deficiency. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Stroke: Clinical features Affected cerebral vessels and associated features Site of the lesion Associated effects Anterior cerebral artery (ACA) • Contralateral weakness and sensory loss more marked in the lower limbs than in upper limbs • Urinary incontinence • Dysarthria Middle cerebral artery • Contralateral weakness and sensory loss more marked in the upper limbs than in lower limbs • Contralateral homonymous hemianopia • Aphasia if in dominant hemisphere (usually left MCA territory (global aphasia) • Hemineglect if in nondominant hemisphere (usually right MCA territory • Gaze deviates toward the side of infarction Posterior cerebral artery • Contralateral homonymous hemianopia with macular sparing • Visual agnosia • Cortical blindness • Visual hallucinations Weber's syndrome (branches of the posterior cerebral artery that supply the midbrain) Or branches of the basilar artery Ipsilateral CN III palsy Contralateral weakness Posterior inferior cerebellar artery (PICA)(lateral medullary syndrome, Wallenberg syndrome) lesion to dorsolateral medulla • Ipsilateral: facial pain and temperature loss • Contralateral: limb/torso pain and temperature loss. • Ataxia, nystagmus Anterior inferior cerebellar artery (lateral pontine syndrome) Symptoms are similar to Wallenberg's (see above), but: Ipsilateral: facial paralysis and deafness Retinal/ophthalmic artery Amaurosis fugax Basilar artery 'Locked-in' syndrome 025 - Chapter 4 025 Chapter 4 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Lateral medullary syndrome (Wallenberg's syndrome) Pathophysiology • Ischemic occlusion of the Posterior Inferior Cerebellar Artery (PICA) lesion to dorsolateral medulla • May caused by dissection or thrombosis of the vertebral artery, which gives rise to the posterior inferior cerebellar artery (PICA) • PICA is the largest branch of the vertebral artery and is the most common territory involved in cerebellar infarction. • The PICA supplies blood to structures of the lateral medulla (vestibular nuclei, spinal cord tracts) and the inferior cerebellar peduncle. Features • Vertigo, nausea and truncal ataxia are the most common presenting features and due to vestibular or cerebellar damage. • Hoarseness (or dysphagia, if present) is fairly specific for lateral medullary syndrome because it points to a lesion of the nucleus ambiguous (cranial nerves IX, X, XI). • Damage to the spinal trigeminal nucleus can result in loss of pain and temperature sensation in the ipsilateral face. • Damage to the lateral spinothalamic tract can result in loss of contralateral pain and temperature sensation below the neck. • Damage to the descending sympathetic fibers that also course through the lateral medulla would result in an ipsilateral Horner syndrome of ptosis, miosis, and anhidrosis. • Ataxia is probably due to infarction of the ipsilateral inferior cerebellar peduncle. • Pyramidal tract findings (weakness) are typically absent in lateral medullary lesions. Ipsilateral Contralateral • Cerebellar signs (Ataxia, dysmetria, dysdiadochokinesia, nystagmus) • Horner syndrome • Loss of pain and temperature in the face (due to 5th CN nucleus damage) • Loss of pain and temperature in the trunk and limbs Diagnosis: MRI is the imaging investigation of choice for posterior fossa lesions. Lateral medullary syndrome: • Caused by → PICA lesion • Characterised by : Ipsilateral cerebellar signs (Ataxia, Nystagmus ) & Horner syndrome (ptosis, miosis, and anhidrosis). Contralateral trunk and limbs sensory loss Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Lateral pontine syndrome VS Lateral medullary syndrome Lateral pontine syndrome Lateral medullary syndrome Aetiology Anterior inferior cerebellar artery (AICA) posterior inferior cerebellar artery (PICA) Differences Facial nucleus and facial nerve involvement leads to: • Ipsilateral paralysis of the upper and lower face (lower motor neuron lesion). • Ipsilateral loss of lacrimation and reduced salivation. • Ipsilateral loss of taste from the anterior two-thirds of the tongue. • Hyperacusis. Nucleus ambiguous involvement leads to: Dysphagia, dysarthria, dysphonia Similarities Ipsilateral Horner’s syndrome. Why? Descending hypothalamic tracts affected. Contralateral loss of pain and temperature. Why? Lateral spinothalamic tract affected. Ipsilateral cerebellar ataxia. Why? Cerebellar peduncles affected. Inferior cerebellar peduncle in medullary and middle cerebellar peduncle in pons. Nausea, nystagmus, vertigo, vomiting. Why? Vestibular nuclei involved. Ipsilateral loss of pain and temperature sensation from the face (facial hemianesthesia). Why? Spinal trigeminal nucleus and tract involved. Ipsilateral hearing loss. Why? Cochlear nuclei and nerve fibers involved. Pontine syndromes Locked-in syndrome • Pathophysiology The locked-in syndrome is caused by destructive bilateral brainstem lesions affecting the corticospinal, corticopontine, and corticobulbar tracts. The most common cause is ischemic infarction of the ventral pons. • Features Quadriplegia and inability to speak or swallow with retained consciousness and eyes movement Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Because the supranuclear ocular motor pathways are spared, patients can move their eyes and blink. Ventral pontine syndrome • Millard-Gubler syndrome (MGS), also known as facial abducens hemiplegia syndrome is one of the classical crossed brainstem syndromes characterized by a unilateral lesion of basal portion of the caudal pons involving fascicles of abducens (VI) and the facial (VII) cranial nerve, and the pyramidal tract fibers • Classical Raymond syndrome also has the same components as Millard-Gubler syndrome, but there is ipsilateral sixth nerve palsy along with contralateral facial paresis and hemiplegia. Components of Millard-Gubler syndrome (MGS) Ipsilateral weakness of the eye on abduction (VI nerve) Ipsilateral facial muscle weakness (VII nerve) Contralateral hemiparesis or hemiplegia of upper and lower extremities (pyramidal tract involvement) Inferior medial pontine syndrome • Inferior medial pontine syndrome, also known as Foville syndrome, is one of the brainstem stroke syndromes occurring when there is infarction of the medial inferior aspect of the pons due to occlusion of the paramedian branches of the basilar artery. • Features corticospinal tract: contralateral hemiplegia/hemiparesis medial lemniscus: contralateral loss of proprioception and vibration middle cerebellar peduncle: ipsilateral ataxia facial nerve (CN VII) nucleus: ipsilateral facial weakness abducens nerve (CN VI) nucleus: lateral gaze paralysis and diplopia Weber's syndrome Overview • Weber syndrome is a midbrain stroke syndrome that involves the cerebral peduncle and the ipsilateral fascicles of the oculomotor nerve • caused by midbrain infarction as a result of occlusion of the paramedian branches of the posterior cerebral artery or of basilar bifurcation perforating arteries. Features • Ipsilateral III palsy • Contralateral weakness Weber syndrome • ipsilateral III palsy • contralateral weakness Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Parinaud syndrome (Dorsal midbrain syndrome ) Pathophysiology • Results from dorsal midbrain lesion • Affected vessel : Branches of the posterior cerebral artery. Often result from compression, e.g., by tumor of the pineal gland →compresses the vertical gaze center at the rostral interstitial nucleus of medial longitudinal fasciculus →vertical gaze palsy Feature • Vertical gaze palsy (inability to move the eyes up). Downward gaze is usually preserved • Eyelid retraction (Collier sign): development of unilateral or bilateral lid retraction due to a midbrain lesion of the superior colliculi and the medial longitudinal fasciculus. • Pupillary light-near dissociation (pseudo-Argyll Robertson pupils) • Convergence-retraction nystagmus Labyrinthine infarction Anatomy • The blood supply to the inner ear flows through only 1 main blood vessel, the internal auditory artery (or labyrinthine artery), which typically originates from the anterior inferior cerebellar artery. Features • almost always present with acute prolonged vertigo and vestibular dysfunction • sudden-onset unilateral hearing loss. Differential diagnosis • Unlike viral labyrinthine dysfunction, the most common pattern of dysfunction with labyrinthine infarction includes a combined loss of auditory and vestibular function. Posterior communicating artery aneurysm (PCA) Posterior communicating artery aneurysm will cause →compression of the third nerve, and therefore →isolated ipsilateral painful third nerve palsy • Pupillary involvement (pupil dilation) from compression of the parasympathetic fibres that run on the outside of the third nerve • Other features of a third nerve palsy include ptosis, and a ‘down and out’ eye. • Cerebral aneurysms may be associated with polycystic kidney disease. Features • Pupillary dilatation, Ophthalmoplegia, and Ptosis. • other features suggestive of subarachnoid blood (headache, nuchal rigidity and photophobia). Investigation • Urgent CT angiogram of the cerebral vessels is required for diagnosis. Sudden-onset unilateral hearing loss → consider Labyrinthine infarction typically due to anterior cerebellar artery dissection after minor head trauma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • Conventional angiography: the definitive procedure for the detection and characterisation of cerebral aneurysms. • Digital subtraction angiography: may be helpful in identifying an acutely ruptured aneurysm. Differential diagnosis • Features distinguishing PCA from a cavernous sinus thrombosis are absence of sinusitis or a midface infection, which are common, absence of fever or additional cranial nerve abnormalities. The differential diagnoses in a patient presenting with headaches and painful diplopia are: • posterior communicating aneurysm (PCA) • Ophthalmoplegic migraine • Pituitary adenoma • Cavernous sinus thrombosis, or • medical mononeuritis. Ischaemic Stroke management Initial management • Aspirin 300mg orally or rectally should be given as soon as possible if a haemorrhagic stroke has been excluded for the initial two weeks. Reperfusion therapy for acute ischemic stroke • Thrombolysis by Alteplase (recombinant tissue plasminogen activator or tPA) are commonly used Mechanism of action:  Alteplase → bind to fibrin in a thrombus (clot) → convert entrapped plasminogen to plasmin → plasmin breaks up the thrombus → fibrinolysis Criteria : Ischemic stroke with the onset of symptoms <4.5 hours Written consent is not required to administer alteplase Absolute contraindications  Ischemic stroke, head trauma or surgery in the previous three months  Previous intracranial hemorrhage  Intracranial neoplasm  Gastrointestinal malignancy or hemorrhage in the previous 21 days  Cerebral hemorrhage  Persistent High BP (systolic ≥185 mmHg or diastolic ≥110 mmHg)  Haematological bleeding disorders Bleeding risk: 1 %. • Mechanical thrombectomy: a device that can remove a clot patients should undergo the procedure within 6 hours of symptom onset. Indications  large vessel occlusion (usually in addition to IV thrombolytic therapy) proximal MCA or distal internal carotid artery or basilar artery occlusion.  Patients who are ineligible for IV thrombolysis who present within the appropriate time-frame with large vessel occlusion. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Surgical treatment → decompressive hemicraniectomy • Indications: Patient with middle cerebral artery infarction who meet all of the criteria below: Age ≤60 years Clinical deficits suggestive of infarction in the territory of the middle cerebral artery, with a score on the National Institutes of Health Stroke Scale (NIHSS) of above 15. Decrease in the level of consciousness to give a score of 1 or more on item 1a of the NIHSS. Signs on CT of an infarct of at least 50% of the middle cerebral artery territory For individuals aged up to 60 years who suffer an acute MCA territory ischaemic stroke complicated by massive cerebral oedema, surgical decompression by hemicraniectomy should be offered within 48 hours of stroke onset. Secondary prevention • Clopidogrel is now recommended by NICE if clopidogrel is not tolerated →Aspirin + dipyridamole lifelong • Anticoagulation treatment for other comorbidities (e.g. atrial fibrillation): Should not be started until brain imaging has excluded haemorrhage, usually after 14 days from the onset of an ischaemic stroke. ischaemic stroke + atrial fibrillation →aspirin 300 mg for the first 2 weeks before considering anticoagulation treatment. cerebral infarction in patient with prosthetic valves and who are at significant risk of haemorrhagic transformation →anticoagulation treatment should be stopped for 1 week and aspirin 300 mg substituted. ischaemic stroke and symptomatic proximal DVT or PE →should receive anticoagulation treatment in preference to treatment with aspirin haemorrhagic stroke and symptomatic DVT or PE →prevent further PE using either anticoagulation or a caval filter. Prevention of thromboembolic event in stroke patient:  Patients admitted with stroke are very likely to be at high risk of developing a thromboembolic event due to reduced mobility.  NICE advises that patients admitted within three days of an acute stroke should have intermittent pneumatic compression considered. This should be provided for 30 days or until the patient is mobile or discharged. • Statin All patients who are diagnosed with stroke or TIA should be commenced on statin therapy irrespective of the cholesterol level. If the patient is unable to tolerate a statin (Stroke guidelines by Royal college of physicians 2016):  try alternative methods to improve the tolerability of a statin such as a reduced dose, alternate day dosing or a lower-intensity statin  Do not use fibrates, ezetimibe, bile acid sequestrants, nicotinic acid or omega3 fatty acids for cholesterol-lowering after stroke • Management of hyperglycaemia The European Stroke Initiative guidelines recommend treatment for glucose 180 mg/dL (>10 mmol/L) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology The Joint British Diabetes Society 2012 guidelines recommend a target BM of between 6 and 12 mmol/l for hyperglycaemic patients on NG feed with insulin to be started when BM over 12 mmol/l. The insulin regime of choice is a biphasic insulin with a mixture of intermediate and short acting insulin twice daily • Management of blood pressure in acute stroke If thrombolytic therapy is indicated → BP should be maintained ≤185/110 mmHg, before thrombolytic therapy (Labetalol, Nicardipine or Clevidipine are used as first line) If thrombolytic therapy is not indicated:  treat high BP only if the systolic BP >220 mmHg or diastolic BP >120 mmHg  cautious lowering of BP by approximately 15% during the first 24 hours. Top Tips Hypertension should not be treated in the initial period following a stroke unless complications develops Stroke thrombolysis - only consider if less than 4.5 hours and haemorrhage excluded Haemorrhagic stroke Spontaneous Intracerebral haemorrhage (ICH) Epidemiology • Hemorrhagic stroke (∼15%) The putamen is the commonest site for hypertensive intracerebral haemorrhage Risk factors • Hypertension (the most common risk factor), older age , haemophilia, cerebral amyloid angiopathy, anticoagulation, use of illicit sympathomimetic drugs, history of heavy alcohol, and vascular malformations. Classification by location • Lobar ICH commonly due to cerebral amyloid angiopathy (CAA).  Amyloid deposition in small-sized to medium-sized cortical perforators may lead to the rupture of these vessels, • Non-lobar ICH Time window for : • Thrombolysis (IV Alteplase): < 4.5 hours • Mechanical thrombectomy: < 24 hours Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad commonly due to long-standing high blood pressure resulting in lipohyalinosis of small perforating arteries of the basal ganglia, thalamus, pons and cerebellum, leading to deep haemorrhages, often with extension into the ventricles. Feature • ICH should be suspected in any patient with severe headache, vomiting, elevated systolic blood pressures or decreased level of consciousness. • Fever is common Sustained fever after ICH is an independent prognostic factor for worse outcome. Pontine haemorrhage commonly presents with reduced GCS, paralysis and bilateral pin point pupils Diagnosis • Non-contrast head CT is highly sensitive and specific Treatment • Stabilisation of airway, breathing and circulation (ABCs) . Intubation for airway protection is indicated in patient with GCS ≤8 or significant respiratory distress. • Intensive lowering of systolic blood pressure to <140 mm Hg Intravenous calcium channel blockers (eg, nicardipine) and β-blockers (eg, labetalol) are the treatment of choice for early BP reduction, given their short halflife and ease of titration. During acute phase, patients may have resistant HTN due to sympathetic surge. A few weeks later, they may require fewer medications and be at risk of hypotension unless the doses of medications are adjusted promptly • Hyperosmolar therapy (Mannitol or hypertonic saline) Peri-haematoma oedema (PHE) develops within the first few days after ICH and may cause elevated ICP, mass effect, midline shift and brain herniation asymptomatic PHE require no specific treatment except maintaining a normal sodium goal →Observe symptomatic cerebral oedema and elevated ICP →mannitol and hypertonic saline (HTS) are the first-line  Mannitol is an osmotic diuretic. It increases water excretion by the kidneys and reduces cerebral oedema and ICP.  HTS increases plasma osmolarity and the flow of excess water from cerebral tissue to the blood via the osmotic gradient.  hypertonic saline is slightly more effective than mannitol for the treatment of elevated ICP. keep serum sodium level at 140–150 mEq/L for 7–10 days to minimise oedema expansion and mass effect. Chapter 4 Neurology • Reversal of coagulopathies intracerebral haemorrhage in association with Vitamin K antagonist (warfarin) combination of prothrombin complex concentrates (PCC) and intravenous vitamin K. If not PCC not available → fresh frozen plasma (FFP). Dabigatran Idarucizumab Factor Xa inhibitors (eg, rivaroxaban, apixaban and edoxaban) OR other Direct thrombin inhibitors apart from Dabigatran. Low-molecular-weight heparin Protamine Thrombolytic (eg, recombinant tissue plasminogen activator (rtPA)) • Neurosurgery: Patient with a decreased level of consciousness from intraventricular haemorrhage with hydrocephalus, mass effect or brainstem herniation should receive ventriculostomy. • Venous thromboembolism (VTE) prophylaxis with intermittent pneumatic compression (IPC) devices Top tips Haemorrhage associated with dabigatran →Idarucizumab Cerebral venous thrombosis (CVT) Patients with a hypercoagulable state (e.g. pregnancy) and papilloedema with neurological signs should be investigated for cerebral venous thrombosis. Basics • Structure: reflections in dura matter where meningeal and periosteal layers split • Function: return blood from cerebral veins to internal jugular vein • veins contain NO valves Epidemiology • more common in young women. Sex: ♀> ♂, 3:1. Age of onset: ≤ 40 years Types • Superior sagittal sinus thrombosis (SSST) is the most common type of dural venous sinus thrombosis • Cavernous sinus thrombosis (CST) →3rd, 4th and ophthalmic (V1) and maxillary (V2) divisions of the 5th cranial nerve affected Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad reversed with Prothrombin complex concentrate (PCC) 1st line →cryoprecipitate administration. 2nd line (If cryoprecipitate is contraindicated or unavailable) →tranexamic acid ( antifibrinolytic agent) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Superior orbital fissure syndrome: similar to the cavernous sinus syndrome except for the presence of proptosis. • Lateral sinus thrombosis → 6th and 7th cranial nerve palsies Risk factors • Local infection : e.g. Sinusitis, furuncle (Staphylococcus aureus is the most common) • Diabetes mellitus • Hypercoagulable states: pregnancy, post-partum period • Malignancy • Clotting disorders (e.g., factor V Leiden, protein C and S deficiencies, antiphospholipid syndrome) • Polycythemia • Medications: Oral contraceptive pill, Corticosteroids Features • Raised intracranial pressure (ICP) Headache: the most common presenting symptom Nausea & vomiting: Vomiting in the morning is characteristic of raised ICP as it follows a period of lying flat. visual disturbance. Papilloedema. • Peri-orbital oedema may be the earliest physical finding Chemosis, oedema and cyanosis of the upper face occur due to obstruction of the ophthalmic vein. Eye swelling begins as a unilateral process and spreads to the other eye within 24-48 hours via the intercavernous sinuses. This is pathognomonic for cavernous sinus thrombosis (CST). • Cranial nerve symptoms (e.g. Ophthalmoplegia): CN VI →Lateral gaze palsy (patient cannot abduct eye) is usually seen first. CN III → Ptosis, mydriasis, and eye muscle weakness CN V → Hyperaesthesia of upper face and eye pain • Seizures (focal or generalized) Investigations • If CVT is suspected, D-dimer levels and imaging studies are first steps of diagnosis • Contrast-enhanced CT scan is the test of choice to confirm the diagnosis shows a filling defect in a vein or sinus, the reverse delta sign (that is, empty triangle sign). On contrast CT → empty delta sign (is a specific to the superior sagittal sinus) Plain CT/MRI help detect only edema and/or infarcts, but the thrombus itself can be visualized by means of venography. • Evaluation for possible causes (e.g. CBC, CRP, Thrombophilia screen, antibody studies) Treatment • Anticoagulants (full-dose heparin then warfarin). • Dexamethasone can be used to reduce cerebral oedema. • Surgical therapy (e.g. Shunt or clot removal) indications: Chapter 4 Neurology Progressive neurologic worsening (despite adequate anticoagulation) Acute rise in intracranial pressure Impending herniation Cavernous sinus contents Which group of nerves run through the cavernous sinus? III, IV, (V-1, V-2), and VI MRCPUK-part-1-September 2012: Left-sided eye pain & diplopia for the past 2 days + 6th & 3rd cranial nerve palsy on the left side + hyperaesthesia of the upper face on the left side. Where is the likely lesion? Cavernous sinus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Empty delta sign indicating a superior sagittal sinus thrombosis • CT with contrast demonstrating a superior sagittal sinus thrombosis showing the typical empty delta sign. • Look at the 'bottom' of the scan for the triangular shaped dural sinus. • This should normally be white due to it being filled with contrast. • The empty delta sign occurs when the thrombus fails to enhance within the dural sinus and is outlined by enhanced collateral channels in the falx. • This sign is seen in only about 25%-30% of cases but is highly diagnostic for sagittal sinus thrombosis Structures passes through the cavernous sinus: • Internal carotid artery • Cranial nerves: third, fourth, and sixth cranial nerves Ophthalmic (V1) and maxillary (V2) divisions of the fifth cranial nerve The mandibular branch of the trigeminal nerve (V3) does not travel in the cavernous sinus and would therefore not be affected. (NO lower face symptoms) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Cervical vascular dissection (Carotid and Vertebral artery dissection) Overview • Important causes of stroke in young patients • The two commonest causes of young onset stroke (less than 40 years) are Cardio-embolism and Cervical artery dissection. • Dissection of the internal carotid artery can occur intracranially or extracranially Extracranially is more common. 75% of carotid dissections affect the internal carotid artery (that is, extracranially) Mechanism of ischaemia • Emboli from the site of the dissection (85-95%) of cases → ischaemic symptoms • vessel narrowing (5-15%): subintimal tears →intramural haematomas protrude inward and narrow the vessel lumen. Causes • Mechanical forces (eg, trauma, blunt injury, and stretching) • Arteriopathies (eg, Ehlers-Danlos syndrome, Marfan syndrome and other connective tissue disorders) Features • Pain (Headache, neck or facial pain): is the initial common symptom, ipsilateral to the dissected artery. • Ischaemic neurological features (transient or completed strokes): Sudden-onset • Partial Horner syndrome (Ptosis with miosis) usually painful when caused by internal carotid artery dissections The term partial Horner syndrome is used for the oculosympathetic palsy because anhydrosis is absent. Because the sympathetic fibers innervating the facial sweat glands are anatomically located on the external rather than the internal carotid artery Diagnosis • Plain CT head first to exclude haemorrhagic stroke • Computed tomography angiography (CTA) head and neck the diagnostic modality of choice. Stroke provoked by minimal trauma (e.g. exercise) is likely due to Cervical vascular dissection until proven otherwise Triad of carotid dissection: unilateral (ipsilateral) headache ipsilateral Horner's syndrome and contralateral hemisphere signs (aphasia, neglect, visual disturbance, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Carotid dissection • Younger age group <50 years. • Neck pain. • Associated with vigorous exercise or event that sustains severe neck movement (e.g., roller coaster ride, motor vehicle accident). • May have Horner's syndrome or history of genetic collagen abnormality. Vertebral artery dissection: The typical presentation of vertebral artery dissection is a young person (average age 40 years) with severe occipital headache and neck pain following a recent head or neck injury. The trauma is often trivial but is usually associated with some form of cervical distortion. Vertebral artery dissection presents with: • Brainstem Stroke or transient ischaemic attack • Pain in the ipsilateral neck, face or head. • Commonly occurring in young people following a recent head or neck injury. Carotid artery stenosis Epidemiology • Carotid artery stenosis causes 10% to 15% of all ischaemic strokes. • the annual risk of stroke in patients with asymptomatic carotid disease is between 1% and 2% Pathophysiology • Atherosclerotic plaque in the cervical carotid artery is the most common cause. • Plaque disruption and athero-embolisation into the intracranial circulation is the most common mechanism for stroke. • The most common site of carotid Atherosclerosis: usually at the fork where the common carotid artery divides into the internal and external carotid artery. Features • The majority are asymptomatic. • TIA or stroke Plaques rupture →embolism to intracranial arteries →(TIA or stroke) or embolism to retinal arteries →(amaurosis fugax or retinal strokes). • Cervical bruit Diagnosis • Duplex ultrasonography is the preferred initial mode of diagnosis and screening. sensitivity of 99%, specificity of 86% If the stenosis is less than 50% →no further imaging is needed. Carotid endarterectomy for stroke or TIA in the carotid territory only indicated if: ≥50% ipsilateral carotid stenosis The patient not severely disabled Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad If the stenosis > 50% →CTA or MRA for more detailed plaque characterization. • CT or Magnetic resonance angiography (CTA or MRA) helps to define the anatomy if intervention is indicated. Management • Initial management →Antiplatelet therapy, Statin and risk factor modification. • Carotid revascularization → Endarterectomy Indications:  Significant stenosis: Carotid stenosis > 70% according ECST criteria (European Carotid Surgery Trial' Collaborative Group) or > 50% according to NASCET (North American Symptomatic Carotid Endarterectomy Trial) criteria.  TIA or resolving stroke (The patient not severely disabled): The benefit of endarterectomy is prevention of future stroke, with dense strokes, if there is no recovery, the benefits are greatly reduced due to end-organ damage. Asymptomatic carotid stenosis ≥ 70% : 1st line → antiplatelet therapy and cardiovascular risk reduction. the best course of action? → Discharge and outpatient follow up Contraindications:  100% carotid stenosis usually requires a bypass procedure, as risk of endarterectomy outweighs benefit.  previous stroke with persistent neurological symptoms Timing of surgery:  should be performed within two weeks. ("urgent" endarterectomy within 2 weeks) Benefit:  It reduces the risk of disabling stroke or death by 48% in a person with severe symptomatic carotid stenosis (>70%) who has had a TIA. • Carotid stenting used as an alternative to endarterectomy: Indications  Restenosis.  Previous radiotherapy to the neck may make endarterectomy difficult, and stenting may be preferred. MRCPI-part-2-april-2018: left-sided hemiparesis of more than 8 hours’ duration. carotid ultrasound scan, shows 80% stenosis of the left carotid artery, 50% stenosis of the right carotid artery. What is the most appropriate treatment for long-term stroke prevention? Clopidogrel  endarterectomy is not recommended in: significant stenosis but asymptomatic side (left carotid in this case) symptomatic side but there is less than 70% (right carotid in his case). Carotid artery atherosclerosis is an important cause of ipsilateral amaurosis fugax. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Localisation of speech problems Overview • The speech area is in the left, dominant side of the brain in about 99% of right-handed people • Thus, impairment of the speech area with a stroke, causing left-sided weakness, is rare. It will occur in virtually no right-handers and in only 30% of left-handers. • As a general rule, a lesion of the left hemisphere will cause dysphasia whilst, in the right hemisphere, it will cause neglect, visuo-spatial and cognitive problems • Wernicke's aphasia and pure aphasia (that is, without alexia) are middle cerebral artery. • Comprehension, fluency and repetition are the three main variables that allow for localisation of speech problems • The three, general, areas are: Wernicke's area (posterior, superior temporal lobe) - lesions produce normal fluency, impaired comprehension, impaired repetition  receptive aphasia  They are unaware of their language difficulties conduction (arcuate fasciculus) - lesions produce normal fluency, normal comprehension, diminished repetition Broca's area (inferior frontal lobe)  lesions produce impaired fluency, intact comprehension, impaired repetition.  Unlike Wernicke's aphasia, Broca's patients are aware of their language difficulties. Only 1 out of 3 features of speech are affected: • poor comprehension with normal fluency and repetition →Transcortical sensory aphasia • poor fluency with normal comprehension and repetition →Transcortical motor aphasia • poor repetition with normal fluency and comprehension →Conduction aphasia 2 out of 3 features of speech are affected: • Poor comprehension and fluency with normal repletion →Transcortical mixed aphasia • Poor comprehension and repetition with normal fluency →Wernicke (receptive) aphasia • Poor fluency and repetition with normal comprehension →Broca's (expressive) aphasia. All 3 features of speech are affected: • Poor fluency, comprehension and repetition →global aphasia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Aphasia Syndromes Aphasia Lesion Fluency Comprehension Repetition Broca's (expressive) Broca's area (inferior frontal lobe) superior division of the left middle cerebral artery (MCA) lesion No Yes No Wernicke (receptive) (superior temporal lobe) inferior division of the left MCA lesion Yes No No Conduction arcuate fasciculus peri-Sylvian area Yes Yes No Transcortical motor anterior cerebral artery (ACA)-MCA watershed infarct No Yes Yes Transcortical sensory posterior cerebral artery (PCA)-MCA watershed infarct Yes No Yes Transcortical mixed Can be secondary to both an ACA-MCA and PCA-MCA infarct No No Yes Global proximal MCA occlusion affecting both superior and inferior division of the MCA No No No • Mixed aphasia (or transcortical mixed aphasia) patients can often repeat words but not understand commands. Not specific for stroke , commonly caused by Alzheimer's disease, bilateral cerebral damage, tumours, and thalamic lesions. • Transcortical sensory aphasia The main problem lies within the brain in a region known as the temporal-occipitalparietal junction, located behind Wernicke's area. The patient has intact repetition but is unable to follow verbal commands. He has fluent grammatical speech. • Anomic aphasia or nominal aphasia results in word finding difficulties. • Aphemia is a type of aphasia in which there is severe dysarthria and impairment of verbal output. There is intact comprehension. MRCPUK-part-1-January 2008 exam: H/O difficulty in finding the right words whilst speaking. With normal comprehension. Where is the likely lesion? Posterior frontal lobe (expressive aphasia due to a lesion in Broca's area, located on the posterior aspect of the frontal lobe, in the inferior frontal gyrus) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Pupil conditions Pupillary control • Oculomotor nerve carries parasympathetic efferent to the sphincter pupillae muscle. • Optic nerve carries sympathetic postganglionic fibres to the dilator pupillae muscle. Pupillary control • Parasympathetic fibers lead to pupillary constriction (miosis) light enters the eye →retinal ganglion →optic nerve → optic chiasm → optic tract → pretectal nucleus→ Edinger-Westphal nucleus →ciliary ganglion →pupillary constrictor muscles →causing uniform bilateral miosis • Sympathetic fibers lead to pupillary dilation (mydriasis) hypothalamic nuclei →T1 and T2 spinal cord levels →paravertebral sympathetic chain (via the white ramus) →superior cervical ganglion →pupillary dilator muscle • Causes of small pupils include: Horner's syndrome Old age Pontine haemorrhage Argyll Robertson pupil Drugs, and Poisons (opiates, organophosphates). • Causes of dilated pupils include: Holmes-Adie (myotonic) pupil Third nerve palsy Drugs, and Poisons (atropine, CO, ethylene glycol). Pupil Lesion Slightly smaller but reactive Early stage of thalamic damage Fixed dilatated (7 mm) nonreactive Oculomotor nerve lesion Fixed midsized pupil (5 mm) Midbrain lesion Pinpoint pupil (1 – 1.5 mm) Pontine lesion/ opioid overdose Asymmetrical pupils Normal in 20% of population but reactive. If one pupil is sluggish to react than the other think of midbrain or oculomotor • Equality of pupils diameter Afferent pupillary defect (e.g. optic neuritis) → pupils are isocoric (equal diameter) Efferent (impulse transmission to the iris sphincter muscle) pupillary defect (i.e. impairment of the pupillary reflex) → pupils are anisocoric (unequal diameter) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hippus • Hippus is papillary athetosis.(athetosis →abnormal muscle contraction causes involuntary writhing movements). • It is a spasmodic rhythmical dilation and contraction of the pupil. • It is typically a benign finding. Tonic pupil (Holmes-Adie pupil) Holmes-Adie →dilated pupil Definition • Tonic pupil or Holmes-Adie pupil is a dilated pupil caused by parasympathetic damage. Pathophysiology • parasympathetic denervation at the level of the ciliary ganglion and postganglionic nerves. Causes • Idiopathic (Most cases) • Local causes: infections , trauma • Systemic autonomic neuropathies Ross syndrome is characterized by a triad of tonic pupil, hyporeflexia, and segmental anhidrosis Horner syndrome Features • Anisocoria (unequal pupil diameter) Although the tonic pupil is usually larger than the uninvolved fellow eye, over time the pupil tends to become smaller (the "little old Adie" pupil). • Hypersensitivity to dilute pilocarpine drops. Diagnosis • Clinically : poor pupillary reaction to light + normal test for a pupillary near response (lightnear dissociation). • The usual diagnostic test is to use weak pilocarpine eye drops, which induce vigorous pupil contraction on the affected side, but only weak contraction of the pupil on the unaffected side. • Patients with unexplained bilateral tonic pupils should have serologic testing for syphilis Treatment • benign condition → observe Ross’s syndrome: The triad of abnormal pupil size, loss of deep tendon reflexes, and excessive sweating. Although some doctors will still diagnose the condition as a variant of Holmes-Adie pupil. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Argyll Robertson Pupil (ARP) Argyll-Robertson Bilateral small irregular pupils that do not react to light but react to accommodation. Referred to as the "Whore's Eye" because of the association with tertiary syphilis and because of the convenient mnemonic that, like a prostitute, they “accommodate but do not react” Causes : neurosyphilis, Multiple Sclerosis, Sarcoidosis, DM Accommodation Reflex Present ARP Pupillary Reflex Absent Argyll Robertson Pupil (ARP) • Bilateral small pupils • Prostitute's pupils →reduce in size on a near object (they “accommodate”), but do not constrict when exposed to bright light (they do not “react” to light). • They are a highly specific sign of neurosyphilis and might also be a sign of diabetic neuropathy. Pupillary Defect Comments Argyll Robertson pupil • Pupils accommodate but do not react to direct or indirect light A type of light-near dissociation where Bilateral miosis the eye does not constrict in response to light as much as it does with accommodation pupil has an absent light reflex • Associated with neurosyphilis Adie's myotonic pupil • A type of light-near dissociation where the eye does not constrict in response to light as much as it does with accommodation  light reflex is merely reduced Affected eye is dilated usually • Secondary to degeneration of the ciliary ganglion Visual field defects Visual field defects: • left homonymous hemianopia means visual field defect to the left, i.e. lesion of right optic tract • homonymous quadrantanopias: PITS (Parietal-Inferior, Temporal-Superior) • incongruous defects = optic tract lesion; congruous defects= optic radiation lesion or occipital cortex Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The main points for the exam are: • left homonymous hemianopia means visual field defect to the left, i.e. Lesion of right optic tract • homonymous quadrantanopias: PITS (Parietal-Inferior, Temporal-Superior) • incongruous defects = optic tract lesion; congruous defects = optic radiation lesion or occipital cortex • A congruous defect simply means complete or symmetrical visual field loss and conversely an incongruous defect is incomplete or asymmetric. Please see the link for an excellent diagram. Homonymous hemianopia • incongruous defects: lesion of optic tract • congruous defects: lesion of optic radiation or occipital cortex • macula sparing: lesion of occipital cortex Homonymous quadrantanopias • superior: lesion of temporal lobe • inferior: lesion of parietal lobe • mnemonic = PITS (Parietal-Inferior, Temporal-Superior) Bitemporal hemianopia • lesion of optic chiasm • upper quadrant defect > lower quadrant defect = inferior chiasmal compression, commonly a pituitary tumour • lower quadrant defect > upper quadrant defect = superior chiasmal compression, commonly a craniopharyngioma Cortical blindness • Patients with cortical blindness frequently have visual hallucinations and occasionally deny that they are blind. • Pupillary reactions and fundoscopy are normal. Bitemporal hemianopia: • lesion of optic chiasm • upper quadrant defect > lower quadrant defect = inferior chiasmal compression, commonly a pituitary tumour • lower quadrant defect > upper quadrant defect = superior chiasmal compression, commonly a craniopharyngioma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Visual field defects Bilateral internal carotid artery displacement can cause binasal incongruous hemianopia if the optic nerves are compressed. MRCP-part-1-September 2012 exam: What sort of visual field defect is expected following an operation to remove a meningioma in left temporal lobe? Right superior homonymous quadrantanopia Mrcpuk-part-1-January 2009 exam: In a left congruous homonymous hemianopia. Where is the lesion most likely to be? Right occipital cortex Cranial nerves The major characteristics of the 12 cranial nerves Nerve Functions Clinical I (Olfactory) Smell Cribriform plate II (Optic) Vision Optic canal III (Oculomotor) Eye movement (MR, IO, SR, IR) Pupil constriction Accommodation Eyelid opening IV (Trochlear) Supplies superior oblique (SO) →(depresses eye, moves inward) V (Trigeminal) Facial sensation Mastication VI (Abducens) Eye movement (LR) Palsy results in defective abduction → horizontal diplopia VII (Facial) Facial movement Taste (anterior 2/3rds of tongue) Lacrimation Salivation VIII (Vestibulocochlear) Hearing, balance Hearing loss Vertigo, nystagmus Acoustic neuromas are Schwann cell tumours of the cochlear nerve IX (Glossopharyngeal) Taste (posterior 1/3rd of tongue) Salivation supplies the parotid salivary gland controlling salivary secretions. Swallowing Mediates input from carotid body & sinus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pathway/ foramen Palsy results in Superior orbital fissure (SOF) • ptosis • 'down and out' eye • dilated, fixed pupil Palsy results in defective downward gaze → vertical diplopia SOF Lesions may cause: V1: SOF, V2: Foramen rotundum, V3: Foramen ovale • trigeminal neuralgia • loss of corneal reflex (afferent) • loss of facial sensation • paralysis of mastication muscles • deviation of jaw to weak side SOF Lesions may result in: Internal auditory meatus • flaccid paralysis of upper + lower face • loss of corneal reflex (efferent) • loss of taste • hyperacusis Internal auditory meatus Lesions may result in; Jugular foramen • hypersensitive carotid sinus reflex • loss of gag reflex (afferent) Chapter 4 Neurology Nerve Functions Clinical X (Vagus) Phonation Swallowing Innervates viscera supplies the palatal muscles XI (Accessory) Head and shoulder movement XII (Hypoglossal) Tongue movement Tongue deviates towards side of lesion The fourth cranial nerve palsy →superior oblique palsy → vertical diplopia (eg: missing steps when walking down the stairs, bumping head when trying to get out of a car) Cranial nerve locations • 4 CN are above pons (I,II,III,IV). • 4 CN exit the pons (V,VI,VII,VIII). • 4 CN are in medulla (IX,X,XI,XII). Cranial nerve reflexes Reflex Afferent limb Efferent limb Corneal Ophthalmic nerve (V1) Facial nerve (VII) Jaw jerk Mandibular nerve (V3) Mandibular nerve (V3) Gag Glossopharyngeal nerve (IX) Vagal nerve (X) Carotid sinus Glossopharyngeal nerve (IX) Vagal nerve (X) Pupillary light Optic nerve (II) Oculomotor nerve (III) Lacrimation Ophthalmic nerve (V1) Facial nerve (VII) Brain stem (Mid brain, Pons, Medulla Oblongata) lesions are typically characterized by ipsilateral cranial nerve involvement and contralateral body involvement. Petrous apex lesion • Features Abducens nerve palsy →horizontal diplopia Trigeminal nerve involvement at the Meckel cave → ipsilateral facial pain or sensory disturbance (numbness) • Causes →Meningioma or nasopharyngeal carcinoma of the petrous apex is the most common cause now Lesions of the cerebellopontine angle causes compression of cranial nerves V (trigeminal), VII (facial) and VIII (vestibulocochlear). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pathway/ foramen Lesions may result in; Jugular foramen • uvula deviates away from site of lesion • loss of gag reflex (efferent) Lesions may result in; Jugular foramen • weakness turning head to contralateral side Hypogloss al canal Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Optic nerve palsy Anatomy • The optic nerve is part of the central nervous system; hence its myelin sheaths are derived from oligodendrocytes, not Schwann cells. • Accordingly, diseases of the peripheral nervous system and radiculopathies don’t target the optic nerve. • The physiological blind spot results from absence of photoreceptors in the area of the retina where the optic nerve leaves the eye. Causes • Ischemic optic neuropathy • multiple sclerosis • optic nerve glioma • ethambutol Features • Complete transection → ipsilateral blindness and loss of direct pupillary light reflex • Compression (e.g., tumor) → optic atrophy • Pituitary adenoma → compression to the optic chiasm → bitemporal hemianopia Oculomotor (third nerve) palsy Features • Divergent squint - affected eye deviated 'down and out'. Downward displacement result from unopposed action of the superior oblique (innervated by the fourth cranial or trochlear nerve). due to paralysis of superior rectus, inferior rectus and inferior oblique. outward displacement results from unopposed action of the lateral rectus (innervated by the sixth cranial nerve). due to paralysis of the medial rectus muscle. • Ptosis • Dilated pupil (mydriasis), sometimes called a 'surgical' third nerve palsy. the parasympathetic fibers run on the outside of the nerve. Therefore, 3rd nerve compression →mydriasis appear before ptosis and "down and out" position are seen. pupillary abnormalities are more commonly associated with trauma than with ischemia. Compression of the oculomotor nerve can cause isolated pupillary dilation due to injury of the parasympathetic fibers. Microangiopathy (e.g., due to diabetes mellitus) typically affects the deeper somatic fibers first, causing ophthalmoplegia without pupillary dilation Ipsilateral 3rd CN palsy + contralateral hemiplegia →Weber's syndrome Ipsilateral 3rd CN palsy + contralateral hemiataxia →Benedikt syndrome Ipsilateral 3rd CN palsy + ipsilateral hemiparesis + Contralateral homonymous hemianopsia → Uncal herniation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology A patient with a third nerve palsy with pupillary involvement should be considered to have a posterior communicating artery aneurysm until proven otherwise → requires urgent neurosurgical evaluation. • Unreactive pupil to light: Lesions of the autonomic (parasympathetic) portion → absence of the pupillary reaction Causes • Vascular causes (usually does not affect the pupil): Diabetic neuropathy, vasculitis, Weber's syndrome • Compressive lesions: Posterior communicating artery aneurysm (painful, pupil dilated) → Urgent CT angiogram of the cerebral vessels is required for diagnosis. • Cavernous sinus thrombosis • Others causes: amyloid, multiple sclerosis Parasympathetic fibers are located more superficially than motor fibers, causing the following features: • Prominent motor dysfunction and sparing of the pupil in ischemic lesions due to vascular disease (e.g., vasculitis, diabetes): parasympathetic fibers are less affected by decreased diffusion of nutrients from the vasa nervorum • Severely impaired pupillary reaction with relatively spared motor function in compressive lesions (e.g., uncal herniation, aneurysm of the posterior communicating artery): parasympathetic fibers are affected by compression first Painful third nerve palsy = posterior communicating artery aneurysm Raised ICP can cause a third nerve palsy due to herniation 026 - Pages 626-650 026 Pages 626-650 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Trigeminal neuralgia Overview • Sensation over the face is supplied by the trigeminal nerve • Trigeminal neuralgia is a pain syndrome characterised by severe unilateral pain. • Most often affecting women ♀> ♂(2:1) • Peak age incidence: 60–70 years Classification • Idiopathic trigeminal neuralgia Most common type no identifiable cause (unremarkable findings on MRI and electrophysiological tests) • Secondary trigeminal neuralgia Caused by a major underlying neurological disease, most frequently multiple sclerosis, a tumor at the cerebellopontine angle, or arteriovenous malformation. Red flag features suggesting a serious underlying cause  Sensory changes  Deafness or other ear problems  History of skin or oral lesions that could spread perineurally  Pain only in the ophthalmic division of the trigeminal nerve (eye socket, forehead, and nose), or bilaterally  Optic neuritis  A family history of multiple sclerosis  Age of onset before 40 years Should be referred to neurology MRI of the brain is the next management step Features • The International Headache Society defines trigeminal neuralgia as: Unilateral disorder characterised by brief electric shock-like pains, abrupt in onset and termination, limited to one or more divisions of the trigeminal nerve Lasts several seconds (in rare cases, several minutes) and may occur up to 100 times per day Typically shoots from mouth to the angle of the jaw on the affected side Usually triggered by movements such as chewing, talking, or touch (e.g., brushing teeth, washing face); becomes worse with stimulation Management • Carbamazepine is first-line • Failure to respond to treatment or atypical features (e.g. < 50 years old) should prompt referral to neurology MRCPUK-part-1-January 2015 exam: History of electric shock like pains on the right side of the face. around 10-20 episodes a day which, each lasting for around 30-60 seconds. What is the most suitable first-line management? Carbamazepine Trigeminal neuralgia - carbamazepine is first-line Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology What is the nerve supply to the angle of the jaw? The angle of the jaw is supplied by nerve roots C2/C3 and not the trigeminal nerve. In patients with non-organic sensory loss, that loss usually extends to the edge of the jaw. Abducens (VIth) nerve palsy Anatomy • Location: The abducens nucleus located in the caudal pons • Course: The nerve leaves the brainstem at the junction of the pons and medulla and runs upward into the subarachnoid space, travelling through the cavernous sinus alongside the internal carotid artery. It enters the orbit through the superior orbital fissure, like the other ocular cranial nerves, and innervates the lateral rectus, which serves to abduct the eye. • Function: The VIth nerve is motor to the lateral rectus muscle. It is responsible for abduction of the ipsilateral eye. Features • Horizontal diplopia that worsens when looking at distant objects • Inability to abduct the eye • In the neutral position the affected eye is deviated medially due to unopposed action of the medial rectus. • In patients with diplopia the 'cover test' can be used to determine the eye that has the problem. On covering the affected eye, the outermost image disappears. Eg : diplopia on right horizontal gaze , improved on covering the right eye  the right abducens is affected Causes • Most common ocular cranial nerve palsy • Trauma • Pseudotumor cerebri • Cavernous sinus thrombosis • Due to the long course and anatomy of the VIth nerve it can be damaged in any condition causing raised intracranial pressure. It can therefore be a 'false localising sign'. Which nerve passes alongside the internal carotid artery within the cavernous sinus? • Cranial nerve VI, the abducens nerve. Facial (VII) nerve Facial nerve branches (mnemonic) (superior to inferior) as they exit the anterior border of the parotid gland: To Zanzibar By Motor Car T: temporal Z: zygomatic B: buccal M: mandibular C: cervical Facial Palsy + convergent squint ↓ lesion in Pons as VI th is encircled by VII th Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Abducens nerve palsy • The patient is unable to abduct the right eye. • Abducens nerve innervates the ipsilateral lateral rectus muscle that is necessary for lateral movement of the eye. Facial nerve paralysis is often accompanied by: • loss of taste, • hyperacusis, and • decreased salivation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Supply - 'face, ear, taste, tear' • face: muscles of facial expression • ear: nerve to stapedius (Hyperacusis is due to paralysis of stapedius) • taste: supplies anterior two-thirds of tongue • tear: parasympathetic fibres to lacrimal glands, also salivary glands • Orbicularis oculi is affected causing inability to blink/close eyelids. Causes of bilateral facial nerve palsy Sarcoidosis Guillain-Barre syndrome polio, Lyme disease Causes of unilateral facial nerve palsy - as above plus Lower motor neuron Upper motor neuron • Bell's palsy • Ramsay-Hunt syndrome (due to herpes zoster) • Acoustic neuroma • Parotid tumours • HIV • Multiple sclerosis* may also cause an UMN palsy • Diabetes mellitus • Stroke LMN vs. UMN • upper motor neuron lesion 'spares' upper face i.e. forehead • lower motor neuron lesion affects all facial muscles Lesions • The majority of facial nerve palsy cases result from infranuclear lesions. • The most common cause of facial nerve paralysis is Bell's palsy. Bell's palsy Definition • acute, unilateral, idiopathic, facial nerve paralysis. Causes • unknown • although the role of the herpes simplex virus has been investigated previously. Epidemiology • The peak incidence is 20-40 years • more common in pregnant women. Features • lower motor neuron facial nerve palsy - forehead affected • other features post-auricular pain (may precede paralysis), Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad altered taste, dry eyes, hyperacusis (seen in around a third of patients) Management • prednisolone 1mg/kg for 10 days should be prescribed for patients within 72 hours of onset of Bell's palsy. • Adding in aciclovir gives no additional benefit • eye care is important - prescription of artificial tears and eye lubricants should be considered Prognosis • if untreated around 15% of patients have permanent moderate to severe weakness MRCPUK-part-1-January 2012 exam: Which features would be most consistent with a diagnosis of Bell's palsy? Hyperacusis MRCPUK-part-1-May 2010 exam: What is the current evidenced base approach to the management of Bell's palsy? Prednisolone Ramsay Hunt syndrome Aetiology • Ramsay Hunt syndrome (herpes zoster oticus) is caused by the reactivation of the varicella zoster virus in the geniculate ganglion of the seventh cranial nerve. Features • auricular pain is often the first feature • facial nerve palsy • vesicular rash around the ear • tinnitus • vertigo Management • oral aciclovir and corticosteroids Acoustic neuroma Overview • Acoustic neuromas (more correctly called vestibular schwannomas) are benign tumors of the vestibular nerve (8th nerve). • account for 5% of intracranial tumours and 90 % of cerebellopontine angle • Bilateral acoustic neuromas are seen in neurofibromatosis type 2 vesicular rash around the ear (or anterior 2/3rds of the tongue and the soft palate): suggest a diagnosis of Ramsey Hunt syndrome. Loss of corneal reflex →think acoustic neuroma Chapter 4 Neurology Features • can be predicted by the affected cranial nerves cranial nerve V: absent corneal reflex cranial nerve VII: facial palsy cranial nerve VIII: hearing loss, vertigo, tinnitus, gait disturbances and imbalance. Investigation • MRI of the cerebellopontine angle is the investigation of choice mass Treatment • surgical removal remains the treatment of choice Abnormal gait Lesions of cerebellar vermis cause →truncal ataxia and tendency to fall backwards. Phenytoin toxicity →broad-based ataxic gait Abnormal gait Diagnosis Shuffling gait Parkinson’s disease Spastic hemi-paretic gait (circumducted) Stroke Waddling gait (with excessive hip swing) proximal myopathy Steppage gait (High stepping, Neuropathic gait) • Foot drop: peroneal nerve palsy and L5 radiculopathy. Choreiform Gait (Hyperkinetic Gait) Sydenham's chorea, Huntington's Disease Ataxic Gait Cerebellar disease, Phenytoin toxicity Sensory Gait (Sensory ataxia) • occurs when there is loss of this proprioceptive input • the patient will slam the foot hard onto the ground in order to sense it. Sensory ataxia is distinguished from cerebellar ataxia by positive Romberg's sign (normal coordination when the movement is visually observed by the patient, and worsened when the eyes are closed) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad If bilateral: • Charcot–Marie–Tooth disease • Polio • Multiple sclerosis • Syphilis • Guillain–Barré syndrome If unilateral: large fiber peripheral neuropathies • diabetic neuropathy disorders of the dorsal columns: • B12 deficiency, • tabes dorsalis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Nystagmus Definition • involuntary oscillations of the eyes. Relation to directions of the gaze • constant direction regardless of the direction of gaze, suggests a labyrinthine or cerebellar lesion. • changes with the direction of gaze suggests widespread central involvement of vestibular nuclei. • presents only on lateral gaze lesion of the brain stem or cerebellum. • Nystagmus restricted to the abducting eye on lateral gaze (ataxic nystagmus) is due to a lesion of the medial longitudinal bundle between the pons and mid-brain as in multiple sclerosis (MS). Causes • Visual disturbances • Lesions of the labyrinth • Central vestibular connections, Brain stem or cerebellar lesions • Wernicke's encephalopathy • Nystagmus confined to one eye suggests: a peripheral lesion of the nerve or muscle, or a lesion of the medial longitudinal bundle. Vertical VS horizontal nystagmus • Vertical nystagmus: Upbeat nystagmus (occurring on upward gaze: due to a lesion in the mid-brain Downbeat nystagmus (fast phase downwards) suggests a lesion in the lower part of the medulla. It is therefore typical of the Arnold-Chiari malformation (Chiari type I malformation). • Horizontal nystagmus: occurs in unilateral disease of the cerebral hemisphere, with the fast phase directed to the side of the lesion. MRCPUK-part-1-May 2007 exam: Which disorder is most associated with downbeat nystagmus? Arnold-Chiari malformation Spinocerebellar ataxia (SCA) Upbeat nystagmus → cerebellar vermis lesions Downbeat nystagmus → foramen magnum lesions (Arnold-Chiari malformation) Spinocerebellar ataxia (SCA): • autosomal dominant • should be suspected in patients with progressive loss of coordination, unsteady gait and overall weakness. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Hemiballism Hemiballism is caused by damage to the subthalamic nucleus The presence of severe flinging movements affecting proximal muscles and following no particular pattern is typical for hemiballism. Overview • damage to the subthalamic nucleus of the basal ganglia Hemiballism decreased suppression of involuntary movements. • Ballisic movements are involuntary, sudden, jerking movements which occur contralateral to the side of the lesion. • The ballisic movements primarily affect the proximal limb musculature whilst the distal muscles may display more choreiform-like movements • It is always unilateral, but it is common for arms and legs to move together. • Bilateral ballismus is rare and implicates a metabolic cause, usually non-ketotic hyperosmolar coma. • Symptoms may decrease whilst the patient is asleep. • The movements worsens with activity and decrease with relaxation. Causes • vascular events (stroke). infarction being the commonest cause. • traumatic brain activity • amyotrophic lateral sclerosis • hyperglycaemia • malignancy • vascular malformations • tuberculomas, and • demyelinating plaques. Treatment • tetrabenazine is the treatment of choice. • Anti-dopaminergic agents (e.g. Haloperidol) are the mainstay of treatment. • Topiramate can be used, as can intrathecal baclofen, botulinum toxin and tetrabenazine. • Functional neurosurgery can be used for cases which have failed to respond to other treatment. Prognosis • Usually the flinging movements stop spontaneously in the next 4-8 weeks MRCPUK-part-1-September 2012 exam: H/O involuntary, jerking movements of arms, resolved during asleep. Damage to which structure may lead to hemiballism? Subthalamic nucleus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Epilepsy: Classification Basics • two main categories are generalised and partial seizures • partial seizures may progress to general seizures • other types: myoclonic, atypical absence, atonic and tonic seizures are usually seen in childhood Generalised - no focal features, consciousness lost immediately • Tonic-clonic ( grand mal) • Absence seizures (petit mal) absences last a few seconds and are associated with a quick recovery mostly seen in children 1st line treatment→ ethosuximide good prognosis - 90-95% become seizure free in adolescence • myoclonic: brief, rapid muscle jerks • partial seizures progressing to generalised seizures Partial - focal features depending on location • Simple (no disturbance of consciousness or awareness) • Complex (consciousness is disturbed) • Jacksonian seizure also known as a focal (partial) motor seizure. In this condition an uncontrolled, spontaneous discharge of electricity from one motor cortex presents with contralateral motor signs. The patient has preserved consciousness as it is a partial seizure after the seizure it is common to have a Todd's paralysis where the limb is weak. • Temporal lobe epilepsy Focal seizure with impaired awareness (complex partial seizure) Can take the form of automatisms such as chewing and swallowing repeatedly, scratching the head or searching for an object. Most commonly arise in the temporal lobes. MRI is an appropriate investigation The commonest finding is hippocampal sclerosis • Gelastic seizures Gelastic seizures should be suspected in cases of erratic laughing or crying. typically arise from hypothalamic hamartomas Absence seizure (petit mal) • presents with a blank stare, 3 Hz brain waves and do not show postictal confusion. • Good prognosis: 90 -95% become seizure free in adolescence. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Somatosensory seizures  Spread of symptoms ('marching') in seconds  The usual source is the parietal lobe.  Example → tingling sensation starts in fingers and spreads in seconds to affect the whole arm and leg. Positive symptoms (jerking, tingling) usually signify epilepsy. Negative symptoms (weakness, numbness) are usually caused by transient focal ischaemia.  Spread of symptoms ('marching') indicates migraine (in 5-20 minutes) or seizures (in seconds). Epilepsy: investigations • Electroencephalogram (EEG) should be performed only to support a diagnosis An EEG should not be performed in the case of probable syncope because of the possibility of a false-positive result. should not be used in isolation to make a diagnosis of epilepsy. should not be used to exclude a diagnosis of epilepsy in whom the clinical presentation supports a diagnosis of a non-epileptic event. can be used to assess the risk of seizure recurrence in patient presenting with a first unprovoked seizure. When a standard EEG has not contributed to diagnosis, a sleep EEG should be performed. Long-term video or ambulatory EEG may be used in case of diagnostic difficulties after clinical assessment and standard EEG. • Neuroimaging: to identify underlying gross pathology MRI is the imaging investigation of choice. CT should be used if MRI is not available or is contraindicated. In an acute situation, CT may be used to determine whether a seizure has been caused by an acute neurological lesion or illness. Neuroimaging should not be routinely requested when a diagnosis of idiopathic generalised epilepsy has been made. Atonic seizure (also known as “drop seizure” or “drop attack”) • Sudden loss of muscle tone: sudden head drop or collapse (lasts < 15 seconds) • Frequently mistaken for syncope Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Epilepsy: treatment When to start antiepileptics? • Antiepileptics is generally recommended after a second epileptic seizure. • NICE guidelines suggest starting antiepileptics after the first seizure if any of the following are present: the patient has a neurological deficit brain imaging shows a structural abnormality the EEG shows unequivocal epileptic activity the patient or their family or carers consider the risk of having a further seizure unacceptable Which antiepileptics? • Focal seizures Female of childbearing potential:  1st line → lamotrigine  2nd line → levetiracetam  3rd line → oxcarbazepine (can impair the effectiveness of hormonal contraceptives) Male or female who are not of childbearing potential:  1st line → lamotrigine or carbamazepine  2nd line → levetiracetam, oxcarbazepine or sodium valproate • Generalised tonic-clonic (GTC) seizures Female of childbearing potential  1st line → lamotrigine  2nd line → levetiracetam, clobazam, or topiramate Male or female who are not of childbearing potential  1st line → sodium valproate  2nd line → lamotrigine, carbamazepine, oxcarbazepine • Absence seizures (Petit mal) Female of childbearing potential  1st line → ethosuximide  2nd line → lamotrigine  3rd line → combination of ethosuximide and lamotrigine Male or female who are not of childbearing potential  1st line → ethosuximide or sodium valproate  2nd line → lamotrigine  3rd line → combination of two of these three AEDs: ethosuximide, lamotrigine or sodium valproate Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • Myoclonic seizures Female of childbearing potential  1st line → levetiracetam or topiramate (topiramate can impair the effectiveness of hormonal contraceptives.)  2nd line → add levetiracetam, or topiramate Male or female who are not of childbearing potential  1st line → sodium valproate  2nd line → levetiracetam or topiramate Indications for monitoring of AED blood levels • detection of non-adherence to the prescribed medication • suspected toxicity • adjustment of phenytoin dose • management of pharmacokinetic interactions (for example, changes in bioavailability, changes in elimination, and co-medication with interacting drugs) • specific clinical conditions, for example, status epilepticus, organ failure and certain situations in pregnancy Stopping of anti-epileptic drugs (AED) • Can be considered if seizure free for at least 2 years, with AEDs being stopped slowly over 2-3 months (withdrawing benzodiazepines and barbiturates may take up to 6 months or longer) • Benzodiazepines should be withdrawn over a longer period. Vagus nerve stimulation • indicated for use as an adjunctive therapy in reducing the frequency of seizures in adults who are refractory to antiepileptic medication AED cessation can be considered if seizure free for > 2 years – Stop AEDs over 2-3 months MRCPUK-part-1-January 2015 exam: Which one of the antiepileptic drugs is most associated with weight gain? Sodium valproate MRCPUK-part-1-September 2012 exam: What is the most appropriate first-line antiepileptic for myoclonic seizures? Sodium valproate Antiepileptic drugs (AED) Overview • Only start after a minimum of two fits. • Only use one drug at a time, and begin with a small dose, and gradually increase it, until control is achieved, toxic affects occur, or the maximum dose is reached. • The diagnosis of epilepsy needs to be critically evaluated if events continue despite an optimal dose of a first-line AED. • If the initial treatment is unsuccessful, then monotherapy using another drug can be tried. If there are absence or myoclonic seizures, or if juvenile myoclonic epilepsy (JME) is suspected, do not offer carbamazepine, gabapentin, oxcarbazepine, phenytoin, pregabalin, tiagabine or vigabatrin. • If an AED has failed because of adverse effects or continued seizures, a second drug should be started (which may be an alternative first-line or second-line drug) and built up to an adequate or maximum tolerated dose and then the first drug should be tapered off slowly. Drug Mechanism Side effects Clinical uses Benzodiazepines ↑GABA action Sedation, tolerance, dependence, respiratory depression Phenobarbital ↑GABA action Sedation, impairment of motor and cognition systems after long term use, megaloblastic anaemia Rarely used due to sedation – been superseded by phenytoin Phenytoin Inhibits sodium channels Blocks Na+ channels ;zero-order kinetics Carbamazepine Inhibits sodium channels Fatigue, Headache, Itching, SJS Useful for absence seizures Lamotrigine Blocks voltage-gated Na+ channels, inhibits the release of glutamate Ethosuximide Blocks thalamic Ttype Ca2+ channels Sodium valproate ↑Na+ channel inactivation ↑GABA concentration by inhibiting GABA transaminase for partial seizures Levetiracetam SV2A receptor blocker; May modulate GABA and glutamate release, Inhibit voltagegated Ca2+ channels Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 1st line for acute Gum hypertrophy, arrythmias Cytochrome P-450 induction, Pseudo-lymphoma, Hirsutism, Nystagmus, Yellow-brown skin, Teratogenicity (fetal hydantoin syndrome), Osteopenia, Inhibited folate absorption, Neuropathy. Rare: SJS, DRESS syndrome, drug-induced lupus. Toxicity leads to diplopia, ataxia, sedation. Partial and generalised attacks, but not in absence. High doses my precipitate attacks 1st line for partial seizures. 2nd or 3rd line, when other drugs unsuccessful. Diplopia, ataxia, blood dyscrasias (agranulocytosis, aplastic anemia), liver toxicity, teratogenesis (cleft lip/palate, spina bifida), induction of cytochrome P-450, SIADH, SJS , skin rash Generalised seizures – 2nd line treatment SJS (must be titrated slowly), hemophagocytic lymphohistiocytosis (black box warning) 1st line for: Alopecia, Hepatotoxic, Pancreatitis, P-450 inhibition (reduces efficacy of contraceptive pill), Rash, Weight gain, Tremor, Teratogenesis (neural tube defects). Absence seizures & Generalised seizures 2nd line Neuropsychiatric symptoms (eg, personality change), fatigue, drowsiness, headache For partial and generalised Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Which antiepileptic drugs does not have interactions with warfarin? • Lamotrigine has no effect on liver enzymes and is the treatment of choice for patient taking warfarin • Phenytoin, carbamazepine, primidone and phenobarbital are liver enzyme inducers • Sodium valproate is a liver enzyme inhibitor Which antiepileptic drug is most likely to cause renal stones side-effects? Topiramate (The side effects of topiramate include: weight loss, renal stones and cognitive and behaviour changes). MRCPUK-part-1-September 2008 exam: H/O complex partial seizures, not able to tolerate either carbamazepine or sodium valproate. What is the most appropriate next line drug? Lamotrigine What is the likelihood of controlling seizures in a patient never previously on anti-epileptic medication? A study of patients with previously untreated epilepsy demonstrated that: • With a single first-line anti-convulsant agent →47% achieved control of seizures • 14% became seizure-free during treatment with a second or third drug. • An additional 3% became seizure-free with the use of two drugs simultaneously. If the person has myoclonic seizures or is suspected of having juvenile myoclonic epilepsy (JME), be aware that lamotrigine may exacerbate myoclonic seizures. Carbamazepine and oxcarbazepine but be aware of the risk of exacerbating myoclonic or absence seizures Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Juvenile myoclonic epilepsy Juvenile myoclonic epilepsy is the most common primary generalised epilepsy, but is underdiagnosed due to lack awareness of the condition by doctors Overview • is a common form of idiopathic generalised epilepsy, representing 10% of all patients with epilepsy. • typically, first manifests itself between the ages of 10 and 20 with brief episodes of involuntary muscle twitching occurring early in the morning. Genetic • The condition is genetically linked to the short arm of chromosome 6. Presentation • Bilateral symmetrical myoclonic jerks, primarily after awakening, without impaired consciousness • Generalized tonic-clonic seizures • Absence seizures with impaired consciousness • Myoclonic jerks, especially of the upper limbs, which predominantly occur in the mornings shortly after waking (and may be so subtle as to be interpreted as 'clumsiness' when eating breakfast) • Triggers: sleep deprivation, alcohol consumption, flickering lights Investigations • Interictal EEG is diagnostic showing →generalised spike- and polyspike-wave activity; a photosensitive response may also be present Management • Female of childbearing potential 1st line → lamotrigine, levetiracetam or topiramate 2nd line → add lamotrigine, levetiracetam or topiramate • Male or female who are not of childbearing potential 1st line → sodium valproate 2nd line → add lamotrigine, levetiracetam, or topiramate Prognosis • Prognosis is extremely favourable if the condition is treated correctly, with many patients becoming seizure-free. Status epilepticus Definition • ≥5 minutes of continuous seizure activity, or more than one seizure without recovery in between Treatment • Initial management: ABC. Maintain airway and circulation with intubation • 1st line anticonvulsant: two doses of benzodiazepines (Lorazepam is preferred). • 2nd line anticonvulsant: parenteral anti-epileptics ( intravenous phenobarbital or phenytoin Fosphenytoin: (a pro-drug of phenytoin) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology  advantages over phenytoin: it can be given IV or IM (phenytoin can only be given IV) can be given at infusion rates three times faster than phenytoin therapeutic levels are achieved within 10 minutes it has a lower incidence of adverse events than phenytoin. If the patient is already taking phenytoin, either IV phenytoin or fosphenytoin should still be given: it is likely that plasma levels are subtherapeutic. Phenytoin is not recommended in patients with underlying liver impairment therefore not used in status epilepticus secondary to alcohol withdrawal. • 3rd line: ICU for general anaesthesia (Midazolam or propofol) Monitoring: By EEG in unconscious patients to differentiate between sedation and nonconvulsive seizures → EEG pattern:  Focal or focal with secondary generalization →nonconvulsive status epilepticus  Generalized slowing, attenuation, lateralizing periodic discharges → postictal. If a patient in generalised status epilepticus does not respond to lorazepam and adequate doses of intravenous phenytoin, what is the next step in their management? Transfer to an Intensive Therapy Unit Epilepsy: pregnancy and breast feeding Overview • Epilepsy is not a contraindication to pregnancy. • the risks of uncontrolled epilepsy during pregnancy generally outweigh the risks of medication to the fetus Risk of congenital defects • Around 1-2% of newborns born to non-epileptic mothers have congenital defects. This rises to 3-4% if the mother takes antiepileptic medication. • All women thinking about becoming pregnant should be advised to take folic acid 5mg per day well before pregnancy until at least the end of the first trimester to minimise the risk of neural tube defects. What is the effect of pregnancy on epilepsy? • Two-thirds will not have seizure deterioration in pregnancy • The overall chance of postpartum seizures is relatively higher than during pregnancy. The use of phenytoin is not recommended in patients with underlying liver impairment therefore not used in status epilepticus secondary to alcohol withdrawal. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • Exposure to sodium valproate and other AED polytherapy should be minimised by changing the medication prior to conception. • We suggest NOT making changes to antiseizure drug regimen for the purpose of reducing teratogenic risk in established pregnancy • Aim for monotherapy. The lowest effective dose of the most appropriate AED should be used. • Some women who have been seizure free for a prolonged period may reasonably choose to discontinue antiseizure drug prior to conception. • Women with epilepsy taking AEDs who become unexpectedly pregnant: It is never recommended to stop or change AEDs abruptly without an informed discussion. • the levetiracetam has a favorable reproductive safety profile and has a broad spectrum of action across multiple seizure types. • If seizures are focal and begin after the first trimester, carbamazepine is another option. (carbamazepine often considered the least teratogenic of the older antiepileptics) • Sodium valproate should not be used during pregnancy and in women of childbearing age unless she is on a pregnancy prevention programme. Associated with neural tube defects and neurodevelopmental delay. • Phenytoin: associated with cleft palate It is advised that pregnant women taking phenytoin are given vitamin K in the last month of pregnancy to prevent clotting disorders in the newborn. • Lamotrigine: the rate of congenital malformations may be low. The dose of lamotrigine may need to be increased in pregnancy • Breast feeding is generally considered safe for mothers taking antiepileptics with the possible exception of the barbiturates Pseudoseizures Overview • Pseudoseizures are commonly misdiagnosed as true seizures and treated inappropriately with anti-epileptic drugs. • patients of any age can present with pseudoseizures. • features such as tongue biting and urinary incontinence are not absolute features of an organic seizure, they are often present in pseudoseizures. Factors favouring pseudoseizures • pelvic thrusting • family member with epilepsy • more common in females • accompanying underlying psychiatric concerns , e.g. crying after seizure, tearful around the time of the seizure. • attacks in public and absence of nocturnal events (don't occur when alone) Suspected psychogenic non-epileptic seizures →do Video-EEG recording Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • gradual onset • prolonged nature of the attacks (15-30 minutes) • Violent shaking • resistance to passive eye opening • very short post-ictal state • normal vital signs Factors favouring true epileptic seizures • tongue biting • raised serum prolactin Diagnosis • Video telemetry is useful for differentiating Treatment • Simple observation is the appropriate management. Rett syndrome Overview • Rett syndrome is a neurodevelopmental disorder of the grey matter • inherited as an X-linked dominant disorder. • mostly affecting girls. Males affected by Rett syndrome die in utero or shortly after birth. • related to the MECP2 gene on the X chromosome Feature • Small hands and feet with deceleration of head growth. • Epileptic →repetitive hand movements such as hand wringing. • loss of development, verbal abilities and cognition, ataxia • GI problems, such as constipation. Tourette syndrome Definition • a chronic neurologic disorder that manifests with motor and vocal tics Epidemiology • Tourette syndrome presents before 18 years of age and many children grow out of it. • more common in males (4:1) Pathogenesis • due to genetic, environmental, and social factors resulting in an abnormality in the mesolimbic spinal system • the condition is familial in most cases Features • The motor tics often have a build-up that the patient is aware of, like an itch. • Commonly they involve blinking, throat clearing or shoulder shrugging. • Shouting of swear words is a typical vocal tic of Tourette's. Urinary incontinence can also occur in pseudoseizures, but tongue biting is rare Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Associated conditions • 90% of patients have a comorbid psychiatric disorder such as attention deficit hyperactivity disorder (~60% of cases) Management • first-line: Cognitive behavioural therapy • Second line: pharmacotherapy alpha-2 agonist (e.g., clonidine and guanfacine). Huntington's disease (HD) Pathophysiology • Autosomal dominant →Increased number of CAG repeats (trinucleotide repeat disorder) in the huntingtin gene on chromosome 4 (coding for glutamine) → formation of abnormal proteins which have abnormal number of glutamine residues (huntingtin) → degeneration of GABAergic neurons (gamma-amino-butyric acid-ergic neurons in the striatum (particularly in the caudate nucleus) of the basal ganglia. • The striatum normally controls movement via inhibitory outputs to the globus pallidus internus. • Anticipation: increase in the number of CAG repeats in subsequent generations (The disease may develop earlier in life in each successive generation) Epidemiology • Symptom onset usually between 20 and 50 years of age Features • Personality changes (e.g. irritability, disinhibition, apathy, depression) and intellectual impairment (the earliest symptom) • Chorea Athetosis is a hyperkinetic movement symptom characterized by slow, involuntary, writhing movements. Huntington disease and cerebral palsy are the most common causes. • Lack of coordination and an unsteady gait • Dystonia • Saccadic eye movements • Dementia • Dopamine levels are increased • Gamma-aminobutyric acid levels are decreased • Acetylcholine levels in the central nervous system are decreased Diagnosis • DNA analysis is the most useful diagnostic test (e.g., via PCR) Trinucleotide CAG repeat expansion in the Huntington gene is diagnostic • MRI →caudate nucleus atrophy Atrophy of the caudate nucleus, putamen, and deep cerebral cortex are the hallmark features of Huntington's disease. Hydrocephalus ex vacuo  Hydrocephalus ex vacuo is an expansion of the cerebral ventricles and surrounding subarachnoid space caused by atrophy of the underlying brain tissue, and not an expansion of CSF volume primarily. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology The role of neuroimaging is primarily to rule out other intracranial causes of a patient's symptoms, rather than to diagnose HD. Treatment • Tetrabenazine and reserpine works as a VMAT-inhibitor (vesicular monoamine transporter 2), involved in transportation of monoamines. It is indicated for Huntington's chorea to reduce hyperkinetic movements. • Haloperidol is a dopamine-2 antagonist used to treat movement disorders, hallucinations, and delusions in Huntington disease. Prognosis • progressive and incurable • Average life span after clinical onset is about 15 years (premature death). In Huntington disease, increased number of CAG repeats leads to the damage to the Caudate nucleus and results in decreased acetylcholine (Ach) and GABA. Cluster headache Epidemiology • More common in men (5:1) and smokers. • More common in younger males below the age of 40 Features • pain typical occurs once or twice a day, each episode lasting 15 mins - 2 hours • clusters typically last 4-12 weeks • intense pain around one eye (recurrent attacks 'always' affect same side) • The attacks are often nocturnal and are associated with parasympathetic overactivity. • patient is restless during an attack • accompanied by redness, lacrimation, lid swelling • nasal stuffiness • miosis and ptosis in a minority Management • Acute: 100% oxygen, subcutaneous or a nasal triptan the use of 100% oxygen at least 12 litres per minute via a non-rebreathable mask It is not recommended to offer paracetamol, NSAIDS, opioids, ergots or oral triptans for the acute treatment of a cluster headache. • prophylaxis: First line →verapamil, prednisolone , with other options including lithium, sodium valproate and gabapentin • NICE recommend seeking specialist advice from a neurologist if a patient develops cluster headaches with respect to neuroimaging Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Differential diagnosis • The main differential is between cluster headaches and chronic paroxysmal hemicrania (CPH; which is treated with indomethacin). Distinguishing cluster headaches and Chronic Paroxysmal Hemicrania Cluster headache Chronic Paroxysmal Hemicrania more common in males more common in females frequency of attacks is 1 - 4 (maximum 8) in 24 hours. the frequency of attacks is higher, usually more than 15 in 24 hours The duration of headaches is (15-60 min). The duration of headaches is shorter (2-25 min) Not responds to indomethacin responds very well to indomethacin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Migraine Diagnostic criteria The International Headache Society has produced the following diagnostic criteria for migraine without aura: Point Criteria A At least 5 attacks fulfilling criteria B-D B Headache attacks lasting 4-72 hours* (untreated or unsuccessfully treated) C Headache has at least two of the following characteristics: • unilateral location • pulsating quality (i.e., varying with the heartbeat) • moderate or severe pain intensity • aggravation by or causing avoidance of routine physical activity (e.g., walking or climbing stairs) D During headache at least one of the following: • nausea and/or vomiting • photophobia and phonophobia E Not attributed to another disorder (history and examination do not suggest a secondary headache disorder or, if they do, it is ruled out by appropriate investigations or headache attacks do not occur for the first time in close temporal relation to the other disorder) • NICE suggests migraines may be unilateral or bilateral Migraine with aura • seen in around 25% of migraine patients • tends to be easier to diagnose with a typical aura being progressive in nature • may occur hours prior to the headache. • Typical aura include: transient hemianopic disturbance or a spreading scintillating scotoma ('jagged crescent'). Spreading (over minutes) sensory and motor symptoms Word-finding difficulties are also a common migraine aura symptom. autonomic symptoms such as a Horner syndrome negative auras of dark holes and tunnel vision Dizziness and fatigue are quite common prior to a migraine attack Patients may have mixed positive and negative auras. Positive auras include bright or shimmering light or shapes at the edge of their field of vision called scintillating scotoma. They can enlarge and fill the line of vision. Other positive aura experiences are zigzag lines or stars. • may occur with or without headache • NICE also give more detail about typical auras: are fully reversible develop over at least 5 minutes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad last 5-60 minutes • The following aura symptoms are atypical and may prompt further investigation/referral; motor weakness double vision visual symptoms affecting only one eye poor balance decreased level of consciousness. • Complicated migraine Complicated migraine is one which results in hemi sensory or hemi motor findings associated with a typical migraine presentation. • Confusional migraine involves alteration in sensorium rather than limb involvement. Other features: • family history of similar headaches is common • Bilateral fortification spectra Fortification spectra (jagged lines resembling battlements) and teichopsia (flashes) are common features of migraine. • Precipitation by oral contraceptives (contraindicated in migraine with aura) • Frequency reduced by tricyclic antidepressants (can be useful in the prophylaxis of migrain) • Third nerve palsy seen in ophthalmoplegic migraine ophthalmoplegic migraine was reclassified as a cranial neuralgia in the most recent International Headache Society classification. most commonly affects the third nerve, the deficits can be permanent. A subset of these patients will have gadolinium enhancement of the cisternal segment of the cranial nerve it is thought some of these patients actually have a demyelinating neuropathy. Migraine: management acute 5-HT agonists prophylaxis: β-blocker, 5-HT2 antagonist • 5-HT receptor agonists are used in the acute treatment of migraine • 5-HT receptor antagonists are used in prophylaxis. Acute treatment • first-line: combination of oral triptan and NSAID, OR oral triptan and paracetamol  for young people aged 12-17 years: nasal triptan is preferred than oral triptan • if the above measures are not effective or not tolerated offer a non-oral preparation of metoclopramide* or prochlorperazine and consider adding a non-oral NSAID or triptan *caution should be exercised with young patients as acute dystonic reactions may develop with metoclopramide. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Prophylaxis • prophylaxis should be given if patients are experiencing 2 or more attacks per month. • Modern treatment is effective in about 60% of patients. • NICE advise either topiramate or propranolol or amitriptyline 'according to the person's preference, comorbidities and risk of adverse events'. Propranolol should be used in preference to topiramate in women of child bearing age as it may be teratogenic and it can reduce the effectiveness of hormonal contraceptives • if these measures fail NICE recommend 'a course of up to 10 sessions of acupuncture over 5-8 weeks' • gabapentin are not recommended now because evidence shows that it is not effective in preventing migraine. (NICE 2015) • NICE recommend: 'Advise people with migraine that riboflavin (400 mg once a day) may be effective in reducing migraine frequency and intensity for some people' riboflavin also known as vitamin B2  safe during pregnancy. • for women with predictable menstrual migraine treatment:  NICE recommend either frovatriptan (2.5 mg twice a day) or zolmitriptan (2.5 mg twice or three times a day) as a type of 'mini-prophylaxis' • pizotifen is no longer recommend. Adverse effects such as weight gain & drowsiness are common Efficacy of Paracetamol in migraine • Migraine →↓gastric emptying →↓Paracetamol absorption →↓Paracetamol effects • Metoclopramide may be useful in accelerating gastric emptying. • paracetamol absorption technique is used to study gastric emptying. MRCPUK-part-1-January 2006 exam: Which type of medication would be most appropriate to reduce the frequency of migraine attacks? Beta-blocker (Topiramate is also recommended by NICE as first-line prophylaxis against migraine. However, a beta-blocker is a better choice in a female of child-bearing age) Migraine: pregnancy, contraception and other hormonal factors Migraine during pregnancy • paracetamol 1g is first-line • aspirin 300mg or ibuprofen 400mg can be used second-line in the first and second trimester Migraine and the combined oral contraceptive (COC) pill • if patients have migraine with aura then the COC is absolutely contraindicated due to an increased risk of stroke (relative risk 8.72) Migraine and menstruation • many women find that the frequency and severity of migraines increase around the time of menstruation • SIGN recommends that women are treated with mefanamic acid or a combination of aspirin, paracetamol and caffeine. Triptans are also recommended in the acute situation Migraine and hormone replacement therapy (HRT) • safe to prescribe HRT for patients with a history of migraine but it may make migraines worse Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Triptans Action • Triptans are specific 5-HT1 agonists used in the acute treatment of migraine. • They are generally used first-line in combination therapy with an NSAID or paracetamol. Prescribing points • should be taken as soon as possible after the onset of headache, rather than at onset of aura • oral, orodispersible, nasal spray and subcutaneous injections are available Adverse effects • 'triptan sensations' - tingling, heat, tightness (e.g. throat and chest), heaviness, pressure Contraindications • patients with a history of, or significant risk factors for, ischaemic heart disease or cerebrovascular disease Epilepsy is not a contraindication to the use of triptans Idiopathic intracranial hypertension(IIH) Obese, young female with headaches / blurred vision : think idiopathic intracranial hypertension Postural headache but normal imaging →idiopathic intracranial hypertension Suspected Idiopathic intracranial hypertension →lumbar puncture to confirm the diagnosis is the next step Overview • also known as pseudotumour cerebri and formerly benign intracranial hypertension • classically seen in young, overweight females. Risk factors • obesity • female sex • pregnancy • drugs: oral contraceptive pill (eg: Dianette ), Danazol (synthetic androgen used to treat endometriosis) steroids, tetracycline, vitamin A, Nalidixic acid *if intracranial hypertension is thought to occur secondary to a known causes (e.g. Medication) then it is of course not idiopathic 027 - Chapter 4 027 Chapter 4 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Features • headache  chronic postural headache (suggested by its improvement as the day progresses) 10% of cases are free of headaches. • blurred vision, (Horizontal diplopia) Diplopia is common due to sixth nerve palsy. • papilloedema (usually present) • enlarged blind spot • Reduction in colour vision is common • sixth nerve palsy may be present • normal appearances of the magnetic resonance imaging (MRI). Normal ventricular size, anatomy and position. Normal CSF cell count and protein content. • plantars are flexor Extensor plantars suggest alternative diagnosis. • Absence of retinal venous pulsations Diagnosis • the diagnosis is confirmed by finding an elevated CSF opening pressure (more than 20 cm H2O). CSF protein, glucose and cell count will be normal. • CT and MRI scans are often normal CT brain is needed to exclude a space occupying lesion and obstructing hydrocephalus. MRI venogram is recommended afterwards to exclude cerebral sinus thrombosis. Management • weight loss • diuretics e.g. acetazolamide • topiramate (anticonvulsant) is also used, and has the added benefit of causing weight loss in most patients • repeated lumbar puncture • surgery: A lumboperitoneal or ventriculoperitoneal shunt may also be performed to reduce intracranial pressure optic nerve sheath decompression and fenestration may be needed to prevent damage to the optic nerve.  In progressive visual loss Lumbo-peritoneal (LP) shunt is the treatment of choice. Optic nerve fenestration is an alternative. There are no comparative studies between the two interventions. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Complication • Progressive visual loss and optic atrophy Scenario A young, obese female presents with a progressive blurring in her vision over the last 12 months but denies any headache. on fundoscopy she has bilateral blurred and heaped up optic discs which are obviously pale. CT head scan was reported as normal. Which appropriate investigation for this patient? Brain MR venography  The description of the pale but prominent optic discs goes with early secondary optic atrophy and hence should promote a search for a cause for a longstanding papilloedema.  she is likely to have idiopathic intracranial hypertension; 10% of cases are free of headaches.  The next most appropriate investigations would be assessment for any underlying causes and include magnetic resonance venography (MRV) (exclude cerebral sinus thrombosis) and cerebrospinal fluid (CSF) analysis with assessment of the opening pressure and other CSF parameters as a confirmatory step. MRCPUK-part-1-September 2008 exam: Sudden loss of vision in left eye + headaches + bilateral papilloedema. Which drug is most likely to be responsible? Prednisolone →intracranial hypertension Spontaneous intracranial hypotension (SIH) Strong postural relationship with the headache generally much worse when upright and easy with lying horizontal. Patients may therefore be bed-bound Definition • Low (CSF) pressure headache, (< 6 cm CSF) • The lower limit of the normal range for CSF pressure is 10 cm H2O Causes • The most common cause following lumbar puncture, The leak is typically from the thoracic nerve root sleeves. • Other possible causes: following an episode of possible minor trauma to meninges (eg sports injury to neck or back) without apparent cause (SIH). Mechanism and features • CSF leak leads to low CSF pressure orthostatic headache in association with one or more of the following symptoms: nausea, vomiting horizontal diplopia unsteadiness or vertigo altered hearing neck pain/stiffness interscapular pain visual field abnormalities Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Diagnosis • CSF opening pressure at lumbar puncture: opening CSF pressure is low, (< 6 cm CSF), and often a 'dry' tap is encountered However, the pressure may be normal CSF fluid analysis is normal • MRI with gadolinium confirming the diagnosis demonstrates distinctive dural gadolinium enhancement and downward displacement of brain on sagittal views. typically reveal diffuse pachymeningeal enhancement, frequently in association with 'sagging' of the brain, tonsillar descent and posterior fossa crowding Treatment • usually conservative (first-line): bed rest, analgesia, increased fluid intake • if this fails an epidural blood patch may be tried Medication overuse headache Medication overuse headache • Simple analgesia + triptans: stop abruptly • Opioid analgesia: withdraw gradually Definition • a headache occurs ≥ 15 days per month due to overuse of headache medication (e.g. opioid, paracetamol, triptans and NSAIDs) for ˃ 3 months. Epidemiology • Prevalence:1 to 2% and is higher in females than males. Features • A history of symptomatic medication use more than two to three days per week in association with chronic daily headache is suggestive. • Commonly occurs daily or nearly daily. • Butalbital-containing analgesics and opioids has the highest risk of medication overuse headache. Management • Simple analgesics and triptans should be withdrawn abruptly (may initially worsen headaches) • Opioid analgesics should be gradually withdrawn • Withdrawal symptoms are likely to occur, including worsening headache, nausea, agitation and sleep disturbance. These usually settle within seven days, and headaches should stop within approximately three weeks. • While discontinuing the overused medication, some patient may require bridge therapy such as long-acting NSAIDs; eg, naproxen or oral prednisone. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Parkinsonism Definition • Parkinsonism refers to clinical syndromes that mimic the symptoms of Parkinson's disease (PD) (e.g. tremor, bradykinesia, rigidity). Causes • Parkinson disease (PD): Idiopathic • Secondary parkinsonism Drug-induced e.g. antipsychotics, metoclopramide Progressive supra-nuclear palsy Multiple system atrophy Wilson's disease Post-encephalitis Dementia pugilistica (secondary to chronic head trauma e.g. boxing) Toxins: carbon monoxide, MPTP Drugs-induced Parkinsonism  Phenothiazines: e.g. chlorpromazine, prochlorperazine  Butyrophenones: haloperidol, droperidol  Metoclopramide  Domperidone does not cross the blood-brain barrier and therefore does not cause extra-pyramidal side-effects Parkinson's disease (PD) Definition • Progressive neurodegenerative condition caused by degeneration of dopaminergic neurons in the substantia nigra. Epidemiology • The second most common neurodegenerative disorder following Alzheimer disease • Prevalence is 1-2 per 1000 people • More common in men (2:1) • Mean age of diagnosis is 65 years Risk factors • Advanced age (>60 years) • Family history • Male sex • Environmental pesticides. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Pathophysiology • In normal circumstances There are two pathways in the brain that promote motion, the direct (stimulatory) pathway and the indirect (inhibitory) pathway. In normal circumstances, the stimulatory pathway is activated while the inhibitory pathway is deactivated, allowing for smooth motion. Dopamine stimulate the Direct Pathway and inhibits the Indirect Pathway. The substantia nigra (part of the basal ganglia) produces dopamine, which binds the D1 receptors in the striatum, inhibiting the globus pallidus, leading to activation of the thalamus and allowing movement (activation of the direct stimulatory pathway) Also, dopamine binds the D2 receptor, inhibiting the inhibitory pathway (inhibition of the indirect pathway). • In Parkinson disease Aggregates of α-synuclein proteins → form Lewy bodies → loss of the dopamineproducing neurons in the substantia nigra. Decreased dopamine causes increased inhibitory output from the globus pallidus via both the direct and indirect pathways → ↓motion. ↓dopamine →↓activation of D1 receptor on striatum →↓excitatory (stimulatory) direct pathway →↑globus pallidus internus output →↓thalamic function → ↓motion. ↓dopamine →↓activation of D2 receptor on striatum →disinhibiting the inhibitory pathway The classical signs of bradykinesia, resting tremor and rigidity start to appear after approximately 50% of the dopamine neurons, and 75-80% of striatal dopamine is lost. Decreased dopamine impairs movement by which mechanisms? Decreased activation of the D1 and D2 receptors Which mechanism underlying the neurodegeneration seen in Parkinson's? Impaired protein degradation Mutations in either the parkin gene or UCHL1 lead to impaired protein degradation. Alpha-synuclein is a synaptic protein accumulates in Lewy body dementia and Parkinson's disease. What is the characteristic microscopic finding in Parkinson's disease? Lewy body Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Bradykinesia poverty of movement also seen, sometimes referred to as hypokinesia short, shuffling steps with reduced arm swinging difficulty in initiating movement • Tremor most marked at rest, 3-5 Hz worse when stressed or tired typically, 'pill-rolling', i.e. in the thumb and index finger The tremor of parkinsonism only disappears during REM sleep. • Rigidity lead pipe cogwheel: due to superimposed tremor • Other characteristic features mask-like facies flexed posture micrographia drooling of saliva psychiatric features:  depression is the most common feature (affects about 40%);  dementia, psychosis and sleep disturbances may also occur impaired olfaction REM sleep behaviour disorder  The earliest feature (During REM sleep, the patient may be seen kicking, laughing, punching, or fighting invisible enemies.) Intestinal pseudo-obstruction  a common feature of advanced Parkinson’s  results in symptoms of intermittent abdominal bloating and vomiting. Drug-induced parkinsonism differs from Parkinson's disease in: • motor symptoms are generally rapid onset and bilateral • rigidity and rest tremor are uncommon The classic triad of features: bradykinesia, tremor and rigidity The symptoms of Parkinson's disease are characteristically asymmetrical. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology A Lewy body (stained brown) in a brain cell of the substantia nigra in Parkinson's disease. The brown colour is positive immunohistochemistry staining for alpha-synuclein. Discoloration of the substantia nigra due to loss of pigmented nerve cells. Diagnosis: Diagnostic criteria for Parkinson’s disease • Step 1. Diagnosis of a parkinsonian syndrome Bradykinesia and at least one of the following:  Muscular rigidity  Rest tremor (4-6 Hz)  Postural instability unrelated to primary visual, cerebellar, vestibular, or proprioceptive dysfunction • Step 2. Exclusion criteria for Parkinson’s disease History of:  Repeated strokes with stepwise progression  Repeated head injury  Antipsychotic or dopamine-depleting drugs  Definite encephalitis or oculogyric crises on no drug treatment  More than one affected relative  Sustained remission  Negative response to large doses of levodopa (if malabsorption excluded)  Strictly unilateral features after 3 years  Other neurological features: supranuclear gaze palsy, cerebellar signs, early severe autonomic involvement, Babinski sign, early severe dementia with disturbances of language, memory, or praxis  Exposure to known neurotoxin  Presence of cerebral tumour or communicating hydrocephalus on neuroimaging Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Step 3. Supportive criteria for Parkinson’s disease Three or more required for diagnosis of definite Parkinson’s disease:  Unilateral onset  Excellent response to levodopa  Rest tremor present  Severe levodopa-induced chorea  Progressive disorder  Levodopa response for over 5 years  Persistent asymmetry affecting the side of onset most  Clinical course of over 10 years. Investigations • Single photon Emission Computed Tomography (SPECT) The investigation of choice for people with tremor if essential tremor cannot be clinically differentiated from parkinsonism. Management • First-line treatment If the motor symptoms are affecting the patient's quality of life →levodopa If the motor symptoms are not affecting the patient's quality of life →non-ergot dopamine agonist (e.g., ropinirole, apomorphine), levodopa or monoamine oxidase B (MAO-B) inhibitor (e.g., selegiline) Patients > 65 years or multimorbid patients of any age → levodopa PLUS decarboxylase inhibitor (carbidopa): due to inevitable motor complications that is associated with levodopa. Patients < 65 years with no significant comorbidities → Non-ergot dopamine agonists (e.g., pramipexole, ropinirole, apomorphine) Feature most strongly suggest idiopathic Parkinson's disease →asymmetry of tremor General rule of treatment: • Starting dopamine agonists such as ropinirole for younger patients under 65. • Saving L-dopa for later in the disease while reducing the long-term risk of motor complications. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • Second line Adjuvant treatment of motor symptoms (dyskinesia and/or motor fluctuations) if not responded despite optimal levodopa therapy →Add non-ergot-derived dopamine agonists, MAO-B inhibitors or catechol-O-methyl transferase (COMT) inhibitors (e.g., entacapone) • Third line If dyskinesia is not adequately managed by modifying existing therapy, consider amantadine • Fourth- line → deep brain stimulation For advanced Parkinson’s disease, whose symptoms are not adequately controlled by best medical therapy Targets: subthalamic nucleus or internal globus pallidus In the context of suicidal behaviour, the patient would not be a candidate for deep brain stimulation, which for unknown reasons, increases the risk of suicide. Comparison between anti-Parkinson drugs • Improvement in motor symptoms and activities of daily living. Levodopa → More improvement Other antiparkinsonian medicines (e.g. Dopamine agonists, MAO-B inhibitors & COMT inhibitors) → Less improvement Amantadine → No evidence of improvement • Off time (periods of the day between medication doses when the medication is not working well, causing worsening of Parkinsonian symptoms). Dopamine agonists → More off-time reduction Amantadine → No studies reporting this outcome • Adverse events Levodopa, MAO-B inhibitors & COMT inhibitors → Fewer adverse events Dopamine agonists →Intermediate risk of adverse events Amantadine → No studies reporting this outcome • Motor complications Levodopa →More motor complications Dopamine agonists & MAO-B inhibitors → Fewer motor complications • Hallucinations Levodopa, MAO-B inhibitors & COMT inhibitors →Lower risk Dopamine agonists →More risk Amantadine → No studies reporting this outcome Management of non-motor symptoms of Parkinson’s disease • Excessive daytime sleepiness → modafinil • Rapid eye movement sleep behaviour disorder → clonazepam or melatonin • Nocturnal akinesia → levodopa or oral dopamine agonists • Postural hypotension Review the possible pharmacological causes, e.g: antihypertensives (including diuretics), dopaminergics, anticholinergics, antidepressants. First line →midodrine (alpha agonist): monitor for supine hypertension. Second line →fludrocortisone (If midodrine is not tolerated or not effective). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Psychotic symptoms (hallucinations and delusions) Do not treat if they are well tolerated. Reduce the dosage of any Parkinson's disease medicines Consider quetiapine (in people without cognitive impairment) or clozapine. Do not offer olanzapine • Dementia 1st line: cholinesterase inhibitor (rivastigmine, donepezil, or galantamine capsules or rivastigmine patches) 2nd line: if cholinesterase inhibitors are not tolerated or contraindicated → memantine • Drooling 1st line: glycopyrronium bromide (anticholinergic) → reduce excessive saliva (sialorrhea) & does not cross the blood–brain barrier →no central effects. 2nd line: If glycopyrronium bromide is not effective → referral for botulinum toxin Parkinson's medication withdrawal • Antiparkinsonian medicines should not be withdrawn abruptly or allowed to fail suddenly due to poor absorption (for example, gastroenteritis, abdominal surgery) to avoid the potential for acute akinesia or neuroleptic malignant syndrome. • The practice of withdrawing people from their antiparkinsonian drugs (so called 'drug holidays') to reduce motor complications should not be undertaken because of the risk of neuroleptic malignant syndrome. • Parkinsonian malignant syndrome Triggered by abrupt withdrawal from anti-parkinsonian medication. The presentation is similar of neuroleptic malignant syndrome (pyrexia, rigidity, tachycardia) but without a history of neuroleptic drug use. Re-initiation of Parkinson's therapy is curative. Anti-Parkinson drugs Levodopa (L-DOPA) • Mode of action Precursor to dopamine, can penetrate the blood brain barrier (peripherally administered dopamine cannot penetrate the blood brain barrier) Converted to dopamine by DOPA decarboxylase at the presynaptic neuron → direct dopaminergic effect • Indication First-line treatment for patients > 65 years of age or patients with comorbidities. Second-line treatment for patients < 65 years of age. • Administration Normally combined with a peripheral decarboxylase inhibitor (e.g. carbidopa or benserazide) to prevent peripheral metabolism of levodopa to dopamine (levodopa alone → peripheral conversion of levodopa to dopamine → significant GI side effects such as nausea and vomiting). • Advantages Most effective drug for reducing symptoms Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • Disadvantages Increased risk of severe motor dysfunction: levodopa-induced dyskinesia (LID) → involuntary writhing movements: choreiform movements, dystonia, myoclonus, and ballism). Peak-dose dyskinesia is most common:  Due to higher dose of levodopa.  Usually involve upper limbs, trunk, and orofacial muscles.  Treatment: reduction of levodopa dose (use frequent smaller dosage)  Amantadine is an NMDA antagonist and considered the most effective drug used for LID. Reduced effectiveness with time (usually by 2 years) On/off effect (phenomena)  due to long-standing chronic levodopa therapy and seen when the serum level of levodopa is least.  usually manifest as abnormal spasm of body parts, which most commonly affect foot or leg and rarely present on the arm or trunk.  Off-period dystonia usually occurs at night or early morning  Treatment may be improved either by the addition of cabergoline (a dopamine agonist) or a subcutaneous infusion of apomorphine. Liquid forms of l-dopa may also be helpful as they allow closer titration of dose, and splitting meals into smaller snacks. • Side effects Nausea & vomiting , dry mouth, anorexia Cardiac arrhythmias, postural hypotension Drowsiness Reddish discolouration of urine upon standing Psychosis, hallucinations (usually visual)  usually appear late (more than two years after initiation of treatment).  The risk for developing psychiatric symptoms increases with age, other psychiatric conditions, long duration of levodopa treatment, and high doses. Levodopa can increase intraocular pressure, therefore it is not recommended in patients with glaucoma. • Not used in neuroleptic induced parkinsonism Dopamine receptor agonists • Agents Non-ergot dopamine agonists agents: Ropinirole, apomorphine, pramipexole, rotigotine Ergot-derived dopamine agonists: bromocriptine, cabergoline, pergolide (not recommended as first-line treatment for Parkinson's disease). • Action: Act directly at striatal dopamine receptors • Indication First-line treatment for patients < 65 years of age Adjunctive treatment for patients of any age Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Advantage: Fewer motor side effects • Disadvantage: Less effective than L-DOPA • Side effects Nausea, orthostatic hypotension, daytime drowsiness (somnolence) Psychotic symptoms: Hallucinations, psychosis, impulse control disorders  impulse control disorders (e.g. compulsive gambling, hypersexuality, binge eating and obsessive shopping). If modifying dopaminergic therapy is not effective →cognitive behavioural therapy Dopamine agonist withdrawal syndrome Ergot dopamine agonists: fibrosis (cardiac, pulmonary, retriperitoneal)  retroperitoneal fibrosis →obstruction of both ureters →bilateral hydronephrosis →chronic kidney disease  echocardiogram, creatinine and chest x-ray should be obtained prior to treatment and patients should be closely monitored MAO-B (Monoamine Oxidase-B) inhibitors • Agents: Selegiline, Rasagiline, Safinamide. • Action: inhibits the breakdown of dopamine secreted by the dopaminergic neurons Selective inhibition of MAO-B → ↓ metabolization of dopamine into DOPAC in the brain → prolonged dopamine availability and effect→ ↓ demand for L-DOPA • Indication Alternative to L-DOPA or dopamine agonists Can also be given in combination with L-DOPA → ↓ motor fluctuations • Side effects: Headache, dyskinesia, psychological disorders (e.g., hallucinations) NMDA antagonists (Amantadine) • Action Acts antagonistically at the glutamate N-methyl-D-aspartate (NMDA) receptor → dopaminergic effect ↑ Dopamine release and ↓ dopamine reuptake in central neurons • Indication Short-term treatment of mild symptoms Drug of choice during akinetic crisis Reduction of L-DOPA-induced dyskinesia • Side-effects ataxia, slurred speech, confusion, dizziness livedo reticularis peripheral edema (should be avoided in congestive heart failure) COMT (Catechol-O-Methyl Transferase) inhibitors • Agents: Entacapone, tolcapone • Action Inhibition of catechol-O-methyltransferase (COMT) → ↓ peripheral metabolization of L-DOPA to 3-O-methyldopa (3-OMD) → ↑ availability Tolcapone also prevents central COMT from breaking down dopamine to 3methoxytyramine (3-MT) by crossing the blood-brain barrier → ↑ dopamine effect → ↓ demand for L-DOPA and longer therapeutic effect for each dose • Indication: used in conjunction with levodopa. COMT inhibitor monotherapy is ineffective; therefore, it should always be combined with L-DOPA and carbidopa. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Anticholinergic drugs (muscarinic antagonists) • Agents: Procyclidine, Benztropine, Trihexyphenidyl (benzhexol) , Biperiden • Action: Inhibition of excitatory cholinergic neurons → ↓ concentration of acetylcholine • Indication Useful as monotherapy in patients < 65 years of age with tremor as the main symptom Help tremor and rigidity but does not improve bradykinesia. Now used more to treat drug-induced parkinsonism rather than idiopathic Parkinson's disease Usually avoided in patients > 65 years because they are more prone to anticholinergic side effects (e.g., urinary retention, delirium, constipation) MRCPUK-part-1-January 2017 exam : H/O schizophrenia , developed parkinsonism secondary to his antipsychotic medication. Which drug is most useful in the management of tremor? Benzhexol MRCPUK-part-1-January 2018 exam: What is the mechanism of action of selegiline in Parkinson's disease? Monoamine Oxidase-B inhibitor Progressive supranuclear palsy (PSP) Overview • aka Steele-Richardson-Olszewski syndrome • a 'Parkinson Plus syndrome Features • Impairment of vertical gaze (especially downward gaze - patients may complain of difficultly reading or descending stairs) • Parkinsonism • Postural instability leading to frequent falls (often first symptom); retropulsion (falling backward on a pull test) is characteristic • Slurring of speech (pseudobulbar palsy) • Cognitive impairment: frontal lobe abnormalities (apathy, disinhibition, impaired reasoning) • Dementia Diagnosis • MRI: “hummingbird sign” showing atrophy of midbrain structures with a relatively intact pons region Management: poor response to L-dopa Prognosis: usually fatal within 5–10 years Progressive supranuclear palsy: • the triad of parkinsonism, vertical gaze palsy and cognitive impairment Multiple system atrophy (MSA) Multiple system atrophy : a triad of • Parkinsonism • Autonomic disturbance (atonic bladder, postural hypotension) • Cerebellar signs (e.g., ataxia, tremor, dysarthria) Overview • Shy-Drager syndrome is a type of multiple system atrophy. • The average age of onset is 50 years (earlier than in Parkinson's disease) • The median survival six to nine years. • It runs a briefer course than Parkinson's disease. Pathology • Macroscopic: most commonly atrophy of olivopontocerebellar and striatonigral systems • Microscopic: glial cytoplasmic inclusions Features • Parkinsonism • Autonomic disturbance (urinary incontinence (atonic bladder), postural hypotension, erectile dysfunction) • Cerebellar signs (e.g., ataxia, tremor, dysarthria) • Myoclonus, dystonia, ocular motility disorders, pyramidal signs Treatment: Only symptomatic treatment MRCPUK-part-1-May 2019 exam: A 67-year-old increasing clumsiness + ataxic gait + ↑↑upper limb tone with cog-wheel rigidity. Blood pressure is 135/80 lying and 95/70 standing. What is the most likely diagnosis? Multiple system atrophy Corticobasal degeneration (a Parkinson-plus syndrome) characterised by: • Dementia • Asymmetric motor abnormalities, often initially affecting only one limb • Alien limb phenomenon: involuntary but purposeful movement of the limb PLUS feeling that the affected limb does not belong to the patient and acts on its own. Differential diagnoses of Parkinson-plus syndromes Multiple system atrophy Progressive supranuclear palsy • Autonomic dysfunction with urogenital problems • Vertical gaze palsy • Frontal lobe disturbances Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Corticobasal degeneration Dementia with Lewy bodies • Asymmetric motor symptoms • Alien limb phenomenon • Lewy bodies • Visual hallucinations Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Normal pressure hydrocephalus (NPH) Overview • Normal pressure hydrocephalus is a reversible cause of dementia seen in elderly patients. Mechanism • It is thought to be secondary to reduced CSF absorption at the arachnoid villi. • ↓ CSF absorption → CSF accumulation → enlargement of the ventricle Causes • Idiopathic (most common in adults > 60 years) • May be secondary to head injury, subarachnoid haemorrhage or meningitis Features: the triad of urinary incontinence dementia and bradyphrenia gait abnormality (may be similar to Parkinson's disease) Diagnosis • Imaging: MRI (initial test), CT Ventriculomegaly without sulcal enlargement Hydrocephalus with an enlarged fourth ventricle • CSF tap test: confirmatory test Opening pressure is normal or slightly elevated. Improvement of symptoms after CSF removal via lumbar puncture or shunt confirms NPH. Lumbar puncture is both diagnostic and therapeutic. Management • the most likely helpful initial managements steps is CSF drainage via repeated lumbar puncture • ventriculo-peritoneal shunting What is the underlying cause of urinary incontinence in NPH? Inability to suppress voiding  NPH → compression of the periventricular white matter tracts → functional frontal lobe impairment → loss of central inhibition of the detrusor muscle → strong voiding reflex that cannot be suppressed (urge incontinence). Normal pressure hydrocephalus Classic triad of urinary incontinence, dementia, and gait apraxia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Delirium (Acute confusional state) Definition • Delirium: a syndrome of acute confusion characterized by fluctuations in awareness, cognition, and attention Risk factors • Age ≥ 65 years • Cognitive impairment (past or present) and/or dementia • Current hip fracture • Severe illness: affect up to 30% of all older patients admitted to hospital. Causes • DELIRIUM: Drugs, Electrolyte abnormalities, Lack of medication (withdrawal), Infection, Reduced sensorial input, Intracranial pathology, Urinary retention or fecal impaction, Myocardial and pulmonary disease • Delirium is frequently a complication of dementia. Features • Cognitive function: e.g., worsened concentration, slow responses, confusion, memory disturbances (loss of short term > long term). • Perception: e.g., visual or auditory hallucinations. • Physical function: e.g., reduced mobility, restlessness, agitation, sleep disturbance. • Social behaviour: e.g., lack of cooperation with reasonable requests, withdrawal, mood change Diagnosis • The Confusion Assessment Method (CAM) is the most effective tool in identifying delirium. • If there is difficulty distinguishing between the diagnoses of delirium, dementia or delirium superimposed on dementia, treat for delirium first. Management • Treatment of underlying cause • Agitation should initially be managed with nonpharmacologic strategies, verbal and nonverbal techniques to de-escalate the situation (e.g., modification of environment). • Medications should be reserved for refractory agitation. the 2019 NICE delirium guidelines recommend short-term haloperidol 0.5 mg (usually for ≤1 week). Avoid antipsychotic drugs in Parkinson's disease or dementia with Lewy bodies • If delirium does not resolve: Re-evaluate for underlying causes, assess for possible dementia MRCPUK-part-1-January 2011 exam: An elderly patient admitted for UTI, became agitated and aggressive. What is the most appropriate management? Haloperidol 0.5 mg orally Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Dementia Overview • Dementia affect over 700,000 people in the UKT • DP43 is a protein that has recently been found to be involved in a multitude of neurodegenerative diseases including dementia and motor neuron disease. Common causes of dementia • Alzheimer's disease (> 50% of dementia cases) • Multi-infarct dementia due to cerebrovascular disease (20% of dementia cases) • Lewy body dementia (c. 10-20%) Rarer causes ( 5% of cases) • Huntington's • CJD • Pick's disease (atrophy of frontal and temporal lobes) • HIV (50% of AIDS patients) Features • Mini-mental state examination. A score of 24 or less out of 30 suggests dementia • Short term memory impairment is the commonest clinical presentation of Alzheimer's disease. • The best way to test short term memory is to ask the patient to recall new information in the next few minutes. • Long term memory is usually intact. • Usually patients are fully orientated in time, person and place. Distinguishing between normal aging and dementia • Memory impairment, occasional difficulties in word finding, and slower cognitive processing are normal effects of aging. • An important distinguishing factor between normal aging and forms of dementia is the degree to which independence with everyday activities is impaired. In normal aging, independence in daily activities is preserved. • cognitive exams are within normal limits in aging. • Alzheimer's disease is often accompanied by behavioral changes (such as aggression, depression, insomnia) Investigations • Exclude reversible secondary causes e.g., hypothyroidism, FBC, U&E, LFTs, calcium, glucose, TFTs, vitamin B12 and folate levels. • Neuroimaging to exclude other cerebral pathologies (e.g. Subdural haematoma, normal pressure hydrocephalus) and to help establish the subtype diagnosis.(CT could be used, but MRI is better) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Single-photon emission computed tomography (SPECT) should be used to differentiate Alzheimer's disease, vascular dementia and frontotemporal dementia if the diagnosis is in doubt. • Cerebrospinal fluid examination should be used if Creutzfeldt–Jakob disease or other forms of rapidly progressive dementia are suspected. Presence of the e4 allele of apo-lipoprotein E →Alzheimer's disease Loss of GABA is seen in →Parkinson's disease. Peri-vascular mononuclear inflammation is seen in →multiple sclerosis. Loss of Betz cells is seen in →motor neurone disease. Alzheimer's disease (AD) Overview • Alzheimer's disease is a progressive degenerative disease of the brain and it is the common cause of dementia. • Typically, first affects the temporal and parietal lobes Temporal lobe degeneration results in memory loss (misplaced keys, leaving the stove on) and language deficits (word-finding difficulties), whereas parietal lobe degeneration results in spatial navigation problems (getting lost during walks outside) • The primary anatomical target of Alzheimer’s disease is → the cerebral cortex Alzheimer's disease is a form of "cortical" type of dementia The “sub-cortical type” of dementia occurs in Huntington's disease, advanced Wilson's disease, and advanced multiple sclerosis Genetics • Most cases are sporadic • Early-onset (before the age of 65) familial AD represents ∼10% of all AD cases • Mutations in presenilin 1 (PSEN1 ) Linked to ∼50% of familial AD cases earlier onset compared to AD due to mutations of other genes (median is ∼43 years) • Amyloid precursor protein (APP) gene Linked to 10–15% of early-onset familial AD cases Since the APP gene is located on chromosome 21, individuals with trisomy 21 have an increased risk of early-onset AD (around age 50) due to APP overexpression Vascular dementia • Typically occurs in those with widespread vascular disease. A history of strokes or the presence of focal neurological signs are very suggestive. • CT or MRI will show → multiple lacunar infarcts • Does not respond to acetylcholinesterase inhibitors such as donepezil. • Vascular dementia caused by lipohyalinosis or microatheroma formation and NOT thromboemboli. Therefore, anticoagulation is not indicated. • Memory therapy is the best next step in management for patient's confirmed vascular dementia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Pathological changes • Macroscopic: widespread cerebral atrophy, particularly involving the cortex and hippocampus • Microscopic: cortical plaques due to deposition of type A-Beta-amyloid protein and intraneuronal neurofibrillary tangles caused by abnormal aggregation of the tau protein • Biochemical: there is a deficit of acetylcholine from damage to an ascending forebrain projection ↓production of choline acetyl transferase →↓acetylcholine synthesis →↓cortical cholinergic functioning Features • Short-term memory impairment (the most common presentation) of AD dementia (insidious onset, slow progression, episodic memory affected first) • Language impairment • Temporal and spatial disorientation (patients are usually not oriented to person, place, time, or events) • Impairment of executive functions and judgment • Behavioral changes (apathy, agitation, aggression, irritability) • Mood disorders (e.g., symptoms of depression) Investigations • Screening for B12 deficiency and hypothyroidism • MRI or CT to rule out reversible causes of cognitive decline MRI scan in Alzheimer →symmetrically increased size of the lateral ventricles along with cerebral cortical atrophy in a mainly frontal and parietal distribution. Do not rule out Alzheimer's disease based solely on the results of CT or MRI scans. • FDG-PET (fluorodeoxyglucose-positron emission tomography-CT), or perfusion SPECT (single-photon emission CT) if FDG-PET is unavailable • Examining cerebrospinal fluid for: total tau or total tau and phosphorylated-tau 181 amyloid beta 1–42 or amyloid beta 1–42 and amyloid beta 1–40. Management • Non-pharmacological: should always be attempted prior to resorting to pharmacologic treatment. Memory therapy for all dementias: involves improving cognitive abilities through image recognition, solving math problems, and past memory recall. Behavioral and environmental regulation, such as:  adhering to a regular sleep schedule  Maintaining a consistent environment will help orient the patient. Frequent travel has been shown to worsen the symptoms of Alzheimer's disease. • Mild to moderate Alzheimer's disease: acetylcholinesterase inhibitors (donepezil, galantamine and rivastigmine) A well-known side effect of rivastigmine is AV block NICE guidelines recommend discontinuation of cholinesterase inhibitors once the mini mental state examination has fallen below 12. There is no role for cholinesterase inhibitors in advanced Alzheimer's disease.  NICE guidelines recommend discontinuation of cholinesterase inhibitors once the mini mental state examination has fallen below 12. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  The best option would be to withdraw donepezil and possibly consider memantine, which is licensed for use in moderate to severe dementia. Side-effects of cholinesterase inhibitors  Bradycardia and, rarely, AV block  Bladder outflow obstruction • Moderate to severe Alzheimer's: memantine (a NMDA receptor antagonist) • Management of aggression in dementia 1st line: non-pharmacological: identify and avoid triggers + behavioural techniques. 2nd line: pharmacological:  Olanzapine or quetiapine for short-term  Risperidone has been tested in this setting and is licensed for 6 weeks treatment of persistent aggression in those with moderate to severe Alzheimer's disease  For patients with dementia with Lewy bodies (DLB), only very low doses of certain atypical neuroleptics (eg, quetiapine or clozapine) should be used due to high risk of severe side effects with neuroleptic medications. Lewy body dementia (LBD) Epidemiology • Second most common form of neurodegenerative dementia (10–20% of dementia cases) Pathology • Macroscopic: Cerebral atrophy, particularly of the frontal lobe. Relative sparing of the hippocampi • Microscopic: Lewy bodies: alpha-synuclein-positive, hyaline cytoplasmic inclusions in neurons (mostly cortical) that cause neuronal degeneration The characteristic pathological feature is alpha-synuclein cytoplasmic inclusions (Lewy bodies) in the substantia nigra, paralimbic and neocortical areas Features • Progressive cognitive impairment • Parkinsonism • Visual hallucinations • Intermittent confusion • Myoclonus • Marked sensitivity to neuroleptic treatment. Diagnosis • usually clinical • Single-photon emission computed tomography (SPECT) is increasingly used. The sensitivity of SPECT in diagnosing Lewy body dementia is around 90% with a specificity of 100% Lewy body dementia: a triad of: Dementia, parkinsonism, and visual hallucinations Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Differential diagnosis: Parkinson's disease with dementia VS Lewy body dementia • Lewy body dementia presents with signs similar to Parkinson's Disease, but cognitive symptoms precede the motor symptoms. Lewy body dementia if the onset of both cognitive and motor symptoms is within 1 year Dementia secondary to Parkinson disease if cognitive symptoms occur > 1 year after the onset of motor symptoms Treatment • The treatment of choice is rivastigmine, which improves both the visual hallucinations, and cognitive impairment. • Neuroleptics should be avoided in Lewy body dementia, as patients are extremely sensitive and may develop irreversible parkinsonism. Questions may give a history of a patient who has deteriorated following the introduction of an antipsychotic agent  The most appropriate therapeutic strategy with respect to maintaining his mobility is →Stop dopamine-blocking drugs (causing significant parkinsonism) eg: quetiapine MRCPUK-part-1-September 2018 exam: A 78-year-old man with memory impairment, hallucinations, resting tremor, festinating gait and an expressionless face. He scores 12 / 30 on the mini-mental state examination (MMSE). which test is most likely to confirm the diagnosis? SPECT scan (Lewy body dementia) MRCPUK-part-1-September 2017 exam: H/O parkinsonian symptoms + agitation. deteriorated after prescribing haloperidol. What is the most likely underlying diagnosis? Lewy body dementia Frontotemporal lobar degeneration (FTLD) Overview • Heterogeneous group of syndromes that involve degeneration of the frontal, insular, and/or temporal cortices • FTD is sometimes still referred to as Pick disease • The third most common type of cortical dementia after Alzheimer's and Lewy body dementia. • Age of onset: typically younger than in Alzheimer disease Pathology • Generally associated with pathological intracellular inclusion bodies (Pick bodies) that are caused by mutations in tau (main protein component of Pick bodies) or progranulin (precursor of granulin, which regulates cell growth) proteins. Haloperidol is contra-indicated in Lewy body dementia The inclusions found histologically in frontotemporal dementia, or Pick's disease are hyperphosphorylated tau proteins. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Onset before 65 • Insidious onset • Personality change and social conduct problems (apathy, disinhibited behavior) • Relatively preserved memory and visuospatial skills • Changes in cognitive functioning: Aphasia • CT/MRI: atrophy of the frontal and/or temporal lobes Types: There are three recognised types of FTLD • Frontotemporal dementia (Pick's disease) This is the most common type of frontotemporal dementia characterised by personality change and impaired social conduct. • Progressive non-fluent aphasia (chronic progressive aphasia, CPA) Here the chief factor is non-fluent speech. They make short utterances that are agrammatic. Comprehension is relatively preserved. • Semantic dementia Here the patient has a fluent progressive aphasia. The speech is fluent but empty and conveys little meaning. Unlike in Alzheimer's memory is better for recent rather than remote events. Treatment • No curative treatment. • Dementia: Cholinesterase inhibitors and memantine are usually not effective • Agitation, hallucinations, insomnia: Atypical antipsychotics Creutzfeldt-Jakob disease (CJD) Definition • Creutzfeldt-Jakob disease (CJD) is rapidly progressive neurological condition caused by prions that are resistant to degradation by proteases due to misfolding into beta-pleated sheets. prion is an incorrectly folded protein that causes misfolding of other proteins. Epidemiology • CJD is the most common prion disease in humans. Causes and types • Sporadic (∼85%): no identifiable cause • Familial (∼10–15%): various mutations in the PRNP gene • Acquired (< 1%) Iatrogenic CJD: transmission during medical procedures (e.g., via organ transplantation, blood transfusion) Rapidly progressive dementia and myoclonic jerks are the hallmarks of CreutzfeldtJakob disease. Patients with FTD display changes of personality and social behavior, but their memory generally remains intact. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Variant CJD (vCJD): by ingestion of beef infected with bovine spongiform encephalopathy (BSE)  BSE is a transmissible prion disease occurring in cattle. Infection leads to vCJD in humans.) Pathophysiology • Conversion of normal cellular prion proteins with alpha-helical structure (PrPc) to prions that demonstrate an increase in beta-pleated sheet structure (PrPSc) (insoluble, misfolded prions resistant to proteases)→ PrPSc accumulation→ plaque formation → neuronal cell death → progression to spongiform encephalopathy What is the agent responsible for variant Creutzfeldt-Jakob disease (CJD)? Proteinaceous infectious particle (prion protein) Features • Rapidly progressing dementia (weeks to months) • Myoclonus • Cerebellar disturbances (e.g., gait instability, ataxia) • Pyramidal weakness • Behavioural abnormality • Akinetic mutism. Investigation • CSF analysis : ↑ 14-3-3 protein →useful in confirming a diagnosis of sporadic CJD. • MRI: shows high-signal abnormalities (hyperintense signals) in caudate nucleus and putamen or at least 2 cortical regions (temporal-parietal-occipital) • EEG: biphasic, high amplitude sharp waves (only in sporadic CJD) EEG is usually normal in new variant CJD. • Brain biopsy Diagnosis can only be confirmed by biopsy/autopsy Microscopic findings include spongiform degeneration , amyloid plaques (vCJD) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Types Form Features Sporadic caused by (Unknown cause) • Account for 85% of cases • Occur at middle-age (mean age of onset is 65 years) • Median duration of disease is 5 months Genetic caused by (Mutation in PRNP gene) • Can occur at younger ages • Family history can be negative • Dementia usually occur late in the course of the disease • Often no detectable 14-3-3 protein in CSF • Median duration of disease is several years Iatrogenic caused by (Transmission of prion protein by invasive medical treatment) • Similar as sporadic form Variant caused by (Ingestion of contaminated products with bovine spongiform encephalopathy) • Occurs at a young age (median age 25 years) • Psychological symptoms such as anxiety, withdrawal and dysphonia are the most common initial presenting features • Ataxia, myoclonus appear late (6 months after psychological symptoms) • EEG is usually normal • MRI brain typically shows bilateral pulvinar (posterior thalamic nuclei) high signals. • Median duration of disease is 13 months The rapidly progressive neurological impairment, with myoclonus and hyper-reflexia coupled with EEG abnormality and MRI changes in the caudate and putamen, is most consistent with sporadic CJD. Treatment • No curative therapy available • Symptomatic treatment and eventually palliative care Prognosis Transient global amnesia Definition • Transient loss of memory function Pathophysiology • Aetiology is unknown, thought to be due to transient ischaemia to the thalamus (in particular the amygdala and hippocampus) Risk factors • Usually affects people over the age of 50 • Psychological and physical stress Following disease manifestation, most individuals with sporadic CJD die within 12 months, usually from complications such as pneumonia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Diagnostic criteria • Abrupt onset of amnesia (anterograde or partial retrograde) • Patients may appear anxious and repeatedly ask the same question • Episodes last between 1–24 h, but never > 24 h • Patients are usually disoriented in time and place, but not usually person. • Normal perception, preserved personal identity • Absence of other cognitive or neurological impairments. • Patients have no recall of events after the attack Investigations • If the diagnosis is clear, further diagnostic procedures are not necessary. • If the diagnosis is uncertain: MRI: evidence of typical focal, hyperintense lesions in the hippocampus EEG: exclude differential diagnoses (e.g., epileptic amnesic attacks) Differential diagnosis • Epilepsy can present with discreet episodes of amnesia. This syndrome is called transient epileptic amnesia. Features that suggest epilepsy are: shorter duration (should be less than 1 hour) multiple attacks onset on waking from sleep accompanying epileptic features - e.g. motor automatism, stereotyped behaviour, limb shaking. Management • No treatment is needed except observation until recovery. • Most patients recover within 24 hours and do not get further such episodes. • Imaging is considered if amnesia does not resolve after 24 hours. Prognosis • Resolves spontaneously within 24 h • Recurrence is unusual. Restless legs syndrome (RLS) Definition • Restless legs syndrome (RLS) is a syndrome of spontaneous, continuous lower limb movements that may be associated with paraesthesia. Epidemiology • It is extremely common, affecting between 2-10% of the general population. Transient global amnesia • The best line of management → Admit for observation 028 - Pages 676-700 028 Pages 676-700 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Males and females are equally affected and a family history may be present Pathophysiology • Studies suggest that abnormal dopamine pathways in the brain and impaired iron homeostasis (leading to iron deficiency in the substantia nigra) are the most prominent pathophysiological mechanisms involved. Features • Uncontrollable urge to move legs (akathisia). initially occur at night but as condition progresses may occur during the day. movements during sleep may be noted by the partner - periodic limb movements of sleeps (PLMS) Begins and/or worsened with rest Typically relieved by movement • Paraesthesias e.g. 'crawling' or 'throbbing' sensations Investigations • Iron studies (best initial test) • Polysomnogram: quantification of periodic limb movements of sleep (PLMS) Causes • Primary (common): idiopathic, but is familial in up to 77% of cases • Secondary Chronic conditions Iron deficiency with or without anemia, vitamin deficiency Drugs : H1 antihistamines, Antidepressants, Dopamine antagonists (neuroleptics, metoclopramide, MDMA), Lithium, Beta blockers Pregnancy Diagnosis criteria • Exclude iron deficiency anaemia • The international restless legs syndrome study group four basic criteria for diagnosing RLS: A desire to move the limbs, often associated with paraesthesias or dysaesthesias Symptoms that are worse or present only during rest and are partially or temporarily relieved by activity Motor restlessness, and Nocturnal worsening of symptoms. Management • Lifestyle changes (e.g. avoid stimulants in the evening such as caffeine, tobacco and alcohol), regular daily exercise (but avoid exercising close to bedtime) • Simple measures: walking, stretching, massaging affected limbs • Treat the underline cause: Treat any iron deficiency • 1st line: pregabalin, gabapentin or dopamine agonist (e.g. ropinirole, pramipexole and rotigotine skin patch) A low serum ferritin is most likely to be a cause of secondary restless legs syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Essential tremor Causes • positive family history (50–70%; autosomal dominant inheritance) or sporadic; benign form Epidemiology • Most common form of tremor • Bimodal distribution: teens and 6th decade of life (common in elderly patients) Features • Mostly bilateral postural tremor with a frequency of 5–10 Hz • Postural tremor: worse if arms outstretched • Localization: hands (∼90%), head (∼30%; "yes-yes” or "no-no” motion), voice (∼15%) • Most common cause of titubation (head tremor) • Worse with sustained voluntary movement , stress or anxiety. • Improved by alcohol and rest Diagnostics: usually a clinical diagnosis of exclusion Management • propranolol is first-line • primidone (a barbiturate) is sometimes used • In drug-resistant cases Deep brain stimulation (DBS) Thalamotomy MRCPUK-part-1-January 2019 exam: H/O involuntary movements of the head, worse on movement and during stress and relieved by alcohol and sleep. What is the most likely diagnosis? Essential tremor (Essential tremor is the most common cause of titubation (head tremor). MRCPUK-part-1-January 2020 exam: H/O tremor of the arms, which is worse when arms are outstretched. His father suffered from a similar complaint. What is the most suitable first-line treatment? Propranolol Consider an essential tremor in a patient presenting with chronic bilateral hand tremors without further neurological deficits and positive family history. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Holmes tremor Overview • Holmes tremor or rubral tremor is caused by a lesion in the red nucleus. Causes • Previous stroke of the red nucleus (the most common cause), head trauma, and demyelinating diseases. Pathophysiology • It is assumed that a double lesion is required to develop HT, including the dopaminergic nigrostriatal system and the cerebello-thalamo-cortical or dentate-rubro-olivary pathways Features • Irregular low frequency (< 4.5 Hz) tremor, mostly of the upper extremities and affecting both proximal and distal muscles. • It presents at rest and is aggravated by positioning and movement (combination of resting, postural and action tremor). • Signs of ataxia and weakness can occur. Differential diagnosis: Holmes tremor VS Parkinson • In contrast to Holmes tremor, Parkinsonian resting tremor (4-6 Hz) improves with voluntary activity and involves distal muscles. Treatment • Initial medical therapy: levodopa • For refractory cases: thalamotomy or chronic thalamic stimulation Friedreich's ataxia Pathophysiology • Autosomal recessive, trinucleotide repeat disorder • Trinucleotide repeat expansion (of the nucleotide triplet GAA) in the FXN gene on chromosome 9; → deficiency of frataxin (an iron-binding protein) → intramitochondrial accumulation of iron and ; mitochondrial dysfunction → oxidative damage and degeneration of CNS and PNS • Friedreich's ataxia is unusual amongst trinucleotide repeat disorders in not demonstrating the phenomenon of anticipation. Epidemiology • The most common early-onset hereditary ataxias. • Peak incidence: 10–15 years Holmes tremor → lesion in the red nucleus Friedreich's ataxia: most common cause of death →heart failure due to hypertrophic cardiomyopathy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Features • Neurological Gait ataxia: due to damage to the spinocerebellar tracts (often a presenting feature) Impaired proprioception and vibration sense due to damage to the dorsal columns Loss of deep tendon reflexes due to degeneration of the dorsal root ganglia  Absent ankle jerks/extensor plantars Spastic paralysis due to degeneration of the lateral corticospinal tract Nystagmus, dysarthria and dysphagia Sensory-motor peripheral neuropathy • Other features Hypertrophic obstructive cardiomyopathy (90%, most common cause of death) Diabetes mellitus (10-20%) Bilateral pes cavus (high-arched palate) Kyphoscoliosis Diagnosis • Definitive diagnosis →Genetic testing for expansion of the GAA triplet repeat in the FXN gene • MRI brain and spinal cord: cervical spine atrophy (minimal cerebellar atrophy) • Nerve conduction studies Sensory: absent or reduced sensory nerve action potentials (SNAP) Motor: normal until advanced stages Friedreich's ataxia VS Ataxic-telangiectasia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ataxic telangiectasia Overview • Autosomal recessive disorder • Caused by a defect in the ATM gene which encodes for DNA repair enzymes. • It is one of the inherited combined immunodeficiency disorders. • It typical presents in early childhood with abnormal movements. oculomotor apraxia and choreoathetosis developing later. Features • Cerebellar ataxia • Telangiectasia (spider angiomas) • IgA deficiency resulting in recurrent chest infections →bronchiectasis • Increased risk of malignancy (10%), lymphoma or leukaemia, gastric carcinoma Diagnosis • Elevated serum alpha-fetoprotein, at least two standard deviations above the normal range, is diagnostic of ataxia-telangiectasia • Confirmed by the identification of mutations on the ATM gene. Prognosis • Death in the late teens or 3rd decade from bronchiectasis is typical. Sleep Sleep Stage Description EEG Waveform • Awake and alert • Beta • Awake and eyes closed • Alpha Stage N1 • Light sleep • Theta Stage N2 • Deeper sleep • Sleep spindles and K complexes Stage N3 • Deepest non-REM sleep • Sleep walking • Night terrors • Bed wetting • Delta REM • Dreaming • Beta The 4 A's of ataxia telangiectasia: ATM gene, Ataxia, spider Angiomas, and IgA deficiency. Avoid x-ray exposure because of high sensitivity to radiation and increased risk of malignancy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • REM Sleep: Physiology  rapid eye movement  same EEG pattern as when awake  erection  ↑ and variable pulse and blood pressure  loss of muscle tone Timing  occurs every 90 min  duration ↑ with every cycle  amount of REM sleep ↓ with age Acetylcholine is the principle neurotransmitter Norepinephrine, serotonin, and histamine suppress REM sleep  therefore, certain antidepressants (eg, SSRI, SNRI) can pharmacologically suppress REM sleep Sleep paralysis Overview • Sleep paralysis is a common condition characterized by transient paralysis of skeletal muscles which occurs when awakening from sleep or less often while falling asleep. • It is thought to be related to the paralysis that occurs as a natural part of REM (rapid eye movement) sleep. • Mechanism is believed to involve a dysfunction in REM sleep. • Males and females are affected equally. Feature • aware but unable to move. • may include: hallucinations, fear. • feeling of suffocation may present (although the respiratory muscles are only ever mildly affected in comparison with the limbs). • Episodes generally last less than a couple of minutes. Associations • May occur in those who are otherwise healthy • Narcolepsy • Familial • Can be triggered by sleep deprivation, psychological stress, or abnormal sleep cycles Treatment • reassured that the condition is common and not serious. • Other options that may be tried including sleep hygiene, cognitive behavioral therapy, and antidepressants. • if troublesome clonazepam may be used Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad _Narcolepsy Definition • Daily periods of excessive daytime sleepiness for ≥ 3 months Pathophysiology • Narcolepsy type 1: Loss of lateral hypothalamic neurons, which produce hypocretin-1 and hypocretin-2 (i.e. orexin A and orexin B) → severe hypocretin (orexin) deficiency → dysregulation of sleep-wake cycles Orexin (Hypocretin) is a neuropeptide that is released to increase the activity of brain regions involved in wakefulness, including the raphe nuclei and tuberomammillary nucleus and locus coeruleus. • Narcolepsy type 2: Idiopathic Features • Triad of: 1. Sleep paralysis 2. Excessive daytime somnolence and 3. Cataplexy. About 5% of patients with narcolepsy have cataplexy. • Sleep hallucinations hypnagogic hallucinations: just before sleep hypnopompic hallucinations: just before awakening Diagnosis • Diagnosis is a clinical one, supported by an overnight polysomnogram and multi sleep latency test. • Lumbar puncture: decreased CSF hypocretin-1 (orexin A) levels due to a loss of orexigenic neurons in the lateral hypothalamus Treatment • Non-amphetamine-based stimulants, such modafinil, are the treatment of choice. Cataplexy • Cataplexy describes the sudden and transient loss of muscular tone caused by strong emotion (e.g. laughter, being frightened). • Features range from buckling knees to collapse. • Longer episodes can be associated with hallucinations. • Around two-thirds of patients with narcolepsy have cataplexy. Hypnagogic hallucinations occur while going to sleep. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Head injury CT head immediately (within the one hour ) • GCS < 13 on initial assessment • GCS < 15 at 2 hours post-injury • suspected open or depressed skull fracture. • any sign of basal skull fracture (haemotympanum, 'panda' eyes, cerebrospinal fluid leakage from the ear or nose, Battle's sign). • post-traumatic seizure. • focal neurological deficit. • more than 1 episode of vomiting CT head scan within 8 hours of the head injury - for adults with any of the following risk factors who have experienced some loss of consciousness or amnesia since the injury: • age 65 years or older • any history of bleeding or clotting disorders • dangerous mechanism of injury (a pedestrian or cyclist struck by a motor vehicle, an occupant ejected from a motor vehicle or a fall from a height of greater than 1 metre or 5 stairs) • more than 30 minutes' retrograde amnesia of events immediately before the head injury • If a patient is on warfarin perform a CT head scan within 8 hours of the injury regardless of whether he have risk factors for an intracranial injury. Head injury: types of traumatic brain injury Type of injury Notes Extradural (epidural) haematoma Bleeding into the space between the dura mater and the skull.  Often results from acceleration-deceleration trauma or a blow to the side of the head. The majority of epidural haematomas occur in the temporal region where skull fractures cause a rupture of the middle meningeal artery. Features features of raised intracranial pressure lucid interval (apparent recovery from the initial concussion, but deterioration is usually within 15-30 minutes). Subdural haematoma Bleeding into the outermost meningeal layer. Most commonly occur around the frontal and parietal lobes. Risk factors include old age, alcoholism and anticoagulation. Slower onset of symptoms than epidural haematoma. Subarachnoid haemorrhage Usually occurs spontaneously in the context of a ruptured cerebral aneurysm but may be seen in association with other injuries when a patient has sustained a traumatic brain injury Comparison of Intracranial Haemorrhage Feature Subarachnoid Subdural Extradural The inner most layer around the brain tissue Between the dura mater and arachnoid mater Location Usually due to rupture of a blood vessel (e.g. berry aneurysm or AVM). Pain typically felt at the back of the head Usually due to trauma causing damage to one of the bridging veins. Trauma may be minor and could be many months ago. Can be acute or chronic. Mechanism Pain Sudden onset, painful Possible dull headache Likely, and often severe, but not sudden onset May become impaired quickly – if so, a very bad prognostic indicator Fluctuates, often over weeks or even months Consciousness Often insidious. May involve memory impairment, epilepsy, drowsiness, dizziness. Often occur weeks / months after injury May be present; are a poor prognostic indicator Neurological signs CT – should show irregular shaped bleed. If absent, and still suspicious, do LP to confirm (blood in CSF, CSF turn yellow when left to stand – CT / MRI – classically shows a crescent of blood around the brain tissue, and midline shift Investigations xanthochromia) If few symptoms, surgical clipping of platinum coiling of aneurysm, or if AVM then balloon therapy and stenting are beneficial. Give Nimodipine to reduce risk of vasospasm (and ↑ survival) as long as BP can be maintained. Burr hole or craniotomy Surgery to evacuate blood and ligate bleeding vessels Management Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The outermost layer, between the skull and dura mater Due to direct moderate / severe head trauma. Typically around the eye, causing fracture of the temporal or parietal bone, resulting in laceration of the middle meningeal artery and/or vein Classically, an initial lucid period, followed by impaired consciousness Typically after a lucid period, severe headache, impaired consciousness. Vomiting, seizures, drowsiness, confusion, and later, coma. CT / MRI – described as a lens Shaped lesion – meaning it is biconvex. LP is contraindicated! X-ray may show skull fracture Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Which vessel is involved? subdural haematomas Bridging veins subarachnoid haemorrhage anterior and posterior communicating arteries extradural haematoma middle meningeal artery Acute extradural and subdural haematomas would both be high attenuation and anatomically located next to the skull - extradural haematomas have a convex border whilst subdural haematomas have a concave border. Subarachnoid haemorrhage CT image shows diffuse subarachnoid haemorrhage in all basal cisterns, bilateral sylvian fissures and the inter-hemispheric fissure. This case demonstrates the typical distribution that takes the blood into the subarachnoid space in a subarachnoid hemorrhage. Post-concussion syndrome :features • headache and neck discomfort • changes in memory • Poor concentration span and Subjects are easily distracted. • dizziness • irritability • depression or anxiety • sleep disturbance • Anxiety is common Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Extradural (epidural) haematoma: Subdural haematoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Subdural haemorrhage The history of progressive 'confusion' and unsteadiness for some weeks followed by an acute exacerbation is a typical presentation of a subdural haematoma in the elderly population. Basics • most commonly secondary to trauma e.g. old person/alcohol falling over • initial injury may be minor and is often forgotten • caused by bleeding from damaged bridging veins between cortex and venous sinuses • The phrase 'fluctuating conscious level' is common in questions and should always bring to mind subdural haemorrhage • The combination of falls, alcohol excess, fluctuating episodes of confusion and focal neurology points towards a diagnosis of subdural haemorrhage. Features • headache (The most common presenting symptom , seen in up to 80% of patients) • classically fluctuating conscious level • raised ICP bilateral papilloedema • Other common symptoms are: Fatigue memory impairment confusion nausea and vomiting impaired vision seizures Hemiparesis, or paralysis is also possible. Treatment • needs neurosurgical review ? burr hole Acute subdural haematoma • usually results from acute head trauma • The haematoma accumulates between the surface of the brain and the dura mater. • The mortality rate ranges between 50% and 90%. • A good outcome is most likely if surgical evacuation of the haematoma is prompt and secondary brain injury is prevented. • Mortality is less likely in: younger adults patients with a GCS score above 6 or 7 those with pupil reactivity, and those without cerebral contusions or uncontrolled rises in intracranial pressure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Subarachnoid haemorrhage (SAH) Overview • Vascular malformations and aneurysms typically bleed in the subarachnoid space. Causes • 85% are due to rupture of berry aneurysms conditions associated with berry aneurysms include:  adult polycystic kidney disease,  Ehlers-Danlos syndrome and  coarctation of the aorta occur most frequently in the anterior half of the circle of Willis. The most common site of aneurysm rupture causing SAH is at the junction of the anterior communicating artery and anterior cerebral artery. • AV malformations • trauma • tumours Features • headache sudden onset. typically described as the worst headache experienced. • Meningism : neck stiffness, photophobia, nausea and vomiting, meningeal stretch signs (e.g., Kernig's sign and Brudzinski's sign) Hunt and Hess scale: grades SAH: Severity and mortality increase with grade: grade-1: Asymptomatic or minimal headache & slight neck stiffness grade-2: Moderate or severe headache with neck stiffness, but no neurological deficit other than cranial nerve palsy grade-3: Drowsiness with confusion or mild focal neurology grade-4: Stupor with moderate to severe hemiparesis or mild decerebrate rigidity grade-5: Deeply comatose with severe decerebrate rigidity. Complications • rebleeding (in 30%) • obstructive hydrocephalus (due to blood in ventricles) • vasospasm leading to cerebral ischaemia Cerebral ischemia may be delayed as a result of delayed cerebral ischaemia (DCI) or cerebral vasospasm. It is the most common cause of death and disability following aneurysmal (SAH). It may lead to death or permanent neurologic deficits in over 17-40% patients following SAH. The clinical diagnosis of DCI is made when the patient experiences an altered level of consciousness or a new focal neurologic deficit following an initial bleed. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Typically, the development of DCI starts on day 3 after the initial SAH and is maximal at days 5-14, resolving on day 21. This can cause serious morbidity or death in up to 30% of patients with SAH. Treatment for DCI includes prophylactic administration of nimodipine and current neurointensive care. Investigations • Non-contrast CT-scan: the most appropriate initial investigation negative in 5% • Lumbar puncture (LP): done after 12 hrs (allowing time for xanthochromia to develop)  (presence of oxidized RBCs) (LP) is not usually required unless the history is suggestive, and the CT is normal. CSF examination with spectrophotometry for haemoglobin breakdown products, particularly CSF bilirubin, which proves the presence of prior recent bleeding.  This is now recommended instead of measuring the CSF red cell count or xanthochromia, as the procedure of lumbar puncture itself can introduce red cells into the CSF sample and thus give an uninterpretable result.  (spectrophotometry remains positive for 2 weeks with 100% sensitivity, sensitivity drops thereafter). • CT cerebral angiography If CT image shows blood in the subarachnoid space, the most appropriate next investigation is CT cerebral angiography to look for an underlying aneurysm or vascular malformation which may be amenable to neurosurgical intervention. Intracranial hemorrhage ECG changes: • Deep symmetrical T- wave inversion • Prolonged QT interval Management • Neurosurgical opinion no clear evidence over early surgical intervention against delayed intervention • Nimodipine (a calcium channel blocker) SAH cerebral vasospasm (in 30% of patients) result in further ischemia due to a reduction in distal blood flow. All patients are prescribed a calcium channel blocker (eg Nimodipine) to prophylactically prevent this. reduces cerebral vasospasm (hence maintaining cerebral perfusion) reduce the incidence and severity of neurological deficits.  post-operative nimodipine (e.g. 60mg / 4 hrly, if BP allows) has been shown to reduce the severity of neurological deficits but doesn't reduce rebleeding Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad What is the most appropriate minimum interval between neurological observations in the first instance? Answer →30 min Brain stem herniation The sudden onset of headache, ataxia and vomiting suggest →an intracranial haemorrhage, which leads to →mass effect and →subsequent brain stem herniation. • Brain herniation often causes false localising signs due to compression of various areas of the brain. • it usually follows two patterns: uncal herniation : presented with:  third nerve paresis (ipsilateral dilated pupil, abnormal external ocular movements, including nystagmus) The third nerve paresis occurs due to compression of the parasympathetic fibres around the third nerve, which results in unopposed sympathetic response.  contralateral hemiparesis which can lead to ipsilateral hemiparesis.  Contralateral hemiparesis occurs with compression of the cerebral peduncle. Ipsilateral hemiparesis and third nerve palsy occur late when the lateral translation is so great that it compresses the contralateral third nerve and peduncle. Central herniation: presents with:  confusion and drowsiness,  followed by impaired vertical gaze,  small pupils,  impaired oculocephalic reflexes  Bilateral corticospinal tract signs including increased tone and Babinski signs. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology  signs of raised intracranial pressure: bradycardia, hypertension, irregular breathing (Cushing response) and a sixth-nerve palsy.  The sixth nerve is usually the first to be compressed due to its long extracerebral intracranial course.  Diplopia from either a third or sixth nerve palsy can cause nystagmus. • Treatment immediate intensive care support, with intubation and hyperventilation. The case should be discussed urgently with neurosurgeons, and their advice sought regarding the possibility of operative intervention. Intravenous mannitol and other hyperosmolar solutions are often indicated, and should be considered. Brain stem death tests include: • Pupillary light response - CN II and III • Corneal reflex, response to supraorbital pressure - CN V and VII • Vestibulo-ocular reflex - CN III and VIII • Gag reflex - CN IX and X • Cough reflex - CN X • Absence of respiratory effort. Encephalitis Causes • Direct invasion by a neurotoxic virus (encephalitis). most commonly caused by enteral viruses, herpes simplex virus (HSV) 1 and 2, varicella, cytomegalovirus (CMV), and Epstein-Barr virus (EBV). occasionally caused by respiratory viruses, human herpes virus 6 (HHV6), rubella, or mumps. • Post-infectious encephalopathy: delayed brain swelling because of an immunological response to the antigen, i.e. a neuroimmunological response. caused by measles or varicella zoster (cerebellar ataxia). • Slow virus infection, for example, human immunodeficiency virus (HIV) or subacute sclerosing panencephalitis (SSPE). • limbic encephalitis In 60% of cases, limbic encephalitis is a paraneoplastic disorder and indicates the presence of an underlying cancer; the most common underlying malignancy is small cell lung carcinoma (SCLC), followed by testicular cancer, thymoma, and Hodgkin's lymphoma.  Among patients with SCLC, the anti-Hu antibody is present in about 50% of those with predominant or isolated symptoms of limbic encephalitis In contrast to patients with other paraneoplastic neurologic syndromes, in whom magnetic resonance imaging (MRI) is of limited usefulness in helping to establish the diagnosis, patients with limbic encephalitis may present with early MRI changes suggestive of the disorder.5 Typically, the MRI shows hyperintense abnormalities in the medial aspect of the temporal lobes.6  These MRI abnormalities should be differentiated from those in patients with herpes simplex encephalitis, in whom the MRI usually shows signs of Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad oedema, mass effect, contrast enhancement, and, sometimes, areas of haemorrhage. Differential diagnosis of acute/subacute encephalopathy is etiologically wide and includes: • Neurodegenerative (for example sporadic Creutzfeldt-Jakob disease [CJD]) • Endocrine (hypothyroidism) • Toxicological (lead, arsenic poisoning) • Nutritional (vitamin B1 deficiency) • Infective (HSV, HIV), and • Autoimmune causes. Paraneoplastic neurological syndromes • uncommon but important because they frequently present before the malignancy, and because they cause severe neurological disability. Limbic encephalitis Cerebellar degeneration Opsoclonus-myoclonus Sensory neuronopathy Lambert-Eaton myasthenic syndrome Myasthenia gravis Dermatomyositis, and Polymyositis. • Most paraneoplastic syndromes respond poorly to immunomodulatory treatment although occasional improvement is seen when the underlying tumour is treated. Herpes simplex encephalitis (HSE) Overview • Herpes simplex (HSV) encephalitis is a common topic in the exam. • The virus characteristically affects the temporal lobes - questions may give the result of imaging or describe temporal lobe signs e.g. aphasia. • Temporal lobe involvement is common (limbic encephalitis), in particular the anterior temporal lobes. These abnormalities are visible on CT or MRI. • Winter is the peak incidence. • It has peaks of presentation in the young and old. Types • Both herpes simplex virus type 1 and type 2 can cause encephalitis: Herpes simplex type 1 is the virus associated with encephalitis in older children and adults.  HSV-1 responsible for 95% of cases in adults  typically affects temporal and inferior frontal lobes Herpes simplex type 2 is characterised by generalised brain involvement, but is almost exclusively seen in neonates who acquire the virus during delivery. HSE: behavioral changes and CT head showing temporal lobe changes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Herpes simplex encephalitis presents with: • Behavioural changes or psychiatric disturbance • Focal seizures • Fever and • Alteration in consciousness. Features • fever, headache, psychiatric symptoms, seizures, vomiting • focal features e.g. aphasia • peripheral lesions (e.g. cold sores) have no relation to presence of HSV encephalitis Investigation • CSF: lymphocytosis, elevated protein, mildly raised red cells and a normal or low glucose. • PCR for HSV on (CSF) is a highly specific test. • MRI brain is the investigation of choice initially, which should demonstrate temporal lobe changes, although often CT only is available out of hours. • CT: medial temporal and inferior frontal changes (e.g. petechial haemorrhages) - normal in one-third of patients CT scan of the brain may be normal, but MRI may reveal the diagnosis. • EEG pattern: lateralised periodic discharges at 2 Hz Treatment • intravenous aciclovir Immediate treatment is required on clinical suspicion - do not wait continued until CSF PCR is negative, or for at least 14 days. Intravenous fluids and aciclovir is the best option here. Prognosis • The prognosis is dependent on whether aciclovir is commenced early. If treatment is started promptly the mortality is 10-20%. Left untreated the mortality approaches 80% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad MRI of a patient with HSV encephalitis. There is hyperintensity of the affected white matter and cortex in the medial temporal lobes and insular cortex. MRCPUK-part-1-January 2012: H/O Confusion, headache and fever + seizure. MRI shows patchy haemorrhagic changes in the temporal lobe. Given the likely diagnosis, what is the treatment of choice? Supportive treatment + intravenous acyclovir. (∆ Herpes simplex encephalitis) HIV: neurocomplications Focal neurological lesions Toxoplasmosis • the most common neurological infection seen in HIV, • occurring in up to 10% of patients • accounts for around 50% of cerebral lesions in patients with HIV • occurring at CD4 counts of less than 100 cells/mm3. • constitutional symptoms, headache, confusion, drowsiness • CT: usually single or multiple ring enhancing lesions, mass effect may be seen • management: sulfadiazine and pyrimethamine Chapter 4 Neurology Cerebral toxoplasmosis: CT scan with contrast showing multiple ring enhancing lesions The differential diagnosis of ring-enhancing lesions on CT in a patient with AIDS include: • Cerebral toxoplasmosis • Abscesses • Metastases • Atypical CNS lymphoma. Primary CNS lymphoma • accounts for around 30% of cerebral lesions • associated with the Epstein-Barr virus • CT: single or multiple homogenous enhancing lesions • treatment generally involves steroids (may significantly reduce tumour size), chemotherapy (e.g. methotrexate) + with or without whole brain irradiation. Surgical may be considered for lower grade tumours Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Cerebral toxoplasmosis: MRI (T1 C+) demonstrates multiple small peripherally enhancing nodules located predominantly in the basal ganglia as well as the central portions of the cerebellar hemispheres. Only a small amount of surrounding oedema is present. Primary CNS lymphoma: Non-contrast CT demonstrates a hyper-attenuating mass adjacent to the left lateral ventricle, with no calcification or haemorrhage. Differentiating between toxoplasmosis and lymphoma is a common clinical scenario in HIV patients. The table below gives some general differences. Condition CT finding Toxoplasmosis  Multiple lesions  Ring or nodular enhancement  Thallium SPECT negative Lymphoma  Single lesion  Solid (homogenous) enhancement  Thallium SPECT positive Tuberculosis single enhancing lesion Encephalitis oedematous brain Cryptococcus meningeal enhancement, cerebral oedema Progressive multifocal leukoencephalopathy (PML) no mass effect, don't usually enhance AIDS dementia complex cortical and subcortical atrophy Given the more limited availability of SPECT compared to CT many patients are treated empirically on the basis of scoring systems, for example there is a 90% likelihood of toxoplasmosis if all of the following criteria are met: • toxoplasmosis IgG in the serum • CD4 < 100 and not receiving prophylaxis for toxoplasmosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Primary CNS lymphoma: MRI (T1 C+) demonstrates a large multilobulated mass in the right frontal lobe. It homogeneously enhances and extends to involve the caudate and the periventricular area. There is significant mass effect. single or multiple lesions, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • multiple ring enhancing lesions on CT or MRI Tuberculosis • much less common than toxoplasmosis or primary CNS lymphoma • CT: single enhancing lesion Generalised neurological disease Encephalitis • may be due to CMV or HIV itself • HSV encephalitis but is relatively rare in the context of HIV • CT: oedematous brain Cryptococcus • most common fungal infection of CNS • typically there is a sub-acute onset of symptoms and the disease is associated with raised intracranial pressure (leading to the papiloedema and the falsely localising 6th nerve palsy). • headache, fever, malaise, nausea/vomiting, seizures, focal neurological deficit • CSF: high opening pressure, India ink test positive • CT: meningeal enhancement, cerebral oedema • meningitis is typical presentation but may occasionally cause a space occupying lesion • raised intracranial pressure (ICP) is thought to be caused by the yeast cells and fungal polysaccharides forming microscopic plugs and blocking CSF resorption in the subarachnoid villi. • management The best management would be intravenous anti-fungal agents, such as amphotericin B and flucytosine. Therapeutic lumber puncture is also advocated to reduce ICP. Anti-retroviral (ARV) therapy should not be started immediately, as there is a very high risk of the patient developing IRIS (immune reconstitution inflammatory syndrome). Instead, ARVs should be delayed for several weeks or months after initiating treatment. Progressive multifocal leukoencephalopathy (PML) Overview • widespread demyelination • rare and fatal opportunistic infection of the central nervous system caused by (JC) virus. (JC) virus is a papovavirus (polyoma DNA virus) found latent in most healthy adults. Risk factors • seen in advanced HIV/AIDS With CD4 counts of less than 100 this virus becomes active leading to progressive neurological deterioration. • Natalizumab has a black-box warning of increased risk of developing (PML), • Three risk factors have been clearly identified in patients with multiple sclerosis which predispose them to the future developing PML: positive anti-JC viral serum antibodies, prior use of immunosuppressants, and increased duration of natalizumab treatment and its number of infusions (25-49 infusions). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • subacute onset: • Behavioural changes, speech, motor, visual impairment • Ataxia • Head tremor • Focal neurology progressing over a period of months to paresis and even coma. Diagnosis • CT: single or multiple lesions, no mass effect, don't usually enhance. • MRI is better - high-signal demyelinating white matter lesions are seen • It can be diagnosed via CSF PCR for the JC virus. • Brain biopsy the definitive diagnostic test (showing asymmetric foci of demyelination and intranuclear inclusions containing the JC virus). Treatment • There is no effective treatment, but progression can be slowed by initiation of antiretroviral therapy. AIDS dementia complex • caused by HIV virus itself • symptoms: behavioural changes, motor impairment • CT: cortical and subcortical atrophy • progresses over a longer time period than progressive multifocal leukoencephalopathy (PML). • Differential diagnosis Patients with cryptococcal meningitis present with headache, fever, vomiting and few neurological signs. PML can present at any CD4 count with ataxia, behavioural changes and focal neurological signs, often progressing over a period of months to paresis or even coma. Toxoplasmosis presents with headache, fever and seizures. It has a typical CT head scan with ring enhancing lesions. January 2019 exam: H/O HIV positive, admitted following a seizure + headaches, night sweats and poor appetite. CD4=89 u/l. CT head =Single homogenously-enhancing lesion in the right parietal lobe . What is the most likely diagnosis? Primary CNS lymphoma January 2016 exam: HIV positive, admitted with confusion, drowsiness and headache. temperature is 37.2ºC. CT brain (with contrast): Multiple hypodense regions predominantly in the basal ganglia which show ring enhancement. Minimal surrounding oedema. No mass effect. What is the most likely diagnosis? Cerebral toxoplasmosis (HIV - multiple ring enhancing lesions = toxoplasmosis) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Motor neuron disease (MND) Progressive motor weakness and pseudo-bulbar palsy + normal sensations + normal brain imaging →always think of amyotrophic lateral sclerosis. Electromyography is the best investigation to carry out next. Overview • The primary defect is in the anterior horn cells Epidemiology • Sex: ♂> ♀ • Rarely presents before 40 years Types Amyotrophic lateral sclerosis (50% of patients) Lower motor neuron (LMN) signs in arms and upper motor neuron (UMN) in legs  anterior motor horn degeneration leads to lower motor neuron signs.  lateral corticospinal tract degeneration leads to upper motor neuron signs. Causes  un known in 90 % (sporadic)  inherited (10%) polygenic inheritance A defect on chromosome 21, which codes for superoxide dismutase 1 (SOD1), is associated with about 20% of familial cases of ALS, or about 2% of ALS cases overall. Primary lateral sclerosis UMN signs only Progressive muscular atrophy LMN signs only affects distal muscles before proximal carries best prognosis Progressive bulbar palsy Accounts for ∼0.2% of all motor neuron diseases Age: 75–80 years palsy of the tongue, muscles of chewing/swallowing and facial muscles due to loss of function of brainstem motor nuclei carries worst prognosis Most common cause of death is respiratory complications secondary to recurrent aspiration(e.g., pneumonia). Features • Clues, which point towards a diagnosis of motor neuron disease: fasciculation Absence of sensory signs/symptoms Lower motor neuron signs in arms and upper motor neuron signs in legs Wasting of the small hand muscles/tibialis anterior is common  Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Other features Asymmetric limb weakness Dysarthria, dysphagia, and tongue atrophy 20% of patients present with bulbar onset (late feature and suggests a poor prognosis). Pseudobulbar palsy  Onuf nucleus (of spinal cord segments S1-S4) is preserved, thus the bladder and rectal sphincters remain normal through the course of the disease. Abdominal reflexes are usually preserved and sphincter dysfunction if present is a late feature Fronto-temporal dementia (10 %) Respiratory involvement (present in up to 50% of MND cases at presentation).  Bilateral diaphragmatic weakness causing orthopnea and exertional dyspnoea  Respiratory failure is the commonest cause of death in this condition. • Features NOT compatible with MND Sensory impairment . Note it may be present due to concomitant diabetic peripheral neuropathy. Optic atrophy External ocular muscles palsy Cerebellar signs Bladder dysfunction. Diagnosis • Electromyography shows: Denervation: indicated, e.g., by fibrillations  reduced number of action potentials  increased amplitude. • Nerve conduction studies: usually normal, to exclude a neuropathy. • MRI: to exclude the differential diagnosis of cervical cord compression and myelopathy • Creatine kinase → increased • Nerve conduction studies: usually normal Management • Riluzole (glutamate antagonist) prevents stimulation of glutamate receptors →decreasing presynaptic glutamate release (thereby limiting cytotoxic effects of this neurotransmitter) prolongs life by about 3 months Common side effects: nausea, asthenia, abdominal pain, dizziness, asymptomatic elevation in liver enzymes. Rare life-threatening side effects: pancreatitis, hepatitis, and neutropenia 029 - Chapter 4 029 Chapter 4 Chapter 4 Neurology • Respiratory care Non-Invasive Ventilation (NIV) (usually BIPAP) is used at night  have the greatest effect on survival → survival benefit of around 7 months • Radiologically inserted gastrostomy feeding (in case of dysphagia) Prognosis • Poor: Median survival time from onset of symptoms is three to five years. • Poor prognostic factors include: low forced vital capacity (FVC) and older age. Bulbar VS Pseudobulbar palsy Comparison of bulbar and pseudobulbar palsy Pseudobulbar Palsy Bulbar Palsy Bilateral damage or injury of corticobulbar tracts to nerve nuclei of cranial nerves V, VII, IX, X, XI, and XII Upper motor neuron palsy of the respective muscles Lower motor neurone signs absent Lower motor neurone signs present Spastic tongue (no wasting/fasciculations) Wasted tongue, fasciculations Spastic dysarthria Nasal speech Labile emotions Normal emotions Facial expressions: absent Facial expression: normal Gag reflex: brisk (exaggerated) Gag reflex: absent Jaw jerk: exaggerated Jaw jerk: normal Multiple sclerosis (MS) Multiple sclerosis diagnosis that requires demyelinating lesions that are separated in space and time Definition • Demyelinating CNS condition clinically defined by 2 episodes of neurological dysfunction (brain, spinal cord, or optic nerves) that are separated in space and time. Pathophysiology • Pathophysiology of MS is characterized by autoimmune inflammation, demyelination, and axonal degeneration. • Exact cause remains unknown • Most commonly accepted theory: Activation of autoreactive T-lymphocytes → inflammatory processes → focal demyelination with partial preservation of axons (acute plaques) → loss of axons and atrophy of oligodendrocytes (chronic plaques) → gliosis → inadequate remyelination • Genetic susceptibility → Associated with HLA-DR2 • Environmental risk factors → Low vitamin D levels, smoking , EBV, HHV 6 • Most common sites of demyelination in MS Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Bilateral damage or injury of the nerve nuclei of cranial nerves IX, X, XI, and XII Lower motor neuron palsy of the respective muscles Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Periventricular areas Brainstem Cerebellum Spinal cord Epidemiology • Sex: ♀ > ♂ (2:1) (MS is more common in women) • Age of onset: 20–40 years of age • Ethnicity: ↑ prevalence among the white population Classification and clinical course • Relapsing–remitting MS (90%, the most common clinical course) Lesions developed at different times and in different anatomical locations Symptoms remit almost completely between exacerbations • Primary progressive MS (10%): Progressive neurological deterioration over 1 year or more Continuous worsening of symptoms from the first onset of the disease • Secondary progressive MS : Continuous worsening of symptoms in between exacerbations Features • Non-specific features: eg: lethargy (75%). . • Optic neuritis Most often the earliest manifestation Typically unilateral Can be painful Impaired vision and color blindness Relative afferent pupillary defect (Marcus Gunn pupil) Any patient with isolated optic neuritis →refer to a neurologist for further assessment The cumulative probability of developing MS by 15 years after onset of optic neuritis is 50% • Internuclear ophthalmoplegia (INO) Result from a lesion in the medial longitudinal fasciculus (MLF) Ipsilateral medial rectus weakness but an intact convergence reflex Disconjugate, lateral gaze nystagmus in the contralateral eye More frequently bilateral than unilateral • Demyelination of spinal cord tracts Lhermitte sign: a shooting electric sensation that travels down the spine upon flexion of the neck Pyramidal tract lesion: upper motor neuron weakness (spasticity, hyperreflexia, positive Babinski sign) Involvement of the dorsal spinal column  Loss of vibration and fine-touch sensation  Numbness, paresthesias  Sensory ataxia usually involving the trunk or one or more limbs Neuropathic pain • Cerebellar involvement: Charcot neurological triad Scanning speech Nystagmus Intention tremors Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • Cranial nerve palsies (diplopia, trigeminal sensory neuralgia, facial palsy) • Autonomic dysfunction (bowel and bladder neurogenic disorders, impaired sexual function) • Uhthoff's phenomenon: a reversible exacerbation of neurological symptoms following an increase in body temperature, e.g., physical exertion, a warm bath, or fever (worsening of vision following rise in body temperature) • Investigations • Plain MRI (brain and spine): investigation of choice Multiple sclerotic plaques (most commonly seen in periventricular white matter) ; related to demyelination and reactive gliosis Contrast MRI (with gadolinium): enhancement of active lesion during and up to 6 weeks after the exacerbation • Visual evoked potentials (VEPs) Highly sensitive for detecting demyelination of the optic nerve and central visual pathways May demonstrate abnormality when the MRI is normal, because the optic nerves are often involved early and may be asymptomatic • Lumbar puncture Lymphocytic pleocytosis Oligoclonal bands (↑ production of IgG subfractions): the presence of multiple oligoclonal bands in CSF and their absence in the blood is highly suggestive of MS.  The appearance of oligoclonal bands in the early stages of the disease indicates a poor prognosis ↑ myelin basic protein Diagnostic criteria (Revised McDonald criteria 2017): used to diagnose MS based on the dissemination of the CNS lesions in time and space. • Dissemination in time (DIT): appearance of new lesions over time Criterion met (≥ 2 exacerbations) occurring at least 30 days apart Criterion not met (1 exacerbation) → diagnosis requires confirmation of DIT by one of the following:  An additional exacerbation Uhthoff phenomenon triggered by a viral infection may mimic an exacerbation of MS. Fundoscopy is normal in 60% of cases of optic neuritis. Neither the patient nor the doctor are able to see anything. Multiple sclerosis (MS): presentation • Loss or reduction of vision in 1 eye with painful eye movements • Double vision • Ascending sensory disturbance and/or weakness • Problems with balance, unsteadiness or clumsiness • Altered sensation travelling down the back and sometimes into the limbs when bending the neck forwards (Lhermitte's symptom). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  MRI that demonstrates the presence of both gadolinium-enhancing and nonenhancing lesions at any time or a new hyperintense T2 or enhancing lesion on follow-up MRI  Oligoclonal bands in the CSF • Dissemination in space (DIS) on MRI : presence of lesions in different regions of the CNS Criterion met (≥ 2 lesions with objective clinical evidence) of the 4 MS-typical regions of CNS (periventricular, juxtacortical, infratentorial, or spinal cord). Criterion not met (1 lesion with objective clinical evidence) →diagnosis requires confirmation of DIS by one of the following:  An additional exacerbation with presence of one more lesion with objective clinical evidence involving a different CNS region  Presence on MRI of ≥ 1 T2-hyperintense lesion in at least 2 of the following regions: periventricular, juxtacortical, infratentorial, spinal If the MRI of the brain is inconclusive, what is the most appropriate next investigation? MRI spinal cord  Small ischaemic lesions in the brain may be difficult to distinguish from demyelination.  Spinal cord lesions is more specific than brain for inflammatory disorders such as MS rather than ischaemic lesions. Thus, cord imaging is useful when there is diagnostic difficulty. Management • Treatment of acute exacerbations First line: high-dose glucocorticoid therapy for 3–5 days  Oral methylprednisolone 0.5 g daily for 5 days ( If not admitted to hospital)  IV methylprednisolone 1 g daily for 3–5 days (if oral steroids have failed or not tolerated or need admission to hospital)  Steroids shorten the duration of a relapse and do not alter the degree of recovery (i.e. whether a patient returns to baseline function) Second line: plasmapheresis • Disease-modifying MS therapy (prevention of future attacks) Beta-interferon  Action: Suppresses T cell activity → ↓ proinflammatory cytokines and ↓ lymphocyte invasion of the CNS  Indication: Criteria from the Association of British Neurologists (ABN) for commencing beta-interferon therapy: Has had more than two separate episodes within the last two years Is more than 18-years-old, and Can walk more than 100 metres.  Benefits: Reduces number of relapses by one third (30%) and MRI changes, however, doesn't reduce overall disability  When to stop it?: Stop beta interferon if three or more relapses occurred per year (as the objective behind using them is to reduce relapse frequency).  Side effects Flu-like symptoms Liver dysfunction Thrombotic microangiopathy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Depression Risk of thyroid disease (both, hyper- and hypothyroidism) during the first year only, Keep thyroid function tests under review  Contraindications History of severe clinical depression Uncontrolled epilepsy Hepatic dysfunction Myelosuppression. Glatiramer acetate:  Action: Immunomodulating drug, acts as a decoy for T cells instead of neuronal myelin Decreases activity of proinflammatory Th1 lymphocytes  Safe in pregnancy  Save in liver dysfunction  Side effects: Chest pain, Lipoatrophy Natalizumab:  Action: An antibody against Alpha-4 Beta-1-integrin (decreases lymphocyte invasion of the CNS) → inhibits the migration of leucocytes into the CNS, hence reducing inflammation and demyelination.  Side effects: Risk of progressive multifocal leukoencephalopathy (PML) in patients with (latent) JC virus infection MRI scan is recommended before starting treatment Testing for serum anti-JCV antibodies before starting natalizumab is recommended and should be repeated every 6 months.  Commenced as monthly IV infusions Alemtuzumab  Action: Anti-CD52 antibody.  Side effects: Secondary, B-cell mediated autoimmune phenomena (e.g., formation of autoantibodies, ITP, glomerulonephritis) Ocrelizumab  Action: An antibody against CD20 that depletes premature and mature Bcells.  Side effects: Hepatitis B virus reactivation Immune suppression Fingolimod:  Action: sphingosine-1-phosphate analog that decreases lymphocyte invasion of the CNS (sphingosine 1-phosphate receptor modulator) prevents lymphocytes from leaving lymph nodes. It is an immunomodulator, which sequesters lymphocytes in lymph nodes.  Reduce the rate of relapses in relapsing-remitting MS by over half.  Side effects increased incidence of varicella zoster, tumour formation and progressive multifocal leukoencephalopathy (PML)  Reserved for patients who fail 1st line therapies.  An oral formulation is available Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Symptomatic treatments Spasticity → Baclofen and gabapentin are first-line. Oscillopsia (loss of natural image stabilization)  Consider gabapentin as a first-line  Consider memantine as the second-line Bladder dysfunction  May take the form of urgency, incontinence, overflow etc  Guidelines stress the importance of getting an ultrasound first to assess bladder emptying - anticholinergics may worsen symptoms in some patients if significant residual volume → intermittent self-catheterisation if no significant residual volume → anticholinergics may improve urinary frequency MS-related fatigue  Usually described as physical exhaustion that is unrelated to the amount of activity performed.  Seen in 78% of patients.  Often aggravated by heat and humidity.  Offer amantadine to treat fatigue in people with MS.  Consider mindfulness-based training, cognitive behavioural therapy  Exercises including yoga may be helpful. Modifiable risk factors for relapse or progression of MS • Exercise may have beneficial effects on MS • Live vaccinations may be contraindicated in people with MS who are being treated with disease‑ modifying therapies. • Flu-vaccination: possible benefits and possible risk of relapse after flu vaccination. • Pregnancy Decreased relapse rate of MS during pregnancy Increased relapse rate in the postpartum period (3–6 months after childbirth) The long-term clinical course of MS remains unchanged. Prognostic features • Good prognosis features female sex young age of onset relapsing-remitting disease sensory symptoms long interval between first two relapses • Ways of remembering prognostic features the typical patient carries a better prognosis than an atypical presentation The episode of poor co-ordination followed a few months later by unilateral optic neuritis raises the possibility of a demyelinating disease. An MRI and LP are next steps confirming the diagnosis. Multiple sclerosis in pregnancy Only glatiramer acetate is thought to be safe in pregnancy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Internuclear ophthalmoplegia (INO) Definition • Damage to the medial longitudinal fasciculus (the connection between the abducens nucleus, CN VI, on one side and the oculomotor nucleus, CN III, on the other), which leads to impaired lateral gaze. • Manifests primarily with impaired adduction of the eye ipsilateral to the lesion (ipsilateral to the medial longitudinal fasciculus lesion) Causes • Multiple sclerosis (MS): characteristic of MS, typically bilateral • Tumour of the brainstem (eg: glioma) • Brainstem vascular lesions • Wernicke's encephalopathy. Pathophysiology • Normally, CN VI receives a signal from the ipsilateral paramedian pontine reticular formation and sends a signal to the contralateral CN III via the medial longitudinal fasciculus. • Activation of the CN VI ipsilateral to the lesion → activation of the ipsilateral lateral rectus → abduction of the ipsilateral eye • Activation of the CN III contralateral to the lesion → activation of the contralateral medial rectus → adduction of the contralateral eye • Disruption of the medial longitudinal fasciculus fibers linking the CN VI ipsilateral and the CN III contralateral to the lesion → failure of signal transmission from CN VI to CN III → the ipsilateral lateral rectus is activated while the contralateral medial rectus is not → abduction of the ipsilateral eye, no adduction of contralateral eye • Firing from CN VI which fails to be transmitted to CN III is instead partially transmitted to the lateral rectus ipsilateral to the lesion → nystagmus of the ipsilateral abducting eye Clinical findings • Adduction limited in horizontal eye movements • Adduction is retained in convergence reaction • The patient may complain of horizontal diplopia. • Dissociated nystagmus: gaze to the opposite side → nystagmus of the abducted contralateral eye Internuclear ophthalmoplegia (INO) • Impaired adduction of the eye ipsilateral to the lesion and Nystagmus on the Opposite side. • When covering one eye, unilateral movements will be normal. But when together, the adducting eye will not move past the midline. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chronic progressive external ophthalmoplegia (CPEO) Overview • Patients with CPEO typically develop a slowly progressive paresis of extraocular muscles along with bilateral ptosis in the fourth decade of life • Often associated with mitochondrial disease (inherited only from the mother) • Most common manifestation of mitochondrial myopathy (in two-thirds of all cases). Diagnosis • ↑ Lactate in serum and cerebrospinal fluid • Muscle biopsy→ accumulation of enlarged mitochondria "red ragged fibers" • PCR → mutation of mitochondrial DNA. Differential diagnosis • Other causes external ophthalmoplegia must be ruled out, like Graves' disease, myasthenia gravis and glioma • Kearns-Sayre syndrome: combination of CPEO with pigmentary retinopathy and onset before age 20 (Ophthalmoplegia + retinitis pigmentosa + AV block) Treatments • no specific treatment currently, surgery can be used to correct ptosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Ptosis, Miosis and Mydriasis Ptosis • Causes of bilateral ptosis: Myotonic dystrophy Myasthenia gravis (ptosis is much less common in Lambert-Eaton syndrome than myasthenia gravis) Syphilis Congenital • Causes of unilateral ptosis, as above plus: Third nerve palsy Horner's Miosis • Causes of miosis (small pupil) Horner's syndrome Argyll-Robertson pupil senile miosis pontine haemorrhage congenital Drugs causes  Opiates  parasympathomimetics: pilocarpine  organophosphate toxicity Mydriasis • Causes of dilated pupils include: Holmes-Adie (myotonic) pupil Third nerve palsy Drugs, and Poisons (atropine, CO, ethylene glycol). _Horner's syndrome Horner's syndrome : triad of ptosis, miosis and anhydrosis Horner's syndrome: anhydrosis determines site of lesion: • Head, arm, trunk central lesion : stroke, syringomyelia • Just face pre-ganglionic lesion : Pancoast, cervical rib • Absent post-ganglionic lesion : carotid artery Overview • Horner's syndrome develops following disruption of the sympathetic chain. • Sweat glands are controlled by the sympathetic nervous system, for example, anhydrosis in Horner's syndrome. Ptosis + dilated pupil Third nerve palsy Ptosis + constricted pupil Horner's Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Miosis (small pupil) • Ptosis • Anhydrosis (loss of sweating one side) • Enophthalmos (sunken eye): in reality the appearance is due to a narrow palpebral aperture rather than true enophthalmos • Facial flushing due to vasodilatation Types: there are three separate forms of Horner's syndrome, depending on what level the sympathetic fibres are affected at: • First-order sympathetic fibres Originate in the hypothalamus and descend through the brainstem to their synapse with the preganglionic sympathetic fibres at C8-T2. Caused by: strokes, multiple sclerosis and basal meningitis. • Second-order (preganglionic) fibres Leave the cord at T1 and ascend in the sympathetic chain over the lung apex. They synapse in the superior cervical ganglion at the level of C3-C4, at the bifurcation of the common carotid artery. Caused by: apical lung tumours, lymphadenopathy and lower brachial plexus trauma. • Third-order (postganglionic) fibres Pass along the internal carotid artery, with branches passing to the blood vessels and sweat glands of the face. They pass through the cavernous sinus and superior orbital fissure, where they joint the long ciliary nerves to supply the iris dilator and Muller's muscle. Caused by: internal carotid artery dissection or herpes zoster infection. Because the sympathetic plexus accompanying the internal carotid artery innervates sweat glands only to the medial forehead, facial anhydrosis is only partial when Horner's syndrome is caused postganglionic lesions. Distinguishing between causes • Heterochromia (difference in iris colour) is seen in congenital Horner's • Anhydrosis: see the table below Central lesions Pre-ganglionic lesions Post-ganglionic lesions Anhydrosis of the face, arm and trunk Anhydrosis of the face No anhydrosis Stroke Syringomyelia Multiple sclerosis Tumour Encephalitis Pancoast's tumour Thyroidectomy Trauma Cervical rib Carotid artery dissection Carotid aneurysm Cavernous sinus thrombosis Cluster headache Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Orbital apex syndrome  The combination of optic neuropathy, proptosis, chemosis, Horner syndrome, ophthalmoplegia and involvement of the first branch of the trigeminal nerve is typical of orbital apex syndrome  The presence of proptosis, with swelling of eyelids and chemosis (swelling of the ocular surface membranes), indicates significant mass extension within the orbit  The orbital apex syndrome (involvement of cranial nerves II, III, IV and V1) is a superior orbital fissure syndrome with loss of vision Myasthenia gravis (MG) Overview • Myasthenia gravis is an autoimmune disorder caused by autoantibodies directed against acetylcholine receptors (AChR). • More common in women (2:1) • Associated conditions Other autoimmune diseases: pernicious anaemia, autoimmune thyroid disorders, rheumatoid, SLE Thymic hyperplasia (50-70%) Thymoma (15%) Feature • Extraocular muscle weakness: Ptosis, Diplopia, Blurred vision (most common initial symptom) • Bulbar muscle weakness Slurred speech Difficulty chewing and/or swallowing: (dysphagia that is worse with liquids than solids in contrast to achalasia which typically affects solids more than liquids, or solids and liquids equally) • Muscle fatigability (the key feature) Symptoms worsen with increased muscle use throughout the day and improve with rest. • Proximal muscle weakness Rising from a chair Climbing stairs Brushing hair Deep tendon reflexes are not affected. • Respiratory muscle weakness: causes dyspnea Exacerbating factors • Exertion (the most common exacerbating factor) • Pregnancy: has a variable effect on the course of myasthenia: Women with myasthenia that is stable prior to pregnancy are likely to remain stable throughout pregnancy, although a small proportion may have post-partum worsening. In poorly controlled myasthenia before pregnancy, flares are most likely to occur in the first trimester and the postpartum period. • Infection Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Drugs: Penicillamine  penicillamine toxicity →nephrotic syndrome and myasthenic syndrome. Quinidine, procainamide Beta-blockers, calcium channel blockers, verapamil, propafenone,. Lithium, Tricyclic antidepressants Phenytoin Antibiotics: gentamicin, macrolides, quinolones, tetracyclines  Aminoglycoside-induced neuromuscular blockade Aminoglycosides may impair neuromuscular transmission and should not be given to patients with myasthenia gravis. large doses given during surgery have been responsible for a transient myaesthenic syndrome in patients with normal neuromuscular function. Investigations • Autoantibodies (most specific test) Antibodies to acetylcholine receptors are seen in 80-90% of cases. 100% of patients with thymoma have antibodies Antibodies are less commonly seen in disease limited to the ocular muscles Seronegative MG (10–20%): negative for AChR antibodies, may be positive for muscle-specific tyrosine kinase antibodies (MuSK antibodies)  patients with (MuSK) antibodies are much less likely to have thymic hyperplasia or a thymoma, less responsive to anticholinesterase drugs, and may require more aggressive early immunotherapy than patients who have AChR antibodies. • Single fibre electromyography (EMG) (most sensitive test) High sensitivity (92-100%) It simultaneously records the variability in potentials of two muscle fibres innervated by an individual axon: jitter. shows decremental response following repetitive nerve stimulation Electrical recordings of single motor unit activity commonly reveal variation in the latency of the various muscle fibre responses (abnormal jitter) Jitter is the most sensitive EMG index in MG but is not specific of the condition. • CT thorax to exclude thymoma • CK normal • Edrophonium test (Tensilon test) Used to diagnose MG before AChR antibody test became the common method Symptoms improve rapidly after administration of a short-acting acetylcholinesterase inhibitor Management • In mild cases : long-acting anticholinesterase e.g. pyridostigmine Pyridostigmine →cholinesterase inhibitors → ↑ACh at neuromuscular junctions. • In more severe disease (with limb weakness or bulbar dysfunction) → immunosuppression Prednisolone initially Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Addition of steroid-sparing agents such as mycophenolate mofetil, ciclosporin or azathioprine if necessary. • In patients with congenital myasthenia, anticholinesterase drugs and immunomodulating treatments are not beneficial and should be avoided. • Thymectomy Can be beneficial even if a thymoma is not present Thymectomy is the following cases: Patients with MuSK antibody-associated MG without a thymoma Late onset disease or Purely ocular disease Myasthenic crisis • Definition: acute, life-threatening exacerbation of myasthenic symptoms that leads to respiratory failure • Epidemiology: affects 15–20% of patients with MG • Aetiology Infection Surgery, anesthesia Pregnancy Medications • Differential diagnosis: cholinergic crisis Overuse of pyridostigmine → cholinergic crisis (like organophosphate poisoning) → bradycardia, hypotension, bronchospasm, abdominal cramping, diarrhea, and flaccid paralysis of the extremities. Edrophonium test is your clue ( a short-acting acetylcholinesterase inhibitor).  In myasthenia gravis, this will lead to a temporary relief of symptoms.  In a cholinergic crisis, this will have no effect (or worsen the situation). Managed with Atropine to antagonize cholinergic activity. • Treatment Intravenous immunoglobulins (IVIg 400mg/kg for 5 days) Plasmapheresis: usually works quicker but involves more expensive equipment Early endotracheal intubation: Elective intubation should be considered if the vital capacity show values are less than 20 mL/kg. Myasthenic crisis :The patient has marked respiratory weakness with reduced breath count, reduced oxygen saturation, chest expansion and forced vital capacity. Myasthenic crisis VS Cholinergic crisis Myasthenic crisis Cholinergic crisis Pupil Normal Miosis (constricted pupil) Fasciculations None Present Heart rate Tachycardia Bradycardia Skin Cold and faint Warm and flushed Bronchial secretion Normal Increased Lambert-Eaton myasthenic syndrome (LEMS) Definition • Rare autoimmune disease that reduces neuromuscular transmission, leading to muscle weakness Prevalence • Occurs in males more often than females (5:1). Aetiology • Paraneoplastic: associated with small-cell lung carcinoma (in ⅔ of LEMS cases) • May also occur independently as an autoimmune disorder. Pathophysiology • Autoantibodies directed against presynaptic voltage-gated calcium channels (antiVGCC antibodies) → ↓ Ca2+ influx → ↓ presynaptic vesicle fusion → impaired acetylcholine release in the neuromuscular junction (NMJ) Features • Proximal muscle weakness • Repeated muscle contractions lead to increased muscle strength (in contrast to myasthenia gravis) • Reduced or absent reflexes (in contrast to myasthenia gravis where the reflexes are normal or brisk) • Autonomic symptoms: dry mouth, impotence, difficultly micturating. • Ophthalmoplegia and ptosis are not common (unlike in myasthenia gravis) Diagnostics • Active muscle contraction or repeated muscle tapping increases reflex activity. • Lambert sign: a patient's muscle strength improves with repetitive or ongoing use • EMG: Repetitive nerve stimulation results in incremental responses. • Confirmatory test: serologic detection of anti-VGCC antibodies Treatment • First-line to improve neuromuscular transmission: amifampridine Myasthenia gravis VS Lambert-Eaton Myasthenia gravis Lambert-Eaton Muscle weakness Proximal muscle weakness: face, neck, limb girdle Muscle power following exercise Becomes weaker Temporary increase Reflexes Normal or brisk Absence or hyporeflexia Autonomic dysfunction None Common Antibodies Antibodies to acetylcholine receptors Antibody directed against pre-synaptic voltage gated calcium channel Commonly associated tumor Thymomas or thymic hyperplasia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Affects lower limbs first Small cell lung cancer Chapter 4 Neurology MRCPUK-part-1-May 2019 exam: A patient of small cell lung carcinoma presents with muscle weakness, spreading from legs to arms + hyporeflexia . C/O dry mouth & erectile dysfunction. Antibodies to which one are most likely to be responsible for these findings? Voltage gated calcium channels Neurofibromatosis (NF) NF1: chromosome 17 - as neurofibromatosis has 17 characters NF2: chromosome 22 - all the 2's Lisch nodules are seen in neurofibromatosis Aetiology • Inherited (50%) Autosomal dominant • Sporadic mutations (50%): no family history Pathophysiology • Mutation of tumor suppressor gene → loss of function → uninhibited cell growth → neurofibroma development NF type 1: NF1 gene mutation (100% penetrance)  Encodes neurofibromin protein  Located on chromosome 17  Inhibition of cell growth and proliferation via inhibition of the Ras signal transduction pathway (Ras activity is inhibited by the stimulation of GTPase) NF type 2: NF2 gene mutation  Encodes merlin protein  Located on chromosome 22 Features NF1 NF2 More common (affects1 in 4,000) Less common (Affects around 1 in 100,000) Cafȇ-au-lait spots (≥ 6 spots, 15 mm in diameter) Axillary/groin freckles Peripheral neurofibromas Iris harmatomas (Lisch nodules) in ˃ 90% Seizures and/or focal neurologic signs due to brain lesions (especially meningiomas) Scoliosis Pheochromocytomas Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Bilateral vestibular schwannomas (acoustic neuromas) → affecting the vestibulocochlear nerve → tinnitus, hearing loss, or vertigo Early-onset cataracts, usually bilateral Multiple cerebral and spinal tumors (especially meningiomas and ependymomas) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad café-au-lait spots Multiple light brown macules with irregular borders (café-aulait spots) is highly suggestive of neurofibromatosis type 1. Lisch nodules Pigmented hamartomas on the iris, which are pathognomonic of neurofibromatosis type 1. Complications • increased lifetime cancer risk Diagnostics • MRI of the brain and spine with contrast • Ophthalmological exam • Auditory testing • Genetic testing Treatment • Excision or resection of tumors (e.g., meningiomas) • Surgery for kyphoscoliosis in NF type 1 • Drugs targeting the mTOR pathway (e.g., sirolimus) to reduce tumor growth Tuberous sclerosis (TS) Overview • Autosomal dominant condition, variable expression • TS affects about 1 in 10,000 people in the general population • It is the second most frequent neurocutaneous syndrome after neurofibromatosis. • Like neurofibromatosis, the majority of features seen in TS are neuro-cutaneous Pathophysiology • Mutation of tumor suppressor genes → loss of function → unchecked cell growth → tumor development • Tumor suppressor genes TSC1 gene on chromosome 9 encodes hamartin protein TSC2 gene on chromosome 16 encodes tuberin protein Tuberous sclerosis: presentation • Cigarettes and coffee with a rough stupid person with a butterfly on his nose while he is dancing Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Features • Cutaneous Adenoma sebaceum (facial angiofibroma): benign tumor composed of blood vessels and fibrous connective tissue, located around the nose and cheeks (butterfly distribution) Ash-leaf spots: hypopigmented (white) macules on the trunk and extremities Shagreen patch: flesh-colored papule in the lumbosacral region with an orangepeel appearance fibromata beneath nails (subungual fibromata) • Neurological Developmental delay Epilepsy (infantile spasms is most common form) Autism intellectual impairment Fibromas may also develop within the central nervous system, where they calcify typically in the periventricular area. • Cardiac rhabdomyoma Present in > 50% of affected individuals May cause symptoms of mitral regurgitation and/or congestive heart failure • Renal disease: Renal cysts, Angiomyolipoma, Renal carcinoma Diagnostics • ECG: cardiac rhabdomyoma can cause ventricular hypertrophy and arrhythmias • EEG: seizure activity • Echocardiography: rhabdomyoma (common in the apex of the left ventricle) • Abdominal MRI: renal cyst, angiomyolipoma, and/or carcinoma • Contrast cerebral CT/MRI Tumors (e.g., giant cell astrocytomas) Enlarged ventricles (tumors in the periventricular area commonly cause obstructive hydrocephalus) • Genetic testing Treatment • Seizure control • mTOR inhibitors: to treat renal angiomyolipoma and inoperable giant cell astrocytoma • Removal of angiofibroma (laser treatment or electrosurgery) • Surgery in the case of: Obstructive hydrocephalus (with ↑ ICP) Drug-resistant seizures MRCPUK-part-1-January 2018 exam: Generalised seizure + patches of hypopigmented skin fibromata under finger nails. What is the most likely diagnosis? Tuberous sclerosis MRCPUK-part-1-May 2017 exam: H/O hypovolaemic shock. CT abdomen reveals a haemorrhagic lesion in the right kidney. biopsy shown it to be an angiomyolipomata. What is the most likely underlying diagnosis? Tuberous sclerosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Paraneoplastic syndromes affecting nervous system Lambert-Eaton myasthenic syndrome • associated with small cell lung cancer (also breast and ovarian) • antibody directed against pre-synaptic voltage gated calcium channel in the peripheral nervous system • can also occur independently as autoimmune disorder Anti-Hu • associated with small cell lung carcinoma and neuroblastomas • sensory neuropathy - may be painful • cerebellar syndrome • encephalomyelitis Anti-Yo • associated with ovarian and breast cancer • cerebellar syndrome Anti-GAD antibody • associated with breast, colorectal and small cell lung carcinoma • stiff person's syndrome or diffuse hypertonia Anti-Ri • associated with breast and small cell lung carcinoma • ocular opsoclonus-myoclonus Anti-Purkinje cell antibodies • subacute cerebellar degeneration • peripheral neuropathy due to a remote (autoimmune) effect of gynecologic or breast carcinoma. GM1 antibodies (Glycolipid ganglioside-monosialic acid) associated with • Lower motor neuron syndromes • Amyotrophic lateral sclerosis • Multiple sclerosis • Other multifocal neuropathies and • Systemic lupus erythematosus (SLE) with central nervous system involvement. MRCPUK-part-1-May- 2019 exam: Ovarian cancer + unsteadiness, nystagmus and pastpointing. Which antibody is most likely to be present? Anti-Yo Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Brain tumours The majority of adult tumours are supratentorial, whereas the majority of childhood tumours are infratentorial. Type of tumour Features Glioblastoma multiforme • The most common primary brain tumour in adults, accounts for about 20% of all cerebral tumours. • Histology: Pleomorphic tumour cells border necrotic areas • Pseudopalisading tumor cells on brain biopsy are a characteristic Meningioma • The second most common primary brain tumour in adults • Histology: Spindle cells in concentric whorls and calcified psammoma bodies Schwannoma • Often seen in the cerebellopontine angle: acoustic neuroma • Bilateral schwannoms are seen in neurofibromatosis • Histology: Antoni A or B patterns are seen. Verocay bodies (acellular areas surrounded by nuclear palisades) Pilocytic astrocytoma • The most common primary brain tumour in children • Histology: Rosenthal fibres (corkscrew eosinophilic bundle) Medulloblastoma • More common in children • Found exclusively in the posterior fossa • Metastases through the CSF • Histology: Small, blue cells. Rosette pattern of cells with many mitotic figures Ependymoma • Commonly seen in the 4th ventricle • May cause hydrocephalus • Histology: perivascular pseudo rosettes Oligodendroma • Benign, slow-growing tumour common in the frontal lobes • Histology: Calcifications with 'fried-egg' appearance Haemangioblastoma • Vascular tumour of the cerebellum • Associated with von Hippel-Lindau syndrome • Histology: foam cells and high vascularity Pituitary adenoma • Most common type is a prolactinoma • May present with bitemporal hemianopia Craniopharyngioma • Most common paediatric supratentorial tumour • The commonest presentation in young patients is growth failure and delayed puberty. • CT: suprasellar calcified cyst • Histology: Derived from remnants of Rathke pouch Metastases • Most common type of brain tumour • The most common sites that metastasise to the brain is lung (44%), therefore, a chest x ray would be the initial investigation of choice. • Initial treatment: Start dexamethasone immediately Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Meningioma - MRI showing the typical wellcircumscribed appearance. A dural tail can be where the tumour 'connects' to the dura. It is seen in around 65% of meningiomas. The CT shows a well defined spherical mass in the right posterior falx cerebri consistent with a meningioma. There is mild oedema and mass effect on the right lateral ventricle. The tumour is straddling the inferior surface of the falx. Glioblastoma multiforme - CT showing a peripherally enhancing lesion within the left frontal lobe. Note the contrast to the more homogenous meningioma above. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Von Hippel-Lindau syndrome (VHL) Overview • Autosomal dominant condition • VHL gene is tumor suppressor gene on the short arm of chromosome 3 • Deletion of VHL gene → loss of function → tumor and cyst development Features • Vascular tumors (hemangioblastoma): Common in retina, cerebellum, brainstem, and/or spine Cerebellar haemangiomas: neurological deficits Retinal haemangiomas: vitreous haemorrhage → vision loss Hemangioblastomas are highly vascularized lesions whose cells have hyperchromatic nuclei. • Renal cysts (premalignant), renal cell carcinoma • Phaeochromocytoma • Extra-renal cysts: epididymal, pancreatic, hepatic • Endolymphatic sac tumours → hearing loss, tinnitus, and/or vertigo (bilateral disease is a pathognomonic feature) Cerebrospinal fluid (CSF) Overview • CSF Produced by ependymal cells of choroid plexuses in the lateral, third, and fourth ventricles by filtration of plasma. • Approximately 500ml of cerebrospinal fluid is produced each day. • It is absorbed into the circulation via the arachnoid villi. • CSF is largely similar to plasma in composition, but has much lower levels of protein. Normal values of cerebrospinal fluid (CSF) • Pressure = 60-150 mm (patient recumbent) • Protein = 0.2-0.4 g/l • Glucose = > 2/3 blood glucose (60% of serum levels) • Cells: red cells = 0, white cells < 5/mm³ Conditions associated with raised lymphocytes • Viral meningitis/encephalitis • TB meningitis • Partially treated bacterial meningitis • Lyme disease • Behcet's, SLE • Lymphoma, leukaemia Early age SAH occur in Von Hippel Lindau What type of cells produce cerebrospinal fluid? Ependymal cells Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Conditions associated with raised protein levels • Guillain-Barre syndrome • Tuberculous, fungal and bacterial meningitis • Spinal block (Froin's syndrome): ↑CSF protein below a spinal canal blockage (e.g. tumour, disc, infection) • Viral encephalitis Vertebral level and corresponding structure • C4 → Hyoid bone, Bifurcation of common carotid • C5 → Thyroid cartilage, Carotid pulse palpated • C6 → Cricoid cartilage, Beginning of trachea, Beginning of esophagus • T2 → Sternal notch, Arch of aorta • T12 → aortic opening • T4 → Sternal angle, Junction of superior and inferior mediastinum, Bifurcation of trachea • T8 →Inferior vena caval hiatus (opening in the diaphragm) • T9 → Xiphisternal joint • T10 → Esophageal hiatus (opening in the diaphragm) • T11 → Upper pole of left kidney • T12 → Upper pole of right kidney, Aortic hiatus (opening in the diaphragm) • L3 → Umbilicus • L4 → Iliac crest, Bifurcation of aorta • L1 → End of spinal cord • S1 → Beginning of sigmoid colon • S2 → End of dural sac (and CSF) • S3 →End of sigmoid colon The spinal cord terminates at lower border of L1 vertebra Disruption of the blood-brain barrier (i.e., infections, autoimmune diseases, CNS malignancies) or intrathecal production of IgG (i.e, multiple sclerosis, CNS infections such as Lyme disease) → increased immunoglobulins (oligoclonal bands) → increased CSF protein Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Post-lumbar puncture headache Epidemiology • Headache following lumbar puncture (LP) occurs in approximately one-third of patients. • More common in young females with a low body mass index Pathophysiology • Leaking of cerebrospinal fluid from the dura is the most likely explanation. Typical features • Usually develops within 24-48 hours following LP but may occur up to one week later • May last several days • Worsens with upright position • Improves with recumbent position Factors which may contribute to headache Factors which do not contribute to headache Increased needle size Direction of bevel Not replacing the stylet Increased number of LP attempts Use of a Quincke (sharp) needle Increased volume of CSF removed Bed rest following procedure Increased fluid intake post procedure Opening pressure of CSF Position of patient What is the most appropriate type of needle to use in lumbar puncture? 20G Sprotte® (atraumatic) needle Studies show that smaller atraumatic needles reduce the risk of post-lumbar puncture headache. Management • Supportive initially (analgesia, rest) • If pain continues for more than 72 hours then specific treatment is indicated, to prevent subdural haematoma • Treatment options include: blood patch, epidural saline and intravenous caffeine Spinal cord lesions Disorder Tracts affected Clinical notes Brown-Sequard syndrome (spinal cord hemisection) Lateral corticospinal tract Dorsal columns Lateral spinothalamic tract Subacute combined degeneration of the spinal cord (vitamin B12 & E deficiency) Lateral corticospinal tracts Dorsal columns Spinocerebellar tracts Friedrich's ataxia Same as subacute combined degeneration of the spinal cord (see above) Anterior spinal artery occlusion Lateral corticospinal tracts Lateral spinothalamic tracts Syringomyelia Ventral horns Lateral spinothalamic tract Multiple sclerosis Asymmetrical, varying spinal tracts involved Neurosyphilis (tabes dorsalis) Dorsal columns Loss of proprioception and vibration sensation Metastatic spinal cord compression Metastatic spinal cord compression: • Dexamethasone should be given immediately (to reduce inflammation around the cord) • Then Urgent radiotherapy is the definitive treatment. Epidemiology • Spinal cord compression is an oncological emergency and affects up to 5% of cancer patients. Causes • Extradural compression accounts for the majority of cases, usually due to vertebral body metastases. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ipsilateral spastic paresis below lesion Ipsilateral loss of proprioception and vibration sensation Contralateral loss of pain and temperature sensation Bilateral spastic paresis Bilateral loss of proprioception and vibration sensation Bilateral limb ataxia Same as subacute combined degeneration of the spinal cord (see above) Bilateral spastic paresis Bilateral loss of pain and temperature sensation Flaccid paresis (typically affecting the intrinsic hand muscles) Loss of pain and temperature sensation Combination of motor, sensory and ataxia symptoms Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • It is more common in patients with lung, breast and prostate cancer Features • back pain the earliest and most common symptom may be worse on lying down and coughing • lower limb weakness • sensory changes: sensory loss and numbness • neurological signs depend on the level of the lesion. Lesions above L1 usually result in upper motor neuron signs in the legs and a sensory level. Lesions below L1 usually cause lower motor neuron signs in the legs and perianal numbness. Tendon reflexes tend to be increased below the level of the lesion and absent at the level of the lesion Diagnosis • The definitive investigation in this case is an MRI of the vertebral column to look for vertebral collapse or other vertebral disease. Management • high-dose oral dexamethasone Corticosteroids should be started immediately, even before the diagnosis is confirmed radiologically, usually with dexamethasone 16 mg STAT followed by 8mg BD (either oral or IV is acceptable). Dexamethasone given for spinal cord compression can be given via any available route. Giving it intravenously offers no significant advantage over giving it orally. temporarily reduce oedema related to the underlying tumour and thus have a positive impact on neurological deficit, the response to steroids predicts neurological response to subsequent definitive treatment which should be started within 24 hours. • urgent oncological assessment for consideration of radiotherapy or surgery Urgent radiotherapy is the definitive treatment, although neurosurgical opinion should be sought in order to ensure that surgical decompression is not required. Treatment is effective in 90% of patients if the diagnosis is made early. As L1 is being affected, this can be arranged urgently, rather than immediately. Immediate radiotherapy is necessary for lesions above L1. • Spinal stabilisation surgery should be urgently considered for:  Patients with spinal metastases and imaging evidence of structural spinal failure with spinal instability.  Patients with spinal metastases and mechanical pain resistant to conventional analgesia, even if they have been completely paralysed. Preoperative radiotherapy should not be performed, although postoperative radiotherapy can be offered to patients with a satisfactory outcome, once the wound has healed. Prognosis • Pre-treatment ambulatory function is the best determinant of post treatment gait function  80% of patients will maintain mobility if ambulatory function is good at presentation. 030 - Pages 726-750 030 Pages 726-750 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Disc prolapse Loss of sensation in the upper outer thigh is consistent with nerve root compression caused by a prolapsed vertebral disc. Pathophysiology • The intervertebral disk consists of a dense outer ring (annulus fibrosus) and a gelatinous core (nucleus pulposus). • disk protrusion or herniation through the annulus fibrosus into the central canal → adjacent nerve root impingement → sensorimotoric deficits in affected nerve root • The herniation of the nucleus pulposus is most commonly in the posterolateral direction as it is the weakest part of the surrounding annulus fibrosus. • The affected nerve root is typically the one below the level of disc herniation Common sites of prolapse • Most often occurs in the lumbar spine (95% of disc herniations occur at the L4-L5 and L5-S1 level). L5–S1 (most common site) L4–L5 (second most common site) • Cervical and thoracic disc herniations are rare Causes • Disc degeneration (the most common cause) • Trauma Features • Acute onset of severe neck or back pain Radicular pain: pain that radiates to the legs (sciatic pain) or arms The pain is either stabbing in nature or resembles an electric shock • Features of radiculopathy: lower motor neuron signs of the affected nerve root (typically unilateral) Paresthesia of the affected dermatome Muscle weakness Absent or diminished deep tendon reflexes • Character of pain Pain increases with pressure (e.g., from coughing or sneezing) Pain is typically better with rest: if it is unremitting or worse on resting you should consider other causes such as bony metastases or infection. Changing position reduces the pain Management • Gentle mobilisation and physiotherapy (the management of choice): most patients will make a spontaneous improvement within 4–6 weeks. • Surgery (Microdiscectomy or open discectomy) is a potential treatment options for patients with radiologically proven nerve root compression and severe symptoms or symptoms that do not resolve with conservative measures. • Local corticosteroid injection: symptomatic relief if not fit for surgery Intervertebral discs usually protrude/herniate posterolaterally, as the posterior longitudinal ligament is thinner than the anterior longitudinal ligament. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology This table demonstrates the expected features according to the level of compression Level of compression Features L3 nerve root compression Sensory loss from anterior thigh to medial aspect of lower leg Weak quadriceps ↓ knee reflex Positive femoral stretch test L4 nerve root compression Caused by L3/4 disc prolapse Sensory loss over the thigh and anterior aspect of knee Weak quadriceps ↓ knee reflex Positive femoral stretch test L5 nerve root compression Caused by L4/5 disc prolapse Sensory loss dorsum of foot and lateral aspect of leg Weakness in foot and big toe dorsiflexion ('foot drop') Reflexes intact Positive sciatic nerve stretch test S1 nerve root compression Caused by L5/S1 disc prolapse Sensory loss posterolateral aspect of leg (posterior calf and the plantar surface of the foot) and lateral aspect of foot Weakness in plantar flexion of foot ↓ ankle reflex Positive sciatic nerve stretch test Prolapsed cervical disc (Cervical radiculopathy) Overview • Most commonly affects the C5/C6 and C6/C7 vertebrae. • Central protrusions can lead to symptoms of spinal cord compression. • Posterolateral protrusions can cause a stiff neck, pain radiating to the arm, weakness of the muscles affected by the nerve root and depressed reflexes. • X-ray may shows narrowing of the disc space between the C5 and C6 vertebrae. Deferential diagnosis • Cervical spondylosis occurs as a result of osteoarthritis. Muscle weakness is uncommon X-ray changes:  Disc spaces can be narrowed  Osteophytes seen in the central and posterior intervertebral joints. • Cervical rib can present with similar symptoms but the X-ray would be diagnostic (showing the presence of a cervical rib). • Spasmodic torticollis sudden onset of a stiff painful neck with torticollis can occur in adults due to spasm of the trapezius and sternocleidomastoid muscles. X-ray of the cervical spine is usually normal. Common cervical radiculopathies Sensory deficits Motor deficits Reduction of C5 radiculopathy Anterior shoulder Biceps and deltoid Biceps From upper lateral elbow over radial forearm up to thumb and radial side of index finger C6 radiculopathy C7 radiculopathy Palmar: fingers II–IV (II ulnar half, III entirely, IV radial half) Dorsal: medial forearm up to fingers II–IV (II ulnar half, III entirely, IV radial half) C8 radiculopathy Dorsal forearm up to dorsal and palmar area of fingers IV (ulnar half) Conus medularis syndrome Conus medullaris syndrome is caused by compression of the T12-L2 cord and nerve roots, and therefore results in a mix of upper and lower motor neuron signs. • Mixed upper and lower motor neurone signs. These include bilateral distal weakness with increased tone and hyper-reflexia, fasciculation, positive Babinski sign and clonus.  Cauda equina would give just LMN signs, • Sensory loss is most marked in the perianal region. In Amyotrophic lateral sclerosis (the commonest form of motor neurone disease), There would be a mixture of UMN and LMN signs; however, they do not have any sensory signs or incontinence. • It is much rarer than cauda equina syndrome. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad reflexes Biceps and wrist extensors Biceps Brachioradialis Triceps and wrist flexors, finger extensors Triceps Finger flexors None Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Conus medullaris syndrome VS Cauda equina syndrome Conus medullaris syndrome Cauda equina syndrome Presentation Sudden and bilateral Gradual and may be unilateral leg sings initially Reflexes Knee jerk preserved Ankle jerk affected Both knee and ankle jerk affected Radicular pain Less severe More severe Sensory Numbness often localised peri-anal area (often bilateral) Numbness often localised saddle area (often unilateral) Motor Symmetrical Upper motor signs (hyperreflexic distal paresis, less than cauda equina, may be fasciculation ) May be asymmetrical Lower motor signs (areflexic paraplegia, atrophy, fasciculations is rare ) Impotence Frequent Often less marked Sphincter disfunction Urinary retention and atonic anal sphincter present early in disease (can cause overflow urinary incontinence ) Urinary retention usually present later in course of disease Low back pain More marked Less marked Conus medullaris syndrome and cauda equina syndrome are medical emergencies requiring immediate surgical intervention. Cauda equina syndrome Causes • herniation of a lumbar disc (at L4/L5 and L5/S1) • tumour (metastases, lymphoma, primary spinal tumours) • trauma • infection (epidural abscess). • Others: ankylosing spondylitis, Paget’s disease, and congenital spinal stenosis. Features • lower motor neuron signs: flaccid paraplegia, areflexia, flexor plantar reflexes • unilateral or bilateral lower limb motor and/or sensory abnormality • low back pain • Whilst classically patients present with a sensory level, this is variable in clinical practice. • bladder retention and overflow incontinence (bowel and/or bladder dysfunction with saddle and perineal anaesthesia) • Saddle anesthesia. Patients usually describe numbness and/or "pins-and-needles" sensations of the groin and inner thighs which would contact a saddle when riding a horse. This reflects involvement of the S3-S5 roots. Diagnosis • MRI is the investigation of choice Cauda equina syndrome is caused by compression of the lumbosacral roots, from L1 down to S5, and therefore results in only lower motor neuron signs. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Autonomic dysreflexia Definition • A clinical syndrome occurs in patients who have had a spinal cord injury at, or above T6 spinal level (85% of patients). Mechanism • A strong sensory input (most commonly urine retention or constipation) travels up the spinal cord massive reflex sympathetic surge from the thoracolumbar sympathetic nerves widespread vasoconstriction, most significantly in the subdiaphragmatic (or splanchnic) vasculature hypertension crisis • The brain detects this hypertensive crisis through intact baroreceptors in the neck delivered to the brain through cranial nerves IX and X. • The brain attempts two maneuvers to decrease BP: by sending descending inhibitory impulses of sympathetic surge which are unable to travel because of the spinal cord injury at T6 or above. by slowing the heart rate through an intact vagus (parasympathetic) nerve; however, this compensatory bradycardia is inadequate, and hypertension continues. • In summary, the sympathetics prevail below the level of neurologic injury, and the parasympathetic nerves prevail above the level of injury. Triggers • urinary retention (cystitis, retention of urine or a blocked catheter): most common • constipation (faecal impaction) Features • unbalanced physiological response, characterised by : extreme hypertension , may leads to complications flushing and sweating above the level of the cord lesion Agitation Bradycardia Treatment • recognition and removal of the triggers. • Vasodilators such as calcium antagonists may be used to treat the hypertension. Spastic paraparesis Definition • Spastic paraparesis describes an upper motor neuron pattern of weakness in the lower limbs Causes • demyelination e.g. multiple sclerosis • cord compression: trauma, tumour • parasagittal meningioma (Spinal meningioma) progressive symptoms (not acute), well-defined sensory level MRI of the spine with gadolinium contrast is the investigation of choice • tropical spastic paraparesis classic presentation HTLV-1 positive patient presenting with paraparesis and urinary retention due to Adult T-cell lymphoma (ATL) caused by human Tlymphotropic virus type 1 (HTLV-I) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • transverse myelitis e.g. HIV • syringomyelia • hereditary spastic paraplegia • osteoarthritis of the cervical spine Sudden onset Progressive onset Anterior spinal artery infarct Osteoporotic thoracic spine collapse Prolapsed thoracic disc demyelination e.g. multiple sclerosis Metastatic carcinoma Spinal meningioma Absent ankle jerks, extensor plantars Overview • Typically caused by lesion producing both upper motor neuron (extensor plantars) and lower motor neuron (absent ankle jerk) signs • Mixture of UMN and LMN signs Causes • subacute combined degeneration of the cord • motor neuron disease • Friedreich's ataxia (usually presents by age 30) • Syringomyelia • taboparesis (syphilis) • HIV • Spinal AVM • conus medullaris lesion Which neurological finding is most helpful in differentiating subacute combined degeneration of the cord from multiple sclerosis? Absent ankle jerk Subacute combined degeneration of spinal cord (SACDC) Basics • due to vitamin B12 deficiency • vitamin B12 deficiency increased levels of methylmalonic acid impairs spinal cord myelinization. • dorsal + lateral columns affected • if untreated stiffness and weakness persist Features • joint position and vibration sense lost first then distal paraesthesia • upper motor neuron signs typically develop in the legs, classically: extensor plantars,  Plantars are initially flexor, and later extensor. brisk knee reflexes,  (but may be increased, normal or absent) absent ankle jerks Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  On presentation, 50% of patients have absent ankle reflexes with hyperreflexia at the knees. • Spastic paresis • Gait abnormalities (spinal ataxia, positive Romberg's test) • Lhermitte's phenomenon is typically present in multiple sclerosis, but may also occur in subacute combined degeneration of the cord. Diagnosis • MRI typically shows increased signal on T2~weighted imaging in the dorsal columns Transverse myelitis Overview • inflammation across the entire width of one level, or segment of the spinal cord. • Characterised by acute or subacute motor, sensory and autonomic spinal cord dysfunction. • the thoracic region of the spinal cord is most commonly affected. Causes • Acute infection Viral: most commonly Bacterial infections: syphilis, Lyme disease • Post-infections or vaccination (immune mediated) • Autoimmune (SLE, MS) Features • Course of the disease: develop over hours to days, and are usually bilateral • Motor dysfunction (e.g., paresis, paraplegia) • Sensory dysfunction Sensory level is characteristic. Midline or dermatomal neuropathic pain can be present. • Autonomic dysfunction Sphincter dysfunction  Urinary incontinence or retention  Bowel incontinence or constipation Sexual dysfunction is common but vary in severity. Investigation • MRI to rule out the presence of structural lesions, to determine the presence of myelitis, which enhances with gadolinium in the acute phase.  Evidence of inflammation can be confirmed via gadolinium-enhanced MRI. There may be more than one area of myelitis, and the lesions usually span at least two vertebral segments. there is variable enlargement of the spinal cord In the acute phase the MRI may be normal. • CSF analysis: pleocytosis and/or elevated IgG index Treatment • First-line: immediate high-dose IV corticosteroids • Plasma exchange can be given to those who fail to respond. • Patients with demyelinating disease can be started on long term immunosuppression. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Prognosis • Predictors of poor prognosis rapidly progressive course severe weakness hypotonia areflexia • Improvement chances time frame: improvement can take three months and longer to develop percentage: 50 - 70% of patients have partial or complete recovery.  One-third of patients recover with little or no sequelae  One-third are left with a moderate degree of permanent disability  One-third are left with severe disabilities • Risk of future MS: Depends on the pattern of transverse myelitis: complete transverse myelitis: only 5-10% will be diagnosed with MS incomplete transverse myelitis: 60-90% will be diagnosed with MS within 5 years. Syringomyelia Syringomyelia typically causes loss of reflexes, spinothalamic sensory loss (pain and temperature), and weakness. It can be asymmetrical initially Definition • Syringomyelia is a degenerative disease of the spinal cord that is characterized by a fluidfilled cavity within the cervical spinal cord. Pathophysiology • development of cavity (syrinx) within the spinal cord • Syrinx (fluid-filled cavitation) in the central spinal cord, usually cervical. This can elongate and enlarge, causing compression of the corticospinal and spinothalamic tracts and anterior horn cells. • if extends into medulla then termed syringobulbia • Most of the cavities in syringomyelia lie between the second cervical and the ninth thoracic vertebrae. most commonly affecting the cervical region • collection of fluids within the central canal of the spinal cord enlargement spinal canal, leading to damage of the crossed fibers (anterior white commissure) of the spinothalamic tract loss of pain and temperature sensation in the upper extremities Epidemiology • more common in men than women • usually presents in the 20s and 30s although it can present later in life. Causes • Arnold-Chiari malformation type I impaired cerebrospinal fluid circulation The most common cause • arachnoiditis, • meningeal carcinomatosis, • space-occupying lesions • Post-traumatic syringomyelia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad complicate up to 4% of spinal cord injury often presents with pain, which spreads upwards from the initial injury site. • idiopathic. Features • maybe asymmetrical initially • slowly progressive sensory and motor symptoms, possibly over years • motor: wasting and weakness of arms • sensory: spinothalamic sensory loss (pain and temperature) bilateral loss of pain and temperature sensation in the upper extremities. fine touch sensation, vibration and proprioception are preserved • loss of reflexes, bilateral upgoing plantars • Horner's syndrome, seen in advanced syringomyelia due to disruption of sympathetic trunk neurons. • Bladder, bowel and sexual dysfunction can develop Investigations MRI is the investigation of choice • MRI of the spinal cord the diagnostic modality of choice. MRI enhanced with gadolinium has more sensitivity than regular MRI. • Myelography used to confirm the diagnosis but was associated with more deterioration Localization of the lesion • At syrinx (there is anterior horn cell involvement) → lower motor neuron pattern of weakness. • At central decussating fibres (spinothalamic tract) → dissociated sensory loss with late development of neuropathic arthropathy. • At corticospinal tracts below the level of the syrinx results in spastic paraparesis. Deferential diagnosis • Amyotrophic lateral sclerosis NO sensory deficits. • Anterior spinal artery thrombosis characterised by loss of motor function below the level of injury, loss of pain and temperature sensations, and preservation of proprioception, fine touch and vibration. • Post-traumatic spinal stenosis result in neurological changes below the level of stenosis. Management • The mainstay of the treatment of is surgery. MRCPUK-part-1-May 2010: feature of weakness & wasting of the small muscles of the hand. Which one of the following features would most support a diagnosis of syringomyelia? Loss of temperature sensation in the hands Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology The presence of loss of pain and temperature sensation in a 'cape like' distribution is highly suggestive of syringomyelia. A fluid filled cavity within the cord develops, typically between C2 to T9, compressing the cord from inside to out. Arnold-Chiari malformation (CM) Definition • Arnold-Chiari malformation describes the downward displacement, or herniation, of the cerebellar tonsils through the foramen magnum. Causes • may be congenital or acquired through trauma. Pathophysiology • Symptoms of Arnold-Chiari malformation, type I develop as a result of three pathophysiological consequences of the disordered anatomy: compression of the medulla and upper spinal cord, compression of the cerebellum, disruption of cerebrospinal fluid flow through the foramen magnum. Classification • classified by extent with which parts of the brain protrude into the spinal canal. Chiari I malformation,  the only type that can be acquired or can remain asymptomatic until late childhood or early adulthood.  characterized by: the time of onset (late childhood/early adulthood) and the downward herniation of cerebellar tonsils, without the involvement of brainstem tissue. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  symptoms due to obstruction of cerebrospinal fluid flow. more severe types of Chiari malformations would involve additional herniation of brainstem tissue (Types II and III) or incomplete development of the cerebellum as a whole (Type IV). Features • non-communicating hydrocephalus may develop as a result of obstruction of cerebrospinal fluid (CSF) outflow • neck pain • Occipital headache  exacerbated by cough, valsalva maneuver and exercise. • syncope due to intermittent obstructive hydrocephalus. • changes in balance, and poor hand coordination • Syringomyelia • Downbeat nystagmus is classically associated with lesions at the foramen magnum (Arnold-Chiari malformation) Investigations • MRI brain: Narrow posterior fossa Treatment • type II and III CM and in symptomatic type I CM Surgery • asymptomatic type I CM : Surveillance: annual MRI of the brain to look for development of syringomyelia and/or hydrocephalus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology MRI showing herniation of the cerebellar tonsils through the foramen magnum consistent with a Chiaria I malformation Anterior spinal artery thrombosis Anterior spinal artery thrombosis Sudden paralysis and loss of pain and temperature sensation and preservation of fine touch, vibration, and proprioception below the level of the lesion. Vibration and proprioception are typically spared because of an intact dorsal column Anterior spinal artery infarct occurs at the 'watershed' T4-T6 and would cause symptoms primarily in the lower limb and a sensory level. • it supplies, roughly the anterior 2/3 of the cord. • segments of the cord in the watershed area between the branches (around T2–T4) are vulnerable to ischaemia. Sequelae • Occlusion of the anterior spinal artery infarcts the ventral portion of the cord. • affects the structures found at the front of the spine corticospinal tracts (motor neurons) spinothalamic tracts (pain/temperature sensation). Feature • Acute (within hours) Back or chest pain Spinal shock  Bilateral loss of temperature and pain sensation , motor function (flaccid paraparesis or quadriparesis) , and autonomic function (bladder, bowel, and sexual dysfunction, orthostatic hypotension) below the level of the lesion  reflexes are diminished Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Absent Bulbocavernosus reflex: squeezing the glans penis or pulling on a Foley catheter while digitally palpating the contraction of the anal sphincter • Late (after days or weeks) Continued sensory and autonomic dysfunction  Power is reduced below the hips  Pain and temperature sensation are lost to the waist. Spastic paraparesis or quadriparesis (increased muscle tone) Hyperreflexia • Light-touch sensation, vibration and proprioception (joint-position sense) are normal because these are carried in the dorsal columns that are supplied by the posterior spinal artery. • Injury level Anterior spinal cord lesions above cervical vertebra 6 will result in tetraplegia with involvement of the upper and lower extremities. injuries from T1-T6 have normal upper extremity, although abdominal and chest muscles may be affected with diminished respiratory excursion. The region of thoracic vertebra 6 is the thoracic watershed zone; lesions below this level result in loss of bowel, bladder, and sexual functions. Anterior spinal arteries supply corticospinal and spinothalamic tracts, and anterior horns of the grey matter. What are the diagnostic possibilities of a lesion involve the anterior two thirds of the spinal cord which spares light touch, vibration and position sense, but causes loss of pain and temperature sensation distally? The diagnostic possibilities include : 1- anterior spinal artery occlusion sudden onset 2- intramedullary spinal cord metastasis Chapter 4 Neurology Types of incomplete spinal cord syndromes • All types present with dissociated sensory loss: a pattern of selective sensory loss (“dissociation of modalities”); suggests a focal lesion of a single tract within the spinal cord Affected spinal tracts Etiology Clinical features Bilateral central corticospinal tracts and lateral spinothalamic tracts Central cord syndrome (most common) • Hyperextension injury (e.g., car crash) associated with chronic cervical spondylosis • Spinal cord compression Anterior cord syndrome Corticospinal and spinothalamic tracts • Trauma (e.g., penetrating injury, burst fracture of vertebra) • Bilateral motor paralysis, loss of pain and temperature sensation, and autonomic dysfunction below the level of the lesion Posterior cord syndrome • Occlusion of anterior spinal artery Bilateral posterior columns • Trauma (e.g., penetrating injury) • Ipsilateral loss of proprioception, vibration, and touch sensation below the level of the lesion Brown-Séquard syndrome (hemisection syndrome) • Occlusion of the posterior spinal artery • Multiple sclerosis Hemisection of the cord • Trauma (e.g., penetrating injury) • Spinal cord compression Diagnosis • Spinal MRI (best confirmatory test): excludes soft-tissue lesions (e.g., tumors, hematomas), bone lesions, and detects spinal cord parenchyma abnormalities (e.g., infarction) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Bilateral paresis: upper > lower extremities • Ipsilateral Loss of proprioception, vibration, and tactile discrimination below the level of the lesion Segmental flaccid paresis at the level of the lesion, spastic paralysis below the level of the lesion , and ipsilateral Babinski sign • Contralateral: loss of pain and temperature sensation one or two levels below lesion Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Brown-Séquard's syndrome Definition • Thoracic spinal cord lesion produced by a hemisection of the spinal cord. Causes • trauma, (most commonly) • tumours, and • multiple sclerosis. Features • Ipsilateral Weakness (paralysis) loss of position and vibration below the lesion (dorsal column dysfunction) Horner syndrome,  If the lesion is above the spinal cord level T1, due to damage of the oculosympathetic pathway. • Contralateral loss of pain and temperature. Diagnosis • MRI is the imaging of choice in spinal cord lesions Management • Steroids may decrease cord swelling. Lower back pain Overview • Lower back pain (LBP) is one of the most common presentations seen in practice. • Whilst the majority of presentations will be of a non-specific muscular nature it is worth keeping in mind possible causes which may need specific treatment. Red flags for lower back pain • age < 20 years or > 50 years • history of previous malignancy • night pain • history of trauma • systemically unwell e.g. weight loss, fever Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology The table below indicates some specific causes of LBP: Facet joint May be acute or chronic Pain worse in the morning and on standing On examination there may be pain over the facets. The pain is typically worse on extension of the back Spinal stenosis Usually gradual onset Unilateral or bilateral leg pain (with or without back pain), numbness, and weakness which is worse on walking. pain is worse with walking downhill and less with walking uphill. Resolves when sits down. Pain may be described as 'aching', 'crawling'. Relieved by sitting down, leaning forwards and crouching down Clinical examination is often normal Requires MRI to confirm diagnosis Ankylosing spondylitis Typically, a young man who presents with lower back pain and stiffness Stiffness is usually worse in morning and improves with activity Peripheral arthritis (25%, more common if female) Peripheral arterial disease Pain on walking, relieved by rest Absent or weak foot pulses and other signs of limb ischaemia Past history may include smoking and other vascular diseases Wernicke's encephalopathy Definition • Wernicke's encephalopathy is a neuropsychiatric disorder caused by thiamine deficiency, which is most commonly seen in alcoholics. Causes • Most common: alcohol • Rarer causes include: persistent vomiting, stomach cancer, dietary deficiency. Features • nystagmus (the most common ocular sign) • ophthalmoplegia • ataxia • confusion, altered GCS • peripheral sensory neuropathy • Sometimes bilateral wrist drop but more frequently bilateral foot drop with pain or pressure over the long nerves. Wernicke's encephalopathy: classic triad of: nystagmus, ophthalmoplegia ataxia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • petechial haemorrhages occur in a variety of structures in the brain including the mamillary bodies and ventricle walls Investigations • 1st investigations to order therapeutic trial of parenteral thiamine • decreased red cell transketolase • MRI Treatment is with urgent replacement of thiamine (Pabrinex (Intravenous)) Korsakoff syndrome Definition • a late neuropsychiatric manifestation of Wernicke encephalopathy. Pathophysiology • alcohol  vitamin B1 (thiamine) deficiency damage to mammillary bodies (structures of the limbic system) Feature • Wernicke's encephalopathy + antero- and retrograde amnesia and confabulation. confabulation (false memories) is a disturbance of memory, defined as the production of fabricated memories without the conscious intention to deceive. dementia is typically not reversible. Investigations • MRI finding mammillary body degeneration Treatment • maintenance thiamine and rehabilitation Anti-NMDA receptor encephalitis (Autoimmune encephalitis) Definition • It is a type of brain inflammation due to antibodies. (a paraneoplastic syndrome), presenting as prominent psychiatric features including agitation, hallucinations, delusions and disordered thinking; seizures, insomnia, dyskinesias and autonomic instability. • might be misdiagnosed as a primary psychiatric illness. Mechanism • autoimmune with the primary target the N-methyl D-aspartate receptors (NMDAR) in the brain Epidemiology • 80% are female • particularly prevalent in Afro-Caribbean patients. Associations • Ovarian teratomas are detected in up to half of all female adult patients, Investigations • CSF can be normal initially. Korsakoff's syndrome: Inability to acquire new memories and confabulation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology may demonstrate pleocytosis antibodies against NMDA receptors CSF titers of anti-NMDA receptor antibodies correlate with clinical illness • MRI head  can be normal in 50% abnormalities can be visualised on FLAIR sequences in the deep subcortical limbic structures. • evaluation for an ovarian teratoma by MRI, CT scan, or ultrasound Treatment • immunosuppression with intravenous steroids, immunoglobulins, rituximab, cyclophosphamide or plasma exchange, alone or in combination. • Resection of teratoma is also therapeutic. CADASIL Overview • Cerebral Autosomal Dominant Arteriopathy with Subcortical Infarcts and Leukoencephalopathy (CADASIL) • A family history is almost always present, as it is an autosomal dominant condition, located to chromosome 19. • the most common genetic form of vascular dementia. Features • What is the pathophysiology of this condition? NOTCH3 mutation • strokes at a young age and • early vascular (subcortical) dementia (multi-infarct dementia) • patients often present with migraine • Recurrent ischaemic events (transient or permanent) & Severe mood disorders Diagnosis • Characteristic MRI changes include T2 weighted hyperintensity of the periventricular white matter. • DNA testing for the notch-3 gene mutation confirms the diagnosis. Treatment • the oral contraceptive pill should be stopped, given its association with stroke in migraine. Myotonic dystrophy Definition • Myotonic dystrophy (also called dystrophia myotonica) is an inherited myopathy results in a selective atrophy of type I muscle fibers affects skeletal, cardiac and smooth muscle. Genetics • autosomal dominant, trinucleotide repeat disorder. Patients have between 50 to 1,000 CTG trinucleotide repeats in the myotonin protein kinase gene (normal is less than 30 repeats). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Types: There are two main types of myotonic dystrophy, DM1 and DM2. DM1 DM2 Genetics DMPK (Dystrophia Myotonica-Protein Kinase) gene on chromosome 19 ZNF9 gene on chromosome 3 Onset Congenital, juvenile, or adult-onset Adulthood Features Distal weakness more prominent Proximal weakness more prominent Severity Sever disease Mild disease Features • features developing at around 20-30 years old. • myotonic facies (long, 'haggard' appearance), frontal balding, atrophy of temporalis, masseters and facial muscle, bilateral ptosis • cataracts • myotonia (tonic spasm of muscle), slow-relaxing grip may be noticed on initial hand-shake with the patient and is typical of myotonic dystrophy. • weakness of arms and legs (distal initially) • mild mental impairment • diabetes mellitus (Insulin resistance) • testicular atrophy • Dysarthric speech secondary to myotonia of the tongue and pharynx • cardiac involvement: heart block, cardiomyopathy • dysphagia Diagnosis • Serology →increased serum CK • Electromyogram (EMG) → the most appropriate next step to confirm the diagnosis EMG changes → Waxing and waning of potentials , termed the “dive bomber effect” • Muscle biopsy • Genetic testing: the gold standard for confirming the diagnosis Treatment: mostly symptomatic • for weakness which is the main cause of disability →there is no treatment • for myotonia →phenytoin, quinine or procainamide may be useful , mexiletine is a sodium channel blocker often used for myotonic symptoms. • for cardiac abnormalities →pacemaker • for obstructive sleep apnea → CPAP • Foot drop can be managed with →ankle-foot orthosis and splints. • For ptosis : lid-lifting surgery has no place except in severe cases • may need cataract extraction. • Genetic counseling and testing Prognosis • The course is chronic progressive. • Cardiac complications reduce life expectancy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Top Tips Dystrophinopathies Overview • X-linked recessive Affected father (Y, X):  All sons will not be affected and not carriers (His sons will get the X chromosome from their mother)  All his daughters will be carriers Carrier mother (X , X):  50% of sons will be affected (there is a 1 in 2 chance (50:50) of passing the gene on to their sons.) • due to mutation in the gene encoding dystrophin, dystrophin gene on Xp21 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • dystrophin is a protein in muscle which connects the muscle membrane to actin, part of the muscle cytoskeleton Diagnostic investigations • 1st investigations to order serum CK  50 to 100 times normal level consistent with Duchenne muscular dystrophy genetic testing  DNA analysis Xp21 mutation may present in both Duchenne and Becker muscular dystrophies • Investigations to consider EMG  EMG can distinguish between neuropathic and myopathic pathology.  myopathic reading with fast firing, short duration but polyphasic and decreased amplitude motor units with early recruitment in the affected muscles muscle biopsy  absence of dystrophin Duchenne muscular dystrophy  diminished quantity or quality of dystrophin Becker muscular dystrophy Duchenne muscular dystrophy (DMD) • most common and most rapidly progressive muscular dystrophy • there is a frameshift mutation resulting in one or both of the binding sites are lost leading to a severe form • progressive proximal muscle weakness from 5 years Usually, there is severe progression with wheelchair dependence by the age of 12 on average Death usually occurs as a teenager or in the early 20s from respiratory failure. • calf pseudohypertrophy • Gower's sign: child uses arms to stand up from a squatted position • intellectual impairment (30%) • urinary and bowel incontinence (common) • DMD patients tend to be hyperactive and have difficulty in focusing attention. Becker muscular dystrophy • there is a non-frameshift insertion in the dystrophin gene resulting in both binding sites being preserved leading to a milder form • develops after the age of 10 years • Similar type of disease to Duchenne's, with a later onset (average age at presentation 12 years), milder phenotype and longer life expectancy • intellectual impairment much less common • Occasionally, patients present with CHF and cardiac arrhythmias before complaining of muscle weakness and before diagnosis. Facio-scapulo-humeral muscular dystrophy (FSHMD) • autosomal dominant form of muscular dystrophy. • As the name suggests it is typically affects the face, scapula and upper arms first. • Symptoms typically presents by the age of 20 years. • may go unrecognised until later life Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • The presence of distal wasting and pes cavus (indicates a very chronic neuromuscular disorder with axonal loss) Oculopharyngeal muscular dystrophy • ptosis • weakness of the extraocular muscles • dysphagia • tongue atrophy Foster-Kennedy syndrome Foster Kennedy's syndrome is a combination of optic atrophy and central scotoma, contralateral papilloedema and anosmia. Overview • Foster-Kennedy syndrome describes a series of symptoms and signs associated with frontal lobe lesions. • It is caused by optic and olfactory nerve compression and raised intracranial pressure. • This is often secondary to a mass such as an olfactory groove meningioma. Features • optic atrophy in the ipsilateral eye • central scotoma in the ipsilateral eye • papilloedema in the contralateral eye • anosmia • symptoms of raised intracranial pressure such as nausea and vomiting, • frontal symptoms such as emotional lability and memory loss. The presence of optic atrophy on one side with contralateral papilloedema is characteristic of Foster Kennedy syndrome as it is usually due to frontal tumour or tumour within the olfactory bulb compressing the ipsilateral optic nerve and causing raised intracranial pressure. Hypokalaemic periodic paralysis and thyrotoxic periodic paralysis Epidemiology • Most commonly seen in Asian men in their third to fifth decades • The prevalence is much higher in patients with thyrotoxicosis of Chinese origin versus Caucasians, (13-14% vs. 0.1-0.2%). • occurs in 10% of young Latin American or Asian men with thyrotoxicosis (of whatever aetiology). Pathophysiology • autosomal dominant disorder • The underlying defect is a mutation in muscle voltage-gated calcium channels. • Increase Na+/K+-ATPase activity → shift of potassium into tissues Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Episodes of paralysis: sudden onset of complete weakness with speedy recovery. Attacks of focal or generalized flaccid muscle weakness (periodic paralysis) Proximal muscles are more prominently affected; respiratory and facial muscles are generally spared Variable duration (hours to days) Concomitant fatigue, muscle pain, and/or altered state of consciousness during the attacks Neurological examination is usually normal between attacks. • Attacks may be precipitated by: Carbohydrate-rich meals Exercise Stress • May associate with thyrotoxicosis With thyrotoxicosis called →Thyrotoxic hypokalaemic periodic paralysis Without thyrotoxicosis called →hypokalaemic periodic paralysis. Diagnosis • ↓ K+, documentation of hypokalaemia during an attack • ↓ TSH, ↑ T3, T4 hormones (Thyrotoxic periodic paralysis) Management • Potassium infusion →provide immediate relief from symptoms • Continuous cardiac monitoring • Lifelong potassium supplementation • The periodic paralysis resolves when the thyrotoxicosis is treated. • Non-selective beta-blocker such as propranolol blunts the hyperadrenergic stimulation of Na+/K+-ATPase and thus prevents intracellular shift of potassium and phosphate. Neuromyelitis optica (NMO) Definition • demyelinating disease involving the optic nerves and spinal cord but sparing the brain. Features • monophasic or relapsing-remitting • particularly prevalent in Asian populations • Vomiting is also a common presenting complaint. Diagnostic criteria: bilateral optic neuritis, transverse myelitis and 2 of the following 3 criteria: Spinal cord lesion involving 3 or more spinal levels Initially normal MRI brain Aquaporin 4 positive serum antibody The classic antibody associated with neuromyelitis optica is NMO-IgG or antibodies against aquaporin-4. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Vertigo Overview • Vertigo is a sensation of spinning while you’re actually stationary. • Vertigo is caused most often by inner ear disease but can also be caused by disease of the vestibular nerve, brainstem, or cerebellum. • Inner ear causes of vertigo include benign paroxysmal positional vertigo (BPPV), labyrinthitis, and Ménière disease. • Horizontal-rotational nystagmus is associated with peripheral vertigo, whereas vertical nystagmus is associated with central vertigo. Common causes of vertigo Disorder Notes Labyrinthitis Recent viral infection or head trauma Sudden onset Nausea and vomiting Typically has associated tinnitus and a history of infection. Hearing may be affected Vestibular neuritis Recent viral infection Recurrent vertigo attacks lasting hours or days No hearing loss Benign paroxysmal positional vertigo Gradual onset Triggered by change in head position Each episode lasts 10-20 seconds Meniere's disease Associated with hearing loss, tinnitus and sensation of fullness or pressure in one or both ears Vertebrobasilar ischaemia Elderly patient Dizziness on extension of neck Acoustic neuroma Hearing loss, vertigo, tinnitus Absent corneal reflex is important sign Associated with neurofibromatosis type 2 Distinguishing vertigo of brainstem and cerebellar ischemia from peripheral causes The HINTS exam is a three-part, rapid beside oculomotor test used to help differentiate central from peripheral vertigo. HINTS stands for Head Impulse, Nystagmus and Test of Skew. The test consists of three parts: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 1 – Patients with peripheral vertigo will have abnormal (positive) head impulse testing, while patients with central vertigo typically have a normal (negative) head impulse test. 2 – Patients with peripheral vertigo will have unidirectional, horizontal nystagmus, while patients with central vertigo can have rotatory or vertical nystagmus, or direction-changing horizontal nystagmus. 3 – Alternate eye cover testing may reveal skew deviation in patients with central vertigo, and should be absent in peripheral vertigo. Any of the following, whether present or untestable, suggest a brainstem or cerebellar lesion: • Normal head impulse test on both sides • Direction-changing nystagmus • Skew deviation The presence of all of the following suggests a peripheral lesion: • An abnormal head impulse test on one side • Unidirectional, horizontal, torsional nystagmus that increases in intensity with gaze toward the fast phase • Absent skew The importance of these oculomotor tests is that brain imaging with either CT or MRI may be normal during the acute phase of ischemic symptoms. In this regard, the HINTS test appears to be more sensitive for the diagnosis of acute stroke than even brain MRI within the first two days after symptom onset Benign paroxysmal positional vertigo (BPPV) Overview • vertigo triggered by change in head position (e.g. rolling over in bed or gazing upwards) • may be associated with nausea • each episode typically lasts 10-20 seconds Features Vertigo and nausea, with nystagmus, fit best with benign paroxysmal positional vertigo, which occurs due to otolith detachment into the semicircular canals of the inner ear. Diagnosis • Positive Dix-Hallpike manoeuvre First-line test for suspected BPPV Positive Dix-Hallpike test: positional vertigo and nystagmus triggered during the maneuver Further steps for positive test: Perform Epley repositioning maneuver. Treatment • Symptomatic relief may be gained by Epley manoeuvre (successful in around 80% of cases) • Medication is often prescribed (e.g. Betahistine) but it tends to be of limited value. 031 - Chapter 4 031 Chapter 4 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Prognosis • BPPV has a good prognosis and usually resolves spontaneously after a few weeks to months. MRCPUK-part-1-May 2017 exam: H/O vertigo and dizziness precipitated by a change in head position. What is the most appropriate next step to confirm the diagnosis? Dix-Hallpike manoeuvre Meniere's disease Definition • Meniere's disease is a disorder of the inner ear of unknown cause. • characterised by excessive pressure and progressive dilation of the endolymphatic system. Epidemiology • more common in middle-aged adults but may be seen at any age. • similar prevalence in both men and women. Features • Recurrent episodes of vertigo, (the prominent symptom) • Tinnitus and hearing loss (sensorineural). • Sensation of aural fullness or pressure • Nystagmus • Positive Romberg test • Episodes last minutes to hours • Typically, symptoms are unilateral but bilateral symptoms may develop after a number of years Natural history • symptoms resolve in the majority of patients after 5-10 years • the majority of patients will be left with a degree of hearing loss • psychological distress is common Management • patients should inform the DVLA. The current advice is to cease driving until satisfactory control of symptoms is achieved • Acute attacks: buccal or intramuscular prochlorperazine. • Restriction of salt and fluid may hasten resolution. MRCPUK-part-1-May 2013 exam: H/O recurrent attacks of 'dizziness' + 'roaring' sensation in the left ear. Weber's test localises to the right ear. What is the most likely diagnosis? Meniere's disease _Vestibular neuronitis Definition • Vestibular neuronitis is a cause of vertigo that often develops following a viral infection. Features • recurrent vertigo attacks lasting hours or days • nausea and vomiting may be present • horizontal nystagmus is usually present • no hearing loss or tinnitus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • vestibular rehabilitation exercises are the preferred treatment for patients who experience chronic symptoms • betahistine is often used although the evidence base suggests it is less effective than vestibular rehabilitation Tinnitus Causes of tinnitus Meniere's disease Associated with hearing loss, vertigo, tinnitus and sensation of fullness or pressure in one or both ears Otosclerosis Onset is usually at 20-40 years Conductive deafness Tinnitus Normal tympanic membrane (10% of patients may have a 'flamingo tinge', caused by hyperaemia) Positive family history Acoustic neuroma Hearing loss, vertigo, tinnitus Absent corneal reflex is important sign Associated with neurofibromatosis type 2 Hearing loss Causes include excessive loud noise and presbycusis Drugs Aspirin Aminoglycosides Loop diuretics Quinine The combination of sensorineural deafness, facial nerve palsy and cranial nerve V involvement suggests a cerebellopontine angle tumour, for example, acoustic neuroma. Other causes include • impacted ear wax • chronic suppurative otitis media 0BClinical physiology of the ear • The scala media contains the organ of Corti, which produces nerve impulses in response to sound vibrations. • High-frequency waves are detected in the scala vestibuli. • Low-frequency waves are detected in the scala tympani. • Normal hearing frequency ranges from 20 to 20 000 Hz. Chapter 4 Neurology Hearing loss Conductive hearing loss Sensorineural hearing loss Age of Onset • commonly in childhood or young adulthood Aetiology • Otosclerosis • Otitis media • Ear barotrauma • Cerumen Impaction • External auditory canal atresia Pathophysiology • External or middle ear pathology that disrupts conduction of sound into the inner ear Clinical Features • Hearing improves in noisy environments • Volume of voice remains normal because inner ear and auditory nerve are intact • Sound normally is not distorted • Features of external auditory canal pathology (e.g., cerumen impaction) Weber Test(unilateral hearing loss) • Lateralization to impaired ear (cannot hear ambient room noise well, so detection of vibration is greater) Rinne Test(unilateral hearing loss) • Bone conduction > air conduction (vibrations bypass blockage to reach the cochlea) Down syndrome : Hearing loss • 60%-70 develop conductive deafness due to glue ear • 10%-15% develop sensorineural deafness Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • commonly in middle or late age • Ménière's disease • Acoustic neuroma • Noise-induced hearing loss • Internal ear infections • Presbycusis • Inner ear, cochlear, or auditory nerve pathology that impairs neuronal transmission to the brain • Hearing worsens in noisy environments • Volume of voice may be loud because nerve transmissions are impaired • Tend to lose higher frequencies preferentially, such that sounds may be distorted • Absent features of external auditory canal pathology • Lateralization to good ear (sound is not transmitted by damage inner ear or auditory nerve) • Air conduction > bone conduction (the inner ear or auditory nerve cannot transmit sound information well regardless of how vibrations reach the cochlea) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Rinne's and Weber's test • Performing both Rinne's and Weber's test allows differentiation of conductive and sensorineural deafness. • Rinne's test tuning fork is placed over the mastoid process until the sound is no longer heard, followed by repositioning just over external acoustic meatus air conduction (AC) is normally better than bone conduction (BC) if BC > AC then conductive deafness • Weber's test tuning fork is placed in the middle of the forehead equidistant from the patient's ears the patient is then asked which side is loudest in unilateral sensorineural deafness, sound is localised to the unaffected side in unilateral conductive deafness, sound is localised to the affected side Motion sickness Overview • Motion sickness describes the nausea and vomiting which occurs when an apparent discrepancy exists between visually perceived movement and the vestibular systems sense of movement Management • the BNF recommends hyoscine (e.g. transdermal patch) as being the most effective treatment. Use is limited due to side-effects • non-sedating antihistamines such as cyclizine or cinnarizine are recommended in preference to sedating preparation such as promethazine Peripheral neuropathy Definitions • Allodynia: pain caused by a stimulus that does not normally cause pain (e.g. light touch, contact with clothing) • Dysesthesia: abnormal spontaneous sensations (burning, stinging, stabbing) from activities that do not normally cause pain) • Paresthesia: an abnormal skin sensation in the absence of a stimulus (described as burning, prickling, itching, tingling) • Hyperesthesia: increased sensitivity to sensory stimuli • Hypoesthesia: decreased sensitivity to sensory stimuli Classifications • neuropathy is classified into: mononeuropathy commonly due to entrapment or trauma; mononeuropathy multiplex commonly due to leprosy and vasculitis; and polyneuropathy due to systemic, metabolic or toxic etiology. • Peripheral neuropathy may be divided into conditions which predominately cause a motor or sensory loss Chapter 4 Neurology Predominately motor loss Predominately sensory loss • Guillain-Barre syndrome • porphyria • lead poisoning • hereditary sensorimotor neuropathies (HSMN) - Charcot-Marie-Tooth • chronic inflammatory demyelinating polyneuropathy (CIDP) • diphtheria Types • Large-fibre neuropathy the earliest clinically identifiable feature of peripheral sensory motor neuropathy. Reduced light pressure sensation and vibration sensation are the earliest clinically identifiable manifestations of large fibre neuropathy. Features  paraesthesia  glove and stocking sensory loss  increased risk of charcot arthropathy, particularly in association with autonomic nerve dysfunction.  reduced vibration and proprioception sensation,  loss of reflexes (diminished ankle jerks),  muscle wasting  increased blood flow. • Small-fibre neuropathy typically presents with pain and loss of temperature sensation, with relative preservation of other sensory modalities and muscle strength.  General neurological examination and reflexes are usually normal not detectable on conventional nerve conduction studies, which can only investigate large fibres. Causes of small fiber neuropathy  Diabetes is a common cause and should be excluded in any patient with a painful peripheral neuropathy. Conditions in which the small fibres are preferentially affected in the early stages include diabetes and amyloidosis. In the later stages however the neuropathy in these conditions also affects large fibres.  Amyloidosis  Fabry's disease X-linked lysosomal storage disorder causes a painful peripheral neuropathy, due to deposition of glycosphingolipids within small sensory fibres. Nerve conduction studies are typically normal as large fibres are unaffected.  Tangier's disease  Hereditary sensory and autonomic neuropathy  Sjogren's syndrome: pure sensory neuropathy (ganglionopathy).  Chronic idiopathic small fiber sensory neuropathy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • diabetes • uraemia • leprosy • alcoholism • vitamin B12 deficiency • amyloidosis • Sjogren's syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Small-fibre neuropathy Large-fibre neuropathy Loss of pain and temperature Loss of touch, vibration and position sense Sensory ataxia Preservation of reflexes and motor function Reflexes lost early and motor functions impaired Electrophysiological test is silent Skin biopsy are used Impaired nerve conduction velocity Biopsy in diagnosis of neuropathy Skin punch biopsy can be done if a small-fiber neuropathy is suspected; loss of nerve endings supports that diagnosis. Nerve biopsy is occasionally done to help differentiate demyelinating from vasculitic largefiber neuropathies. If vasculitis is a consideration, the biopsy specimen should include skin and muscle to increase the likelihood of a definitive diagnosis. If all limbs are affected, MRI can be done to rule out cervical spinal cord compression. Lead neuropathy • purely motor neuropathy affecting mainly the upper limbs. Thalamic infarcts neuropathy • commonly cause late-onset of severe neuropathic pain weeks to months after the stroke. • The pain is intractable to analgesics. • The treatment of choice for neuropathic pain is amitriptyline/gabapentin. Alcoholic neuropathy Epidemiology • Alcohol abuse and diabetes are the commonest causes of peripheral neuropathy in the United Kingdom. Pathophysiology • Typically, all fibre types are affected and it is seen with a higher alcohol consumption more than 30 units. • affects mainly the spinothalamic pathway. • secondary to both direct toxic effects and reduced absorption of B vitamins (thiamine deficiency) Features • slowly progressive • sensory symptoms typically present prior to motor symptoms • Pain is usually a more dominant feature Treatment • thiamine and cessation of alcohol use Chapter 4 Neurology Peripheral neuropathy: axonal vs. demyelinating Peripheral neuropathy Causes Nerve conduction studies • alcohol • isoniazid • Simvastatin Axonal • Diabetes mellitus* • vasculitis • vitamin B12 deficiency* • Renal failure • hereditary sensorimotor neuropathies (HSMN) type II (*may also cause a demyelinating picture) • Guillain-Barre syndrome • chronic inflammatory demyelinating polyneuropathy (CIDP) • Paraproteinaemia • Amiodarone (Amiodarone can cause a mixed demyelinating and axonal picture) Demyelinating • Refsum's disease • hereditary sensorimotor neuropathies (HSMN) type I (Charcot-Marie-Tooth disease) • Leukodystrophies. • Nerve conduction studies (NCS) are useful in determining between axonal and demyelinating pathology • Segmental demyelination is a feature seen in axons in the central nervous system with multiple sclerosis. Wallerian degeneration • Wallerian degeneration is degeneration of the portion of the nerve distal to the injury. • It occurs following axonal injury in both the peripheral and central nervous systems • usually begins within 24-36 hours of injury. Electromyogram (EMG) • A pattern of rapidly recruited low amplitude short duration motor units on the electromyogram (EMG) would be considered to represent myopathic changes rather than de-innervation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad (NCS) • normal conduction velocity • reduced amplitude • reduced conduction velocity • normal amplitude Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Drugs causing peripheral neuropathy • Antibiotics: nitrofurantoin, metronidazole • Amiodarone • Isoniazid • Vincristine • Tricyclic antidepressants Critical illness polyneuropathy • Prolonged periods in the Intensive Therapy Unit, irrespective of the underlying pathology, are associated with a risk of developing critical illness polyneuropathy • It is an axonal neuropathy and thus muscle wasting may occur • May be predominantly sensory, predominantly motor or mixed Chronic inflammatory demyelinating polyneuropathy (CIDP) Chronic inflammatory demyelinating polyneuropathy is clinically similar to Guillain-Barre syndrome (hyporeflexia or areflexia, paraesthesia and mild sensory deficits in the upper and lower extremities, weakness) except that it follows a chronic progressive course. Overview • CIDP is characterised by progressive weakness and impaired sensory function in the upper and lower limbs. • subacute sensory and motor peripheral neuropathy • The cause of the demyelination is not understood, • More common in young adults and in men. • mainly causes motor impairment (distal and proximal). • CIDP causes a large fibre peripheral neuropathy (Joint position sense and vibration are carried through large fibres) Features • weakness of the limbs • areflexia • abnormal sensation (which typically begins distally) • fatigue. • Autoantibodies against GM1 gangliosides Differential diagnosis CIDP is closely linked to Guillain-Barré syndrome (GBS), and is thought by some to be its chronic counterpart. Both CIDP and GBS can affect motor and sensory nerves (GBS) is an acute (which reaches its peak in severity within six weeks), postinfectious neuropathy Whereas CIDP is subacute (several months history) Hereditary motor and sensory neuropathy (HMSN) is normally a very chronic neuropathy developing over many years and usually with a family history of the condition. Treatment • Corticosteroids • plasmapheresis • Intravenous immunoglobulin • Physiotherapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Diabetic neuropathy(see endocrinology system) Neuropathic pain Definition • neuropathic pain may be defined as pain which arises following damage or disruption of the nervous system. • It is often difficult to treat and responds poorly to standard analgesia. Examples include: • diabetic neuropathy • post-herpetic neuralgia • trigeminal neuralgia • prolapsed intervertebral disc Management of neuropathic pain • first-line treatment: amitriptyline, duloxetine, gabapentin or pregabalin please note that for some specific conditions the guidance may vary. For example carbamazepine is used first-line for trigeminal neuralgia • if the first-line drug treatment does not work try one of the other 3 drugs • tramadol may be used as 'rescue therapy' for exacerbations of neuropathic pain • topical capsaicin may be used for localised neuropathic pain (e.g. post-herpetic neuralgia) • pain management clinics may be useful in patients with resistant problems January 2019 exam: severe 'shooting' pains after blistering rash. What is the most appropriate next step in management? Amitriptyline Autonomic neuropathy Features • impotence, inability to sweat, postural hypotension • postural hypotension e.g. drop of 30/15 mmHg • loss of decrease in heart rate following deep breathing • pupils: dilates following adrenaline instillation Causes • diabetes • Guillain-Barre syndrome • multisystem atrophy (MSA), Shy-Drager syndrome • Parkinson's • infections: HIV, Chagas' disease, neurosyphilis • drugs: antihypertensives, tricyclics • craniopharyngioma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hereditary sensorimotor neuropathy (HSMN) (Charcot-Marie-Tooth disease) Mixed motor and sensory symptoms, slowly progressing initially in the lower limbs and then to the upper limbs, together with a family history suggests a diagnosis of Hereditary sensorimotor neuropathy (HSMN) Definition • hereditary nerve disorders with defective production of peripheral myelin protein-22 which is involved in the structure and function of the myelin sheath. • Charcot-Marie-Tooth disease is the most commonly inherited neurological disorder, Genetics • autosomal dominant • caused by deletion in the PMP22 gene, the same gene mutation responsible for hereditary neuropathy with liability to pressure palsies. • Common peroneal nerve is the most commonly affected nerve (36%) followed by the ulnar nerve (28%). Types • HSMN type I the most common form primarily due to demyelinating pathology  hence C fibres are not affected, as they are unmyelinated.  Which nerve fibers are relatively preserved in this patient? C fibers due to defect in PMP-22 gene (which codes for myelin) loss of myelin in peripheral neurons features often start at puberty motor symptoms predominate distal muscle wasting, pes cavus, clawed toes foot drop, leg weakness often first features • HSMN type 2 primarily due to axonal pathology loss of peripheral neurone themselves Features • motor and sensory deficits. • early weakness of the distal muscles of the limbs. • scoliosis • pes cavus a deformity of the foot involving high arches, muscle wasting and clawed toes. Diagnosis • neurophysiology: Electromyography (EMG) and nerve conduction studies (NCS) may distinguish between the demyelinating (type 1) and axonal (type 2) forms. • Diagnosis confirmed by genetic testing. • Nerve biopsy, usually the sural nerve, will demonstrate "onion-bulb" formations due to continual remyelination and demyelination of peripheral nerves. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Management • The mainstay of the management is physical therapy. Prognosis • Life expectancy is normal. MRCPUK-part-1-September 2017 exam: A woman with Charcot-Marie-Tooth disease (type 1), how likely her children will get the disease? 50% (autosomal dominant) Mononeuritis multiplex Definition : ≥ 2 isolated mononeuropathies Causes • Axonal injury caused by damage to vasa nervorum • Occurs in conditions characterized by the development of granulomas and/or microangiopathy (e.g., diabetes mellitus, rheumatoid arthritis, vasculitides, SLE, Lyme disease, amyloidosis, HIV, polyarteritis nodosa) Features: painful, asymmetrical sensory and motor symptoms Diagnosis: Nerve biopsy should be performed to confirm the diagnosis Treatment: includes prednisolone and cyclophosphamide Refsum’s disease Overview • autosomal recessive disorder • caused by defective alpha oxidation of phytanic acid leading to its accumulation in tissues. • Phytanic acid is present in a wide variety of foods including dairy products, fish, beef and lamb. • The onset of the disease is normally in the late teens or 20s. Features • sensorimotor peripheral neuropathy • sensorineural deafness, • anosmia, • cerebellar ataxia • pes cavus. • Night blindness and visual problems occur secondary to retinitis pigmentosa. • Cardiac conduction abnormalities and cardiomyopathies may also occur. • Epiphyseal dysplasia causes a characteristic shortening of the fourth toe. • Serum phytanic acid levels are elevated. Treatment • dietary restriction of foods containing phytanic acid. Vasculitic neuropathy Overview • The presence of nail fold infarcts and the multifocal nature of the neuropathy indicate that a vasculitic cause is most likely • Hepatitis C infection may be associated with cryoglobulinaemia, which causes a vasculitic syndrome including neuropathy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Other conditions associated with vasculitic neuropathy include • Polyarteritis nodosa • Churg-Strauss syndrome • rheumatoid arthritis • systemic lupus erythematosus • systemic sclerosis • Wegener's granulomatosis Treatment include one or several of the following • high-dose intravenous steroids • plasma exchange • intravenous immunoglobulins Guillain-Barre syndrome FVC is used to monitor respiratory function in Guillain-Barre syndrome • also known as Post-infectious polyradiculopathy Definition • Guillain-Barre syndrome describes an immune mediated demyelination of the peripheral nervous system often triggered by an infection : classically Campylobacter jejuni cytomegalovirus Pathogenesis • cross reaction of antibodies with gangliosides in the peripheral nervous system • correlation between anti-ganglioside antibody (e.g. anti-GM1) and clinical features has been demonstrated • anti-GM1 antibodies in 25% of patients Features • characteristic features progressive weakness of all four limbs. The weakness is classically ascending i.e. the lower extremities are affected first, however it tends to affect proximal muscles earlier than the distal ones. Sensory symptoms tend to be mild (e.g. distal paraesthesia) with very few sensory signs. However, a sensory level is NOT a feature and would suggest cervical myelopathy symmetrical involvement is typical, asymmetry present in only 9% of patients. Some patients experience back pain in the initial stages of the illness. • Other features areflexia cranial nerve involvement e.g. diplopia autonomic involvement: e.g. urinary retention Muscle wasting is typical with prolonged illness. Bulbar involvement occurs in 50%, with a risk of aspiration and respiratory insufficiency urinary incontinence or retention (in 20% of cases). • Less common findings papilloedema: thought to be secondary to reduced CSF resorption Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Investigations • CSF analysis elevated protein, with normal glucose and no pleocytosis. a rise in CSF protein doesn’t peak until the second or third week of the illness. CSF cell counts are usually within normal limits, • Nerve conduction studies (including F waves for the proximal spinal root, looking for widespread demyelination) • MRI may be indicated to rule out spinal cord lesions, peripheral neuropathies and neuromuscular junction disorders. Management • IV immunoglobulins (IVIG): First line therapy. as effective as plasma exchange. No benefit in combining both treatments. IVIG may be easier to administer and tends to have fewer side-effects • plasma exchange • steroids and immunosuppressants have not been shown to be beneficial • FVC regularly to monitor respiratory function . FVC of less than 1 litre would be an indication for immediate ventilation Forced vital capacity of 1.4 L is most likely to predict the need for invasive ventilation FVC of less than 15ml/kg (or less than 30% of FVC predicted) or a rising PaCO2 are indications for mechanical ventilation. Prognosis • 20% suffer permanent disability, 5% die • Poor prognostic features age > 40 years poor upper extremity muscle strength previous history of a diarrhoeal illness (specifically Campylobacter jejuni) high anti-GM1 antibody titre need for ventilatory support There is currently contradictory evidence as to whether a gradual or rapid onset of GBS is associated with a poor outcome MRCPUK-part-1-January 2008 exam: Regarding nerve conduction studies for suspected Guillain-Barre syndrome. Which finding would be most consistent with this diagnosis? Reduced conduction velocity MRCPUK-part-1-May 2019 exam: a patient developed weakness in his legs extended to his arms after viral illness. ↓↓ power, reflexes and sensation in his lower limbs. Developed SOB &↓↓ (FVC). Given the likely diagnosis, what is the treatment of choice? Intravenous immunoglobulin (Guillain-Barre syndrome (GBS) secondary to a viral illness, possibly the Epstein-Barr virus) MRCPUK-part-1-May 2020 exam: H/O double vision & ↓↓ eye movement + unsteadiness + ↓↓ reflexes + past-pointing. What is the most likely diagnosis? Miller Fisher syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Miller Fisher syndrome • areflexia, ataxia, ophthalmoplegia • variant of Guillain-Barre syndrome • associated with ophthalmoplegia, areflexia and ataxia. The eye muscles are typically affected first • usually presents as a descending paralysis rather than ascending as seen in other forms of Guillain-Barre syndrome • anti-GQ1b antibodies are present in 90% of cases DVLA: neurological disorders • The guidelines below relate to car/motorcycle use unless specifically stated. • For obvious reasons, the rules relating to drivers of heavy goods vehicles tend to be much stricter Specific rules • First seizure: 6 months off driving*. *previously rule was 12 months. It is now 6 months off driving if the licence holder has undergone assessment by an appropriate specialist and no relevant abnormality has been identified on investigation, for example EEG and brain scan where indicated • For patients with established epilepsy they must be fit free for 12 months before being able to drive • Stroke or TIA: 1 month off driving • Multiple TIAs over short period of times: 3 months off driving • Craniotomy e.g. For meningioma: 1 year off driving if the tumour is a benign meningioma and there is no seizure history, licence can be reconsidered 6 months after surgery if remains seizure free • Pituitary tumour: craniotomy: 6 months; trans-sphenoidal surgery 'can drive when there is no debarring residual impairment likely to affect safe driving' • Glioblastoma A patient with a high-grade glioma (that is, WHO grade 3 or 4) such as a glioblastoma will be unable to drive for at least two years following completion of treatment. After the two years have elapsed the DVLA will consult with the physicians involved in the patient's care and a decision is made regarding return of the licence. • Brain metastases solitary metastatic deposit that is fully excised would be considered for a licence one year after primary treatment if free from recurrence and no evidence of secondary spread elsewhere. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology multiple metastases would require at least two years off driving from time of completion of treatment. After the two years have elapsed the DVLA will consult with the physicians involved in the patient's care and a decision is made regarding return of the licence. • Narcolepsy/cataplexy: cease driving on diagnosis, can restart once 'satisfactory control of symptoms' • Chronic neurological disorders e.g. multiple sclerosis, motor neuron disease: DVLA should be informed, complete PK1 form (application for driving licence holders state of health) • Syncope simple faint: no restriction single episode explained and treated: 4 weeks off single episode, unexplained: 6 months off two or more episodes: 12 months off Susac syndrome • Susac syndrome presents with the triad of: Encephalopathy branch retinal artery occlusion and hearing loss • Due to involvement of the pre-capillary arterioles of the brain, retina and cochlea. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Altitude related disorders Types • There are three main types of altitude related disorders: • All three conditions are due to the chronic hypobaric hypoxia which develops at high altitudes acute mountain sickness (AMS),  Features of AMS start to occur above 2,500 - 3,000m,  developing gradually over 6-12 hours and potentially last a number of days headache nausea fatigue  Prevention and treatment of AMS the risk of AMS may actually be positively correlated to physical fitness gain altitude at no more than 500 m per day acetazolamide (a carbonic anhydrase inhibitor) is widely used to prevent AMS and has a supporting evidence base  Treatment: Descent generally a self-limiting condition. high altitude pulmonary edema (HAPE)  A minority of people above 4,000m go onto develop high altitude pulmonary oedema (HAPE)  potentially fatal conditions  HAPE presents with classical pulmonary oedema features  Management of HAPE descent nifedipine, dexamethasone, acetazolamide, phosphodiesterase type V inhibitors All seem to work by reducing systolic pulmonary artery pressure oxygen if available high altitude cerebral edema (HACE).  A minority of people above 4,000m go onto develop high altitude cerebral oedema (HACE),  potentially fatal conditions  HACE presents with headache, ataxia, papilloedema  Management of HACE descent dexamethasone Complex regional pain syndrome (CRPS) • (CRPS) is the modern, umbrella term for a number of conditions such as reflex sympathetic dystrophy and causalgia. • (CRPS) is a chronic pain condition that can affect any area of the body, but often affects an arm or a leg, and occurs after an injury or rarely after a sudden illness such as a heart attack or stroke. typically occur following surgery or a minor injury. • The condition can sometimes appear without obvious injury to the affected limb. • 3 times more common in women. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • CRPS may have three stages (acute, dystrophic, and atrophic), with variable progression from one stage to another. There are two types of CRPS: • type I (most common): there is no demonstrable lesion to a major nerve • type II: there is a lesion to a major nerve Character of the pain • intense and burning • disproportionate to the original injury • worse over time • Spreads beyond the site of injury and • associated with hyperalgesia, hyperpathia or allodynia on examination. These features do not occur in DVT, osteomyelitis, or cellulitis. Features • progressive, disproportionate symptoms to the original injury/surgery • allodynia • temperature and skin colour changes • oedema and sweating • motor dysfunction • the Budapest Diagnostic Criteria are commonly used in the UK Diagnosis • clinical diagnosis • Plain radiographs may show soft tissue swelling, peri-articular osteoporosis, and rarely erosions • MRI may also show bone marrow oedema apart from these changes In the atrophic phase, imaging may show contractures. • 99mTc bone scan shows hypervascularity in the acute phase, and hypovascularity in the Management • early physiotherapy is important • neuropathic analgesia in-line with NICE guidelines • specialist management (e.g. Pain team) is required Dystonia Definition: • involuntary sustained or spasmodic muscle contractions Types • Focal dystonias Involves a single body part Cervical dystonia, or torticollis, is the most common focal dystonia. In 20-30% of patients, focal dystonias become segmental or multifocal. Blepharospasm is a type of dystonia described as a sustained eyelid twitch.  It is associated with stress, lack of sleep, nutrition, and strain. writer's cramp dystonia or musician's dystonia  A common upper limb dystonia  This task-specific dystonia, manifesting as hyperextension or hyperflexion of the wrist and fingers, unable to write  may be triggered by repetitive activities such as writing and attempting to play the piano or other musical instruments. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad often relieved by a geste antagoniste, in which palpation of another unaffected part of the body leads to relief of symptoms, thought to be a result of alternative sensory input to cortical networks with altered plasticity. • Segmental dystonia Affects 2 or more contiguous regions of the body • Multifocal dystonia Consists of abnormalities in noncontiguous body parts • Generalised dystonias, involve a greater number of muscle groups. involves the trunk and limbs. Treatment • Benztropine is an anti-cholinergic drug that is used in the treatment of Parkinson's disease, Parkinsonism, and acute dystonia. Cervical dystonia (torticollis) • The term torticollis is derived from the Latin words tortus for twisted neck • Torticollis is a fixed or dynamic tilt, rotation, or flexion of the head and/or neck. • involuntary neck movements • commonly affects women • Secondary causes need to be excluded such as drugs (eg neuroleptics) and cervical spine abnormalities • Botulinum toxin injection is the first-line treatment for cervical dystonia (torticollis) Botulism Descending weakness with autonomic dysfunction (fixed dilated pupils) is typical of botulism. Definition • Botulism is a neurological disorder caused by Clostridium botulinum and is characterized by flaccid paralysis due to inhibition of acetylcholine release at the neuromuscular junction. Features • The clinical presentation of descending weakness with autonomic dysfunction (fixed dilated pupils) is typical of botulism. • Typical initial features include: Diplopia Ptosis Facial weakness Dysarthria, and Dysphagia. • Later, respiratory difficulty and limb weakness occur. • impaired cholinergic transmission also involves autonomic synapses, causing poorly reactive dilated pupils, dry mouth, paralytic ileus and occasionally bradycardia. • Reflexes are depressed or absent, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Investigations • It is a neuromuscular junction disorder and therefore nerve conduction studies and EMG are normal. • Cerebrospinal fluid analysis is usually normal. • Repetitive nerve stimulation shows incremental responses, which is diagnostic of botulism. • sensation is normal Treatment • Heptavalent antitoxin is the most appropriate therapy Botulinum toxin • Botulinum toxin is produced by Clostridium botulinum, a Gram-positive, sporeforming, obligate anaerobe • Botulinum toxin type A (or trade name Botox®) Action • block acetylcholine release at the neuromuscular junction and so to produce muscle weakness. • myasthenia gravis would be expected to worsen with this treatment Indications • Botulinum toxin is the treatment of choice for focal dystonia (such as torticollis, and hemi-facial spasm) and focal dystonia. • Botulinum toxin injections are also used in patients with: hemifacial spasm blepharospasm spasticity  spasticity associated with stroke  spasticity associated with cerebral palsy Primary axillary hyperhidrosis Strabismus Cervical dystonia. Side effects • Occasionally systemic absorption of the toxin can affect distal muscles causing symptoms such as diplopia and dysphagia. • The main side-effect is excessive weakness in the treated muscle Contra-indications • myasthenia gravis • other generalised muscle conditions Paraneoplastic cerebellum syndrome The patient with progressive ataxia and dysarthria following malignancy Causes • Associated malignancies are lung cancer (usually with small cell lung carcinoma), breast cancer, ovarian cancer and lymphoma Features • include ataxia, dysarthria, vertigo, oscillopsia, nystagmus and dysmetria Investigations • Brain imaging and CSF analysis are either normal or show non-specific changes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • antibodies anti-Hu antibody (a type of antineuronal antibody) anti-Purkinje-cell antibodies • CT chest, abdomen and pelvis and mammogram are required to look for a primary neoplasm. • A whole body positron emission tomography (PET) scan is preferable but not widely available. Treatment • Occasionally patients respond to steroids, immunoglobulins or plasmapheresis. Lumbosacral plexopathy The patient presents with generalised weakness of the right leg associated with pelvic pain, leg oedema and autonomic dysfunction. The most likely diagnosis is a lumbosacral plexopathy. Overview • Anatomically, the lumbosacral plexus consists of lumbar (L1-L4) and sacral (S1-S5) portions. • Upper: lumbar plexus lesion will cause weakness of hip flexion and adduction of the thigh and extension of the leg with anaesthesia over the anterior thigh and leg. • Lower: sacral plexus lesions will weaken the posterior thigh and foot muscles. • Lesions affecting the entire plexus will affect all muscle groups causing weakness or paralysis of the leg, areflexia and anaesthesia from the toes, to involve the perianal area. Causes • Trauma: Posterior hip dislocation, Sacral fracture • Metabolic, inflammatory, and autoimmune causes: DM (diabetic amyotrophy), Amyloidosis, Sarcoidosis • Infections and local abscess (e.g. vertebral osteomyelitis, tuberculosis, fungal infections, psoas abscess) • Radiation therapy of the abdominal and pelvic malignancies. • Pregnancy-related: Mostly occur in the third trimester and after delivery due to birth trauma. • Damage to the vasculature innervating the LS plexus: femoral vessel catheterization Epidemiology • More common in women due to the predisposing risk factors of pregnancy and gynecological cancers. Pathophysiology • Direct injury, compression or traction on the plexus (Trauma, tumor, hematoma • Microvascular injury and ischemic damage (Radiation) • Inflammatory or microvascular changes (Diabetic and non-diabetic) Features • Low back pain radiating to one side. Pain may be positional, worse in a supine position. Patients with diabetic LS plexopathy (diabetic amyotrophy) typically complain of unilateral pain in the proximal thigh. lumbosacral plexopathy secondary to radiotherapy is usually painless. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology • Muscle weakness and atrophy may occur in severe cases. • A straight leg raise test is positive in more than half of the patients. • Knee jerk reflex is affected in lumbar plexopathy and ankle jerk is affected in sacral plexopathy. • Muscle weakness in hip flexion, knee extension, or adduction suggests a possible injury to the lumbar plexus. • Sensory changes ((numbness, paresthesias, dysesthesias (painful sensations elicited by nonpainful cutaneous stimuli, e.g., light touch)). Medial thigh, anterior thigh, and medial suggest lumbar plexus involvement Posterior thigh, dorsum of the foot, and perineum suggest sacral plexus involvement. A history of a road traffic accident, abdominopelvic neoplasm, radiotherapy, abdominal surgery, diabetes mellitus, bleeding disorders, or recent pregnancy hints towards lumbosacral plexopathy and narrows down the etiology. Radiation plexopathy can often present without pain, only weakness and sensory changes. Unlike other types of plexopathy, it is usually bilateral and can occur even years after radiation. Diagnosis • MRI with gadolinium contrast is the best test for the evaluation of the LS plexus. • When there are contraindications to MRI (e.g., a noncompatible pacemaker), a computed tomography (CT) scan with contrast can be utilized. • Electromyography (EMG) differentiate lumbosacral plexopathy from other types of neuropathy or radiculopathies. Denervation of the paraspinal muscles is commonly seen in radiculopathy and helps to differentiate from lumbosacral plexopathy. Treatment • Treatment of underline cause: e.g. relieve of compression • Symptomatic treatment with analgesics and muscle relaxants: Compression: NSAIDs, opioids Neuropathic pain: pregabalin, gabapentin, duloxetine, amitriptyline Diabetic amyotrophy is a transient condition that usually resolves with good glycemic control. • For radiation-induced plexopathy: there are no known treatments , physiotherapy and rehabilitation are the mainstays of treatment. Further radiotherapy sessions should be discontinued. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Cervical roots Root Dermatome distribution Myotome distribution Tendon reflex C2 Posterior half of the skull (cap) C3 High turtleneck shirt C4 Upper outer shoulder, Low-collar shirt Shoulder abduction Nil C5 Outer arm, forearm Shoulder abduction, elbow flexion Bicep C6 Index and thumb Wrist extension Supinator C7 Middle finger centre of palm Finger and elbow extension Triceps C8 Little and ring finger, ulnar border of hand Wrist/finger flexion Finger jerk Symptoms and signs of a C6 root lesion include • Paraesthesias in the thumb or lateral distal forearm • Weakness of brachioradialis, biceps, or triceps and • Diminished biceps and brachioradialis reflexes in conjunction with an increased triceps reflex. Spinal lesion at the level of C8: • Weakness of finger flexion + Loss of sensation over the medial aspect of the arm; forearm and hand (Lateral aspect of arm is C5) Erb-Duchenne palsy ('waiter's tip') • due to damage of the upper trunk of the brachial plexus (C5,C6) • may be secondary to shoulder dystocia during birth • the arm hangs by the side and is internally rotated, elbow extended Weakness of shoulder abduction • May be due to C5 or an axillary nerve lesion: C5 lesion  weakness of biceps (C5, C6)  loss of the sensation of the lateral aspect of the upper arm Axillary nerve lesion  spinal root : C5/C6 C6: Make a 6 with your left hand by touching the tip of the thumb & index finger together Winging of the scapula is caused by paralysis of the long thoracic nerve to serratus anterior (C5, 6, 7). Chapter 4 Neurology  motor function: innervate teres minor and deltoid muscles  sensory function: give rise to superior lateral cutaneous nerve of arm which innervate the skin over the lower deltoid (regimental badge area)  loss of sensation of the regimental badge area • Absence of sensory loss indicates a lesion at the anterior horn cell. Thoracic roots Root Dermatome Myotome Reflex T 4 Nipples T 5 Inframammary fold T 7 Xiphoid process T 10 Umbilicus T1 nerve root injury: damage to both the median and ulnar nerves Global muscle wasting of the hand Lumber roots Root Dermatome Myotome Reflex L1 Inguinal ligament L2 Upper anterior and medial thigh Psoas hip abductor L3 Mid anterior and medial thigh Psoas quadriceps Patella (L3,L4) L4 Knee caps, medial aspect of leg, lower lateral thigh L5 Big toe, dorsum of foot (except lateral aspect), lateral aspect of leg L1: Inguinal ligament (L for ligament, 1 for 1nguinal) The L4 dermatome is located at the knee caps L5 = Largest of the 5 toes L5 lesion features: loss of foot/big toe dorsiflexion + sensory loss dorsum of foot Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Tibialis anterior, extensor halluces Patella (L3,L4) Extensor halluces, peroneal, gluteus medias, dorsiflexors, hamstrings L5 has no reflex. Therefore, an acute lumber disc prolapse resulting in L5 radiculopathy is commonly misdiagnosed as malingering. Sacral roots Root Dermatome Myotome Reflex S1 Lateral foot, small toe. sole of the foot, Posterior, lateral thigh and calf S2 Popliteal fossa Ankle (S1, S2) S3 -5 Medial buttock and perianal skin in a concentric manner with S3 most lateral and S5 closest to the anus Deep tendon reflexes: which test for which nerve root? C5 – Biceps C6 – Biceps, Brachioradialis C7 – Triceps L4 – Patellar (knee jerk) (femoral nerve mediated) S1 – Achilles (ankle jerk) (tibial nerve mediated) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Peroneal planter flexor Ankle (S1, S2) Bladder, rectum S2-4 reflex is part of the anocutaneous reflex or anal wink. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Inverted brachioradialis reflex (inverted supinator jerk): • An inverted supinator jerk, where the biceps jerk is absent but generates a supinator jerk with reflex flexion of the fingers, is indicative of cervical myelopathy with C5/6 nerve root damage. MRCPUK-part-1-September 2019 exam: H/O neck & arm pain like 'electric shocks’, worse on turning head + decreased sensation on the dorsal aspect of the thumb and index finger. What is the most likely underlying diagnosis? C6 radiculopathy MRCPUK-part-1-septemer-2017: Which nerve (and its nerve root) are you tested in triceps reflex? Radial nerve C7 Which spinal dermatome is responsible for the initial vague periumbilical discomfort in appendicitis? T10 mrcpuk.org SCE sample question: H/O pain affecting buttock region and the lateral border and sole of his foot, in association with paraesthesiae of the sole on walking. What is the correct nomenclature for the nerve root from which these symptoms have arisen? S1 ( The S1 nerve root is mapped to the sole of the foot) 032 - Pages 776-800 032 Pages 776-800 Upper limb anatomy The information below contains selected facts which commonly appear in examinations: Nerve Motor Sensory Musculocutaneous nerve (C5-C7) Elbow flexion (supplies biceps brachii) and supination Axillary nerve (C5, C6) Shoulder abduction (deltoid muscle) Radial nerve (C5C8) Extension (forearm, wrist, fingers, thumb) Median nerve (C6, C8, T1) LOAF* muscles Features depend on the site of the lesion: • wrist: paralysis of thenar muscles, opponens pollicis • elbow: loss of pronation of forearm and weak wrist flexion Ulnar nerve (C8, T1) Intrinsic hand muscles except LOAF* Wrist flexion Long thoracic nerve (C5-C7) Serratus anterior Often during sport e.g. following a blow to the ribs. Also possible complication of mastectomy Damage results in a winged scapula *LOAF muscles • Lateral two lumbricals • Opponens pollis • Abductor pollis brevis • Flexor pollis brevis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Typical mechanism of injury & notes Lateral part of the forearm Isolated injury rare - usually injured as part of brachial plexus injury Inferior region of the deltoid muscle Humeral neck fracture/dislocation Results in flattened deltoid Small area between the dorsal aspect of the 1st and 2nd metacarpals Humeral midshaft fracture Palsy results in wrist drop Palmar aspect of lateral 3 and half fingers Wrist lesion → carpal tunnel syndrome Medial 1and half fingers Medial epicondyle fracture Damage may result in a 'claw hand' Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Radial nerve Overview • arises from the posterior cord of the brachial plexus (C5-8) • It is susceptible to compression or traumatic damage as it winds around the humerus (including ‘Saturday night palsy’, a pressure palsy sustained while sleeping in an awkward position under the influence of alcohol), • may also be compressed in the axilla (eg from using a crutch). Regions innervated Motor (main nerve) • Triceps • Anconeus • Brachioradialis • Extensor carpi radialis Motor (posterior interosseous branch) • Supinator • Extensor carpi ulnaris • Extensor digitorum • Extensor indicis • Extensor digiti minimi • Extensor pollicis longus and brevis • Abductor pollicis longus Sensory • Dorsal aspect of lateral 3 1/2 fingers • The commonest site of sensory loss is at the anatomical snuffbox (small area between the dorsal aspect of the 1st and 2nd metacarpals) Patterns of damage • wrist drop with hand pronation and thumb adduction • sensory loss to small area between the dorsal aspect of the 1st and 2nd metacarpals Axillary damage • as above • paralysis of triceps Features according to site of damage Site of lesion Sensory symptoms Motor symptoms Axilla • All below • All below • Paralysis of triceps m Mid-arm • All below • Numbness, paresthesia, pain along lateral posterior arm extensors (hand, finger and wrist joint). Elbow (radial tunnel) • Pain and tenderness following extension or repetitive pronation/supination • Sometimes weakness of extension and supination, secondary to pain (not to missing innervation) Deep Forearm (posterior interosseous nerve) • None • Paralysis of the finger extensors (no true wrist drop) Superficial forearm and wrist (superficial radial nerve) • Deficits on the radial side of the dorsum of the hand (thumb, index finger, and the radial half of the middle finger) Common questions about radial nerve: Question Answer Rout? C5-8 Typical injury • Fractured midshaft of humerus/compression of axilla by chaircrutches. ‘Saturday night palsy’, Motor loss? extensor muscles (forearm, wrist, fingers, thumb) Sensory loss? • dorsal aspect of lateral 3 1/2 fingers • anatomical snuffbox The commonest site of sensory loss anatomical snuffbox (small area between the dorsal aspect of the 1st and 2nd metacarpals) Sign? wrist drop Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • All below • Wrist drop weakness of • None Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Median nerve Overview • arises from lateral and medial cords of the brachial plexus (C6-8, T1) • Motor to (LOAF) When look at hand in this position, can see this makes an "L" shape, since L Lumbrical. Lateral two lumbricals Opponens pollicis →rotates and flexes the thumb Abductor pollicis brevis →Abduction and opposition of the thumb Flexor pollicis brevis →Flexes the thumb at the first metacarpophalangeal joint • the above three form the thenar eminence muscles • also supplies flexor muscles of the forearm • Sensory to → palmar aspect of lateral (radial) 3 1/2 fingers Patterns of damage • Damage at wrist e.g. carpal tunnel syndrome paralysis and wasting of thenar eminence muscles sensory loss to palmar aspect of lateral (radial) 3 1/2 fingers • Damage at elbow, as above plus: unable to pronate forearm weak wrist flexion ulnar deviation of wrist • Anterior interosseous nerve (branch of median nerve) leaves just below the elbow results in loss of pronation of forearm and weakness of long flexors of thumb and index finger Common questions about median nerve: Question Answer Rout C6-8, T1 Typical injury? Fracture of supracondylar humerus/ Carpal tunnel syndrome Motor deficit? Opposition of thumb/Lateral finger flexion (ulnar deviation of wrist)/wrist flexion /(LOAF) muscles Sensory deficit Dorsal-palmar lateral 3.5 fingers/thenar eminence Sign? Ape hand (loss of Opponens pollicis)/Pope's hand (open digits 1-3 when trying to make fist) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Carpal tunnel syndrome Overview • Carpal tunnel syndrome is caused by compression of median nerve in the carpal tunnel. • More common in females (F:M, up to 8:1). • Commonly bilateral with dominant hand typically affected first. Causes • idiopathic • pregnancy • oedema e.g. heart failure • lunate fracture • rheumatoid arthritis History • pain/pins and needles in thumb, index, middle finger • unusually the symptoms may 'ascend' proximally • patient shakes his hand to obtain relief, classically at night Examination • weakness of thumb abduction (abductor pollicis brevis) • wasting of thenar eminence (NOT hypothenar →supplied by ulnar nerve ) • Tinel's sign: tapping causes paraesthesia • Phalen's sign: flexion of wrist for 60 seconds causes symptoms • Which area supplied by the median nerve will be spared if the problem is at the carpal tunnel? the skin over the thenar eminence  The palmar cutaneous branch of the median nerve lies superficial to the flexor retinaculum and does not pass through the carpal tunnel. It supplies the skin over the thenar eminence, which is therefore spared in carpal tunnel syndrome. Electrophysiology • The most appropriate further investigation Electromyogram (EMG)/nerve conduction studies  (EMG)/nerve conduction study is useful for confirming clinical diagnosis prior to actual surgery. nerve conduction studies show:  decreased conduction velocity in the median nerve.  prolongation of the action potential Treatment • In patients with mild carpal tunnel syndrome the management should be behavior modification. • corticosteroid injection • wrist splints at night • surgical decompression (flexor retinaculum division) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Pronator teres syndrome Definition • entrapment of the median nerve between the two heads of the pronator teres muscle at the elbow Features • The characteristic physical finding is tenderness over the proximal median nerve, which is aggravated by resisted pronation of the forearm. Diagnosis • Examination involves excluding carpal tunnel syndrome and pronation of the affected forearm against resistance, which brings on the pain. Unlike carpal tunnel syndrome, the median nerve proximal to the wrist may be tender to palpation. Treatment • Injection of corticosteroids into the pronator teres muscle may produce relief of symptoms, but a strong response to a steroid injection would be more consistent with carpal tunnel syndrome Anterior interosseous syndrome Definition • Anterior interosseous syndrome or Kiloh-Nevin syndrome is a damage to the anterior interosseous nerve, a motor branch of the median nerve, which arises just below the elbow. • innervates the long flexor muscles of the thumb (Flexor pollicis longus), index and middle finger (flexor digitorum profundus). Causes • neuritis (inflammation of the nerve) in most cases, compression or Trauma Feature • Pain in the forearm • Characteristic weakness of the pincer movement of the thumb and index finger. • If asked to make the "OK" sign, patients will make a triangle sign instead. This 'Pinch-Test' exposes the weakness of the Flexor pollicis longus muscle and the flexor digitorum profundus leading to weakness of the flexion of the distal phalanges of the thumb and index finger. • Difficulty picking up a small item, such as a coin, from a flat surface Diagnosis • Electromyography (EMG) is generally most useful and will reveal abnormalities in the flexor pollicis longus, flexor digitorum profundus I and II and pronator quadratus muscles. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ulnar nerve Overview • Root arises from medial cord of brachial plexus (C8, T1) • Motor innervation Third and fourth lumbricals (medial two lumbricals) Flex at metacarpal phalangeal (MCP) joint Extend at proximal interphalangeal (PIP) joint Adductor pollicis: adducts the thumb Abductor digiti minimi: abducts the little finger Flexor carpi ulnaris: helps flex the wrist Dorsal and palmar interossei: finger abduction and adduction respectively Flexor digiti minimi brevis: flexes the MCP joint • Sensory innervation medial 1 1/2 fingers (palmar and dorsal aspects) Causes • The ulnar nerve is most commonly compressed at or near the cubital tunnel of the elbow and Guyon canal of the wrist. Cubital tunnel syndrome (ulnar nerve compression at the elbow)  Leaning on the elbow or prolonged elbow flexion during occupational activities (e.g., leaning on a desk), athletic activities, or surgical procedures (e.g., during general anesthesia)  Blunt trauma  Masses (e.g., tumors, hematomas)  Metabolic abnormalities (e.g., diabetes) Guyon canal syndrome (ulnar nerve compression at the wrist in Guyon's canal)  Often associated with cycling, likely caused by direct pressure from the handlebars Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology  Blunt trauma (e.g., hook of hamate fracture)  Masses (especially ganglion cysts) • The most common ulnar neuropathies are cubital tunnel syndrome  the commonest site for entrapment of ulnar nerve  caused by ulnar nerve compression at the elbow  may be due to chronic pressure, leaning on the elbows, and direct trauma. ulnar tunnel syndrome  caused by ulnar nerve compression at the wrist in Guyon's canal Risk factors • Ulnar neuropathy is a common complication with ill patients in hospital. Features • Wasting and paralysis of intrinsic hand muscles (except lateral two lumbricals) • Claw hand (where the little and ring fingers curl into the palm). hyperextension of the metacarpophalangeal joints and flexion at the distal and proximal interphalangeal joints of the 4th and 5th digits • Weak pinch (Froment sign) little finger in persistent abduction due to weak third palmar interosseous muscle • Radial deviation of wrist • Wartenberg sign: little finger in persistent abduction due to weak third palmar interosseous muscle • Froment sign: The thumb flexes at the interphalangeal joint while pinching a piece of paper to compensate for a weak adductor pollicis muscle. • Sensory loss to the medial 1 1/2 fingers (palmar and dorsal aspects) Proximal and distal lesions of the ulnar nerve lead to claw hand deformity. Diagnosis • Nerve conduction studies will confirm the site of the lesion. Common questions about ulnar nerve Question Answer Rout ? C8-T1 Typical injury? Fracture of epicondyle of humerus Motor deficit? Medial finger flexion/wrist flexion Sensory deficit? Medial 1.5 fingers/hypothenar eminence Sign? Radial deviation of wrist upon flexion/claw hand MRCPUK-part-1-sep 2017: H/O dropping things on a frequent basis and muscle wasting at the back of the right hand. On examination, you note wasting of the dorsal interossei. What is the nerve supply of the dorsal interossei? C8/T1 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad & Notes for MRCP By Dr. Yousif Abdallah Hamad Rotator cuff muscles Muscle Notes Supraspinatus aBDucts arm before deltoid Most commonly injured Infraspinatus Rotates arm laterally teres minor aDDucts & rotates arm laterally Subscapularis aDDuct & rotates arm medially Klumpke’s palsy Definition • Injury to the lower trunk of the brachial plexus (C8–T1) • This root eventually supplies the median and ulnar nerves. • The ulnar nerve supplies all of the intrinsic hand muscles except for those of the thenar eminence and the first and second lumbricals which are innervated by the median nerve. Causes • Hyperabduction of the arm Trauma (e.g., breaking a fall by grabbing a branch) Birth injury: excessive upward traction on the arm during delivery • Compression of the lower trunk of brachial plexus (subacute to chronic onset) Pancoast tumor Cervical rib Features • Weakness of intrinsic hand muscles (thenar, hypothenar, lumbricals, interossei) → total claw hand (persistent flexion of the interphalangeal joints and extension of the metacarpophalangeal joints in the hand) • Preganglionic Horner syndrome if injury occurs proximal to the white ramus communicans • Decreased peripheral pulses if subclavian vessels are compressed by a Pancoast tumor or cervical rib. • Sensory loss in the C8 and T1 dermatomes (little finger and medial surface of the forearm and arm) Treatment • Splinting the hand to correct the claw hand • Physiotherapy • Surgery for severe nerve damage Stretch injury of the arm • Sudden upward movement of the abducted arm (fall that has been stopped by grasping a fixed object with one hand) → causes features of an ulnar nerve palsy which is supplied by the lower brachial plexus roots C8 and T1 (Klumpke's paralysis) Chapter 4 Neurology Commonly tested nerves of the lower limbs The information below contains selected facts which commonly appear in examinations: Nerve Motor Sensory Typical mechanism of injury & notes Femoral nerve Knee extension, thigh flexion Anterior and medial aspect of the thigh and lower leg Obturator nerve Thigh adduction Medial thigh Anterior hip dislocation Lateral cutaneous nerve of the thigh None Lateral and posterior surfaces of the thigh Tibial nerve Foot plantarflexion and inversion Sole of foot • Not commonly injured as deep and well protected. • Popliteal lacerations, posterior knee dislocation Common peroneal nerve Foot dorsiflexion and eversion Extensor hallucis longus Dorsum of the foot and the lower lateral part of the leg Superior gluteal nerve Hip abduction None • Misplaced intramuscular injection • Hip surgery • Pelvic fracture • Posterior hip dislocation • Injury results in a positive Trendelenburg sign Inferior gluteal nerve Hip extension and lateral rotation None • Generally injured in association with the sciatic nerve • Injury results in difficulty rising from seated position. Can't jump, can't climb stairs Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Hip and pelvic fractures • Stab/gunshot wounds Compression of the nerve near the ASIS → meralgia paraesthetica, a condition characterised by pain, tingling and numbness in the distribution of the lateral cutaneous nerve • Injury often occurs at the neck of the fibula Tightly applied lower limb plaster cast • Injury causes foot drop Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sciatic nerve palsy Nerve root • L4–S3 • Sciatic nerve splits into tibial nerve and common peroneal nerve Causes • Total hip arthroplasty known complication of a total hip replacement (femoral nerve palsy can occur but is much less common). • Herniated lumbar disc • Posterior hip dislocation • Iatrogenic (misplaced intragluteal injection) Feature • Motor Impaired knee flexion and hip adduction Global weakness of the ankle due to the involvement of both of its branches: tibial nerve (plantaflexion and inversion) and common peroneal nerve (dorsiflexion and eversion).  Absent ankle jerk is due to tibial nerve involvement. • Sensory Sensory loss is variable but most commonly occurs around the dorsum of the foot and lateral aspect of the leg Tibial nerve injury → Sensory loss over sole of the foot The skin over the medial malleolus and medial border of the foot is innervated by the saphenous nerve and is therefore spared. Chapter 4 Neurology Injuries of sciatic nerve branches Common peroneal nerve injury Tibial nerve injury Nerve root L4–S2 L4–S3 Common causes • Fracture of the fibular head • Compression: tight casts, sitting cross-legged, lithotomy position during surgery Motor deficit • Superficial peroneal nerve: paralysis of peroneus longus and peroneus brevis → impaired eversion of the foot • Deep peroneal nerve: paralysis of foot and toe extensors (dorsiflexors) (e.g., tibialis anterior), leading to: • Foot drop • Steppage gait Sensory deficit • Superficial peroneal nerve: lateral surface of the lower leg, dorsum of the feet and toes, except for the space between the first and second toe • Deep peroneal nerve: area between the first and second toes (flip-flop zone) Common peroneal nerve lesion The commonest cause of acute foot drop after prolonged bed rest is entrapment common peroneal neuropathy at the neck of fibula. Overview • The sciatic nerve divides into the tibial and common peroneal nerves in the popliteal fossa. • Nerve root → L4–S2 • Common peroneal nerve divides into a superficial and a deep branch Deep peroneal nerve supplies muscles, which dorsiflex the foot and toes:  tibialis anterior  extensor hallucis longus  extensor digitorum longus Superficial nerve supplies the muscles, which evert the foot  peroneus longus and brevis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Trauma of the knee or leg (e.g., tibial fracture) • Baker cyst (causes proximal lesion) • Tarsal tunnel syndrome (causes distal lesion) • Paralysis of biceps femoris (long head) • Paralysis of foot flexors (e.g., triceps surae) → inability to stand on or curl toes and to invert foot • Proximal lesions: eversion of the foot at rest • Sensory loss over sole of the foot Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Injury often occurs at the neck of the fibula. Causes • Fracture of the fibular head • Compression: tight casts, sitting cross-legged, lithotomy position during surgery Features • Foot drop (the most characteristic feature) Superficial peroneal nerve: paralysis of peroneus longus and peroneus brevis → impaired eversion of the foot Deep peroneal nerve: paralysis of foot and toe extensors (dorsiflexors) (e.g., tibialis anterior), leading to: Foot drop and Steppage gait • Sensory loss over the dorsum of the foot and the lower lateral part of the leg with sparing of the fifth toe. Superficial peroneal nerve: lateral surface of the lower leg, dorsum of the feet and toes, except for the space between the first and second toe Deep peroneal nerve: area between the first and second toes (flip-flop zone) Femoral nerve palsy Nerve root • L2–L4 Causes • Compression: Prolonged pressure on the nerve: Psoas haematoma (due to anticoagulant therapy or haemophilia), Psoas abscess Tumours - eg: Synovial cyst, Sarcoma Aortic or iliac aneurysms • Trauma: Direct injury to the nerve Hip or pelvic fractures Iatrogenic: eg: Hip arthroplasty, pelvic surgery, femoral line placement, coronary angiography). • Diabetic amyotrophy (proximal neuropathy, in diabetic patients, causes burning pain in the hip and thigh and wasting of thigh muscles) • Foot-drop • Weakness of eversion + dorsiflexion + inversion →L4 - 5 radiculopathy • Weakness of eversion + dorsiflexion →common peroneal nerve palsy (ankle inversion is spared with common peroneal nerve palsy) Differences between tibial nerve and peroneal nerve injuries: • Tibial → impaired foot Inversion and Plantarflexion • Peroneal → impaired foot Eversion and Dorsiflexion Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Feature • Motor Paralysis of iliopsoas, pectineus, rectus femoris, and sartorius muscles → impaired hip flexion Paralysis of quadriceps femoris muscle →  Impaired knee extension: instability of the knee (often described as 'buckling') on climbing stairs.  Decreased patellar tendon reflex (absent knee jerk) • Sensory Decreased sensation in anterior thigh (meralgia paraesthetica) and medial distal leg (saphenous nerve) Obturator nerve injury • Root: L2–L4 • Common causes: Pelvic surgery, pelvic ring fractures • Motor deficits: Paralysis of hip adductors (adductor longus, adductor brevis, adductor magnus, obturator externus, gracilis, pectineus) • Sensory deficits: Howship-Romberg sign: pain and paresthesia over the inner aspect of the thigh. Meralgia paraesthetica Nerve root • L2–L4 Pathology • compression of lateral cutaneous nerve of thigh Causes of compression • Most likely causes→ entrapment at the lateral inguinal ligament: Increased intra-abdominal pressure (e.g., pregnancy, obesity, ascites) External compression (e.g., tight belts, pants, or compression dressings) Local compression (e.g., tumors, hematomas) • Less likely causes →trauma, ischaemia, or a retroperitoneal lesion. Burning thigh pain - ? meralgia paraesthetica - lateral cutaneous nerve of thigh compression Hip weakness: • Weakness of hip Abduction (Gluteus medius) → superior gluteal nerve palsy • Weakness of hip adduction (Adductor magnus and minimus) Obturator nerve palsy • Weakness of hip flexion (iliopsoas muscle) →Femoral nerve palsy • Weakness of hip extension (Gluteus maximus) →inferior gluteal nerve Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • typically burning sensation over antero-lateral aspect of thigh • pure sensory loss • numbness when tapping on the inguinal ligament Treatment • Can be improved by wearing looser clothing and/or losing weight Healthy patient came with burning thigh pain. What is the next step in management? Advice the patient to wear loose pant MRCPUK-part-1- May 2006 exam: A patient presents with a burning sensation over anterolateral aspect of thigh. Which nerve is most likely to be affected? Lateral cutaneous nerve of thigh Saphenous nerve injury Overview • Saphenous nerve is a terminal cutaneous branch of the femoral nerve. • It is supplies the skin over the anteromedial side of the knee, leg and medial malleolus. • It is strictly a sensory nerve; it has no motor component. • It is commonly blocked to complement anesthesia of the lower leg. Causes • Saphenous vein harvest for coronary artery bypass grafting (CABG) (most common). • Femoral artery catheterization for angiography. • Trochanter placement during knee arthroscopy. • Long saphenous vein stripping for varicose veins. Features • Loss of sensation over the medial aspect of the lower leg. Tarsal tunnel syndrome Overview • also, known as posterior tibial neuralgia • It is analogous to carpal tunnel syndrome of the wrist. Definition • peripheral neuropathy caused by compression of the tibial nerve by the flexor retinaculum of the foot at the medial ankle Tarsal tunnel syndrome entrapment of the posterior tibial nerve as it travels through the tarsal tunnel, this tunnel is found along the inner leg behind the medial malleolus →painful foot Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 4 Neurology Causes • Trauma (most common): fracture or sprain of the ankle (talus, calcaneus, medial malleolus) • Rheumatoid arthritis Features • Symptoms develop in areas innervated by the tibial nerve (distal to the medial malleolus): Neuropathic pain and paresthesia in the heel, sole of the foot, and first three toes Weakness and atrophy of intrinsic foot muscles (severe cases) • Symptoms worsen with walking, prolonged standing, and at night Diagnosis • • Usually a clinical diagnosis • Positive Tinel sign: radiating paresthesia triggered by tapping the flexor retinaculum posterior to the medial malleolus • Pain upon foot dorsiflexion with eversion • Diminished sensation on the plantar area of the foot • Nerve conduction studies: slow conduction velocity in the medial and lateral plantar nerves Treatment • Initially conservative (Rest, NSAIDs, physiotherapy, use of orthotic shoes) • Local injection of steroids into the tarsal canal (if no improvement) • Surgical decompression Third edition Notes & Notes For MRCP part 1 & 11 By Dr. Yousif Abdallah Hamad Cardiology Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Coronary arteries: anatomy and clinical correlation • Right coronary artery (RCA) supplies:  AV node, so heart block following inferior MI is common. However, heart block following anterior MI is a grave prognostic marker as this indicates a large anterior wall infarct. RCA supplies SA node in 60%, AV node in 90%  Right ventricle, hence, problems relating to a right ventricular infarct are commonly associated with an inferior MI.  Inferior myocardium and occlusion causes ST elevation in II, III and aVF. Posterior descending artery a branch of the right coronary artery in 85% of people (a branch of the circumflex in the remaining population).  supplies the posterior left ventricular myocardium  occlusion causes posterior MI (ST depression in V1-V4 with a dominant R wave in V1).  The concept of coronary dominance refers to which coronary artery supplies the posterior descending coronary artery (PDA). 85% of patients having a dominant right coronary artery 15% of patients having a dominant left circumflex. • Left main stem left coronary artery (LCA) Supplies most of the left ventricle. Complete left main stem occlusion is invariably fatal. It would produce extensive ST elevation across all the chest leads, I and aVL and possibly aVR, too. LCA branches into → Left Anterior Descending (LAD) + Left Circumflex artery (LCX)  Left Anterior Descending (LAD) artery supplies : anterior and septum Occlusion →ST segment elevation in leads V1-V4 Right bundle branch block in acute anterior myocardial infarction suggests obstruction prior to the first septal branch of the left anterior descending coronary artery  Left Circumflex artery (LCX) Supplies : lateral Occlusion produces ST elevation in V5, V6, I and aVL. • ECG localization of STEMI ECG leads with ST elevation Infarction location V1 – V2 Anteroseptal (LAD) V3- V4 Antero-apical (distal LAD) V5- V6 Antero-lateral (LAD or LCX) I, aVL Lateral (LCX) II, III, aVF Inferior (RCA) V7 – V9, ST depression V1- V3 with tall R waves Posterior (PDA) ST-segment elevations or Q waves in leads II, III, and aVF on ECG signify a likely inferior MI, supplied by the right coronary artery. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Coronary arterial dominance • Right-dominant (∼85% of the population): posterior descending artery (PDA) supplied by the RCA • Left-dominant (∼8% of the population): PDA supplied by the left circumflex artery (LCX) • Codominant (balanced; ∼7% of people): PDA supplied by both RCA and LCX Coronary circulation The left atrium is the posteriormost part of the heart, located directly in front of the esophagus. It can be visualized using TEE. The right ventricle is the anteriormost part of the heart and is at greatest risk of injury following chest trauma. Jugular venous pulse (JVP) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Clinical importance of JVP • providing information on right atrial pressure, • may provide clues to underlying valvular disease. • A non-pulsatile JVP is seen in superior vena caval obstruction. • Kussmaul's sign describes a paradoxical rise in JVP during inspiration seen in constrictive pericarditis. JVP waves and abnormalities Wave Description Abnormalities a wave • The first peak caused by atrial contraction c wave • The second peak caused by tricuspid valve closure, contraction of the right ventricle, and bulging of the tricuspid valve into the right atrium x descent • A drop in JVP caused by atrial relaxation during ventricular systole • Absent in: o Tricuspid valve regurgitation o Right heart failure v wave • The third peak caused by venous refilling of the right atrium against the closed tricuspid valve • Prominent in: o Tricuspid valve regurgitation o Right heart failure y descent • A drop in JVP caused by decreased right atrial pressure as blood flows into the right ventricle after opening of the tricuspid valve Cannon 'a' waves • Caused by atrial contractions against a closed tricuspid valve • Causes Regular cannon waves  ventricular tachycardia (with 1:1 ventricular-atrial conduction)  atrio-ventricular nodal re-entry tachycardia (AVNRT) Irregular cannon waves  complete heart block A left sided internal jugular central venous catheter has been inserted and you are reviewing the chest radiograph to check the position of the tip of the catheter. What is the safest position to leave the catheter tip? In the lower superior vena cava Central venous access of the Subclavian Vein Anatomy • Each subclavian vein is a continuation of the axillary vein and runs from the outer border of the first rib. • The subclavian and internal jugular vein unite to form the brachiocephalic vein, subsequently the left and right brachiocephalic veins unite to form the superior vena cava. Procedure • Left-sided subclavian access is associated with lower rates of catheter malposition and vessel trauma. It is preferred when immediate cardiac access is needed (eg, temporary transvenous pacer and pulmonary artery catheter insertion) since the guidewire and catheter are more easily directed into the superior vena cava and right heart. • The optimal point of needle insertion : 1 cm inferior to the junction of the middle and medial third of the clavicle. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Absent in atrial fibrillation • cv wave : severe tricuspid valve regurgitation • Prominent in: o Tricuspid valve regurgitation o Constrictive pericarditis • Absent in: o Cardiac tamponade o Tricuspid valve stenosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Advantages • the cleanest site for central venous access (lower potential for infection). • It also the most tolerated by patients. • consistent landmarks (lower potential for arterial injury compared with other sites of access). Complications • Arrhythmias (e.g. premature atrial and ventricular contractions) caused by contact of the guidewire to the right atrium. • Venous air embolism, pneumothorax, and pneumomediastinum are other common complications of central line placement. • subclinical pneumothorax even in the hands of experienced clinicians. Central venous access • Ultrasound guidance improves initial cannulation success. • Obtain a postprocedural chest x-ray to confirm catheter position and exclude pneumothorax in jugular and subclavian catheters. Femoral catheters do not require radiographic confirmation and can be used immediately following insertion. • The internal jugular vein are a commonly used site for central venous access. The distal tip of jugular catheters should lie in the lower superior vena cava. Carotid artery puncture is a well-recognized complication. • Femoral site cannulation is often recommended as a secondary site due to higher rates of delayed complications. Subclavian steal syndrome Brainstem features (vertigo, diplopia, dysarthria, and drop attacks) with disparity in BP > 15 mm Hg and pain precipitated by exercise →Subclavian steal syndrome Pathophysiology • Stenosis of the subclavian artery proximal to the origin of the vertebral artery → hypoperfusion distal to the stenosis → reversal of blood flow in ipsilateral vertebral artery → compensation through collateral arteries → reduced blood flow in the basilar artery → reduced cerebral perfusion upon exertion involving the affected arm • characterized by retrograde flow into the vertebral or internal thoracic arteries, due to stenosis and/ or occlusion of the subclavian artery. What is the most likely mechanism that maintains blood flow to the affected extremity? • Blood from the contralateral vertebral artery is shunted away from the basilar artery (away from the brainstem) and retrograde into the ipsilateral vertebral artery to supply the affected arm . Causes • Atherosclerosis • Takayasu's arteritis Symptoms • The most common symptoms are those related to upper limb ischemia (arm pain and numbness, especially during exertion and exercise with the arm above the head, such as painting a wall.) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • brainstem features due to vertebrobasilar insufficiency such as: Vertigo, Diplopia, Dysarthria, and Drop attacks. • blood pressure is different between the upper limbs by at least 15 mmHg. Diagnosis • Duplex ultrasound is the best initial radiological test shows reversal of blood flow (retrograde flow in the ipsilateral vertebral artery) • Angiography of the subclavian vessels (MRA) is the most accurate test. Management • Most patients require no intervention • Symptomatic patients: angioplasty and stenting or surgical revascularization Pathophysiology of subclavian steal syndrome Under normal conditions, the subclavian artery distributes blood equally to the arteries in the brain and arms (A). If there is stenosis of the subclavian artery proximal to the origin of the vertebral artery, this leads to hypoperfusion of the upper extremities on the affected side (B). This is compensated by a contralateral circulation, in which there is increased blood flow from the unaffected side to the affected side via the vertebral arteries. As a result, there is hypoperfusion of the vertebrobasilar territory and corresponding central nervous system symptoms. Atrial natriuretic peptide (ANP) Secretion • Released from atrial myocytes (right > left) in response to blood volume and atrial pressure. • Acts via cGMP Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology ANP secretion pathway and actions • ↑ Volume → ↑ atrial stretch receptors stimulation→ release of ANP from atrial cardiomyocytes which results in: ↑ Excretion of NaCl and water by the kidneys (via afferent arterioles dilations and efferent arterioles constriction) ↓ Na+ reabsorption at the renal collecting tubule (via ↑ cGMP) Inhibition of renin Vasodilation of veins and arteries (↓ preload and ↓ afterload) • ↓ Volume → ↓ atrial stretch receptors stimulation → ↓ Release of ANP → ↓ excretion of NaCl and water by the kidneys How is the "aldosterone escape" mechanism mediated by atrial natriuretic peptide (ANP)? • ANP causes cGMP-mediated dilation of the afferent arteriole and constriction of the efferent arteriole, promoting diuresis and counteracting the effects of aldosterone B-type (Brain) Natriuretic Peptide (BNP) Definition • B-type natriuretic peptide (BNP) is a hormone produced mainly by the left ventricular myocardium in response to strain (myocyte stretch). Mechanism of action • Similar physiologic action to ANP with longer half-life. • ↑ intracellular smooth muscle cGMP →arterial and venous smooth muscle vasodilatation →↓ pre-load → ↓BP • ↓ sodium reabsorption, leading to natriuresis and diuresis. • suppresses both sympathetic tone and the renin-angiotensin-aldosterone system Causes of raised BNP levels • heart failure is the most obvious cause • age over 70 years, • ventricular hypertrophy, ischaemia, tachycardia, hypoxaemia [including pulmonary embolism], chronic obstructive pulmonary disease, • renal dysfunction [eGFR less than 60 ml/minute/1.73 m2] • sepsis, • diabetes • cirrhosis of the liver • BNP synthesis is increased by thyroid hormones as well as glucocorticoids, endothelin-1, angiotensin-II, and tachycardia, independent of the haemodynamic effects of these factors. Factors which reduce BNP levels Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Obesity • African or African–Caribbean family origin • treatment with diuretics, angiotensin-converting enzyme (ACE) inhibitors, beta‑ blockers, angiotensin II receptor blockers (ARBs) or mineralocorticoid receptor antagonists (MRAs) Clinical uses of BNP • Diagnosing patients with acute dyspnoea (very good negative predictive value for heart failure). (NICE guidelines - 2018). NT-proBNP level Note ˃ 2,000 ng/litre Refer urgently to specialist and echocardiography within 2 weeks. Between 400 and 2,000 ng/litre Refer to specialist and echocardiography within 6 weeks. ˂ 400 ng/litre makes a diagnosis of heart failure less likely • Prognosis in patients with chronic heart failure: very high levels of NT-proBNP carry a poor prognosis • Guiding treatment in patients with chronic heart failure: effective treatment lowers BNP levels Brain natriuretic peptide (BNP) • BNP a hormone secreted from ventricular myocytes in response to ventricular volume overload, as seen in congestive heart failure. • BNP acts on the renal collecting duct to decrease sodium reabsorption and increases glomerular filtration rate, leading to urinary sodium loss. • BNP has a good negative predictive value, so a patient with a normal BNP likely does not have heart failure. Cardiovascular physiology • The basic muscle unit of the myocardium Sarcomere • The normal resting cell membrane potential of a cardiac myocyte - 90 Mv • Left ventricular ejection fraction (LV EF) = ( Stroke volume/end diastolic volume ) * 100% • Cardiac output (CO) measure how much blood ejected by the heart in one minute. CO = Stroke volume (SV) x Heart rate (HR) • Stroke Volume (SV) volume of blood ejected per heart beat = CO/HR = End-Diastolic Volume (EDV) - End-Systolic Volume (ESV) • Stroke volume is decreased by hypovolaemia • normal ejection fraction is more than 55% of the blood volume. • In systolic dysfunction, EF is low. In diastolic dysfunction, EF is normal (called HF with preserved LV EF) e.g. hypertrophic heart failure • Pulse pressure = Systolic Pressure - Diastolic Pressure Factors which increase pulse pressure  less compliant aorta (this tends to occur with advancing age)  increased stroke volume Factors which reduced pulse pressure  Reduced stroke volume,  high aortic compliance, 033 - Chapter 5 033 Chapter 5 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology  reduced venous return, and  reduced peripheral resistance • Sinoatrial node has the fastest firing rate of all potential pacemakers in the heart. Sinoatrial node impulses must occur at a rate slower than 200 impulses per minute to be considered in normal sinus rhythm. • Endothelin preferentially constricts renal afferent arterioles.  Efferent arteriole vasoconstriction is mediated by angiotensin-II, to defend GFR in states of generalised vasoconstriction and reduced blood flow. efferent arteriole vasodilation will occur when angiotensin-II levels fall. Stimulates the renin-angiotensin-aldosterone system Leads to release of atrial natriuretic peptide Inhibits the action of vasopressin Two types of endothelin receptor have been characterised, A and B.  Binding of endothelin to the A receptor induces vasoconstriction,  binding to the B receptor leads to nitric oxide release and hence vasodilatation. Coronary circulation physiology • The three most potent factors for vasodilation of the coronaries are: Increased adenosine Increased nitric oxide Opening of ATP-sensitive potassium (KATP) channels by low ATP concentrations, which hyperpolarizes the vascular smooth muscle Physiological changes during pregnancy • Heart rate: increases by 10-20 bpm • Cardiac output and blood volume increase from the second month up to the thirtieth week to 30 - 50% above the normal levels. • The increase in cardiac output is mediated via increase in both stroke volume and to a lesser extent heart rate, along with a dramatic fall in total peripheral vascular resistance. • Venous pressure: remain the same due to a 25% reduction in systemic and pulmonary vascular resistance. • Blood pressure: drop in the first and second trimester due to vasodilatation and then climb to pre-pregnancy levels by the third trimester. • The increase in blood volume and increased cardiac output lead to all stenosic murmurs becoming more prominent (there is increased flow across the valve, with more turbulence and pressure gradient, leading to a louder sound). • Increased metabolic workload • Apex beat is displaced, because of cardiomegaly and a raised diaphragm • The increased blood flow may produce a pulmonary systolic murmur and a third heart sound. Which murmur is diminished during pregnancy? Aortic regurgitation  The fall in diastolic blood pressure during pregnancy leads to a reduction in the murmur of aortic regurgitation. Physiological changes during exercise Increases during exercise • cardiac output → Systemic arterial pressure • ↑venous return → ↑stroke volume • ↑heart rate • Dilatation of the blood vessels within the exercising muscles causes a fall in total peripheral resistance, resulting in a decrease in diastolic blood pressure. • Decrease in venous compliance (dilatation), caused by sympathetic stimulation, helps to maintain ventricular filling during diastole. • The pulmonary vessels undergo passive dilatation as more blood flows into the pulmonary circulation, decreasing pulmonary vascular resistance. Physiological changes associated with age • Decrease elasticity and compliance of the aorta →increased resistance to ejection of blood from the left ventricle →increased ventricular afterload. • Diastolic dysfunction and reduced stroke volume • ↓↓diastolic pressure (the pressure responsible for subendocardial perfusion)  subendocardial ischemia and interstitial fibrosis. (These changes are related to an increase in the magnitude of the L-type Ca++) • Higher systolic arterial pressure and increased impedance to left ventricular ejection • ↑ systolic + ↓ diastolic ↑ pulse pressure • Increased sino-atrial conduction time Because of the delayed LV relaxation and the stiffer left ventricle, the force of left atrial contraction increases and the contribution of the atrial contraction to LV enddiastolic volume increases • There is apoptosis of atrial pacemaker cells with a loss of 50%-75% of cells by age 50. The number of atrioventricular nodal cells is preserved and there is fibrosis and cellular loss in the His bundle • Left ventricular hypertrophy • Which physiological change associated with age during exercise? Reduced tachycardic response Valsalva manoeuvre Definition • The Valsalva manoeuvre describes a forced expiration against a closed glottis. This leads to increased intrathoracic pressure which in turn has a number of effects on the cardiovascular system. Uses • to terminate an episode of supraventricular tachycardia • normalizing middle-ear pressures Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Decreases during exercise • Venous compliance • Peripheral vascular resistance • Diastolic pressure • Pulmonary vascular resistance Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Cardiac action potential Cardiac action potential Phase Description Mechanism Rapid depolarisation Rapid sodium influx These channels automatically deactivate after a few ms Early repolarisation Efflux of potassium Plateau Slow influx of calcium Final repolarisation Efflux of potassium Restoration of ionic concentrations Resting potential is restored by Na+/K+ ATPase There is slow entry of Na+ into the cell decreasing the potential difference until the threshold potential is reached, triggering a new action potential NB cardiac muscle remains contracted 10-15 times longer than skeletal muscle Conduction velocity Site Speed Atrial conduction Spreads along ordinary atrial myocardial fibres at 1 m/sec AV node conduction 0.05 m/sec Ventricular conduction Purkinje fibres are of large diameter and achieve velocities of 2-4 m/sec (this allows a rapid and coordinated contraction of the ventricles Pulses Patent ductus arteriosus - large volume, bounding, collapsing pulse Pulsus alternans - seen in left ventricular failure Pulse Causes Pulsus paradoxus (>10 mmHg fall in systolic BP on inspiration) Pulsus alternans (regular alternation of the force of the arterial pulse between strong and weak) Bisferiens pulse ('double pulse' - two systolic peaks) Collapsing aortic regurgitation, patent ductus arteriosus, hyperkinetic (anaemia, thyrotoxic, fever, exercise/pregnancy). Slow-rising/plateau aortic stenosis Jerky pulse hypertrophic obstructive cardiomyopathy Pulsus paradoxus • Definition a greater than 10 mmHg fall in systolic BP on inspiration → faint or absent pulse in inspiration • Mechanism Inhalation ↑venous return expands right ventricle (RV) compresses left ventricle (LV) ↓blood pressure. Inhale = Big RV = Smaller LV = BP drop > 10 mm Hg • Causes cardiac tamponade (common) constrictive pericarditis (less commonly than tamponade) asthma, obstructive sleep apnoea croup. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad cardiac tamponade (common) severe LVF mixed aortic valve disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Heart sounds First heart sound (S1) : Closure of the mitral and tricuspid valves Changes in first heart sound (S1) Causes Loud S1 • mitral stenosis • left to right shunts • short PR interval (e.g. WPW type B), ( shortened diastole) atrial premature beats • hyperdynamic states Quiet (soft) S1 • mitral regurgitation • immobile mitral stenosis • if closure of the mitral valve is delayed e.g.: LBBB, long PR • hypodynamic state Split S1 • right bundle branch block, • left bundle branch block, • ventricular tachycardia, • Ebstein’s anomaly Variable intensity • Atrial fibrillation Third heart sound (S3) Sound Origin Causes Notes Third heart sound caused by rapid ventricular filling during diastole. (S3) caused by atrial contraction against a stiff ventricle Fourth heart sound (S4) Gallops that originate from the left side of the heart (the most common) become softer with inspiration, while those that originate from the right side become louder. Heart sound and ECG correlation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Physiological: young individuals • Early diastolic sound that is heard immediately after S2 • Ventricular gallop: S1 is followed by S2 and S3 . (< 40 years of age), athletes, or pregnant women • Pathological Chronic mitral regurgitation Aortic regurgitation Heart failure Dilated cardiomyopathy • Thyrotoxicosis • Physiological: advanced age • Pathological if palpable Ventricular hypertrophy (e.g., hypertension, aortic stenosis, cor pulmonale) Ischemic cardiomyopathy • Acute myocardial infarction • Late diastolic (presystolic) sound heard immediately before S1 • P wave on ECG Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Second heart sound (S2) Second heart sound (S2): Closure of the aortic valve (A2) (louder) and pulmonary valve (P2) (softer). Changes in S2 Causes Loud A2 arterial hypertension, coarctation of the aorta Loud P2 pulmonary hypertension Physiological split (A2 precedes P2). during inspiration → ↓intrathoracic pressure → ↑venous return to the right side of the heart → prolonged right ventricular systole → delayed closure of P2. Especially pronounced among young individuals Wide split Mechanism • Increased right ventricular afterload → prolonged right ventricular systole • Decreased left ventricular preload → shortened left ventricular systole Causes • Pulmonary hypertension • Pulmonary valve stenosis • RBBB • Massive pulmonary embolism • Severe mitral regurgitation • Wolff-Parkinson-White syndrome • Constrictive pericarditis Fixed split (Does not change with respiration and tends to be wide, i.e., the split is also audible during expiration) • Atrial septal defect (ASD)→ RV volume overload → delay in the closure of the pulmonary valve • Severe RV failure • Right bundle-branch block with heart failure (right bundle-branch block widens the split, and heart failure makes the split fixed). reversed (paradoxical) split S2 (P2 occurs before A2) • Due to delayed A2 left bundle-branch block (LBBB) aortic stenosis (the aortic leaflets are thickened and so close slowly) hypertrophic obstructive cardiomyopathy • Due to early P2 Early excitation of the right ventricle (e.g., RV pacing, Wolff-Parkinson-White syndrome type B) where the right-sided accessory pathway causes early RV depolarisation. Absent split (No splitting of S2) • Severe aortic stenosis (geriatric) • VSD with Eisenmenger syndrome (paediatric) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Murmurs Most murmurs of stenosis or regurgitation are exaggerated during squatting and get softer with the Valsalva manoeuvre. The exceptions are HOCM where the opposite occurs (↑by Valsalva & ↓ by squatting) and mitral valve prolapse where the murmur gets longer. Relation between murmurs intensity and respiration: • Murmurs that increase in intensity with inspiration originate from the right side of the heart (tricuspid or pulmonary) • Murmurs that increase in intensity with expiration originate from the left side of the heart (mitral or aortic). Mnemonic: RILE (Right Inspiration, Left Expiration) Murmur Causes Ejection systolic • Aortic stenosis, HOCM • Pulmonary stenosis • ASD • Fallot's Holosystolic (pansystolic) • mitral/tricuspid regurgitation (high-pitched and 'blowing' in character) • VSD ('harsh' in character) Late systolic • Mitral valve prolapse • Coarctation of aorta Early diastolic • Aortic regurgitation (high-pitched and 'blowing' in character) • Graham-Steel murmur (pulmonary regurgitation, again high-pitched and 'blowing' in character) Mid-late diastolic • Mitral stenosis • Austin-Flint murmur (severe aortic regurgitation, indistinguishable from that of mitral stenosis). It is due to partial closure of the anterior leaflet of the mitral valve by the regurgitant jet. Continuous machinelike murmur • patent ductus arteriosus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Murmurs in pregnancy • The intensity of Aortic regurgitation murmur diminishes during pregnancy. • Diastolic blood pressure is lower due to vasodilatation, and this is responsible for the fading of the aortic regurgitation murmur • All stenotic murmurs become more prominent Mitral murmurs are heard best during expiration and while the patients lies on the left side. All right-sided heart murmurs are intensified during deep inspiration. Isometric handgrip exercises increase blood pressure and afterload significantly. Therefore, murmurs caused by the backward flow of blood will be accentuated: • aortic regurgitation, • mitral valve regurgitation, • mitral valve prolapse and • ventricular septal defect. Syncope Definition • Syncope is a transient loss of consciousness due to transient global cerebral hypoperfusion, characterised by rapid onset, short duration, and spontaneous complete recovery. Cases • Syncope can be classified as non-cardiovascular causes:  neurally-mediated (reflex syncope) vasovagal situational syncope: provoked by straining during micturition (usually while standing) or by coughing or swallowing.  secondary to orthostatic hypotension cardiovascular causes (such as arrhythmias or ischaemia) • In older patients, non-cardiovascular causes are twice as common as cardiovascular causes Evaluation • The initial evaluation after T-LOC consists of: a careful history orthostatic BP measurements ECG  ECG is the most useful test for classifying syncopal episodes into high risk and low risk categories: High risk :history of heart disease or abnormal ECG. Low risk : no underlying diseases and a normal ECG. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • The initial evaluation can define the cause of syncope in 23-50% of patients and should answer three key questions: Is it a true syncopal episode or not? Has the aetiological diagnosis been determined? Are there findings suggestive of a high risk of cardiovascular events or death? • What you were doing during the episode of blackout? during exercise : exercise-induced syncope occurred (cardiac arrhythmic cause is probable)  offer urgent (within 7 days) exercise testing, unless there is a possible contraindication (such as suspected aortic stenosis or hypertrophic cardiomyopathy requiring initial assessment by imaging).  Advise the person to refrain from exercise until informed otherwise following further assessment.  offer an ambulatory ECG and do not offer a tilt test as a first-line investigation. TLoC at least several times a week, offer Holter monitoring (up to 48 hours) If no further TLoC occurs during the monitoring period, offer external event recorder that provides continuous recording with the facility for the patient to indicate when a symptomatic event has occurred. TLoC every 1–2 weeks offer an external event recorder. If the person experiences further TLoC outside the period of external event recording, offer an implantable event recorder. TLoC infrequently (less than once every 2 weeks) offer an implantable event recorder. A Holter monitor should not usually be offered unless there is evidence of a conduction abnormality on the 12lead ECG. shortly after stopping exercise (vasovagal cause is more likely). • Unexplained syncope →offer ambulatory ECG. Do not offer a tilt test before the ambulatory ECG. • For people with suspected carotid sinus syncope and for people with unexplained syncope who are aged 60 years or older, offer carotid sinus massage as a first-line investigation. This should be conducted in a controlled environment, with ECG recording, and with resuscitation equipment available. Diagnose carotid sinus syncope if carotid sinus massage reproduces syncope due to marked bradycardia/asystole and/or marked hypotension. Do not diagnose carotid sinus syncope if carotid sinus massage causes asymptomatic transient bradycardia or hypotension • Tilt test Do not offer a tilt test to people who have a diagnosis of vasovagal syncope on initial assessment. For people with suspected vasovagal syncope with recurrent episodes of TLoC adversely affecting their quality of life, or representing a high risk of injury,  consider a tilt test only to assess whether the syncope is accompanied by a severe cardioinhibitory response (usually asystole). • If a person has persistent TLoC, consider psychogenic non-epileptic seizures (PNES) or psychogenic pseudosyncope if: the nature of the events changes over time there are multiple unexplained physical symptoms there are unusually prolonged events. • Driving must not drive while waiting for a specialist assessment. Following specialist assessment report the TLoC event to (DVLA) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Implantable loop recorder (ILR) • subcutaneous, single-lead, (ECG) monitoring device • used for diagnosis in patients with recurrent unexplained episodes of palpitations or syncope, • The device is typically implanted in the left parasternal region and is capable of storing ECG data automatically in response to a significant bradyarrhythmia or tachyarrhythmia or in response to patient activation. • It is particularly useful either when symptoms are infrequent (and thus not amenable to diagnosis using short-term external ECG recording techniques) or when aggregate longterm data (eg, burden of AF) are required. Vasovagal syncope (VVS) • Vasovagal syncope (VVS) is the most common type of syncope. Causes • features suggestive of uncomplicated vasovagal syncope (the 3 'P's): Posture – prolonged standing, or similar episodes that have been prevented by lying down Provoking factors (such as pain or a medical procedure)  common during dental procedures, mainly induced by pain (as the dentist started drilling). Prodromal symptoms (such as sweating or feeling warm/hot before TLoC). Feature • VVS is usually preceded by a prodrome of symptoms such as dizziness, nausea, and diaphoresis.  The syncope lasts briefly, but nausea, warmth and sweating may persist for some time. • Twitching and jerking are often seen with vasovagal or cardiac syncope, which can be differentiated from rhythmic jerking of all the limbs in tonic-clonic seizures. • It is common to have jerking of limbs due to brain hypoxia. • Incontinence of urine can occur, but not biting of the tongue. Diagnosis • Recover very quickly supports the diagnosis of syncope. • ECG is always normal. • Tilt table test is a useful test to support the diagnosis If structural heart disease is excluded and syncope is reproduced on tilt table testing along with fall in blood pressure and heart rate, then this is diagnostic of vasovagal syncope. Treatment • Midodrine may be indicated in patient with VVS refractory to life style management Midodrine is a prodrug of Desglymidodrine a sympathomimetic (alpha receptor agonist) that acts on the blood vessels to raise blood pressure. Postural hypotension • Causes: mnemonic (HANDI) H = Hypovolemia, Hypopituitarism (dehydration, bleeding ) A = Addison's disease N = Neuropathy (autonomic due to diabetics, amyloidosis ) D = Drugs ( Vasodialators, TCA, antipsychotic, Diuretics etc. ) I = Idiopathic orthostatic hypotension • Management of postural hypotension if the standing BP is clearly acceptable (110 systolic) , the most obvious first step is stopping the causative drug (eg: indapamide) and monitoring his blood pressure over the subsequent 2-4 weeks. If he still has significant postural hypotension then the next steps would be to add elastic stockings, then fludrocortisone. The history of pre-syncope is much more suggestive of changes in blood pressure rather than changes in blood glucose. Vertigo & Dizziness Clinical features of central versus peripheral vertigo Peripheral Central Nystagmus Direction Unidirectional, fast component toward the normal ear; never reverses direction Nystagmus Type Horizontal with a torsional component, never purely torsional or vertical Nystagmus Effect of visual fixation Suppressed Not suppressed Other neurologic signs Absent Often present Postural instability Unidirectional instability, walking preserved Severe instability, patient often Deafness or tinnitus May be present Absent Dix-Hallpike maneuver for positional nystagmus: Findings in central versus peripheral vertigo Peripheral disorder Central disorder Latent period before onset of positional nystagmus 2 to 20 seconds None Duration of nystagmus Less than 1 minute Greater than 1 minute Fatigability Fatiguing with repetition Non-fatiguing Direction of nystagmus Only one type, may change direction with gaze Intensity of vertigo Severe Less severe, sometimes none Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sometimes reverses direction when patient looks in the direction of slow component Can be any direction falls when walking May change direction with a given head position Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Algorithm for the initial evaluation of a patient with dizziness. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The HINTS exam: (Head Impulse, Nystagmus, Test for Skew) • A three step physical exam testing oculomotor function (The HINTS exam) was able to differentiate between peripheral causes of vertigo and stroke with a sensitivity of 100%, and a specificity of 96%. • Remember, the patient needs to be currently experiencing vertigo in order to perform the HINTS exam. Head Impulse Test (HI) • Method: Patient looks at your nose Hold skull (not jaw) firmly Slow movement to relax neck muscles Quick movement about 20 degree from lateral to midline Activate your biceps and forearm, not just wrists Random side tested • Interpretation: In peripheral vertigo where the vestibulo-ocular reflex (VOR) reflex is impaired, rapid head rotation toward the affected side will cause the patients eyes to slowly move away from the target and force a corrective saccade (fast) back to the target. In central vertigo the VOR reflex remains intact. Nystagmus (N) • In peripheral vertigo: unidirectional horizontal nystagmus with the fast phase beating away from the affected side. • In central vertigo: vertical or rotational nystagmus, or bidirectional horizontal nystagmus where the fast phase changes directions. Test for skew (TS) • Method alternating covering the patients eyes while the patient fixes their gaze on a fixed target. • Interpretation In central vertigo:  the patients sometimes have vertical misalignment of their eyes due to impaired gravity sensing. As the cover moves back and forth between the two eyes, the uncovered eye will correct its gaze to refocus on the target. This correction should be observed repeatedly as the cover moves back and forth. In peripheral vertigo:  no skew deviation. In summary: The HINTS exam: • Peripheral = Positive head impulse test, unidirectional nystagmus, no skew • Central = Negative head impulse test, bidirectional, vertical or rotational nystagmus, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Sudden cardiac death • In those aged greater than 35 years: The most common cause of sudden cardiac death is ischemic heart disease. Up to 80% of individuals who suffer sudden cardiac death have coronary heart disease. • In those under the age of 35 years of age: HOCM is the most common cause of sudden cardiac death, coronary artery disease being the second most common cause. In competitive athletes <35 years of age HOCM is by far the most common cause of sudden cardiac death (prevalence is 1 in 500). • Arrhythmogenic right ventricular dysplasia (ARVD) the second most common cause of sudden cardiac death in the young after HOCM. • Catecholaminergic polymorphic ventricular tachycardia (CPVT) an autosomal dominant inherited cardiac disease prevalence of around 1:10,000. • Brugada syndrome an autosomal dominant inherited cardiovascular disease. prevalence of 1:5,000-10,000. more common in Asians. Exercise tolerance tests Indications: Exercise tolerance tests (ETT, also exercise ECG) are used for a variety of indications: • assessing patients with suspected angina - however the 2010 NICE Chest pain of recent onset guidelines do not support the use of ETTs for all patients • risk stratifying patients following a myocardial infarction the best predictor of mortality post-STEMI exercise capacity Above average exercise capacity good prognosis after a STEMI • assessing exercise tolerance • risk stratifying patients with hypertrophic cardiomyopathy Sensitivity and specificity of ETT: ( high number of false positives and false negatives) • ETT has a sensitivity of around 80% and a specificity of 70% for ischaemic heart disease. Thus, a negative test may not necessarily be true and further testing may be adviced. Exercise ECG testing has a relatively high sensitivity but only moderate specificity for the diagnosis of CAD. • Diagnostic accuracy is poor in women and this may relate to smaller heart size. Heart rate: • maximum predicted heart rate = 220 - patient's age • the target heart rate is at least 85% of maximum predicted to allow reasonable interpretation of a test as low-risk or negative Contraindications • myocardial infarction less than 7 days ago • unstable angina • uncontrolled hypertension (systolic BP > 180 mmHg) or hypotension (systolic BP < 90 mmHg) • Any condition where left ventricular output is reduced - eg, aortic stenosis or hypertrophic obstructive cardiomyopathy (HOCM). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Abnormal baseline ECG (eg, bundle branch block patterns or left ventricular hypertrophy); these make interpretation of the ETT difficult. Stop if: • exhaustion / patient request • 'severe', 'limiting' chest pain • 3mm ST depression • 2mm ST elevation.Stop if rapid ST elevation and pain • systolic blood pressure > 230 mmHg • systolic blood pressure falling > 20 mmHg • attainment of maximum predicted heart rate • heart rate falling > 20% of starting rate • arrhythmia develops Interpreting the exercise tolerance test • The patient is normally considered to have been adequately 'stressed' if they achieve 85% or more of their maximum heart rate (calculated as 220 - age in years for men and 210 - age for women). • If ECG criteria for inducible ischaemia (chest pain is not mandatory).The next step is Coronary angiography this will define the coronary anatomy and give a better guide to prognosis. • If an inadequate test was performed, further non-invasive investigations may be indicated, such as myocardial perfusion scanning, cardiac MRI, or stress echocardiogram. Notes • Beta-blockers and digoxin can interfere with the results so are usually stopped before the ETT. If ETT performed on beta blocker and there is an adequate rise in heart rate (85% of (220 − age)) so there is no indication for stopping beta blocker and repeat the test Cardiac enzymes and protein markers Myoglobin rises first following a myocardial infarction Key points for the exam • myoglobin is the first to rise • CK-MB is useful to look for reinfarction as it returns to normal after 2-3 days (troponin T remains elevated for up to 10 days) Begins to rise Peak value Returns to normal Myoglobin 1-2 hours 6-8 hours 1-2 days CK-MB 2-6 hours 16-20 hours 2-3 days CK 4-8 hours 16-24 hours 3-4 days Trop T 4-6 hours 12-24 hours 7-10 days AST 12-24 hours 36-48 hours 3-4 days LDH 24-48 hours 72 hours 8-10 days Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Troponin Troponin C: Binds to calcium to activate actin: myosin interaction Troponin T: Binds to tropomyosin Troponin I: Blocks or inhibits actin: myosin interaction • Troponin is a component of thin filaments • Cardiac-specific marker with high sensitivity for myocardial necrosis • The degree of elevation correlates with the size of the infarct and risk of mortality. Levels act as a prognostic factor following an acute coronary syndrome • Other causes of an elevated troponin are: Pulmonary embolism, Pulmonary hypertension Hypertension, Hypotension, especially with arrhythmias Hypertrophic obstructive cardiomyopathy, Myocarditis including Kawasaki's disease Sepsis, Burns, Trauma, Cardioversion, Rhabdomyolysis Subarachnoid haemorrhage and stroke Infiltrative/autoimmune disorders including sarcoidosis, amyloidosis, haemochromatosis and scleroderma. Drugs including: Adriamycin, Herceptin and 5-fluorouracil. CK-MB • No longer commonly used clinically; has been replaced by cardiac troponin in the diagnosis of ACS • CK-MB is more specific to cardiac tissue than total CK (but may also be due to skeletal muscle injury). • Can be helpful for evaluating reinfarction because of its short half-life but is no longer commonly used • The degree of elevation often correlates with the size of the infarct. Serum creatine kinase • Causes of high CK Myocardial infarction Racial variant : serum CK activity in Afro-Caribbean people is often up to three times the upper limit of normal for white populations Hypothyroidism Heavy exercise Statins Glycogen phosphorylase isoenzyme BB (GPBB) • GPBB exists in heart and brain tissue. • Rise significantly by three hours post mi. As such it is an appropriate marker for early cardiac muscle injury. • Rise earlier than myoglobin GPBB levels increase 1–3 h after the event. Myoglobin levels increase significantly 2 h after ischaemia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ECG: axis deviation Normal axis • between -30 and 90º (directed inferior and to the left) Left axis deviation (LAD) • Definition  An axis between -30º and -90º (directed superior and to the left) • Prevalence LAD (≥- 30 degrees) is the most common "abnormality" in adults occurring in over 8%. • Causes of LAD: left ventricular hypertrophy left bundle branch block left anterior hemiblock  Marked LAD (≥- 45 degrees) is called left anterior hemiblock or left anterior fascicular block Wolff-Parkinson-White syndrome* - right-sided accessory pathway  *in the majority of cases, or in a question without qualification, WolffParkinson-White syndrome is associated with left axis deviation congenital: ostium primum ASD, tricuspid atresia, endocardial cushion defect Inferior wall myocardial infarction hyperkalaemia Normal variation (physiologic, often with age), minor LAD in obese people Mechanical shifts, such as expiration, high diaphragm (pregnancy, ascites, abdominal tumor) Emphysema Ventricular ectopic rhythms • Recommendations: (If LAD is present): Exclude hypertension. (If borderline ambulatory BP monitoring).  check for borderline indicators of LVH (i.e., the voltage criteria and left atrial enlargement). Note whether diagnostic inferior Q waves are present since an inferior MI can cause LAD. Right axis deviation (RAD) • Definition An axis between 90º and 180º (directed inferior and to the right), • Causes of RAD: right ventricular hypertrophy right bundle branch block left posterior hemiblock Wolff-Parkinson-White syndrome - left-sided accessory pathway ostium secundum ASD chronic lung disease → cor pulmonale pulmonary embolism Dextrocardia Ventricular ectopic rhythms Lateral wall myocardial infarction Normal variation (vertical heart with an axis of 90º ).  normal in youngsters (less than 21 years of age), tall people, thin adults and athletes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • If the QRS complex is positive (upright) in leads I and II, it falls between -30 and 90° and is normal, as indicated by the yellow area. • If the QRS complex is negative in I and positive in aVF, there is right axis deviation. • If the QRS complex is positive in I and negative in II, there is left axis deviation. • If the QRS complex is negative in I and aVF, there is extreme axis deviation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ECG: coronary territories The table below shows the correlation between ECG changes and coronary territories: Localization of myocardial infarct on ECG ECG changes Coronary artery Anteroseptal V1-V4 Left anterior descending (LAD) Inferior II, III, aVF Right coronary Anterolateral V4-6, I, aVL Left anterior descending (LAD) or left circumflex Lateral I, aVL +/- V5-6 Left circumflex Posterior Tall R waves V1-2 Usually left circumflex, also right coronary High lateral wall MI • ST segment elevation in leads I and aVL High lateral wall MI • usually due to occlusion of the first diagonal branch of the left anterior descending artery, though occlusion of other arteries like branches of the left circumflex or a short left anterior descending artery may cause the same picture. Postero-lateral MI prominent R wave in lead V1 and ST depression in V1-V3 + ST elevation in leads V5 and V6. Posterior MI (ESC guidelines 2017) • posterior wall (now termed inferobasilar), usually supplied by the posterior descending artery — a branch of the right coronary artery in 80% of individuals. • isolated ST-segment depression ≥ 0.5 mm in leads V1–V3 represents the dominant finding. These should be managed as a STEMI. • The use of additional posterior chest wall leads [elevation V7–V9 ≥ 0.5 mm (≥1 mm in men, 40 years old)] is recommended. Left main stem (LMS) • LMS occlusion typically presents dramatically with cardiogenic shock. • ECG findings include ST elevation in aVR with diffuse ST depression in other leads. • The presence of ST depression ≥ 1 mm in six or more surface leads, coupled with STsegment elevation in aVR and/or V1, suggests multivessel ischemia or left main coronary artery obstruction, particularly if the patient presents with haemodynamic compromise. (ESC guidelines 2017) Which ECG changes may be seen earlier in ischaemia ? hyper-acute T-waves, which may precede ST-segment elevation. ECG criteria for STEMI (ESC guidelines 2017) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • ST-segment elevation (measured at the J-point) is considered suggestive of ongoing coronary artery acute occlusion in the following cases: Numbers of leads: at least two contiguous leads with ST-segment elevation  ST-segment elevation:  ≥ 2.5 mm in men < 40 years,  ≥2 mm in men ≥40 years, or  ≥ 1.5 mm in women in leads V2–V3 and/or  ≥1 mm in the other leads In patients with inferior MI, it is recommended to record right precordial leads (V3R and V4R) seeking ST-segment elevation, to identify concomitant right ventricular (RV) infarction. Likewise, ST-segment depression in leads V1–V3 suggests myocardial ischaemia, especially when the terminal T-wave is positive (ST-segment elevation equivalent), and confirmation by concomitant ST-segment elevation ≥ 0.5 mm recorded in leads V7–V9 should be considered as a means to identify posterior MI (circumflex occlusion ). ECG: digoxin ECG features • down-sloping ST depression ('reverse tick') • flattened/inverted T waves • short QT interval • arrhythmias e.g. AV block, bradycardia ECG: hypothermia The following ECG changes may be seen in hypothermia • bradycardia • 'J' wave - small hump at the end of the QRS complex • first degree heart block • long QT interval • atrial and ventricular arrhythmias ECG: left bundle branch block • The diagram below shows the typical features of left bundle branch block (LBBB): • The ECG would show: broad QRS complex (>120ms), tall R waves in the lateral leads (I, V5-6) and deep S waves in the right precordial leads (V1-3) usually leads to left axis deviation. • One of the most common ways to remember the difference between LBBB and RBBB is WiLLiaM MaRRoW WiLLiaM : in LBBB there is a 'W' in V1 and a 'M' in V6 MaRRoW: in RBBB there is a 'M' in V1 and a 'W' in V6 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ECG showing typical features of LBBB • Causes of LBBB ischaemic heart disease hypertension aortic stenosis cardiomyopathy rare: idiopathic fibrosis, digoxin toxicity, hyperkalaemia Right bundle branch block (RBBB) • Patients with MI and right bundle branch block (RBBB) have a poor prognosis. (ESC guidelines 2017) It may be difficult to detect transmural ischaemia in patients with chest pain and RBBB. Therefore, persistent ischaemic symptoms occur in the presence of RBBB  primary PCI strategy (emergent coronary angiography and PCI if indicated) should be considered Trifascicular block The evidence of trifascicular block (RBBB, LAD and prolongation of the PR interval) in the context of dizziness and collapses. This is an indication for dual chamber (DDDR) pacing for likely complete heart block. • Trifascicular block is not strictly an ECG diagnosis but is a term used for the combination of: right bundle branch block, left hemiblock (typically left anterior hemiblock (LAHB)) (LAHB is diagnosed because the net QRS deflection in lead II is negative). long PR interval. • the site of the lesion AV node and Purkinje fibres Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • The most common pattern referred to as “trifascicular block” is the combination of bifascicular block with 1st degree AV block. • It implies that the bundle branches (Purkinje fibres) are blocked in the right bundle and one of the left hemibundles. • The 'third' bundle is also delayed or partially blocked hence the name. However, the delay (long PR interval) is usually at the AV node. • Clinically it means there is extensive disease of the conduction system and, in a patient such as this, would be an indication for permanent pacemaker. ECG: normal variants The following ECG changes are considered normal variants in an athlete: • sinus bradycardia • junctional rhythm • first degree heart block • Wenckebach phenomenon ECG: PR interval Causes of a prolonged PR interval • idiopathic • ischaemic heart disease • digoxin toxicity • hypokalaemia: hyperkalaemia can rarely cause a prolonged PR interval, but this is a much less common association than hypokalaemia • rheumatic fever • aortic root pathology e.g. abscess secondary to endocarditis • Lyme disease • sarcoidosis • myotonic dystrophy • A prolonged PR interval may also be seen in athletes short PR interval is seen in Wolff-Parkinson-White syndrome ECG: ST depression Causes of ST depression • secondary to abnormal QRS (LVH, LBBB, RBBB) • ischaemia • digoxin • hypokalaemia • syndrome X T wave • The T wave should be analyzed for: orientation: upgoing, downgoing (inverted) or biphasic concordance with QRS  Concordant: (normal) both QRS and T wave are on the same direction (upgoing or downgoing) (downgoing is common in aVR for normal ECG's)  Discordant: (abnormal) QRS is upgoing, T wave is downgoing or vice versa morphology (size and shape) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Biphasic T wave • Biphasic T waves can be "up then down", or "down, then up". • There are 2 causes of biphasic T waves: Ischemia  Wellens’ syndrome (type II): Two types of Wellens’ syndrome are identified: Type I: The most common (75% of cases), characterised by deep negative T waves in V2–V3 and often in V4. Type II: less common (one third of patients) ,present with biphasic T waves in V2–V3 pathognomonic of critical stenosis of the proximal left anterior descending coronary artery (LAD) It is also known as the “widow maker” sign because of the high risk of an acute coronary syndrome within days/weeks if it is untreated Hypokalaemia Q waves • A Q wave is any negative deflection that precedes an R wave on the ECG. • The evolution of Q waves is the most suggestive of an infarct. (more specific than ST elevation and cardiac enzyme for MI ) the most specific for a diagnosis of myocardial infarction • Small Q-waves are normal in most leads, and they can be prominent in leads III and aVR as a normal variant but should not be seen in leads V1-V3. • They are considered pathological if they are: more than 1mm wide, more than 2mm deep, more than 25% of the depth of the QRS complex, or seen in leads V1-V3. • Such pathological Q-waves usually indicate prior full thickness myocardial infarct. ECG: ST elevation (STE) Causes of ST elevation • myocardial infarction • pericarditis • normal variant - 'high take-off' • left ventricular aneurysm • Prinzmetal's angina (coronary artery spasm) • rare: subarachnoid haemorrhage, part of spectrum of changes in hyperkalaemia Early repolarization • Definition Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology It appears as mild ST segment elevation (appears like an elevated “J point.”) that can be diffuse; however, it is more prominent in the precordial leads. • Causes common finding in young, healthy individuals.  Prevalence: occurs in up to 13% of the general population • Differential diagnosis Early repolarization (benign finding) acute myocardial infarction (convex and not diffuse) pericarditis  The ST elevation seen in early repolarization is very similar: diffuse and concave upward.  Three things may help to distinguish pericarditis from early repolarization: The ratio of the T wave amplitude to the ST elevation should be > 4 if early repolarization is present. In other words, the T wave in early repolarization is usually 4 times the amplitude of the ST elevation. Another way to describe this would be that the ST elevation is less than 25% of the T wave amplitude in early repolarization. The ST elevation in early repolarization resolves when the person exercises. Early repolarization, unlike pericarditis, is a benign ECG finding that should not be associated with any symptoms. Early repolarization QT Interval Definition • The QT interval is the time between the onset of the QRS complex and the end of the T wave. Physiology • It represents the ventricular diastole • QRS corresponds with ventricular depolarization (when it contracts) and T wave corresponds with ventricular repolarization (when contraction stops). Which phase of the cardiac cycle shortens the most with increasing heart rate? • it is diastole. Diastole is usually the longest portion of the cardiac cycle, and its duration diminishes the most (more than the reduction seen in the duration of systole) with increasing heart rate. Which ECG interval will show the greatest reduction during ECG stress test? • QT interval 034 - Pages 826-850 034 Pages 826-850 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ECG: Junctional escape rhythm • Junctional escape rhythm describes an abnormal heart rhythm that arises within the AV node or from an adjacent area. • There is a slow, regular pulse rate. • Common after a pause in the underline rhythm • ECG shows absent P waves, narrow QRS complexes, and a heart rate of 40 to 60 bpm. • Retrograde P waves, which appear immediately before or after the QRS complex may be seen. Cardiac amyloidosis Amyloid • Low-voltage ECG • Speckled pattern on echo Features • most commonly presents as restrictive cardiomyopathy. • clinical findings are those of right heart failure, i.e. jugular venous distension and peripheral oedema, • orthopnoea and paroxysmal nocturnal dyspnoea are typically absent. • systolic dysfunction (In more advanced stages,) • Postural hypotension can occur as a result of poor ventricular filling or associated autonomic neuropathy. Investigations • ECG The combination of low-voltage ECG and thickened ventricular walls is one of the characteristic features of cardiac amyloidosis. • Echo echocardiographic abnormalities include atrial dilatation, thickened interatrial septum, diastolic dysfunction and small-volume ventricles. The most distinctive feature of cardiac amyloidosis is a sparkling, granular appearance of the myocardium, but this is a relatively insensitive feature occurring only in about 25% of cases. 'global speckled' pattern on echo. • The history of rheumatoid arthritis and the echocardiographic finding of bi-atrial dilatation, ventricular hypertrophy and a speckled appearance to the myocardium make amyloidosis the most likely underlying cause. • Digoxin is contraindicated in amyloid patients as the digoxin binds irreversibly to the amyloid fibrils. The ECG typically shows low-voltage complexes with poor R wave progression in the chest leads (a pseudo-infarction pattern). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology ECG: Wrong leads • They are normally labelled red (right arm) and yellow (left arm). The other leads are green (left leg) and black (right leg). • If the wires to the right and left arms have been accidentally swapped over It gives the appearance of abnormal T wave inversion in the lateral leads I and aVL. • The clue to recognising it is the inverted P waves in lead I and the upright aVR which are both highly unusual for a 12-lead ECG.  The correct course of action Repeat the ECG again Early repolarization variant Mechanism • It is expresses as an early uptake of the ST segment before the descending limb of the R wave has reached the baseline. Features • benign but often alarming ST segment elevation Classically the ST segment elevation during early exercise returns to normal as heart rate increases further • It is common in black males • Clinical evaluation is entirely normal • ST elevation is usually seen in the precordial leads ECG: U wave Causes of prominent U waves are: • Hypokalaemia • Cardiovascular drugs, e.g. digitalis, quinidine, amiodarone • Psychotropic drugs, e.g. phenothiazines, tricyclic antidepressants. Cardiac catheterisation and oxygen saturation levels • Questions regarding cardiac catheterisation and oxygen saturation levels can seem daunting at first but a few simple rules combined with logical deduction can usual produce the answer. Let's start with the basics: • deoxygenated blood returns to the right side of the heart via the superior vena cava (SVC) and inferior vena cava (IVC). It has an oxygen saturation level of around 70%. The right atrium (RA), right ventricle (RV) and pulmonary artery (PA) normally have oxygen saturation levels of around 70% • the lungs oxygenate the blood to a level of around 98-100%. The left atrium (LA), left ventricle (LV) and aorta should all therefore have oxygen saturation levels of 98-100% Some examples: Diagnosis & notes RA RV PA LA LV Aorta Normal 70% 70% 70% 100% 100% 100% Atrial septal defect (ASD) The oxygenated blood in the LA mixes with the deoxygenated blood in the RA, resulting in intermediate levels of oxygenation from the RA onwards Ventricular septal defect (VSD) The oxygenated blood in the LV mixes with the deoxygenated blood in the RV, resulting in intermediate levels of oxygenation from the RV onwards. The RA blood remains deoxygenated Patent ductus arteriosus (PDA) Remember, a PDA connects the higher pressure aorta with the lower pressure PA. This results in only the PDA having intermediate oxygenation levels VSD with Eisenmenger's 70% 70% 70% 100% 85% 85% PDA with Eisenmenger's 70% 70% 70% 100% 100% 85% ASD with Eisenmenger's 70% 70% 70% 85% 85% 85% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 85% 85% 85% 100% 100% 100% 70% 85% 85% 100% 100% 100% 70% 70% 85% 100% 100% 100% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Guidelines for the Interpretation of Cardiac Catheter Data • Right-heart saturations do not exceed 75%. Saturations more than this are suggestive of a left-to-right shunt. • Atrial septal defect (ASD) : The oxygen saturation in the RA and SVC should be the same. But in ASD there is a step-up in oxygen saturation at the level of the RA. This can only result from the addition of oxygenated blood to the deoxygenated blood in the right heart circulation, that is, an abnormal connection between the right and left sides of the heart. Primum ASD: The location of the step-up is suggestive of a primum defect since these lesions occur low down in the A-V septum, lying immediately above the atrioventricular valves. These lesions can affect the function of the anterior leaflet of the mitral valve, causing mitral regurgitation. high pressures of Right ventricular are more likely to occur with primum ASDs. • Patent ductus arteriosus (PDA) unexpected step-up in oxygen saturation between the RV and PA. high pulmonary artery pressures high wedge pressure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The change in O2 saturation between the ascending and descending aorta strongly suggests the presence of a patent ductus. Unfortunately the extremely elevated right sided pressures are indicative of advanced disease, not amenable to surgical correction. In late disease the machinery murmur said to be characteristic of the disease may well not be audible. • Left-heart saturations vary from 96–98%. Saturations less than this are suggestive of a right-to-left shunt. • In right-to-left shunts, the arterial saturations do not change with inspired high-concentration oxygen. • Ventricular septal defect (VSD) There is a step-up in the oxygen saturation between the RA and RV. This can only occur when there is an abnormal connection between these two chambers, that is, via a VSD. This is confirmed by the raised right ventricular pressures. VSD with Eisenmenger's syndrome  the pressures in the RV and PA are markedly elevated, but RA pressure is normal.  The left ventricular oxygen saturation is low, which raises the possiblity of a right to left cardiac shunt mixing desaturated RV blood with LV saturated blood (due to right ventricular pressures exceeding left ventricular pressure). post-MI VSD and papillary rupture are difficult to distinguish clinically.  The diagnosis is established by demonstration of a left to right shunt. if there is a step-up in the oxygen saturation between the RA and PA VSD  if there is no step-up, papillary muscle rupture. • Fallot's tetralogy VSD: step-down in oxygen saturation between LA and LV, indicating right to left shunt at the level of the ventricles. Pulmonary stenosis: there is ↑mmHg gradient across the pulmonary valve (RV systolic - PA systolic). RVH: Right ventricular pressures are high and there is a right to left shunt, which indicated by the oxygen saturations. Over-riding aorta: there is a further step-down in oxygen saturation between the LV and aorta. This could occur in either Fallot's or with a patent ductus arteriosus with right to left shunting. However, given the other features of Fallot's, this is most likely to be caused by an over-riding aorta with reduced saturations due to a mixture of deoxygenated blood from the RV entering the left heart circulation. The over-riding aorta recieves a mixture of blood from the left and right ventricles as is formed above a VSD. • Pulmonary hypertension does not occur in Fallot's tetralogy due to narrowing of the right ventricular outflow tract/ subpulmonary valve stenosis. • A VSD with a right-to-left shunt and pulmonary stenosis can be differentiated from Fallot’s tetralogy by examining the oxygen saturation in the left ventricle and the ascending aorta. In the case of a VSD, the saturations in the left ventricle and the aorta will both be low and very similar. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology In the case of Fallot’s tetralogy, the aortic oxygen saturation will be much lower than the oxygen saturation in the left ventricle because the right ventricle pumps most of the deoxygenated blood into the overriding aorta. • A pulmonary artery pressure exceeding 35 mmHg is suggestive of pulmonary hypertension. • A pressure drop of more than 10 mmHg across the aortic or pulmonary valve is suggestive of aortic or pulmonary stenosis, respectively. • The diagnosis of mitral regurgitation cannot be made unless you are given the PCWP ‘vwave’. A v-wave higher than 20 mmHg is highly suggestive of mitral regurgitation. • The right and LVEDP and the left and right atrial pressures are roughly equal in pericardial constriction • When interpreting right heart catheter data, remember the saturation should decrease gradually as the venous blood reaches the pulmonary capillary wedge saturation, which should be equal to arterial blood. • In Ebsteins anomaly there should be elevated RA pressure due to significant tricuspid regurgitation. • Hypertrophic cardiomyopathy Left ventricular pressures are high with a steep drop-off between the LV and aortic systolic pressures. • Anomalous pulmonary venous drainage to SVC normally oxygenation in the superior vena cava should always be lower than the inferior vena cava, due to the high oxygen demands from the brain. If SVC sats is markedly higher than the IVC, sugest a diagnosis of anomalous pulmonary venous drainage of more highly oxygenated blood into the SVC (left to right shunt). What is meaning of “valve gradient”? • The valve’s gradient describes the severity of the narrowing of the valve by the increase in pressure behind it. • It helps to measure the amount of blood that is able to pass through the valve. • It also indicates whether the “velocity” (or speed of movement) of the blood flow is increased because of the increased pressure behind the narrowed valve. Diagnosis of tricuspid stenosis • mean gradient by echocardiogram or cardiac catheterisation of 2 mmHg or greater, but is usually found to be >7 to 10 mmHg in severe TS Diagnosis of pulmonary hypertension • If the pulmonary arterial pressure is greater than the normal one-fifth of systolic measurements  pulmonary hypertension is present. Diagnosis of right ventricular failure • The right atrial pressure is grossly elevated, with a normal wedge pressure. Normal right atrial pressure = (4–8) mmHg. Normal indirect left atrial mean pressure (wedge) = (5–10) mmHg.  normal wedge pressure excludes acute left ventricular failure or acute mitral regurgitation. Diagnosis of aortic stenosis • a greater than 25mmHg gradient across the aorta valve, demonstrating moderate aortic stenosis. • systolic gradient of ↑mmHg across the aortic valve (LV systolic pressure - aortic systolic pressure), indicating critical aortic stenosis. • Hypertrophic cardiomyopathy may result in similar pressure differences, but given the clinical information, aortic stenosis is far more likely than hypertrophic obstructive cardiomyopathy (HOCM) in an old patient. • A guide to determining the severity of aortic stenosis is given below: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Severity of aortic stenosis Severity Valve area (cm2) Mean gradient (mmHg) Mild 1.5 <25 Moderate 1.0-1.5 25-50 Severe <1.0 50 Critical <0.7 80 Diagnosis of mitral stenosis • A normal mitral valve expects less than 5mmHg pressure difference. • Using these inferences, the mitral valve gradient is calculated by the capillary wedge pressure of mmHg (same as the left atrial pressure) minus the diastolic left ventricular pressure of mmHg: the mmHg difference more than 5 demonstrates mitral stenosis. • The PCWP is equal to the LVEDP. When the PCWP exceeds the LVEDP, the diagnosis of mitral stenosis should be considered. • The gradient across the mitral valve (LA pressure - LV end diastolic pressure); it is usual to use the PCWP as a surrogate for LA pressure. • There is also evidence of right ventricular hypertrophy, with markedly elevated RV pressures due to secondary pulmonary hypertension. • The severity of mitral stenosis can be graded: Severity of mitral stenosis Severity Valve area (cm2) Gradient (mmHg) Mild 1.6-2.0 <5 Moderate 1.0-1.5 5-10 Severe <1.0 10 Aortic incompetence • wide pulse pressure in the aorta • high left ventricular end-diastolic pressure (LVEDP). LVEDP greater than 20 mmHg is suggestive of irreversible LV dysfunction. • All left heart valve diseases can ultimately cause elevated right heart pressures Coarctation of the aorta • There is a steep systolic gradient between the left ventricle and the femoral artery Pulmonary artery floatation catheter findings: • if the pulmonary artery occlusion pressure is low with a relatively low cardiac index, suggesting the patient is hypovolaemic, even in spite of high right atrial pressure. A fluid challenge should be performed, and values re-measured to assess response. In a fluid replete patient, the occlusion pressure would be higher (usually >13 mmHg) • if the Pulmonary artery occlusion pressure is high and cardiac index low (i.e. <2.5 L/min/m2) this would be more suggestive of cardiogenic shock. Pulmonary artery floatation catheter findings: • Low pulmonary artery occlusion pressure + low cardiac index hypovolaemia • High pulmonary artery occlusion pressure + low cardiac index cardiogenic shock Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Hyperthyroidism and cardiac catheterisation: • Cardiac catheterisation requires the use of an iodine-containing contrast. • This may worsen hyperthyroidism caused by toxic multinodular goitre, whereas it may improve the symptoms in patients with Grave’s disease (Wolff–Chaikoff effect). • The most reliable diagnostic method is a radionuclide (99Tcm, 123I or 131I) scan of the thyroid, which will distinguish the diffuse, high uptake of Grave’s disease from nodular thyroid disease. • If a toxic multinodular goitre or toxic adenoma is detected, the patient should receive an antithyroid drug before undergoing catheterisation. • The antithyroid medication must be continued for at least 2 weeks after the procedure. Pulmonary capillary wedge pressure • Pulmonary capillary wedge pressure (PCWP) is measured using a balloon tipped SwanGanz catheter which is inserted into the pulmonary artery. • The pressure measured is similar to that of the left atrium (normally 6-12 mmHg). • The PCWP provides an indirect measurement of the left atrial pressure, and since the left atrial pressure is increased, the PCWP will also be increased. • One of the main uses of measuring the PCWP is determining whether pulmonary oedema is caused by either heart failure or acute respiratory distress syndrome. • In many modern ITU departments PCWP measurement has been replaced by non-invasive techniques. Which method is an appropriate of measuring adequate intravascular filling? • PiCCO (pulse contour cardiac output) PiCCO gives indications of cardiac output, extravascular lung water, intravascular filling and only requires a central line and a PiCCO femoral arterial line and as such is relatively simple to use. Cardiac imaging: non-invasive techniques excluding echocardiography Nuclear imaging • These techniques use radiotracers which are extracted by normal myocardium. • Examples include: Thallium  Nuclear isotopes are picked up by the Na/K ATPase of normal myocardium.  If cardiac tissue is alive and perfused, it will pick up the nuclear isotope.  To the myocardium, thallium looks like potassium.  Decreased uptake = Damage technetium (99mTc) sestamibi:  a coordination complex of the radioisotope technetium-99m with the ligand methoxy-iso-butyl isonitrile (MIBI), used in 'MIBI' or cardiac Single Photon Emission Computed Tomography (SPECT) scans fluorodeoxyglucose (FDG):  used in Positron Emission Tomography (PET) scans Cardiac PET is predominately a research tool at the current time Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad SPECT • The primary role of SPECT is to assess myocardial perfusion and myocardial viability. • Two sets of images are usually acquired. First the myocardium at rest followed by images of the myocardium during stress (either exercise or following adenosine / dipyridamole). • By comparing the rest with stress images any areas of ischaemia can classified as reversible or fixed (e.g. Following a myocardial infarction). MUGA • Multi Gated Acquisition Scan, also known as radionuclide angiography • radionuclide (technetium-99m) is injected intravenously • the patient is placed under a gamma camera • may be performed as a stress test • can accurately measure left ventricular ejection fraction. • Typically used before and after cardiotoxic drugs are used Cardiac Computed Tomography (CT) • Cardiac CT is useful for assessing suspected ischaemic heart disease, using two main methods: calcium score:  there is known to be a correlation between the amount of atherosclerotic plaque calcium and the risk of future ischaemic events.  Cardiac CT can quantify the amount of calcium producing a 'calcium score' contrast enhanced CT:  allows visualisation of the coronary artery lumen • If these two techniques are combined cardiac CT has a very high negative predictive value for ischaemic heart disease. • The updated NICE guidelines recommends that cardiac CT is the first-line investigation for patients presenting with new-onset chest pain due to suspected CAD. Cardiac MRI • Cardiac MRI (commonly termed CMR) has become the gold standard for providing structural images of the heart. • It is particularly useful in: assessing congenital heart disease, determining right and left ventricular mass and differentiating forms of cardiomyopathy. Myocardial perfusion can also be assessed following the administration of gadolinium. • Currently CMR provides limited data on the extent of coronary artery disease. Mitral stenosis (MS) Pathophysiology • MS → mechanical obstruction of blood flow into the left ventricle (LV) → limited diastolic filling of the LV (↓ end-diastolic LV volume) → decreased stroke volume → decreased cardiac output (forward heart failure) • MS → ↑left atrial pressure → backup of blood into lungs → ↑pulmonary capillary pressure → cardiogenic pulmonary edema → pulmonary hypertension → backward heart failure and right ventricular hypertrophy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Causes • Common →Rheumatic fever Rheumatic valve disease is increasing uncommon in the UK, but can still be seen in other parts of the world. The physiological stress of pregnancy can exacerbate the features of rheumatic mitral stenosis. • Rare Calcification of the mitral valve annulus Autoimmune diseases: systemic lupus erythematosus, rheumatoid arthritis Congenital Mucopolysaccharidoses carcinoid Features • Malar flush: Mauve discoloration of the cheeks due to low cardiac output and systemic vasoconstriction • Dyspnea • Low volume pulse • Tapping apex beat • Auscultation Loud first heart sound (S1) Mid-late diastolic murmur (with pre-systolic accentuation )  heard best at the 5th left intercostal space at the midclavicular line (the apex) in expiration. Opening snap  A high frequency, early to mid-diastolic sound, heard after S2  suggests that the mitral valve is mobile  opening snap is not heard when the mitral valve is heavily calcified  the high left atrial pressure → rapid reversal of anterior mitral valve leaflet towards the left ventricle in early diastole lead to early diastole sound. Complications • Compression by the enlarged left atrium Compression of the esophagus → Dysphagia Compression of the recurrent laryngeal nerve → Hoarseness (known as Ortner syndrome.) • Atrial fibrillation Embolic disease (e.g., stroke, mesenteric ischemia) Patients with mitral stenosis often develop acute heart failure following the onset of atrial fibrillation. • Leads to left atrial enlargement, but the left ventricle is usually small. • Right heart failure (paroxysmal nocturnal dyspnea, orthopnea, lower limb pitting edema , bibasilar rales ) • Hemoptysis Mechanism of opening snap earlier in worsening MS • The mitral valve opens when LA pressure > LV pressure. Worse MS = Higher LA pressure. Higher LA pressure pushes the mitral valve open earlier. Features of severe MS • length of murmur increases • opening snap becomes closer to S2. (shorter interval between S2 and opening snap) opening snap is characteristically lost with heavy valvular calcification • high transvalvular pressure gradient and high blood flow velocity. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Investigations • Transthoracic echocardiography (TTE) TTE is the most important test for diagnosing and guiding the treatment of mitral stenosis. Characteristic findings include:  Reduced mitral valve area (MVA): ≤ 1.5 cm2 is considered to be severe MS  Thickened, calcified leaflets with commissural fusion  RV dilation  LA enlargement  Evidence of pulmonary hypertension • Chest x-ray Left atrial enlargement may be seen  The main bronchi appear elevated and have > 90% angulation (splayed).  Straightening or convexity of the left cardiac border  Double density sign (the silhouette of the enlarged left atrium appears near that of the right atrium.) Cardiomegaly Pulmonary congestion • ECG Often normal Characteristic findings include: Left atrial enlargement/P mitrale Atrial fibrillation Right ventricular hypertrophy (e.g., right axis deviation, dominant R wave in lead V1) Chest x-ray from a patient with mitral stenosis. This patient has had a sternotomy and a prosthetic mitral valve. There is splaying of the carina with elevation of the left main bronchus, a double right heart border and cardiomegaly. The features are those of left atrial enlargement. Although the entire heart is enlarged, a double contour is seen through the right side of the heart. The more medial line is the enlarged left atrium (white dotted line) and the heart border is more lateral (blue dotted line). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Management • Asymptomatic: echocardiography follow-up every 3 to 5 years if the mitral valve area (MVA) is >1.5 cm2 every 1 to 2 years if the MVA is 1.0 to 1.5 cm2 once per year if the MVA is <1.0 cm2. • Symptomatic with severe MS 1st line: transcatheter valvotomy : in patients with favorable valve morphology 2nd line: surgical mitral valve replacement: if transcatheter valvotomy is unsuitable. Indications for surgical mitral valve replacement • Unfavorable anatomy for transcatheter valvotomy (Percutaneous mitral valve balloon commissurotomy) • Presence of thrombus in the left atrium • Mixed valvular disease (e.g., severe MR, tricuspid disease) Mitral stenosis in pregnancy • Overview MS is poorly tolerated in pregnancy due to volume overload. Pregnancy can unmask previously undiagnosed obstructive valvular heart disease. The symptoms may developed in the second trimester, when the demand for cardiac output increases by around 70%. • Treatment Medical therapy for mild symptoms (beta blockers and/or diuretics) Percutaneous mitral balloon valvuloplasty (PMBV) should be carried out for severe mitral stenosis in patients who remain symptomatic despite medical therapy. Symptomatic patients with moderate to severe MS (mitral valve area ≤1.5 cm2) should undergo intervention, preferably percutaneous balloon mitral valvotomy, before pregnancy. Vaginal delivery with assisted second stage is the preferred mode of delivery with caesarian delivery generally reserved for obstetric reasons. Mitral regurgitation (MR) Valvular anatomy • left atrial enlargement can result in mitral regurgitation by affecting which leaflet? posterior leaflet  anterior leaflet is not affected, because of its attachment to the root of the aorta. Pathology • Myxomatous degeneration (the most common cause of MR in UK). Risk factors and aetiology • MR associated with Marfan syndrome and Ehlers-Danlos syndrome. • cardiac complication seen 3-14 days post-myocardial infarction that occurs due to papillary muscle rupture. Features • Symptoms dyspnoea, usually on exertion, decreased exercise tolerance. palpitations, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Signs  soft S1, split S2  pan-systolic murmur  Typically presents as a holosystolic blowing murmur at the apex, radiating to axilla.  intensified by isometric exercise and thus helps to differentiate it from other systolic murmurs.  Sudden standing and amyl nitrite decrease the murmur. Diagnosis • Transthoracic echo is the diagnostic test of choice Which feature suggests more severe mitral regurgitation? • As mitral regurgitation becomes more severe, the left ventricle enlarges, and the apex beat displaces, and a systolic thrill can develop. Management • asymptomatic chronic MR: left ventricular ejection fraction >60% and/or left ventricular end-systolic diameter <45 mm (ACE) inhibitors + beta-blockers left ventricular ejection fraction 60% or less and/or left ventricular end-systolic diameter 45 mm or more surgery • symptomatic chronic MR left ventricular ejection fraction 30% or moresurgery + medical treatment (ACE inhibitors, beta-blockers, and diuretics.) left ventricular ejection fraction <30% medical treatment  intra-aortic balloon counterpulsation in severe acute cases Mitral valve prolapse (MVP) Epidemiology • common, occurring in around 5-10 % of the population. • the most common valvular defect in the United States • more common in females. Causes • usually idiopathic • inherited in an autosomal dominant fashion. • may be associated with: congenital heart disease: PDA, ASD cardiomyopathy Turner's syndrome Marfan's syndrome, Fragile X osteogenesis imperfecta pseudoxanthoma elasticum Wolff-Parkinson White syndrome long-QT syndrome Ehlers-Danlos Syndrome polycystic kidney disease 15-40% of people with panic disorder have associated mitral valve prolapse. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Features The late systolic murmur with mid systolic click is indicative of mitral valve prolapse where the posterior leaflets bulge during systole. • atypical chest pain (the most common symptom) • palpitations • dyspnea, exercise intolerance, • dizziness or syncope, • panic and anxiety disorders. • mid-systolic click (occurs later if patient squatting) • late systolic murmur (longer if patient standing) heard best at the apex Complications • mitral regurgitation, • arrhythmias (including long QT), • emboli, • sudden death Treatment • Mild to moderate mitral regurgitation follow-up in clinic with repeat echocardiograms to monitor progression. • Mitral valve replacement is only indicated in: severe mitral regurgitation or if there are signs of concomitant LV compromise (reduced ejection fraction or new dilatation of the LV). • If a surgical mitral valve replacement are indicated, coronary angiogram should be part of the pre-op work-up for potential concomitant coronary artery bypass grafting. Aortic dissection • It is most common between the ages of 50-70, being rare below the age of 40. Stanford classification • type A - Ascending aorta, (immediately above of the aortic valve) 2/3 of cases • type B - descending aorta, (after the aorta arch) distal to left subclavian origin, 1/3 of cases DeBakey classification • type I - originates in ascending aorta, propagates to at least the aortic arch and possibly beyond it distally • type II - originates in and is confined to the ascending aorta • type III - originates in descending aorta, rarely extends proximally but will extend distally Associations • hypertension (The most common risk factor) • trauma (direct blunt chest trauma) • collagens: Marfan's syndrome, EhlersDanlos syndrome • bicuspid aortic valve • Turner's and Noonan's syndrome • pregnancy • syphilis • Drugs (such as cocaine) Complications of backward tear • aortic incompetence/regurgitation • MI: inferior pattern often seen due to right coronary involvement Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Complications of forward tear • unequal arm pulses and BP • stroke • renal failure Stanford type A / DeBakey type I Stanford type A / DeBakey type II Stanford type B / DeBakey type III Investigations • The best investigation is a CT chest with IV contrast (CT aortogram) because the IV contrast will be able to best demonstrate the size and extent of the false lumen. • Chest X-ray: is a useful first line investigation because its readily available it is, and useful for ruling out many other conditions. The chest X-ray may show a widened mediastinum (greater than 8 cm)  but unfortunately, it is not a sensitive or specific investigation as 20% of patients present with normal chest X-ray and there are many causes of a widened mediastinum. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology  Looking for a separation of the intimal calcification from the outer aortic soft tissue border by 10 mm is an indication of the presence of a dissection. • In a man with low blood pressure and vague abdominal pain, always be mindful of the possibility of dissection or aneurysmal rupture. • Occasionally, there is involvement of the right coronary artery in the dissection process giving rise to the acute electrocardiographic changes. • MRI has the best sensitivity (98%) and specificity (98%) for aortic dissection. • Whilst an echocardiogram might identify disruption of the aortic root in a backwards tear, it would not identify more distal aortic pathology. This chest X-ray shows a widened mediastinum Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad This computerised tomography (CT) scan demonstrates an obvious flap in the thoracic aorta indicating aortic dissection. The flap is in the middle of the descending aorta (the dark line) which separates the true lumen anteriorly from the intimal flap posteriorly. The aortic regurgitant murmur would alert the examiner to this and mediastinal widening may be seen on x ray. Differential diagnosis • Myocardial infarction and aortic dissection: an important differential diagnosis The ECG changes of inferior myocardial infarct suggest that the aneurysm has dissected the right coronary artery at its ascending aortic ostium. An inferior myocardial infarct is high in the differential; however thrombolysis will kill a patient with an aortic dissection. (delayed diagnosis and surgical treatment) up to 85% of patients with dissections may not receive appropriate medical treatment in the first hours of treatment due to an incorrect diagnosis pain onset  pain in aortic dissection is abrupt in onset and maximal at the time of onset.  pain associated with MI starts slowly and gains in intensity with time. Pain character  In dissection although tearing is the classical description, the pain is described as sharp more often than tearing, ripping, or stabbing.  In MI it is usually more oppressive and dull. Pain site  with distal dissections the pain location is between the scapulae and in the back. • Oesophageal rupture Features that favor oesophageal rupture over aortic dissection include:  The history of onset while eating  Blood pressure equal in both arms  No diastolic murmur  Good peripheral pulses, and  Presence of a pleural effusion. the history of chest pain radiating to the back is concerning., early diastolic murmur suggesting aortic valve regurgitation, ECG changes in the inferior territory and indicating occlusion of the right coronary artery. These features combined suggest that the aortic dissection has tracked back to the heart itself. The enlarged heart on chest X-ray may suggest a haemopericardium, and the patient should be assessed for cardiac tamponade given his low blood pressure. This patient is highly unstable and requires urgent cardiothoracic involvement . the most appropriate next step in the management Bedside echocardiogram and urgent cardiothoracic review Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Management • Type A surgical management, but blood pressure should be controlled to a target systolic of 100-120 mmHg whilst awaiting intervention The most appropriate management strategy is to provide adequate analgesia and urgently reduce the blood pressure with intravenous antihypertensives: beta-blockers first line, and then nitroprusside. Then the cardiothoracic surgeons should be contacted. perioperative management of patients undergoing high risk vascular surgery  prophylactic beta blockers for high risk vascular surgery (including those patients with COPD). Bisoprolol is the best clinical choice Atenolol is next best choice; it is cardioselective and long acting, reducing risk of postoperative myocardial ischaemia and tachycardia. • Type B conservative management  bed rest  reduce blood pressure IV labetalol to prevent progression endovascular repair of type B aortic dissection may have a role in the future Complication • haemopericardium and cardiac tamponade If the dissection (involving the ascending aorta (Stanford type A) results in a tear of the tunica externa, aortic blood can leak into the pericardium. Management of aortic dissection complicated by haemopericardium and cardiac tamponade  acute type A aortic dissection complicated by haemopericardium and cardiac tamponade: Relatively stable patient immediate surgical repair and surgical evacuation of haemopericardium. Pericardiocentesis in these patients can increase the intra-aortic pressure and reopen the closed communication between false lumen and pericardium. This can lead to recurrent cardiac tamponade that may be lethal.  marked hypotension or electromechanical dissociation pericardiocentesis Prevention • The management of patients with predisposing inherited diseases such as Marfan's syndrome and Ehlers-Danlos syndrome should include: Periodic aortic diameter screening. Lifelong beta-blockade. Consideration of prophylactic replacement of the aortic root if dilated. Moderate restriction of physical activity. Prognosis • Mortality for untreated aortic dissection is 25–30% at 24 h and 65–70% at 2 weeks • dissections confined to the descending aorta are associated with better survival (80%). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Aortic aneurysms Aortic aneurysms • Most common cause of aneurysms atherosclerosis • The nice guidelines state that an aortic aneurysm of greater than 5.5 cm in diameter should be treated. Below this size, the risk of dissection is outweighed by the risk of surgery. Definition • Localized dilation of all three layers of the abdominal aortic wall (intima, media, and adventitia) to ≥ 3 cm Epidemiology • Sex: ♂ > ♀: ∼2:1 Risk factors • Advanced age • Smoking (most important risk factor) • Atherosclerosis • Hypercholesterolemia and arterial hypertension • Positive family history Localization • Infrarenal: below the renal arteries : Most common location • Suprarenal: above the renal arteries Features • Aortic aneurysms are usually asymptomatic or have nonspecific symptoms. • Lower back pain • Pulsatile abdominal mass • Bruit on auscultation Chapter 5 Cardiology Abdominal vs. thoracic aortic aneurysm Characteristics Abdominal aortic aneurysm Thoracic aortic aneurysm Location • Below the renal arteries (most common) Epidemiology • Advanced age • Predominantly men • More common than TAA Etiology • Smoking (most important risk factor) • Atherosclerosis • Hypercholesterolemia and arterial hypertension • Arterial hypertension • Bicuspid aortic valve • Tertiary syphilis [10] • Connective tissue diseases (e.g., Marfan syndrome, Ehlers-Danlos syndrome) • Trauma • Smoking Clinical features • Pulsatile abdominal mass • Bruit on auscultation • Lower back pain Diagnostics • Abdominal ultrasound (best initial and confirmatory test) Therapy • Indications for repair Diameter: ≥ 5.5 cm Expansion rate: ≥ 1 cm/year Symptomatic aneurysm Complications (e.g., rupture) Aortic regurgitation (AR) Causes • due to valve disease bicuspid aortic valve  the most common cause of chronic AR in a young patient is a congenital bicuspid valve.  Bicuspid valve is also a common cause of early-onset aortic stenosis. infective endocarditis  the vegetations prevent the valve from creating a proper seal to prevent backflow during diastole. rheumatic fever connective tissue diseases e.g. RA/SLE • due to aortic root disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Ascending aorta (most common) • Advanced age • Predominantly men • Feeling of pressure in the chest • Thoracic back pain • Chest x-ray and CTA of chest • Indications for repair Diameter: ascending aneurysm ≥ 5.5 cm; descending aneurysm ≥ 6.5 cm Expansion rate: ≥ 1 cm/year Symptomatic aneurysm Complications (e.g., rupture) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad aortic dissection Spondyloarthropathies (e.g. ankylosing spondylitis)  Ankylosing spondylitis is strongly associated with aortic regurgitation (occurs in 4% of cases).  An aortitis leads to aortic root dilatation with subsequent failure of leaflet coaptation. hypertension syphilis Marfan's, Ehler-Danlos syndrome Causes of acute aortic regurgitation: • ascending aortic dissection, • infective endocarditis, • collagen vascular disorders such as Marfan’s • trauma, • dehiscence of a prosthetic valve. Features • early diastolic murmur heard along the left sternal border heard best while the patient is leaning forward on deep expiration. • collapsing pulse • wide pulse pressure • mid-diastolic Austin-Flint murmur It is a low frequency mid/late diastolic murmur due to partial closure of the anterior mitral valve cusps caused by the regurgitation streams. There is no correlation between the presence of murmur and severity of AR, or aetiology. • Note that there is often an aortic systolic flow murmur because there is an increased volume of blood in the LV due to the regurgitation. • Isolated LV dilatation (other chambers are normal) on ECHO due to volume overload (AS, HOCM & ↑ BP hypertrophy and a smaller LV cavity) • Pulsus bisferiens; increased pulse pressure; visible, forceful, and bounding peripheral pulses (water hammer) • Corrigan's pulse - visible and vigorous arterial pulsations in neck • Musset's sign - Bobbing of the head, due to the arterial pulsations in the neck • Quincke's sign - Capillary pulsations of the nail bed • Muller's sign - Pulsations of the uvula • Traube's sign - Loud systolic sound over femoral arteries ('pistol-shot' femorals) • Duroziez sign - diastolic murmur proximal to femoral artery compression (due to flow reversal). • Hill’s sign (Higher systolic in leg than arm) Signs of severity of AR • Soft S2 • S3 • Austin Flint murmur (functional mdm at the apex due to regurgitant jet striking the anterior leaflet of the MV, therefore obstructing flow from the LA into the LV) • characteristic of the murmur. (Duration and loudness) (cf with AS) As the lesion becomes more severe, the murmur shortens. • Apex beat displaced and thrusting Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • CCF (pulmonary oedema) • Wide pulse pressure • collapsing pulse, • Hill’s sign (Higher systolic in leg than arm) Investigations • Echocardiogram (the most important test) Echocardiographic markers of severe AR  Width of AR jet on colour flow > 65 % of LVOT  regurgitant fraction (RF) > 50 %  left ventricular end-diastolic diameter (LVEDD) > 70mm  left ventricular end-systolic diameter (LVESD) > 50mm • Cardiac catheterisation may be performed if there is doubt over the severity of the regurgitation; severity is estimated by the degree of contrast that fills the ventricles after injection into the aortic root. Treatment • Asymptomatic: Asymptomatic without signs of sever AR:  ACEI improve the prognosis in asymptomatic left ventricular dysfunction.  Beta blockers should be avoided as these prolong diastole and therefore would increase the regurgitant fraction. Asymptomatic with signs of sever AR: surgery (Indications for surgery in asymptomatic):  signs of sever AR (echo criteria): LV ejection fraction under 50% LV end diastolic diameter greater than 7 cm LV end systolic diameter greater than 5 cm. Patient has moderate AR and is undergoing coronary artery bypass surgery or other surgery involving the ascending aorta = surgery • Symptomatic: Surgical Symptomatic (CCF, angina) deteriorating exercise tolerance, or abnormal hemodynamic responses to exercise, such as inability to augment blood pressure during a treadmill study Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Aortic stenosis (AS) Epidemiology • Aortic stenosis (AS) is the most common valve problem in the United Kingdom. Risk factors • age >60 years • congenitally bicuspid aortic valve • rheumatic heart disease • chronic kidney disease Causes • degenerative calcification (tricuspid aortic valve calcification) most common cause in older patients > 65 years • congenital bicuspid aortic valve (BAV) most common cause in younger patients < 65 years BAV is the most common form of congenital heart disease in adults (1-2% of population). The European Society of Cardiology states that there is an estimated 10% chance of a first degree relative being affected, which increases to 20-30% if you consider aortopathy. NOTCH1 gene mutations may be responsible.  It is possible that up to a third of relatives of patients with a bicuspid valve have valve or aortic abnormalities (often a dilated aorta).  NOTCH1 gene mutations may be responsible. most helpful in establishing a diagnosis of congenital bicuspid valve as the aetiology is Systolic ejection click (best heard at the apex) aortic valve replacement is eventually likely to be required  Only 15% of patients with a bicuspid aortic valve will have a normally functioning valve in the fifth decade, and this often continues to deteriorate with age. • William's syndrome (supravalvular aortic stenosis) • post-rheumatic disease fibrosis Commissural fusion on ECHO • subvalvular: HOCM Pathophysiology • Pathophysiological response in aortic stenosis The LV hypertrophies increase (in the size of myocytes) in a concentric - rather than an eccentric (asymmetric) - manner in response to the increase in afterload. Aortic stenosis - most common cause: • younger patients < 65 years: bicuspid aortic valve • older patients > 65 years: calcification Aortic stenosis - S4 is a marker of severity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology There is also an increase in interstitial collagen and little fibrosis The triad of angina, left ventricular failure and syncope is classical to aortic stenosis. Features Narrow pulse pressure and new murmur aortic stenosis • Symptoms heart failure SAD  Syncope (40%)  Angina or chest pain (50%)  Dyspnea (60%) Exertional dyspnea is the most common initial complaint • Physical exam pulse  narrow pulse pressure  slow rising pulse  pulsus parvus et tardus weak pulses with a delayed peak Displaced apex beat thrill ejection systolic murmur (ESM)  crescendo-decrescendo murmur  typically, a mid-systolic ejection murmur  heard best with the diaphragm of the stethoscope in the 2nd intercostal space in a patient who is sitting upright leaning forward. in the elderly the more high frequency components of aortic stenosis may be heard best at the apex, the so called (Gallavardin phenomenon)  may have ejection click  radiates to carotid arteries (left often louder than right). radiate to the right neck  decreases with standing, Valsalva, or handgrip  increases with amyl nitrate, squat, or leg raise  The intensity of the systolic murmur does not correspond to the severity of aortic stenosis; As LV contractility decreases in critical AS, the murmur becomes softer and shorter. The intensity of the murmur may therefore be misleading in these circumstances.  the timing of the peak and the duration of the murmur correspond to the severity of aortic stenosis. The more severe the stenosis, the longer the duration of the murmur and the more likely it peaks at late systole. S4 heart sound  from stiff or hypertrophic ventricle S2 (Character of S2)  soft/absent S2  paradoxical splitting of S2 heard on expiration rather than inspiration Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Associated conditions • hemolytic anemia • predisposes to bleeding due to an acquired von Willebrand deficiency caused by turbulent flow across the stenotic valve. • chronic gastrointestinal bleeding that is associated with angiodysplasia. Severity of aortic stenosis • The severity of (AS) can be accurately assessed with echocardiography. • the severity of AS is difficult to assess with echocardiography when cardiac output is low. • Catheterization to determine the severity of AS is reserved for patients in whom echocardiography is nondiagnostic • The volume of the murmur has NO relationship to the severity of the stenosis In a patient with aortic stenosis, what will lead to an overestimation of the severity of the problem when assessed by echocardiography? Aortic regurgitation  due to large volumes of blood passing over the valve at high velocities Which condition is most associated with quietening of the aortic stenotic murmur? Left ventricular systolic dysfunction decreased flow-rate across the aortic valve and hence a quieter murmur. Atrial fibrillation  Where the R-R interval is particularly short, such as in atrial fibrillation, flow across the valve is reduced, as such the intensity of the murmur is variable and may be significantly reduced.  Aortic regurgitation has no effect on the intensity of the murmur, such that in patients with mixed aortic valve disease, the stenotic murmur is still clearly audible. Conditions which leads to accentuation of the murmur increased flow across the murmur. • High output cardiac failure • severe thyrotoxicosis The predominant component of mixed aortic valve disease is determined by the murmur that is louder (ejection systolic murmur in aortic stenosis and mid diastolic murmur for aortic regurgitation). Evaluation • Severe AS is defined by a valve area of less than 1.0 cm2. • distinguish patients with true severe (AS) with secondary LV dysfunction from those who have a falsely low calculated aortic valve area because of low cardiac output. Features of severe aortic stenosis narrow pulse pressure slow rising pulse delayed ESM soft/absent S2 S4 thrill duration of murmur left ventricular hypertrophy or failure 035 - Chapter 5 035 Chapter 5 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology calculated valve area in patients with severe left ventricular (LV) dysfunction can be falsely low because low cardiac output reduces the valve opening forces. It is important to distinguish patients with true severe (AS) with secondary LV dysfunction from those who have a falsely low calculated aortic valve area because of low cardiac output. An important method of distinguishing between the two conditions is to assess the haemodynamics after increasing the cardiac output by dobutamine infusion during echocardiography or cardiac catheterisation.  Patients with truly severe AS manifest an increase in trans-aortic pressure gradient while the valve surface area remains the same during dobutamine infusion;  those with falsely low calculated valve area manifest an increase in calculated valve surface area. Dobutamine echocardiography is also important to assess LV contractile reserve.  Patients who have 20% or more increase in stroke volume after dobutamine infusion have a much better prognosis after surgery compared to those who do not have LV contractile reserve. What is the difference between aortic stenosis and aortic sclerosis? • Both aortic stenosis and aortic sclerosis are : senile degeneration of the valve there is an ejection systolic murmur, • Unlike aortic stenosis, aortic sclerosis have: Occur in > 25% of > 65 year of age  Aortic stenosis occur in > 2% of > 65 year of age Absence of stenosis  no carotid radiation,  normal pulse (character and volume)  normal S2. Investigations • Echocardiography transthoracic echocardiogram (TTE) initially transesophageal echocardiogram (TEE) is more accurate Although echocardiography will aid in diagnosis, gradient across the aortic valve may be underestimated because of the possibility of multiple echo signals and coexistent left ventricular dysfunction. • Left heart catheterization most accurate diagnostic test (the definitive investigation of choice) to assess pressure gradient across the valve only indicated to confirm the diagnosis if echocardiography is unclear findings  elevated pressure gradient (> 30 mmHg)  In the context of poor LV function, the aortic valve gradient may be normal or only mildly raised in the presence of a severely narrowed aortic valve area. • The next step in management after diagnosis Coronary angiography Coronary artery disease (CAD) is common in patients with AS Progressing straight to aortic valve replacement is not advised; significant coronary artery disease should be ruled out first, as CABG may be required at the same time as valve replacement. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Patients undergoing open surgical valve replacement should first undergo coronary angiography to exclude any coronary stenosis that could simultaneously be treated with bypass grafting. Management • if asymptomatic then observe the patient is general rule • if symptomatic then valve replacement The patient's symptomatology is the most important determinant in terms of the decision to operate There are three important factors to consider regarding management of aortic stenosis: • Presence of symptoms • The gradient across the valve on echocardiogram • Evidence of left ventricular dysfunction. • Symptomatic patient Fit for surgery →aortic valve replacement  the best treatment option in an older person who can undergo the surgery. Not fit for aortic valve replacement  Transcatheter aortic valve implantation (TAVI) The catheter-delivered device produces similar one-year survival as aortic valve replacement but a higher risk of stroke, TIAs and vascular complications.  Balloon valvuloplasty Balloon aortic valvuloplasty is a palliative procedure prone to restenosis for patients unsuitable for other interventions. • Asymptomatic patient with severe stenosis (transvalvular gradient > 50 mmHg, valve area <1 cm² ) but has an ejection fraction of less than 50%.  should be referred for aortic valve replacement or TAVI if unsuitable. with severe stenosis but has an ejection fraction is greater than 50%.  Exercise testing would be recommended If pass exercise testing, then reviewed in six months. echo follow-up  asymptomatic with mild stenosis every 3 to 5 years  asymptomatic with moderate stenosis every 1 to 2 years  asymptomatic with severe stenosis every 6 to 12 months. Indicator of poor prognosis • Clinical features of left ventricular failure deteriorating LV function (ejection fraction less than 40%) • Symptomatology exertional breathlessness or presyncope/syncope • Increasing gradient across the valve (above 70 mmHg) • Age of patient Aortic stenosis management: AVR if symptomatic, otherwise cut-off is gradient of 50 mmHg Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Heyde’s syndrome • association between microcytic anaemia and calcific aortic stenosis. • Heyde syndrome refers to a triad of aortic stenosis, acquired coagulopathy (von Willebrand syndrome type 2A) and anaemia due to bleeding from intestinal angiodysplasia or from an idiopathic site.  Angiodysplasia most commonly occur in the ascending colon, particularly the caecum. • Pathophysiology destruction of von Willebrand’s factor as the platelets traverse the stenosed valve resulting in bleeding per rectum. • Investigation The investigation of choice after valve replacement is mesenteric angiography as the bleeding vessels are poorly visualised on colonoscopy.  This would look for the presence of angiodysplasia, which may be associated with aortic stenosis. All patients with aortic stenosis should be screened for iron deficiency anaemia. • Treatment replace the valve Resection of the diseased bowel has also been described as a treatment. • There is an association with jaundice and aortic stenosis; this is thought to be due to microangiopathic haemolysis. Williams syndrome • Supra-valvar AS is one of the characteristic findings of Williams syndrome along with:  unusual elfin facies, excellent verbal skills contrasted with intellectual disability and lack of social inhibition. hypercalcemia (due to increased sensitivity to vitamin D.) • caused by a microdeletion of the elastin gene on long arm of chromosome 7 Coarctation of the aorta Definition: • congenital narrowing of the descending aorta, most commonly at the site of insertion of the ductus arteriosus Overview • more common in males (despite association with Turner's syndrome) • a bicuspid valve is found in approximately 50% of patients with coarctation of the aorta. • site of coarctation: distal to the origin of the left subclavian artery  The commonest site  The systolic BP in the arms exceeds that in the leg. proximal to the origin of the left subclavian artery Supravalvular aortic stenosis is the congenital cardiovascular deformity most often associated with Williams syndrome. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  occurs in 15% of cases of coarctation  if the systolic BP in the right arm is higher than that of the left arm by more than 30 mmHg, the left subclavian is involved in the coarctation (ie coarctation is proximal to the origin of the subclavian) Features • Most patients are asymptomatic • infancy: heart failure • claudication of the calf muscles. pain in calves is almost certainly due to poor distal blood supply. • Hypertension the most common presenting feature in adults • headache and nose bleeds occur due to hypertension proximal to the coarctation, • differential blood pressures between the right and left arms • radio-femoral delay • mid systolic murmur, and thrill maximal over back. continuous murmur over the thoracic spine usually originates from small, tight coarctation (< 2 mm). • apical click from the aortic valve Complications • Secondary hypertension • development of cerebral aneurysms may present with intracranial haemorrhage from a ruptured berry aneurysm • Left ventricular failure, • Bacterial endocarditis. Associations • Bicuspid aortic valve the commonest associated congenital abnormality occurs in 50% of the coarctations. • patent ductus arteriosus (PDA) • Turner's syndrome Female patients diagnosed with coarctation of the aorta should have a karyotype analysis to rule out Turner syndrome. • berry aneurysms • neurofibromatosis Investigations • Radiograph Cardiomegaly ↑ pulmonary vascular markings rib notching  notching of the inferior border of the ribs (due to collateral vessels)  usually manifests in adults and older children, as it takes time to develop. may demonstrate an indentation of the aortic shadow at the site of the coarctation. rib notching is not seen in young children • Echocardiography with doppler (confirmatory test): location and extent of stenosis; concurrent anomalies Treatment • Balloon angioplasty and stenting is the preferred intervention in adults. surgical correction is indicated if the pressure gradient across the coarctation is above 20 mmHg, even without associated hypertension. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Prostaglandin E1 should be administered to neonates with aortic coarctation to keep the ductus arteriosus open. Differences in blood pressure between arms: • up to 10 mmHg difference Normal variant (physiological) • difference of greater than 10 mmHg: abnormal: + radio-radial or radio-femoral delay (NO Leg claudication) proximal coarctation of the aorta (involves the left subclavian artery origin) + arm claudication, intermittent vertigo, ataxia or diplopia, or facial sensory symptoms (NO Leg claudication) Subclavian steal syndrome + Leg claudication (chronic intermittent leg pain, exacerbated by exercise and relieved by rest) Peripheral vascular disease Bicuspid aortic valve Overview • occurs in 1-2% of the population • Bicuspid aortic valve tends to be sporadic although there is a reported familial incidence of approximately 9%. • usually asymptomatic in childhood • the majority eventually develop aortic stenosis or regurgitation associated with: • left dominant coronary circulation (the posterior descending artery arises from the circumflex instead of the right coronary artery) • Turner's syndrome • coarctation of the aorta (around 5% of patients) Complications • aortic stenosis/regurgitation as above • higher risk for aortic dissection and aneurysm formation of the ascending aorta Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Tricuspid regurgitation Signs • pan-systolic murmur • giant V waves in JVP • pulsatile hepatomegaly • left parasternal heave Causes • pulmonary hypertension e.g. COPD (The most common cause) • right ventricular dilation • rheumatic heart disease • infective endocarditis (especially intravenous drug users) • Ebstein's anomaly • carcinoid syndrome Prosthetic valves • The most common valves which need replacing are the aortic and mitral valve. • There are two main options for replacement: biological (bioprosthetic) or mechanical. Chapter 5 Cardiology Biological (bioprosthetic) valves Mechanical valves Usually bovine or porcine in origin The most common type now implanted is the bileaflet valve. Ball-and-cage valves are rarely used nowadays Advantages : not requiring Long-term anticoagulation Warfarin may be given for the first 3 months depending on patient factors. Low-dose aspirin is given long-term. Disadvantages calcification over time. must be replaced within 5 to 10 years. Most older patients ( > 65 years for aortic valves and > 70 years for mitral valves) receive a bioprosthetic valve Following the 2008 NICE guidelines for prophylaxis of endocarditis antibiotics are no longer recommended for common procedures such as dental work. Which pathological findings in the bioprosthesis has most likely led to the need for replacement? Calcification with stenosis Supraventricular tachycardia (SVT ) Definition • The term ‘SVT’ literally indicates tachycardia [atrial rates >100 beats per minute at rest, the mechanism of which involves tissue from the His bundle or above. Traditionally, SVT has been used to describe all kinds of tachycardias apart from ventricular tachycardias (VTs) and AF. Causes • Atrioventricular nodal re-entry tachycardia (AVNRT). the most common supraventricular tachycardia, twice as common in females as in males the incidence is 1–3 per 1000 Small elevations in troponin are occasionally seen in this situation, but there are no ECG changes to suggest a myocardial infarction. • Atrioventricular re-entry tachycardias (AVRT) • Junctional tachycardias. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Advantages : have a low failure rate Disadvantages ↑ risk of thrombosis meaning long-term anticoagulation is needed. Aspirin is normally given in addition unless there is a contraindication. Target INR • aortic: 2.0-3.0 • mitral: 2.5-3.5 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Differential diagnosis Paroxysmal SVT would start and stop suddenly, not gradually. Panic attacks breathlessness and palpitations start and stop gradually. Management Vagal manoeuvres and adenosine are the treatments of choice for the acute therapy of SVT, and may also provide important diagnostic information. • Acute management haemodynamically stable patient:  1st line : vagal manoeuvres : e.g. Valsalva manoeuvre Carotid sinus massage is contraindicated in patients with carotid vascular disease  2nd line: intravenous adenosine 6mg → 12mg → 12mg Adenosine can cause flushing, chest pain, and dizziness. contraindicated in asthmatics - verapamil is a preferable option  3rd line: Verapamil or diltiazem i.v. or Beta-blockers (i.v. esmolol or metoprolol) should be considered if vagal manoeuvres and adenosine fail.  4th line: Synchronized DC cardioversion haemodynamically unstable patient:  Synchronized DC cardioversion: start with 70-120 J biphasic (100 J monophasic). • Prevention of episodes 1st line: beta-blockers or 2nd line: radio-frequency ablation • Do not use flecainide or propafenone in patients with LBBB, or ischaemic or structural heart disease. • Verapamil is not recommended in wide QRS-complex tachycardia of unknown aetiology. • Flecainide and propafenone are not recommended as first-line antiarrhythmic drugs in patients with ventricular dysfunction and severe fibrosis. SVT in pregnancy • Tachyarrhythmias may increase during pregnancy although the causes are not entirely clear. • Termination of acute SVT: haemodynamic stable:  Vagal manoeuvres and, if these fail, adenosine (adenosine appears to be safe in pregnancy).  An i.v. beta-1 selective blocker (except atenolol) should be considered for acute conversion or rate control of SVT. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Prevention of recurrent SVT in patients without WPW syndrome :  If possible, avoid all antiarrhythmic drugs during the first trimester of pregnancy.  1st line : beta-1 selective agents (but not atenolol) beta-blockers. The cardio-selective beta-1-blockers include atenolol, betaxolol, bisoprolol, esmolol, acebutolol, metoprolol, and nebivolol. Metoprolol is the preferred and safest Beta-blocker in prophylaxis for SVT in pregnancy (it is a short acting β blocker and a TDS regimen is required).  2nd line: verapamil  3rd line: Fluoroless catheter ablation Prevention of recurrent SVT in patients with WPW syndrome :  1st line : Flecainide or propafenone  2nd line: Fluoroless catheter ablation Sinus arrhythmia • The (ECG) shows normal P wave, PR interval, QRS complex and each P wave conducted to ventricles. • There is a gradual decrease in R–R interval and then an increase again. This slight beat-to-beat variation (rhythmic and cyclical variation) is termed as sinus arrhythmia. • the most common cause is respiration. Respiratory sinus arrhythmia is thus heart rate variability in synchrony with respiration, and is normal in children and young adults. The R–R interval decreases with inspiration and increases with expiration. • Anxiety reassured. Premature ventricular ectopic (PVEs) The first line management of supraventricular ectopics is generally reassurance and lifestyle modifications (eg: reduce alcohol and caffeine intake). If symptoms persisted, then a beta blocker would be first line. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • usually seen in normal hearts; • palpitations are described as an early beat with a pause followed by an unusually strong or 'pounding' beat, or simply as a 'flip-flop'; Symptoms are usually worse at rest and may disappear with exercise.  Symptoms which increase on exercise are more worrying and significant. • may be associated with caffeine intake • Investigations baseline ECG without symptoms: typically normal ambulatory ECG: isolated wide QRS complexes  If symptoms are short-lived but frequent (>2-3 times per week), use a 24-hour Holter monitor  If symptoms are short-lived and infrequent (<1 per week), use an event monitor or transtelephonic recorder Exercise stress testing  the relation of extrasystoles to exercise may have prognostic importance. Echocardiography - to assess LV function and heart structure. • For PVE to be significant they have to meet the following criteria: Occurring frequently (6 or more beats/min) PVE in bigeminal rhythm PVE in short runs of ventricular tachycardia PVE exhibiting R-on-T phenomenon PVE associated with serious organic heart disease and left ventricular decompensation. • Treatment Not significant PVE Reassurance  Significant PVE  beta-blockers  Radiofrequency catheter ablation of the ectopic focus Curative with good outcome Ventricular extrasystoles are the most common type of arrhythmia that occurs after myocardial infarction. Management of symptomatic atrial extrasystoles • beta-blockers (atenolol or metoprolol). • Atrial extrasystoles arising from the pulmonary veins may be treatable by the procedure of pulmonary vein isolation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Arrhythmogenic right ventricular cardiomyopathy(ARVC) Overview • Arrhythmogenic right ventricular cardiomyopathy (ARVC, also known as arrhythmogenic right ventricular dysplasia or ARVD) is a form of inherited cardiovascular disease which may present with syncope or sudden cardiac death. • It is generally regarded as the second most common cause of sudden cardiac death in the young after hypertrophic cardiomyopathy. • Although ARVC was initially described in the right ventricle, most patients have biventricular involvement. Pathophysiology • inherited in an autosomal dominant pattern with variable expression • the right ventricular myocardium is replaced by fatty and fibrofatty tissue • around 50% of patients have a mutation of one of the several genes which encode components of desmosome Presentation • palpitations • syncope • sudden cardiac death Investigation epsilon potential is seen on the ECG of patients with Right ventricular dysplasia • ECG abnormalities in V1-3: Typically, T wave inversion. An epsilon wave is found in about 50% of those with ARV - this is best described as a terminal notch in the QRS complex • echo changes are often subtle in the early stages but may show an enlarged, hypokinetic right ventricle with a thin free wall • magnetic resonance imaging is useful to show fibrofatty tissue Management • drugs: sotalol is the most widely used antiarrhythmic • catheter ablation to prevent ventricular tachycardia • implantable cardioverter-defibrillator Naxos disease • an autosomal recessive variant of ARVC • a triad of ARVC, palmoplantar keratosis, and woolly hair Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Atrial fibrillation (AF) (NICE guideline April 2021) Overview • AF is the most commonly encountered cardiac arrhythmia. • Hypertension is the most common risk factor for AF. • In 15% of cases, AF is idiopathic • AF most commonly originates from the roots of the pulmonary veins. (longitudinal smooth muscle fibers in the pulmonary vein) classification Classification of atrial fibrillation (AF): AF classified into 3 patterns: first detected episode (irrespective of whether it is symptomatic or self-terminating) recurrent episodes, when a patient has 2 or more episodes of AF:  paroxysmal AF: episodes of AF terminate spontaneously. episodes last less than 7 days (typically < 24 hours).  persistent AF the arrhythmia is not self-terminating. episodes usually last greater than 7 days permanent AF  there is continuous atrial fibrillation which cannot be cardioverted or if attempts to do so are deemed inappropriate.  Treatment goals are therefore rate control and anticoagulation if appropriate Symptoms and signs • Symptoms Palpitations Dyspnea chest pain • Signs irregularly irregular pulse Complications • AF is poorly tolerated in elderly and often leads to pulmonary oedema even in the presence of a relatively normal left ventricle (LV). Diagnosis • if an irregular pulse is detected Perform a 12-lead electrocardiogram (ECG) • In people with suspected paroxysmal AF undetected by ECG: if asymptomatic episodes are suspected or symptomatic episodes are less than 24 hours apart use a 24‑ hour ambulatory ECG monitor if symptomatic episodes are more than 24 hours use an ambulatory ECG monitor, event recorder or other ECG technology. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Assessment • Assessment of stroke and bleeding risks Assess stroke risk by using the CHA2DS2-VASc score Assess the bleeding risk when considering starting anticoagulation by using the ORBIT bleeding risk score modify risk factors for bleeding:  uncontrolled hypertension  poor control of international normalised ratio (INR) in patients on vitamin K antagonists  concurrent medication, including antiplatelets, selective serotonin reuptake inhibitors (SSRIs) and non‑ steroidal anti‑ inflammatory drugs (NSAIDs)  harmful alcohol consumption  reversible causes of anaemia. • Assessment of cardiac function by transthoracic echocardiography (TTE) as a baseline and to look for underlying structural or functional heart disease . Management • Anticoagulation for stroke prevention 1st line: direct-acting oral anticoagulant (e.g. Apixaban, dabigatran, edoxaban, rivaroxaban ), if CHA2DS2-VASc score ≥ 1 for men or ≥ 2 for women. 2nd line: If DOAC are contraindicated or not tolerated vitamin K antagonist. 3rd line: If anticoagulation is contraindicated or not tolerated consider left atrial appendage occlusion (LAAO). • Rate and rhythm control Rate control:  the first-line treatment for AF except in: AF due to reversible cause heart failure caused by AF new‑ onset AF atrial flutter which considered suitable for an ablation strategy to restore sinus rhythm if rhythm‑ control strategy would be more suitable based on clinical judgement.  Use beta-blocker (other than sotalol) or a rate-limiting calcium-channel blocker (diltiazem or verapamil)  Consider digoxin monotherapy for initial rate control if the person does no or very little physical exercise or other rate‑ limiting drug options are ruled out because of comorbidities. Rhythm control:  Do not offer class 1c antiarrhythmic drugs such as flecainide or propafenone to people with known ischaemic or structural heart disease.  If drug treatment for long-term rhythm control after successful cardioversion is needed: 1st line: beta-blocker 2nd line: dronedarone  Amiodarone for people with left ventricular impairment or heart failure.  In people with infrequent paroxysms and few symptoms, or if symptoms are induced by known precipitants (such as alcohol, caffeine), a 'no drug treatment' strategy or a 'pill-in-the-pocket' strategy (in which antiarrhythmic drugs are taken only when an episode starts) should be considered  a 'pill-in-the-pocket' strategy: In people with paroxysmal AF if: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad infrequent symptomatic episodes + no left ventricular dysfunction, or valvular or ischaemic heart disease + systolic BP ˃100 mmHg and a resting heart rate ˃ 70 bpm + able to understand how to, and when to take the medication.  try to get the patient back into, and maintain, normal sinus rhythm. This is termed cardioversion.  Drugs (pharmacological cardioversion) and synchronised DC electrical shocks (electrical cardioversion) may be used for this purpose  indications of Rhythm control : coexistent heart failure, first onset AF or where there is an obvious reversible cause. Do not use rhythm control therapy in asymptomatic AF patients, nor in patients with permanent AF. Rhythm control has no survival benefit over a rate control strategy Reducing stroke risk Anticoagulation Young man with AF, no TIA or risk factors, no treatment is now preferred to aspirin (NO treatment) Do not use antiplatelet therapy for stroke prevention in AF • Some patients with AF are at a very low risk of stroke whilst others are at a very significant risk. • NICE in 2014 suggest using the CHA2DS2-VASc score to determine the most appropriate anticoagulation strategy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Risk factor Points C Congestive heart failure H Hypertension (or treated hypertension) A2 Age ≥75 years Age 65-74 years D Diabetes S2 Prior Stroke or TIA V Vascular disease (including ischaemic heart disease and peripheral arterial disease) S Sex (female) The table below shows a suggested anticoagulation strategy based on the score: Score Anticoagulation No treatment Males: Consider anticoagulation Females: No treatment (this is because their score of 1 is only reached due to their gender) 2 or more Offer anticoagulation Atrail fibrilation related to mitral stenosis • atrial fibrillation related to valvular heart disease Warfarin In patients with non-valvular atrial fibrillation, novel oral anticoagulants have the same efficacy as warfarin in preventing stroke. • NICE guidelines suggest that valvular disease have high risk for thromboembolic events, and would benefit from anticoagulation. • Mitral stenosis patients were excluded from the studies developing the CHADS-VASC score. • None of the ‘novel’ anticoagulants currently available (rivaroxaban, apixaban, dabigatran) are indicated or licensed for atrial fibrillation related to valvular heart disease. CHADS2-VASc scoring is generally used as a tool to assess need to anticoagulate a patient with AF. However, the following are conditions that, if present, may trump the decision to anticoagulate: valvular heart disease prior peripheral embolism, and intracardiac thrombus. Bleeding risk assessment (using the HASBLED scoring system) • NICE recommend that we offer patients a choice of anticoagulation, including warfarin and the novel oral anticoagulants (NOACs). • Aspirin is no longer recommended for reducing stroke risk in patients with AF • Doctors have always thought carefully about the risk/benefit profile of starting someone on warfarin. • A history of falls, old age, alcohol excess and a history of previous bleeding are common things that make us consider whether warfarinisation is in the best interests of the patient. • NICE now recommend we formalise this risk assessment using the HASBLED scoring system. Risk factor Points H Hypertension, uncontrolled, systolic BP > 160 mmHg A Abnormal renal function (dialysis or creatinine > 200) Or Abnormal liver function (cirrhosis, bilirubin > 2 times normal, ALT/AST/ALP > 3 times normal S Stroke, history of B Bleeding, history of bleeding or tendency to bleed L Labile INRs (unstable/high INRs, time in therapeutic range < 60%) E Elderly (> 65 years) D Drugs Predisposing to Bleeding (Antiplatelet agents, NSAIDs) Or Alcohol Use (>8 drinks/week) • There are no formal rules on how we act on the HAS-BLED score although a score of >= 3 indicates a 'high risk' of bleeding, defined as intracranial haemorrhage, hospitalisation, haemoglobin decrease >2 g/L, and/or transfusion. Atrial fibrillation: cardioversion Atrial fibrillation - cardioversion: • if no structural heart disease flecainide • With structural heart disease amiodarone offer rate or rhythm control if the onset of the arrhythmia is less than 48 hours, and start rate control if it is more than 48 hours or is uncertain • Cardioversion indications Haemodynamically unstable patient electrical cardioversion (DC cardioversion 200J → 360J → 360J)  Adverse signs necessitating DC cardioversion are: Blood pressure (BP) ≤90 mmHg Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 1 for any renal abnormalities 1 for any liver abnormalities 1 for drugs 1 for alcohol Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Chest pain Heart failure Impaired consciousness, and Heart rate ≥ 200 bpm. Elective procedure where a rhythm control strategy is preferred electrical or pharmacological cardioversion  Onset < 48 hours Anticoagulation patients should be heparinised. Patients who have risk factors for ischaemic stroke should be put on lifelong oral anticoagulation. Cardioversion method: electrical - 'DC cardioversion' pharmacology: amiodarone if structural heart disease, flecainide or amiodarone in those without structural heart disease Post-cardioversion: further anticoagulation is unnecessary  Onset > 48 hours prior to cardioversion: anticoagulation for at least 3 weeks prior to cardioversion. OR exclude a left atrial appendage (LAA) thrombus by transoesophageal echo (TOE). If excluded patients may be heparinised and cardioverted immediately. If there is a high risk of cardioversion failure (e.g. Previous failure or AF recurrence) then it is recommend to have at least 4 weeks amiodarone or sotalol prior to electrical cardioversion If the patient has a slow ventricular response of AF in the absence of anti-arrhythmic drugs, cardioversion should be performed after the insertion of a temporary transvenouspacing catheter Cardioversion method: NICE recommend electrical cardioversion, rather than pharmacological. The initial shock strength should be 100 J, followed by a second 200-J shock and a third 360-J shock If AF persists, a second 360-J shock with the paddles in the anteroposterior position can be attempted Post-cardioversion: Following electrical cardioversion patients should be anticoagulated for at least 4 weeks. After this time decisions about anticoagulation should be taken on an individual basis depending on the risk of recurrence • Catheter AF ablation Radiofrequency pulmonary vein isolation with ablation  the treatment of choice for patients who remain poorly controlled despite medical therapy,  in selected patients as first-line therapy for symptomatic paroxysmal AF  Anticoagulation for stroke prevention should be continued indefinitely in patients at high risk of stroke, even after apparently successful ablation of AF. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Surgical AF ablation Ablation can be performed in symptomatic patients during cardiac surgery for other reasons, or by stand-alone surgery either using open-chest techniques or by thoracoscopy. Anticoagulation for stroke prevention should be continued indefinitely in patients at high risk of stroke, even after apparently successful ablation of AF. The enlarged left atrial size suggests that a repeat DC cardioversion is unlikely to work for a sustained period. H/O AF + enlarged left atrial size with previous DC cardioversions. the best long term treatment option Refer for consideration of atrial fibrillation ablation longer term good result. AV node ablation: • AV node ablation is reserved for those patients where pharmacological rate control is unsuccessful or not tolerated. • The procedure is invasive and requires permanent pacemaker implantation. • Patients who are candidates for this therapy include those with tachycardia induced cardiomyopathy despite pharmacologic efforts at rate control and intolerable symptoms despite aggressive attempts at pharmacologic therapy (in some cases, much of the symptom burden is due to medications rather than AF itself). Do not perform cardioversion or catheter ablation without anticoagulation, unless an atrial thrombus has been ruled out by transoesophageal echocardiogram. Amiodarone or vernakalant have been efficient in converting post-operative AF to sinus rhythm. Vernakalant • A Novel agent for the Termination of Atrial Fibrillation • blocks sodium channels • more prominent in vernakalant's mechanism of action is its ability to block certain potassium channels. • Specifically, it blocks the atrial-selective potassium current, IKur, which is involved in atrial repolarization. Atrial fibrillation: pharmacological cardioversion • Agents with proven efficacy in the pharmacological cardioversion of atrial fibrillation amiodarone flecainide (if no structural heart disease)  with large doses of oral agents or with intravenous agents.  Large single doses of flecainide (300 mg) or propafenone (450-600 mg) given orally have been shown to convert patients to sinus rhythm.  Flecainide and propafenone are not used in people with : known or suspected ischaemic heart disease, individuals who are already on antiarrhythmic therapy, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology those with a prolonged QT interval because these agents may have pro-arrhythmic effects (torsade de pointes). others (less commonly used in UK): quinidine, dofetilide, ibutilide, propafenone • Less effective agents beta-blockers (including sotalol) calcium channel blockers digoxin disopyramide procainamide 1. Atrial fibrillation: rate control and maintenance of sinus rhythm The patient with very recent onset of atrial fibrillation is more likely to stay in sinus rhythm • Agents used to control rate in patients with atrial fibrillation Beta-blockers  should be used first line for rate control.  cardioselective beta-blockers should be tried in patients with left ventricular systolic dysfunction even if they have a diagnosis of: Chronic obstructive pulmonary disease (COPD) Peripheral vascular disease Diabetes Erectile dysfunction, or Interstitial pulmonary disease.  Beta-blockers should not be commenced in the setting of acute exacerbations of COPD or cardiac failure  If one drug does not control the rate adequately NICE recommend combination therapy with diltiazem or digoxin calcium channel blockers (diltiazem) digoxin:  not considered first-line anymore as they are less effective at controlling the heart rate during exercise.  they are the preferred choice if the patient has coexistent heart failure  with borderline hypotension (eg: 95/70), COPD and AF, rate control without the possibility of worsening hypotension is the aim of intervention. Digoxin is therefore the optimal intervention. It will both slow the ventricular rate and support the blood pressure. If the duration of AF is unknown caution should be used when considering the use of drugs which may cardiovert the patient - amiodarone and flecainide. • Agents used to maintain sinus rhythm in patients with a history of atrial fibrillation sotalol amiodarone flecainide others (less commonly used in UK): disopyramide, dofetilide, procainamide, propafenone, quinidine • The table below indicates some of the factors which may be considered when considering either a rate control or rhythm control strategy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Factors favouring rate control Factors favouring rhythm control • Older than 65 years • History of ischaemic heart disease • Younger than 65 years • Symptomatic • First presentation • Lone AF or AF secondary to a corrected precipitant (e.g. Alcohol) • Congestive heart failure MRCPUK-part-2-march-2018: H/O borderline hypotension (BP: 95/70), COPD and AF. What is the most appropriate intervention? Digoxin 500 mg IV loading  B-blockers and verapamil are best avoided because of the potential for worsening hypotension here. Atrial flutter Overview • Atrial flutter is a form of supraventricular tachycardia characterised by a succession of rapid atrial depolarisation waves. • usually caused by a single macroreentrant rhythm within the atria. • What is the differences between atrial flutter and focal atrial tachycardia? Atrial flutter is caused mechanistically by macro- reentry and has atrial rate (P wave/flutter morphology) usually >250 bpm. Focal atrial tachycardia is caused mechanistically by micro-reentry or increased automaticity and has atrial rates of 100-250 bpm. Epidemiology • Sex: ♂ > ♀ (5:2) • Peak incidence: risk of atrial flutter increases with age Etiology: • similar to atrial fibrillation ECG findings • Regular, narrow QRS complexes • flutter waves, which are a saw-tooth pattern of atrial activation most prominent in leads II, III, aVF, and V1. • as the underlying atrial rate is often around 300/min the ventricular or heart rate is dependent on the degree of AV block. For example if there is 2:1 block the ventricular rate will be 150/min • flutter waves may be visible following carotid sinus massage or adenosine Management • is similar to that of atrial fibrillation although medication may be less effective • atrial flutter is more sensitive to cardioversion however so lower energy levels may be used • Anticoagulate patients with atrial flutter similar to AF. • Catheter ablation is the definitive treatment for atrial flutter. radiofrequency ablation of the tricuspid valve isthmus is curative for most patients Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Multifocal atrial tachycardia (MAT) Multifocal atrial tachycardia has ≥ 3 P-wave morphologies on ECG Definition • it is an irregular cardiac rhythm caused by at least three different sites in the atria, which may be demonstrated by morphologically distinctive P waves. • It is more common in elderly patients with chronic lung disease, for example COPD Management • correction of hypoxia and electrolyte disturbances • rate-limiting calcium channel blockers are often used first-line • cardioversion and digoxin are not useful in the management of MAT Atrial myxoma Overview • Benign cardiac tumor • the most common primary cardiac tumors in adults. (rhabdomyoma is the most common primary cardiac tumor in pediatric patients and strongly associated with tuberous sclerosis). • 75% occur in left atrium , arising from a pedicle on the fossa ovalis. • more common in females Three-quarters of cases of atrial myxoma occur in females • Although most cases of atrial myxoma are sporadic, an autosomal dominant variety may also exist within families. • 10% are inherited Features • One third present with emboli • One third with systemic inflammation (ESR ↑↑in 1/3) • One third are asymptomatic when detected. • There are 3 groups of manifestations: Obstructive features: like MS, signs vary with posture. Occasionally, there is a lowpitched sound called tumor plop.  Dyspnoea, (Exertional dyspnoea is present in three-quarters of patients).  Dizziness or syncope  results from the atrial myxoma obstructing the mitral valve. Mitral valve obstruction is the most likely complication Myxomas are more likely to have a stalk and be freely mobile.  atrial fibrillation  mid-diastolic murmur, 'tumour plop' (low-pitched sound) murmur change with posture.  Elevated left atrial pressures cause dilatation. Embolic features: either systemic or pulmonary embolism. Constitutional features: such as fever, malaise, weakness, loss of weight, myalgia, arthralgia, clubbing, skin rash, Raynaud’s phenomenon. Investigations • echo: pedunculated heterogeneous mass typically attached to the fossa ovalis region of the interatrial septum Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • on histology gelatinous appearance abundant ground substance. Treatment • surgical removal by median sternotomy. Prognosis • sudden death may occur in 15% of patients. Carney's complex is a familial multiple neoplasia and lentiginosis syndrome, associated with Primary adrenal hypercortisolism Lentigines and naevi of the skin Various tumours including myxoma. Heart block Types of heart block First-degree heart block • PR interval > 0.2 seconds (> five small squares in the ECG.) • Causes: Increased vagal tone (such as in trained athletes) Ischaemic heart disease Rheumatic fever Hyperkalaemia Hypokalaemia, and Drug therapy such as digoxin or beta-blockers. • A long PR interval on the ECG may also be caused by structural abnormalities such as an atrial septal defect. • No treatment is usually required. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Second-degree heart block • Type 1 (Mobitz I, Wenckebach): progressive prolongation of the PR interval until a dropped beat occurs Mobitz Type I with symptoms is a relative indication for a permanent pacemaker Asymptomatic NO treatment Discharge him from the clinic  The risk of progression to complete heart block with Mobitz type I in an asymptomatic man is very low, unlike in Mobitz type II. • Type 2 (Mobitz II): PR interval is constant, but the P wave is often not followed by a QRS complex the most appropriate next management step Transvenous cardiac pacing Mobitz type II or complete heart block does not respond to atropine. Atropine may be useful for sinus or junctional bradycardia. In patients with Mobitz type II AV block, or complete heart block, a DDD or DDDR pacemaker is indicated.  DDD pacemaker will sense and pace both atria and ventricles.  DDD pacemakers ensure that the atrial and ventricles beat in synchrony thus preventing pacemaker syndrome. • Second-degree heart block with RBBB implies that this patient has a significantly increased risk of complete heart block. prior to committing to pacemaker insertion, repeat tape is the most likely next step, with an electronic patient diary to see if the recorded arrhythmia corresponds to her symptoms. Third degree (complete) heart block Third degree (complete) heart block • there is no association between the P waves and QRS complexes • Complete heart block (whether symptomatic or not) is an absolute indication for a permanent pacemaker Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes • myocardial ischemia The most common cause of third degree atrioventricular block is myocardial ischemia. Complete heart block is related most to right coronary artery occlusion because this commonly involves both the AV nodal artery and the right superior descending artery.  Prognosis is favourable, and revascularisation normally leads to restoration of sinus rhythm.  As the AV nodal artery arises proximally from the right ventricular artery, distal right coronary artery occlusion is not commonly associated with complete heart block.  the artery most likely to be affected Proximal right coronary Left coronary artery occlusion leads to anterior myocardial infarction. As it is less commonly associated with complete heart block, when it does occur, the prognosis is very poor. Third degree atrioventricular block that is resulting from obstruction of the left anterior descending coronary artery is usually irreversible. • Lyme disease • Drugs eg: B. blockers • Congenital third degree atrioventricular block might be due to maternal lupus. Features • Syncope • heart failure • regular bradycardia (30-50 bpm) that does not vary with exercise • wide pulse pressure • JVP: irregular cannon waves in neck • variable intensity of S1 • compensatory increase in stroke volume with a large-volume pulse and systolic flow • The escape rhythm of third-degree atrioventricular block resulting from obstruction of the right coronary artery is usually narrow-complex. • the atrial rhythm is usually regular • The bizarre, wide, inverted T-waves can be seen in Stokes-Adams attacks and do not necessarily imply new ischaemia. ECG showing third degree (complete) heart block Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Treatment In patients with Mobitz type II AV block, or complete heart block, a DDD or DDDR pacemaker is indicated • Asymptomatic or mild symptoms (stable) Condition-specific management • Symptomatic (unstable): (syncope, ventricular rate is significantly low (<40 to 45 bpm) or low BP (mean arterial pressure <65 mmHg)) Whilst arrangements are being made for temporary pacing, the options to be considered, prior to temporary transvenous pacing, in this context are: Atropine 0.5-1.0 mg intravenous bolus repeated as required up to 3mg . Isoprenaline, intravenous infusion at 2-10 microg/min. it is a non-selective β agonist that is analog of epinephrine (adrenaline) External cardiac pacing. temporary (transcutaneous or transvenous) pacing  Transvenous pacing is much more reliable than transcutaneous pacing • Condition-specific management includes: treating acute coronary syndrome (i.e., antiplatelet medications, urgent revascularisation) medication toxicity (e.g., glucagon for beta-blocker toxicity, calcium for calciumchannel toxicity, or digoxin antibody for digitalis toxicity). • Intravenous aminophylline is useful in complete heart block, as the heart block is often mediated by adenosine which aminophylline inhibits • Post- MI: Following anterior MI pace-maker insertion Following posterior MI and patient is haemodynamically stable observation  Often spontaneously resolved Pacemakers Definition • A permanent pacemaker is an implanted device that provides electrical stimuli, thereby causing cardiac contraction when intrinsic myocardial electrical activity is inappropriately slow or absent. Conditions definitely needs a permanent pacemaker • Symptomatic bradycardia due to sinus node dysfunction (sick sinus syndrome) • Third-degree heart block • second-degree (AV) block associated with any of the following: symptomatic bradycardia documented periods of asystole of 3 s or more any escape rate less than 40 bpm in awake, asymptomatic patients type II second-degree AV block and a ventricular rate of 45 bpm when awake and asymptomatic asymptomatic sinus rhythm resulting in periods of asystole longer than 3.0 seconds  asystolic pause causing syncope.  dual chamber permanent pacemaker (DDDR). The R in this code stands for responsive, and in an otherwise fit and well 76-year-old, he should have a responsive element to his PPM (that is, increases his heart rate with exercise). Type II second-degree AV block has a high chance of progressing to asystole (35%) each year • Generally, permanent pacing can be justified for any degree of heart block associated with symptoms of bradycardia. 036 - Pages 876-900 036 Pages 876-900 Indications for a temporary pacemaker • symptomatic/haemodynamically unstable bradycardia, not responding to atropine • post-ANTERIOR MI: type 2 or complete heart block post-INFERIOR MI complete heart block is common and can be managed conservatively if asymptomatic and haemodynamically stable • trifascicular block prior to surgery • Other indications for transvenous pacing in setting of acute MI are: asystole new bundle branch block (BBB) with first-degree heart block an old right BBB with first degree atrioventricular (AV) block and a new fascicular block Notes • All modern ICDs also function as pacemakers. • Chest pain in Ventricular pacing Pacemaker rhythm may prevent interpretation of ST-segment changes and may require urgent angiography to confirm diagnosis. Reprogramming the pacemaker—allowing an evaluation of ECG changes during intrinsic heart rhythm—may be considered in patients who are not dependent on ventricular pacing, without delaying invasive investigation Types of Pacemakers • Pacemakers are classified by the nature of their pacing mode using a code of up to five letters. • The NBG Pacemaker code was developed by the North American Society of Pacing and Electrophysiology (NASPE) and the British Pacing and Electrophysiology Group (BPEG): I II III IV V Chamber(s) Paced Chamber(s) Sensed Mode(s) of Response O = None O = None O = None O = None O = None A = Atrium A = Atrium T = Triggered R = Rate modulation V = Ventricle V = Ventricle I = Inhibited V = Ventricle D = Dual (A+V) D = Dual (A+V) D = Dual (T+I) D = Dual (A+V) Single-chamber pacemakers • utilised for patients in permanent atrial fibrillation. • VVI means there is one lead in the ventricle (pacing and sensing the ventricle, indicated by the ‘VV’). • VVI pacemaker will pace and sense the right ventricle. • VVI pacemaker is useful when we are not too concerned about atrial activity (e.g. in patients with atrial fibrillation). • In the presence or organised atrial activity, a VVI pacemaker may pace the ventricles out of synch with the atria resulting in pacemaker syndrome. Since organised atrial activity is present, a DDI pacemaker would be preferred, as this senses and paces both atria and ventricle to preserve synchrony. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Rate Modulation Multisite Pacing A = Atrium Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Dual-chamber pacemakers • Have pacing electrodes in both the right atrium and the right ventricle. • They allow maintenance of the physiological relationship between atrial and ventricular contraction and also allow the paced heart to follow the increase in sinus rate that occurs during exercise. Biventricular pacemakers • Pacemaker leads are placed in the right atrium, right ventricle and left ventricle. • Useful in the management of patients with heart failure who have evidence of abnormal intraventricular conduction (most often evident as left bundle branch block (LBBB) on ECG) which causes deranged ventricular contraction or dyssynchrony. • In a patient with severe ischaemic heart failure and is on optimal medical therapy. Despite this he is still symptomatic ICD with biventricular pacing very prolonged QRS duration is indicating left dyssynchrony which is an indication for biventricular pacing according to NICE guidance. Documented VT in the context of ischaemic LV impairment necessitates the need for and a secondary prevention ICD. Pacemaker complications • Pacemaker complications are more common in the period following insertion. • can be divided into early complications (<6 weeks) or late (>6 weeks). • Most frequent complications are those related to implantation procedure, such as lead dislodgement and pneumothorax. • pneumothorax can occur up to forty-eight hours following pacemaker insertion.  It occurs in 1-2% of procedures and most patients will require chest drain insertion. • The most common complication is lead dislodgement (higher rate atrial dislodgment than ventricular dislodgment). • Lead dislodgement can occur following trauma or sporadically and can be either atrial or ventricular. • Atrial dislodgment affects up to 3% of people whereas ventricular is less common affecting 1%. • If the ECG shows loss of sensing and capture around the QRS complex ventricular lead displacement in a dual chamber pacemaker.  What would be the likely ECG findings in ventricular lead displacement? Loss of sensing and capture of the QRS complex • Atrial lead displacement would show an ECG with loss of atrial sensing and capture. The ECG in atrial lead displacement would show an ECG with loss of atrial sensing and capture in a dual chamber or single chamber pacemaker. • On occasion lead displacement can be seen on chest X-Ray, however, it may not be seen, in this case a lateral chest X-Ray may be of use in this scenario. • Pacemaker syndrome would show AV dyssynchronisation. • Subclavian vein obstruction is a fairly common complication over time but many patients may remain asymptomatic due to collateral vein formation. It can present with symptoms of superior vena cava (SVC) obstruction in severe cases. • Twiddler's syndrome is when the patient intentionally or accidentally turns the pacemaker on its longitudinal axis which can cause lead dislodgement. • Reel's syndrome is Twiddler's syndrome but on the horizontal axis. • Pacemaker lead fracture occurs in 1-4% of pacemakers usually following excessive exercise or direct trauma.  patient will require lead extraction and replacement. • myocardial rupture: incidence is relatively small (<1%) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad can be divided into early or late rupture with respect to the time it occurs following procedure. Delayed perforations are less likely to cause such acute symptoms as well as a reduced incidence of tamponade and sudden cardiac death. Risk factors for perforation include physician technique, patient independent factor (i.e obesity or difficult anatomy) and lead design. presenting features :pericardial effusion, haemodynamically compromised following pacemaker insertion and is likely to develop cardiac tamponade and needs urgent intervention with pericardiocentesis. Pacemaker syndrome Pacemaker syndrome • Loss of AV synchrony. • Retrograde VA conduction. • Absence of rate response to physiological need. Pacemaker syndrome (breathlessness associated with ventricular pacing in the context of normal atrial activity). VVI pacemaker will pace and sense the right ventricle. In the presence or organised atrial activity, a VVI pacemaker may pace the ventricles out of sync with the atria resulting in pacemaker syndrome. Overview • pacemaker syndrome is related to nonphysiologic timing of atrial and ventricular contractions, which may occur in a variety of pacing modes • also named as "AV dyssynchrony syndrome," • typically associated with a VVI pacemaker that results in simultaneous atria and ventricle conduction. Risk factors • Sick sinus syndrome as have preserved AV conduction. • Single-chamber ventricular pacing. Features • Hypotension, tachycardia, tachypnoea, dizziness, syncope • Ventricular contraction against closed tricuspid and mitral valves can result in raised JVP (pulsation and fullness in the neck) cannon waves Complications of AV dyssynchrony: • Atrial fibrillation, thromboembolic events, and heart failure. What are the characteristic ECG findings associated with this syndrome? Small P waves with dissociation from QRS complex Management • In patients with other pacing modes, upgrading the pacemaker to a dual-chamber pacing or reprogramming the pacemaker parameters - eg, AV delay, post-ventricular atrial refractory period, sensing level, and pacing threshold voltage. DC cardioversion in patients with pacemakers (eg : in AF) • DC cardioversion is not contraindicated in patients with pacemakers • Pacemaker function should be checked after cardioversion and antiarrhythmic therapy added Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Brugada syndrome Overview • Inherited cardiovascular disease with may present with sudden cardiac death. • Prevalence →1:5,000-10,000. • More common in Asians. • Autosomal dominant • A large number of variants exist • Around 20-40% of cases are caused by a mutation in the SCN5A gene which encodes the myocardial sodium ion channel protein ECG changes • Convex ST segment elevation > 2mm in > 1 of V1-V3 followed by a negative T wave • Partial right bundle branch block • Changes may be more apparent following flecainide ECG showing Brugada pattern, most marked in V1, which has an incomplete RBBB, a downsloping ST segment and an inverted T wave Management • implantable cardioverter-defibrillator Catecholaminergic polymorphic ventricular tachycardia (CPVT) Overview • CPVT is a form of inherited cardiac disease associated with sudden cardiac death. • Inherited in an autosomal dominant fashion • Prevalence of around 1:10,000. Pathophysiology • the most common cause is a defect in the ryanodine receptor (RYR2) which is found in the myocardial sarcoplasmic reticulum • uncontrolled calcium release from the sarcoplasmic reticulum • induced by adrenergic stress. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • exercise or emotion induced polymorphic ventricular tachycardia resulting in syncope • sudden cardiac death • symptoms generally develop before the age of 20 years Management • beta-blockers • There is strong evidence that flecainide is effective when prescribed in addition to beta blockers • implantable cardioverter-defibrillator • Left cervical sympathetic denervation • All first-degree relatives should be evaluated with ECG, Holter monitoring and exercise stress testing. Ventricular tachycardia Definition • wide QRS complex (duration >120 milliseconds) at a rate greater than 100 bpm, originating from a ventricular ectopic focus. Whilst a broad complex tachycardia may result from a supraventricular rhythm with aberrant conduction, the European Resuscitation Council advise that in a peri-arrest situation it is assumed to be ventricular in origin. • It has the potential to precipitate ventricular fibrillation and hence requires urgent treatment. Pathophysiology • Among patients with prior MI or non-ischaemic cardiomyopathy, VT is usually due to reentry involving regions of slowed conduction adjacent to scar. Post MI ventricular tachycardia (VT) is most commonly due to scar tissue.  The definitive investigation would be Electrophysiological study (EPS) due to the fact that if this were scar related VT, the site could be localised and even possibly ablated. If not, then an implantable cardiac defibrillator (ICD) implantation may be warranted if left ventricular (LV) dysfunction exists. MADIT-2 trial showed a 5.6% 20-month absolute survival benefit in patients with LV dysfunction (EF<30%), post MI, treated prophylactically with an ICD. • (VT) may also arise from triggered activity due to early after-depolarisations (EADs) leading to torsades de pointes, a polymorphic ventricular tachycardia seen in the setting of a prolonged QT interval, • delayed after-depolarisations (DADs), which are seen in:  idiopathic right ventricular outflow tract VT or catecholaminergic polymorphic VT cellular abnormalities of calcium handling Increased intracellular calcium  predispose to VT. especially during periods of sympathetic stimulation. • EADs occur during phase 2 or 3 of the action potential, whereas DADs occur during phase 4. • When an EAD or DAD reaches a 'threshold' potential, it can result in triggering of another action potential. • Ventricular tachycardia originates below the bundle of His. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Types: There are two main types of VT: • Monomorphic VT organised, single-morphology QRS arising from one of the ventricles. most commonly caused by myocardial infarction • Polymorphic VT multiple different wide QRS morphologies arising from one of the ventricles.  results from abnormal myocardial repolarization. A subtype of polymorphic VT is torsades de pointes which is precipitated by prolongation of the QT interval. The causes of a long QT interval are listed below. Other classifications of VT • Sustained VT A ventricular rhythm faster than 100 bpm lasting at least 30 seconds or requiring termination due to haemodynamic instability. almost always symptomatic. • Non-sustained VT A ventricular rhythm faster than 100 bpm lasting for at least 3 consecutive beats but terminating spontaneously in less than 30 seconds, and not resulting in significant haemodynamic instability. If these do not cause any haemodynamic compromise, treatment is not needed. The most appropriate next step Check potassium and magnesium levels  During the GISSI-2 trial it was observed that a serum K+ level of <3.6 mmol/l was associated with a twofold increased risk of VF. Therefore serum K+ should be maintained >4 mmol/l by oral or intravenous (IV) supplementation in patients with acute MI.  Concomitant magnesium (Mg2+) deficiency is present in many patients with hypokalaemia and also makes correction of hypokalaemia difficult. Hence serum Mg2+ levels should also be checked and maintained >1 mmol/l. Feature • Patients may have a normal cardiac output or may be haemodynamically compromised • Sustained VT is usually observed in ischaemic cardiomyopathy, but idiopathic VT may also be observed in patients without structural heart disease. • jugular veins may show cannon A waves due to atrioventricular dissociation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Differential diagnosis • Supraventricular tachycardia with bundle-branch block may resemble ventricular tachycardia on the ECG 80% of all broad complex tachycardias are secondary to VT and the proportion is even higher in patients with structural heart disease. In all cases of doubt, the rhythm should be treated as a VT. the safest course of action is to consider a drug like adenosine, which will cause short-lived AV block in SVT but not in VT. It is the presence of aberrant conduction which can lead to diagnostic confusion.  Amiodarone may be an appropriate next step for cardioversion, once the underlying rhythm has been elucidated. • Features suggesting VT rather than SVT with aberrant conduction AV dissociation fusion or capture beats positive QRS concordance in chest leads ((same polarity QRS direction in all chest leads V1 -V6) (Absence of an RS complex in all pre-cordial leads, i.e., all the leads are concordant) marked left axis deviation history of IHD lack of response to adenosine or carotid sinus massage very broad QRS > 160 ms bifid upright QRS with a taller first peak in V1 deep S wave in V6 Capture beats • intermittent narrow QRS complex owing to normal ventricular activation via the AV node • occurs when a supraventricular and a ventricular impulse coincide to produce a hybrid complex. • It indicates that there are two foci of pacemaker cells firing simultaneously: a supraventricular pacemaker (e.g. the sinus node) and a competing ventricular pacemaker (source of ventricular ectopics). • Causes: Ventricular tachycardia Accelerated idioventricular rhythm (AIVR) fusion beats (intermediate between ventricular tachycardia beat and capture beat) are seen Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Management VT: cardioversion treatment VT with pulse (not respond to medical treatment) →LOW ENERGY synchronized cardioversion Synchronization avoids the delivery of a LOW ENERGY shock during cardiac repolarization (t-wave). If the shock occurs on the t-wave (during repolarization), there is a high likelihood that the shock can precipitate Ventricular Fibrillation (VF). Pulseless VT or VF HIGH ENERGY asynchronized cardioversion • If the patient has adverse signs (systolic BP < 90 mmHg, chest pain, heart failure or rate 150 beats/min) then immediate cardioversion is indicated. anaesthetist needs to be called to assist with direct current cardioversion (DCCV) which should be 'synchronised' to limit the risk of conversion to VF.  usually at a starting energy dose of 100 J (monophasic; comparable biphasic recommendations are not currently available). If deteriorate in the meantime and become pulseless, then a precordial thump should be given, followed immediately by DCCV if not successful. In cases of pulseless VT, the electrical cardioversion should be unsynchronized. Amiodarone is the drug of choice for acute VT refractory to cardioversion shock. Unstable polymorphic VT is treated with immediate defibrillation. The defibrillator may have difficulty recognizing the varying QRS complexes; therefore, synchronization of shocks may not occur. • In stable patients (absence of adverse signs): stable patients stable patients with monomorphic VT and normal LV function,  If LV function is impaired, amiodarone (or lidocaine) is preferred to procainamide for pharmacologic conversion because of the latter drug’s potential for exacerbating heart failure.  restoration of sinus rhythm is typically achieved with IV procainamide, amiodarone, or sotalol. If LV function is impaired, amiodarone (or lidocaine) is preferred to procainamide for pharmacologic conversion because of the latter drug’s potential for exacerbating heart failure. In the absence of such signs antiarrhythmics may be used. If these fail, then electrical cardioversion may be needed with synchronised DC shocks If medical therapy is unsuccessful, synchronized cardioversion (50-200 J monophasic) following sedation is appropriate. prophylactic implantable cardioverter defibrillator implantation is recommended in high-risk patients. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Polymorphic VT in stable patients typically terminates on its own. Unsynchronized Synchronized When to deliver electricity At any point in cycle Not during the T-wave Indications V-fib, pulseless VT Everything except V-fib and pulseless VT Drug therapy Verapamil is contra-indicated in VT because it can cause a catastrophic fall in blood pressure. • Amiodarone: ideally administered through a central line  (i.e. given after the third shock). If amiodarone is not available lidocaine is a suitable alternative. • Lidocaine: use with caution in severe left ventricular impairment • Procainamide • Adenosine is useful diagnostically when the diagnosis of regular wide complex tachycardia is in doubt. • Verapamil should NOT be used in VT Sotalol is recommended as the first-choice drug to prevent a recurrence of ventricular tachycardia (VT) If drug therapy fails • electrophysiological study (EPS) • implant able cardioverter-defibrillator (ICD) - this is particularly indicated in patients with significantly impaired LV function C.V Resuscitation: • Guidelines from the Resuscitation Council (UK) state that if a patient has a monitored and witnessed VF/VT arrest in hospital, three quick successive (stacked) shocks should be given. Chest compressions should be started immediately after the third, with a compression to ventilation ratio of 30:2 for 2 minutes. • A precordial thump can be successful if given within seconds of the onset of a shockable rhythm. Delivery should not delay calling for help, or accessing a defibrillator, but would be indicated here whilst awaiting the defibrillator. Chest compressions should start immediately if it is unsuccessful. • Intravenous adrenaline would be given every 3-5 minutes once chest compressions had started. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology QT interval • Definition QT measured from the start of the QRS complex to the end of the T wave represents the duration of activation and recovery of the ventricular myocardium • Normal duration should be between 0.33 and 0.44 seconds • Corrected QT interval (QTc) is calculated by dividing the QT interval by the square root of the preceding R - R interval. Normal = 0.42 s. Long QT syndrome Definition • Long QT syndrome (LQTS) is an inherited condition associated with delayed repolarization of the ventricles. • A normal corrected QT interval is less than 430 ms in males and 450 ms (0.45 s) in females. One large box represents 200 ms , one small box represents 40 ms Mechanism • the usual mechanism by which drugs prolong the QT interval is blockage of potassium channels delayed repolarization of the ventricles. • Most drugs that prolong the QTc interval act by blocking hERG-encoded potassium channels, although some drugs modify sodium channels. • The most common variants of LQTS (LQT1 & LQT2) are caused by defects in the alpha subunit of the slow delayed rectifier potassium channel. Epidemiology • more common in females. Classification LQT1 LQT2 LQT3 Gene KCNQ1 KCNQH2/ hERG SCN5A Iron Ks (redifier potassium current, slow component) Pathophysiology Decreased potassium excessive sodium inward current Triger of arrhythmia outward current Exercise stress Emotional stress Rest Occurrence 50% 34 – 40% 10 – 15% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Kr (redifier potassium current, rapid component) Na Decreased potassium outward current Chapter 5 Cardiology Causes of a prolonged QT interval Antiarrhythmics Antihistamines Antiinfectives Amiodarone Disopyramide Dofetilide Astemizole Terfenadine Ibutilide Procainamide Quinidine Sotalol Antipsychotic s Gastro-intestinal drugs Opiate agonists Chlorpromazine Haloperidol Mesoridazine Pimozide Thioridazone Cisapride* Domperidone tricyclic antidepressant s, fluoxetine Arsenic trioxide Bepridil Droperidol Probuco Congenital Other conditions Jervell-LangeNielsen syndrome (includes deafness and is due to an abnormal potassium channel) Romano-Ward syndrome (no deafness)  Electrolytes: hypocalcaemia hypokalaemia hypomagnesaemia  acute myocardial infarction  myocarditis  hypothermia  subarachnoid haemorrhage • *Cisapride have been withdrawn worldwide due to risk of QT prolongation • Jervell-Lange-Nielsen syndrome: includes deafness and is due to an abnormal potassium channel autosomal recessive caused by Mutations in the KCNE1 and KCNQ1 genes  Mutations in the KCNE1 and KCNQ1 genes abnormal potassium channel abnormal functions of inner ear structures and cardiac muscle. • Romano-Ward syndrome: congenital long QT syndrome autosomal dominant involves only cardiac (no deafness) • The human ether-à-go-go related gene (hERG) is the gene affected by drugs that lengthen QT interval inadvertently; erythromycin, terfenadine, and ketoconazole. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Antimalarials Clarithromyci n Erythromycin Pentamidine Sparfloxacin Chloroquine Halofantrine Other drugs Levomethady l Methadone Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • a non-sedating antihistamine are classic cause of prolonged QT in a patient, especially if also taking P450 enzyme inhibitor, e.g. Patient with a cold takes terfenadine and erythromycin at the same time Features • asymptomatic • may be picked up on routine ECG or following family screening • Long QT1 - usually associated with exertional syncope, often swimming • Long QT2 - often associated with syncope occurring following emotional stress, exercise or auditory stimuli • Long QT3 - events often occur at night or at rest • sudden cardiac death Diagnosis • corrected QT interval Diagnosis is based upon the QTc (corrected QT interval), QTc may be within the normal range at rest; hence Holter ECG monitoring is recommended. • genetic testing of LQTS Identification of an LQTS genetic mutation confirms the diagnosis. However, a negative result on genetic testing is of limited diagnostic value because only approximately 50% of patients with LQTS have known mutations. The remaining half of patients with LQTS may have mutations of yet unknown gene. Therefore genetic testing of LQTS has high specificity but a low sensitivity. Complications • may lead to ventricular tachycardia collapse/sudden death. Management Congenital long QT syndrome: • Beta-blockers Beta-blockers are first-line initial treatment Beta blockers alone are enough to abate collapses in up to 70% of patients. Beta blockers act by: decrease sympathetic activation from the left stellate ganglion, also decrease the maximal heart rate achieved during exertion and thereby prevent exercise-related arrhythmic events that occur in LQTS. should be avoided in those congenital cases in which bradycardia is a prominent feature. note sotalol may exacerbate long QT syndrome (due to blockage of K channel). This can be a particular risk in individuals with hypokalaemia. Therefore Sotalol is better to be avoided in patients with thiazide diuretics. • patients who remain symptomatic despite receiving the maximally tolerated dose of betablockers Permanent pacing and can be used in addition to beta-blockers. • patients who remain refractory to beta-blockade and pacing High left thoracic sympathectomy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Implantable cardioverter-defibrillators (ICDs) are useful in rare instances when torsades still continues despite all of these treatments. • Beta-blockers should be used along with ICDs because shock can further precipitate torsades by adrenergic stimulation. • Left stellate cardiac ganglionectomy is an invasive procedure and results in Horner’s syndrome. It is performed in patients who have symptoms despite βB and have frequent shocks with ICD. Acquired long QT syndrome • avoid drugs which prolong the QT interval and other precipitants if appropriate (e.g. Strenuous exercise) • Long-term treatment in acquired cases is usually not required because the QT interval returns to normal once the predisposing factor has been corrected. • Correction of any electrolyte disturbance Due to the pseudo-obstruction it is very likely that the patient is hypokalaemic and as such this is the first reversible aetiology for the non-sustained VT that needs to be investigated Check electrolytes Checking Magnesium would also be an appropriate step. • Beta-blockers are contra-indicated in acquired cases because bradycardia produced by these agents can precipitate torsades. They should also be avoided in those congenital cases in which bradycardia is a prominent feature. • Pacemaker implantation is effective in cases that are associated with heart block or bradycardia. • ICDs are indicated in cases that cannot be managed by avoidance of any specific precipitating factor. QT shortening: caused by: • Hypercalcaemia • Hypermagnesaemia • Digoxin • Thyrotoxicosis. January 2019 exam: A patient develops torsades de pointes shortly after being started on sotalol. What effect does sotalol have on the cardiac cell membrane to make this more likely? Blockage of potassium channels prolonged QT interval. Torsades de pointes (TdP) Overview • Torsades de pointes ('twisting of the points') is a rare arrhythmia associated with a long QT interval. • It may deteriorate into ventricular fibrillation and hence lead to sudden death • In its most typical form, sudden slowing of heart rate (i.e., pauses) invariably precede each burst of TdP, and the recurrent arrhythmia is referred to as “pause-dependent TdP” Risk factors • Female sex • causes of QT prolongation, • R-on-T phenomenon the R-wave, representing ventricular depolarization, occurs during the relative refractory period at the end of repolarization (represented by the latter half of the Twave). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Long QT intervals predispose the patient to an R-on-T phenomenon, R-on-T can initiate torsades. • bradycardia, • congestive heart failure, • digitalis therapy, • severe alkalosis • recent conversion from atrial fibrillation. Management • Stop all drugs which prolong QT • Correct any electrolyte abnormalities • IV magnesium sulphate (MgSo4) the best initial drug Mode of action: MgSo4 ↓Ca influx ↓ amplitude of the VT and helping terminate runs of torsade’s. Dose : 2 gm as bolus over 10 minutes, followed by another bolus in 15 minutes if required, or continuous infusion at a rate of 5-20 mg/min. It is effective even when serum magnesium level is normal. • Temporary pacemaker/transvenous overdrive pacing (atrial or ventricular) reserved for patients with long QT-related TdP who do not respond to intravenous magnesium. • Isoproterenol usually used as a temporizing measure prior to pacing in patients who have failed to respond to magnesium and are awaiting placement of a temporary pacemaker. Action Strong beta-1 & beta-2 stimulation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Adult advanced life support Resuscitation Council (UK) 2021 guidelines Major points include: • Point-of-care ultrasound (POCUS) The guidelines recognise the increasing role of point-of-care ultrasound (POCUS) in peri-arrest care for diagnosis, but emphasises that it requires a skilled operator, and the need to minimise interruptions during chest compression. POCUS may be useful to diagnose treatable causes of cardiac arrest such as cardiac tamponade and pneumothorax. Right ventricular dilation in isolation during cardiac arrest should not be used to diagnose massive pulmonary embolism. • Immediately after the first shock (and each subsequent shock) chest compressions should be restarted immediately and pulse and rhythm reassessed after two minutes. • Chest compression Ratio of chest compressions to ventilation is 30:2 Chest compressions are now continued while a defibrillator is charged After each shock chest compressions should be restarted immediately before anything else is done. • Adrenaline should be used as soon as possible when the cardiac arrest rhythm is nonshockable after 3 defibrillation attempts for a shockable cardiac arrest rhythm. during a VF/VT cardiac arrest, adrenaline 1 mg is given once chest compressions have restarted after the third shock and then every 3-5 minutes (during alternate cycles of CPR). A 1 mg dose of adrenaline (epinephrine) would be administered with:  0.1 ml of 1 in 100,  1 ml of 1 in 1000 and  10 ml of 1 in 10,000. 10 ml of 1 in 10,000 is the recommended dose and concentration by the UK Resuscitation Council. If not able to gain any venous access within two minutes →Obtain intraosseous access (it provides adequate plasma levels of drugs and allows equivalent flow rates to IV access). Delivery of drugs via a tracheal tube is no longer recommended • Antiarrhythmic drugs (in VF/ pulseless VT) Give Amiodarone 300 mg after the third shock and 150 mg after the fifth shock. If amiodarone is not available →use Lidocaine 100 mg after the third shock and 150 mg after the fifth shock. • Atropine is no longer recommended for routine use in asystole or pulseless • Thrombolytic drugs Consider thrombolytic drug therapy when pulmonary embolus is the suspected or confirmed as the cause of cardiac arrest. Consider CPR for 60-90 minutes after administration of thrombolytic drugs. • Waveform capnography during advanced life support Use waveform capnography to confirm correct tracheal tube placement during CPR. Use waveform capnography to monitor the quality of CPR. An increase in ETCO2 during CPR may indicate that ROSC has occurred. However, chest compression should not be interrupted based on this sign alone.  Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Recurrent or refractory VF Consider escalating the shock energy, after a failed shock and for patients where refibrillation occurs. For refractory VF, consider using an alternative defibrillation pad position (e.g. anterior- posterior). Magnesium sulphate IV is recommended for the treatment of refractory VF, if there is anything to suggest the patient may be hypomagnesaemic (such as on medications which might cause this, that is, thiazides). • Precordial thump Indicated only in witnessed or monitored cardiac arrect whilst awaiting the defibrillator within seconds of the onset of a shockable rhythm. It has a very low success rate for cardioversion. There is more success with pulseless VT than with VF. Chest compressions should start immediately if it is unsuccessful. The ulnar edge of a tightly clenched fist is used to deliver a sharp impact from a height of about 20 cm, then retract immediately (thereby creating an impulse-like stimulus). It delivers approximately 7-10 joules of energy. Only one thump should be delivered over the lower third of the sternum. Repeating a precordial thump is not recommended. • Electrical activity (PEA) pulseless with no respiratory effort , ECG reveals small complexes with a normal morphology →CPR + Adrenalin 1mg repeated every 3-5 minutes • Defibrillation Defibrillation is used to convert ventricular fibrillation to sinus rhythm Use single shocks where indicated, followed by a 2 minute cycle of chest compressions. The use of up to three-stacked shocks may be considered only if initial ventricular fibrillation/pulseless ventricular tachycardia (VF/pVT) occurs during a witnessed, monitored cardiac arrest with a defibrillator immediately available e.g. during cardiac catheterisation or in a high-dependency area. Antero-lateral pad position is the position of choice for initial pad placement. Ensure that the apical (lateral) pad is positioned correctly (mid-axillary line, level with the V6 ECG electrode position) i.e. below the armpit. In patients with an implantable device, place the pad > 8 cm away from the device  Range of the initial defibrillation energy  No clear evidence so , any level from 120-360 J is acceptable followed by a fixed or escalating strategy up to maximum output of the defibrillator. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Cardiac arrest in profound hypothermia Prolonged cardiopulmonary resuscitation with re-warming is the management of choice. Recovery with intact neurology has been reported even after very prolonged arrests, therefore resuscitation should be continued for far longer than would normally be considered. Hypothermic patients do not respond well to shocks or drugs and if there is no response to the first three shocks the patient should be rewarmed to at least 32°C before any drugs or shocks are administered. • Management of cold water drowning patients should be lifted out of the water in the prone position Re-warming such patients should be undertaken in a hospital that has extracorporeal re-warming facilities Defibrillation is ineffective if the myocardium is cold Hypothermia may render the carotid pulse impalpable so it is important to commence chest compression with firm evidence of cardiac arrest. Continuous chest compression should be applied throughout transportation, which is as effective as chest compression with expired air resuscitation Lance-Adams syndrome (Post-hypoxic myoclonus) • Definition: a rare condition that can occur following a period of cerebral hypoxia (e.g. post cardiac arrest) • Onset: occurs within days to weeks of cardiac arrest. • Characterised by intention myoclonus. • Treatment : antiepileptics ( e.g. levetiracetam, valproate) Peri-arrest arrhythmias Resuscitation Council (UK) 2021 guidelines Tachycardia • To convert atrial or ventricular tachyarrhythmias, the shock must be synchronised to occur with the R wave of the ECG. • For atrial fibrillation: An initial synchronised shock at maximum defibrillator output rather than an escalating approach is a reasonable strategy • For atrial flutter and paroxysmal supraventricular tachycardia: Give an initial shock of 70 - 120 J and stepwise increase energy for subsequent shocks • For ventricular tachycardia with a pulse: Give an initial shock of 120-150 J and stepwise increase energy for subsequent shocks • If cardioversion fails to restore sinus rhythm and the patient remains unstable: give IV amiodarone 300 mg over 10–20 minutes (or procainamide 10–15 mg kg-1 and re-attempt electrical cardioversion. The loading dose of amiodarone can be followed by an infusion of 900 mg over 24 hours. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Bradycardia • 1st line : give atropine 500 mcg IV (IO) and, if necessary, repeat every 3–5 minutes to a total of 3 mg. • 2nd line (If atropine is ineffective): isoprenaline (5 mcg min−1 starting dose), and adrenaline (2–10 mcg min−1). • For bradycardia caused by inferior myocardial infarction, cardiac transplant or spinal cord injury, consider giving aminophylline (100–200 mg slow intravenous injection). • If bradycardia caused by beta-blockers or calcium channel blockers → give glucagon • For bradycardia in patients with cardiac transplants Give aminophylline Do not give atropine, it can cause a high-degree AV block or even sinus arrest. • For bradycardia refractory to drug therapies in patients who are unstable: transcutaneous pacing If transcutaneous pacing is ineffective, consider transvenous pacing. • If atropine is ineffective and transcutaneous pacing is not immediately available, fist pacing can be attempted while waiting for pacing equipment. Wolff-Parkinson White (WPW) Pathophysiology • Due to a congenital accessory conduction pathway, called the bundle of Kent, that connects the atria to the ventricles, bypassing the AV node and leading to ventricular preexcitation. As the accessory pathway does not slow conduction, AF can degenerate rapidly to VF Presentation • Most patients are asymptomatic. • WPW presents as SVT that can alternate with ventricular tachycardia (VT). • SVT is the most common type of tachycardia seen in a patient with WPW. often present with AV re-entrant tachycardia • The other main clue to the diagnosis is worsening of SVT after the use of calcium blockers or digoxin Possible ECG features • short PR interval • wide QRS complexes with a slurred upstroke - 'delta wave' (can be associated with negative delta waves in II, III and aVF) • ECG in sinus rhythm reveals right bundle-branch block • left axis deviation if right-sided accessory pathway* *in the majority of cases or in a question without qualification, Wolff-Parkinson-White syndrome is associated with left axis deviation • right axis deviation if left-sided accessory pathway • non-specific ST-T changes which are common in WPW and may be mistaken for ischaemia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology ECG showing short PR interval associated with a slurred upstroke (delta wave). Note the non-specific ST-T changes which are common in WPW and may be mistaken for ischaemia. The left axis deviation means that this is type B WPW, implying a right-sided pathway Differentiating between type A and type B • type A (left-sided pathway): dominant R wave in V1 • type B (right-sided pathway): no dominant R wave in V1 In type B pre-excitation, the accessory pathway connects the right atrium to the right ventricle • there is a rare type C WPW, WPW in which the delta waves are upright in leads V1-V4 but negative in leads V5-V6 Associations of WPW • HOCM • mitral valve prolapse • Ebstein's anomaly • thyrotoxicosis • secundum ASD • Leber's hereditary optic neuropathy (mitochondrial disease) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Investigations • ECG Short PR interval ECG delta wave: a slurred upstroke at the start of the QRS complex, secondary to preexcitation Widened QRS • The most accurate test is electrophysiologic studies Management Acute episodes • Hemodynamically unstable: electrical cardioversion • Hemodynamically stable: assess underlying rhythm Narrow-complex tachycardia (including Afib, atrial flutter)  Rhythm control measures (i.e. IV procainamide or cardioversion) are the safest treatment option.  Vagal maneuvers and AV nodal blocking agents (Adenosine, B-Blockers, Calcium Channel Blockers, Digoxin) are contraindicated (may precipitate ventricular tachycardia or V-fib) Wide-complex regular or irregular tachycardia → Determine whether the rhythm is more likely to be ventricular or supraventricular in origin (e.g., Brugada criteria)  VT (∼80%): pharmacological cardioversion or synchronized electrical cardioversion  SVT (< 20%): Determine if an accessory pathway is present. Findings suggestive of an accessory pathway: synchronized electrical cardioversion or IV procainamide HR > 200 Irregular rhythm No bundle branch block on ECG Signs of impending instability (e.g., clammy skin) Baseline ECG findings that support the diagnosis No signs of an accessory pathway: manage as SVT  Undifferentiated wide-complex tachycardia: Treat as VT, with either electrical cardioversion or IV procainamide Long-term management • High-risk patients → Catheter ablation Syncope Associated atrial fibrillation, atrial flutter, or atrial tachycardia Aborted sudden cardiac death Family history of sudden cardiac death High-risk occupations (e.g., pilots, athletes, school bus driver ) • Low-risk patients Asymptomatic patients: usually no treatment required symptomatic patients: First-line treatment → catheter ablation Differentiating between VT and SVT Brugada criteria ECG finding VT SVT Absence of RS in all precordial leads? Yes No R:S interval > 100 ms in one precordial lead? Yes No Signs of AV dissociation present? Yes No QRS morphology consistent with VT in leads V1-2 and V6? Yes No Interpretation • If the answer to any is yes: most likely VT • If none are present: most likely SVT Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology WPW management • Asymptomatic : (incidentally found delta wave on ECG) →Reassurance • Asymptomatic in high-risk professions (eg pilots, school bus driver) is best managed by catheter ablation of the accessory pathway • Asymptomatic WPW in someone with a family history of sudden cardiac death is another indication for radiofrequency catheter ablation • Chronic medical therapy: flecainide, amiodarone, procainamide • Definitive treatment: radiofrequency ablation of the accessory pathway (first-line therapy) Contraindications in WPW A simple mnemonic to remember for drugs to avoid in WPW syndrome is ABCD (Adenosine, B-Blockers, Calcium Channel Blockers, Digoxin). • Digoxin • Beta-blockers • Diltiazem, verapamil • Amiodarone • This is because blocking the AV node may enhance the rate of conduction through the accessory pathway, increasing the ventricular rate and potentially deteriorating into ventricular fibrillation. If wide-complex tachycardia is present and the diagnosis of ventricular tachycardia (VT) cannot be excluded, the drugs of choice are IV procainamide or amiodarone. Lown–Ganong–Levine (LGL) syndrome: LGL syndrome is like WPW in the sense that it is a pre-excitation syndrome. However, the ECG changes present is only short PR interval without delta waves or abnormal QRS complex. Implantable cardiac defibrillators (ICD) Indications • Congenital long QT with family history of sudden cardiac death at young age. • hypertrophic obstructive cardiomyopathy (HOCM) • previous cardiac arrest due to VT/VF • Sustained VT causing haemodynamic compromise • previous myocardial infarction with non-sustained VT on 24 hr monitoring, inducible VT on electrophysiology testing and ejection fraction < 35% • Brugada syndrome • Arrhythmogenic right ventricular cardiomyopathy causing cardiac arrest. If it is not possible to quickly identify the underlying rhythm as SVT or VT, it is safest to treat empirically as VT with synchronized electrical cardioversion (100 J) or with IV Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acute pericarditis Overview • Acute pericarditis: inflammation of the pericardium that either occurs as an isolated process or with concurrent myocarditis (myopericarditis). • Pericarditis is one of the differentials of any patient presenting with chest pain. Features • Pleuritic chest pain Exacerbated by inspiration and lying flat, relieved by sitting up and leaning forwards • Shoulder pain (referred pain): pericarditis is innervated by phrenic nerve • Pericardial rub (present in 50% of cases.) → pathognomic feature • Other symptoms include non-productive cough, dyspnoea and flu-like symptoms Types and causes • Fibrinous pericarditis (the most common type) Causes:  Viral infection is the most common cause of acute pericarditis: the most common viral cause is Coxsackie B virus  Acute myocardial infarction (MI): more common than dressler syndrome friction rub is more common than pain Aspirin is the only NSAID that can be used in pericarditis complicating MI.  Post MI (Dressler syndrome): rare, autoimmune-mediated phenomenon to myocardial antigens, occur 2 – 4 weeks post MI Because of the risk of hemorrhagic pericarditis, anticoagulant therapy should be stopped in patients with dressler syndrome.  Radiation, trauma, severe infections  Uremic pericarditis blood urea nitrogen (BUN) level is usually greater than 60 mg/dL (22 mmol/L).  Hemorrhagic effusions are more common and result in part from uremiainduced platelet dysfunction.  does not present with the classic diffuse ST-elevations seen on ECG as in other types of pericarditis.  Uremic pericarditis is an indication for urgent hemodialysis. • Serous pericarditis Usually caused by noninfectious inflammation such as: rheumatoid arthritis (RA) systemic lupus erythematosus (SLE). Fibrous adhesions rarely occur. • Purulent or suppurative pericarditis Most commonly caused by staphylococcal and gram-negative species, high percentage of patients develop constrictive pericarditis. • Hemorrhagic pericarditis Most commonly caused by:  tuberculosis, direct neoplastic invasion.  Severe bacterial infections  Bleeding diathesis, cardiac surgery or trauma (may cause tamponade). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Caseous pericarditis caseation within the pericardial sac is tuberculous in origin, until proven otherwise, In tuberculous pericarditis, fever, night sweats, and weight loss are commonly noted (80%). Untreated, caseous pericarditis is the most common antecedent to chronic constrictive pericarditis of a fibrocalcific nature.  Approximately 50% of affected patients develop constrictive pericarditis. ECG changes • Stage 1 (initial) Diffuse ST elevations ST depression in aVR and V1 PR segment depression (most specific ECG marker for pericarditis) • Stage 2: ST segment normalizes in ∼1 week. • Stage 3: inverted T waves in all leads ∼ 1 – 2 weeks • Stage 4: ECG returns to normal baseline after weeks to months. Which ECG changes would you expect to see in the next week or two? T-wave inversion in all leads Echocardiography is often normal in patients with pericarditis but is needed to rule out pericardial tamponade and pericardial constriction Laboratory findings • Elevation of inflammatory markers may support the diagnosis of pericarditis but are not considered to be a part of the diagnostic criteria. • CBC: leukocytosis, ↑ ESR, ↑ CRP • ↑ Troponin I : suggest some degree of myocarditis. • ↑ Creatinine kinase ECG showing pericarditis. Note the widespread nature of the ST elevation and the PR depression Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnosis ESC guidelines defined the diagnosis of acute pericarditis as 2 out of 4 of the following: pericarditic chest pain; pericardial rub; new widespread ST-elevation or PR depression; and pericardial effusion (new or worsening). • Rule out other causes of acute chest pain (e.g., myocardial infarction, myocarditis) before making a diagnosis of acute pericarditis. Treatment • Pain management (analgesia, observation) NSAID therapy (Aspirin, Ibuprofen) Post-myocardial infarction pericarditis: avoid NSAIDs other than aspirin. Colchicine (in combination with NSAIDs or as a monotherapy). Useful both in acute episode and to prevent recurrence of pericarditis. • Only consider prednisone in: severe cases (not responded to NSAID and Colchicine) or in pericarditis caused by uremia, connective tissue disease, or autoreactivity. • Treat any known underlying causes • Pericardectomy is only indicated for recurrent pericarditis once medical interventions have failed. • Treatment duration: until symptoms have resolved and CRP has normalized, but normally it is for 1-2 weeks duration. • Reduce physical activity Prognosis • Recurrence Between 15 and 30% of patients with idiopathic acute pericarditis may have recurrent attacks, and this is considered to be an autoimmune phenomenon. • Poor prognostic factors include: Temperature above 38ºC Subacute disease course Presence of a large effusion or tamponade Unsuccessful therapy with nonsteroidal anti-inflammatory agents • Factors associated with complicated pericarditis include: Early administration of high-dose corticosteroids Lack of colchicine treatment Elevated levels of high-sensitivity C-reactive protein Acute pericarditis • Symptoms include sharp, severe retrosternal chest pain worse with inspiration and a supine position. • The classic physical finding is a pericardial friction rub. A low-grade fever is often present. • Diagnostic signs include new widespread diffuse concave upwards ST elevation and/or PR depression on ECG and new or worsening pericardial effusion on echocardiography; blood tests generally suggest systemic inflammation. • Treatment: All patients should be given a non-steroidal anti-inflammatory drug as first-line treatment. Colchicine should also be given unless the patient has tuberculous pericarditis. • Complications include chronic recurrent pericarditis, cardiac tamponade, and constrictive pericarditis. 037 - Chapter 5 037 Chapter 5 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Pericardial effusion Causes • infectious pericarditis: viral, tuberculosis, pyogenic spread from septicaemia and pneumonia • uraemia • idiopathic • post myocardial infarction (including Dressler's syndrome) • malignancy • heart failure • nephrotic syndrome • hypothyroidism • trauma CT is the most appropriate investigation  provide more information than Echo  quicker to obtain than (MRI). Investigations • ECG of pericardial effusion ECG reveals electrical alternans, which is caused by a "swinging" movement of the heart in a large effusion Constrictive pericarditis The right sided failure, ascites and pericardial calcification on x ray suggest a diagnosis of constrictive pericarditis. Pathophysiology • Inflammation of the pericardium fibrosis and constriction Risk factors • previous cardiac surgery • previous pericarditis, • radiotherapy • connective tissue disease Causes • Mediastinal irradiation • TB :Tuberculous pericarditis is the commonest cause of constrictive pericarditis worldwide. • any cause of purulent pericarditis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • dyspnoea • right heart failure: elevated JVP, ascites, oedema, hepatomegaly • JVP shows prominent x and y descent • pericardial knock - loud S3 • Kussmaul's sign is positive (rise in JVP on inspiration) Investigations • CXR pericardial calcification can detect effusions only if larger than 250 mL. • Echocardiography Indication to assess for pericardial effusion and cardiac tamponade  the best diagnostic tool for diagnosing pericardial effusion.  shows no increase in the venous return with inspiration. The key differences between constrictive pericarditis and cardiac tamponade are summarized in the table below: Cardiac tamponade Constrictive pericarditis JVP Absent Y descent X + Y present Pulsus paradoxus Present Absent Kussmaul's sign* Rare Present Characteristic features Pericardial calcification on CXR • Kussmaul's sign* a paradoxical rise in jugular venous pressure (JVP) on inspiration • Kussmaul's sign (a rise in the JVP on inspiration) is more likely to be seen in constrictive pericarditis than cardiac tamponade. Treatment • The first line of treatment of symptomatic constrictive pericarditis is pericardiotomy. Cardiac tamponade Cardiac tamponade is characterised by Beck's triad of: • hypotension • raised JVP (with absent Y descent ), and • muffled heart sounds. Definition • an accumulation of pericardial fluid under pressure, leading to impaired cardiac filling and hemodynamic compromise Features • dyspnoea • raised JVP, with an absent Y descent - this is due to the limited right ventricular filling • tachycardia • Hypotension the best clinical features that distinguishes cardiac tamponade from constrictive pericarditis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology  hypotension is a late feature in constrictive pericarditis. • muffled heart sounds • pulsus paradoxus an exaggerated inspiratory decrease in systolic blood pressure • Kussmaul's sign Rare Most common in constrictive pericarditis • impalpable apex beat Investigations • ECG : tachycardia, low voltage, electrical alternans, (due to the swinging movement of the heart).  beat-to-beat variation in QRS-axis and amplitude. • chest x-ray (enlarged cardiac silhouette with clear lung fields), • echocardiogram (chamber collapses, abnormal venous flows, exaggerated respiratory variation of cardiac and venous flows). Treatment • pericardiocentesis. Hypotension is the best clinical features that distinguishes cardiac tamponade from constrictive pericarditis hypotension is a late feature in constrictive pericarditis. Hypertension (NICE guidelines 2019) Definition • Essential hypertension is defined as blood pressure (BP) ≥140/90 mmHg, with no secondary cause identified. Causes • Essential hypertension (95% of patients) No specific cause known. Multifactorial etiology including genetic and environmental factors • Secondary hypertension (5% of patients) RECENT: Renal (e.g., renal artery stenosis, glomerulonephritis), Endocrine (e.g., Cushing syndrome, hyperthyroidism, Conn syndrome), Coarctation of the aorta, Estrogen (oral contraceptives), Neurologic (raised intracranial pressure, psychostimulants use), Treatment (e.g., glucocorticoids, NSAIDs) are the causes of secondary hypertension. When a question says: ‘What is the most likely diagnosis?’ think about what is epidemiologically the most common cause of hypertension? Therefore the answer is essential hypertension. The most likely cause of hypertension in an obese is still essential hypertension. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnosis Hypertension - NICE now recommend ambulatory blood pressure monitoring to aid diagnosis Confirm diagnosis of hypertension in people with a: clinic blood pressure of 140/90 mmHg or higher and ABPM daytime average or HBPM average of 135/85 mmHg or higher. Measuring blood pressure • Palpate the radial or brachial pulse before measuring blood pressure with automated devices . If pulse irregularity is present, measure BP manually using direct auscultation over the brachial artery, because automated devices may not measure BP accurately if there is pulse irregularity (for example, due to atrial fibrillation). • Measure BP in both arms If the difference between arms ˃ 15 mmHg repeat BP . If the difference remains ˃ 15 mmHg:  Subsequent BP should be recorded from the arm with the higher reading.  Look for cases of unequal BP from the arms, e.g. supravalvular aortic stenosis. • If BP in the clinic ≥140/90 mmHg: Take a second measurement during the consultation. If the second measurement is substantially different from the first, take a third measurement. Record the lower of the last 2 measurements as the clinic blood pressure. • If clinic BP is between 140/90 mmHg and 180/120 mmHg, offer ambulatory blood pressure monitoring (ABPM) to confirm the diagnosis of hypertension. If ABPM is unsuitable or not tolerated, offer home blood pressure monitoring (HBPM). • In people with symptoms of postural hypotension (falls or postural dizziness): measure BP with the person either supine or seated and with the person standing for at least 1 minute before measurement. If the systolic BP falls by 20 mmHg or more when the person is standing:  review medication  measure subsequent BP with the person standing  consider referral to specialist care if symptoms of postural hypotension persist. • Ambulatory blood pressure monitoring (ABPM) The use of ambulatory blood pressure monitoring (ABPM) aims to:  prevent diagnosing 'white coat hypertension' as having hypertension in patients whose blood pressure climbs 20 mmHg whenever they enter a clinical setting.  ABPM has been shown to be a more accurate predictor of cardiovascular events than clinic readings. at least 2 measurements per hour during the person's usual waking hours (for example, between 08:00 and 22:00) use the average value of at least 14 measurements If ABPM is not tolerated or declined HBPM should be offered. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Home blood pressure monitoring (HBPM) for each BP recording, two consecutive measurements need to be taken, at least 1 minute apart and with the person seated BP should be recorded twice daily, ideally in the morning and evening BP should be recorded for at least 4 days, ideally for 7 days discard the measurements taken on the first day and use the average value of all the remaining measurements. Hypertension terms used in NICE guidelines 2019 Term Definition Hypertension clinic BP of ≥140/90 mmHg or higher and ABPM daytime average or HBPM average of ≥135/85 mmHg. White-coat hypertension A discrepancy of more than 20/10 mmHg between clinic and average daytime ABPM or average HBPM measurements at the time of diagnosis. Masked hypertension Clinic BP measurements are normal (˂140/90 mmHg), but higher when taken outside the clinic using average daytime ABPM or average HBPM BP measurements. Persistent hypertension High blood pressure at repeated clinical encounters. severe hypertension Stage 3 hypertension: Clinic systolic BP ≥ 180 mmHg or clinic diastolic BP ≥ 120 mmHg. Accelerated hypertension (malignant hypertension) A severe increase in BP to ≥180/120 mmHg (and often over 220/120 mmHg) with signs of retinal haemorrhage and/or papilloedema (swelling of the optic nerve). It is usually associated with new or progressive target organ damage and is also known as malignant hypertension. Hypertension Stages (NICE guidelines 2019) Stage Criteria Stage 1 hypertension Clinic BP ≥140/90 mmHg and subsequent ABPM daytime average or HBPM average BP ≥135/85 mmHg Stage 2 hypertension Clinic BP ≥160/100 mmHg and subsequent ABPM daytime average or HBPM average BP ≥ 150/95 mmHg Stage 3 or severe hypertension Clinic systolic BP ≥180 mmHg, or clinic diastolic BP ≥120 mmHg Management (NICE guidelines 2019) Non-pharmacological management • Lifestyle advice is the first line in hypertension management weight reduction: Of all the lifestyle modifications, weight reduction produces the greatest reduction in BP (A 10 kg weight loss is expected to decrease BP by 15–20 mmHg) low salt diet, aiming for less than 6g/day, ideally 3g/day. (reducing salt intake by 6g/day can lower systolic blood pressure by 10mmHg) low caffeine intake. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad stop smoking, drink less alcohol  If a patient on antihypertensive and drink alcohol Reduction of alcohol intake is the next step in treatment. Starting antihypertensive drug treatment • any age with persistent stage 2 hypertension. • age ˂ 60 years with stage 1 hypertension and an estimated 10-year cardiovascular risk below 10%. • age ˂ 80 years with stage 1 hypertension who have 1 or more of the following: target organ damage established cardiovascular disease renal disease diabetes an estimated 10-year risk of cardiovascular disease of 10% or more. • age ˃ 80 years with stage 1 hypertension if their clinic BP ˃150/90 mmHg • For patients ˂ 40 years consider specialist referral to exclude secondary causes. Pharmacological management : Steps of hypertension treatment • Step 1 treatment Age ≤ 55 OR any age, with T2DM with no black African origin ACEi or ARB Age ≤ 55 OR any age, with T2DM with black African origin ARB Age ≥ 55 without T2DM CCB black African origin of any age without T2DM CCB With heart failure thiazide-like diuretic, such as indapamide in preference to a conventional thiazide diuretic such as bendroflumethiazide or hydrochlorothiazide. • Step 2 treatment If BP not controlled on ACEi or ARB Add CCB or thiazide-like diuretic. If BP not controlled on CCB Add ACEi or ARB or thiazide-like diuretic. If BP not controlled on CCB in a black African Add ARB (in preference to an ACEi) • Step 3 treatment If BP not controlled with step 2 treatment ACEi or ARB and CCB and thiazide-like diuretic. • Step 4 treatment BP not controlled with the optimal tolerated doses of ACEi or ARB and CCB and thiazide-like diuretic Resistant hypertension Before considering further treatment for a person with resistant hypertension: Confirm elevated clinic blood pressure measurements using ambulatory or home blood pressure recordings. Assess for postural hypotension. Discuss adherence Confirmed resistant hypertension:  blood potassium ≤ 4.5 mmol/l further diuretic therapy with low-dose spironolactone  monitor blood sodium and potassium and renal function within 1 month of starting treatment and repeat as needed thereafter.  blood potassium ˃ 4.5 mmol/l alpha-blocker or beta-blocker Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Drug choice • hypertensive with benign prostatic hyperplasia alpha-blockers • hypertensive with heart failure or angina beta-blockers • hypertensive post myocardial infarction either a beta blocker or ACE inhibitor would be the agent of choice. • calcium channel blockers are now considered superior to thiazides • bendroflumethiazide is no longer the thiazide of choice Use of multiple anti-hypertensives at low doses is preferable to having fewer tablets at higher doses, in view of the synergistic effectiveness of targeting several mechanisms of hypertension. Blood pressure targets Clinic BP ABPM / HBPM Age < 80 years 140/90 mmHg 135/85 mmHg Age > 80 years 150/90 mmHg 145/85 mmHg Recommendations for BP target • British Hypertension Society Guidelines for Hypertension Management (BHS-IV) recommend a goal BP of less than 130/80 mmHg for patients with diabetes, renal impairment and established cardiovascular disease; Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hypertensive emergency Definition Hypertensive emergency: systolic BP ≥ 180 or diastolic BP ≥ 110 + end organ damage Presentation • The most common clinical presentations of hypertensive emergencies are: cerebral infarction (24.5%) pulmonary edema (22.5%), hypertensive encephalopathy (16.3%), congestive heart failure (12%). Other presentations include intracranial hemorrhage, aortic dissection, and eclampsia as well as acute myocardial infarction. Management Labetalol has both alpha- and beta-adrenoreceptor antagonistic activity and is the first choice for hypertensive crises where the aetiology is initially unclear. • Gradual blood pressure lowering over the first 24 hours in the first hour : reduce mean arterial pressure (MAP) by 10 – 20 % in the next 23 hours: 5% to 15%, so that the final BP is reduced by 25% compared with baseline. • IV antihypertensive : e.g. Labetolol The major risk of any oral agent used for hypertensive emergencies is ischaemic symptoms (for example myocardial infarction, angina pectoris or stroke) due to an excessive and uncontrolled hypotensive response usually due to lowering of BP to below the autoregulatory threshold. Therefore the use of oral agents should generally be avoided in the treatment of hypertensive emergencies if parenteral drugs are available. • The exceptions to gradual BP lowering over the first 24 hours are: Acute ischemic stroke – The BP should not lowered unless it is ≥185/110 mmHg in patients who are candidates for reperfusion therapy or ≥220/120 mmHg in patients who are not candidates for reperfusion therapy. Acute aortic dissection – The systolic BP should rapidly lowered to a target of 100 to 120 mmHg (to be attained in 20 minutes). Spontaneous hemorrhagic stroke – The systolic BP can be rapidly reduced if no contraindications exist. MAP = diastolic blood pressure + [(systolic blood pressure - diastolic blood pressure)/3] Or MAP = (2x diastolic + systolic)/3 Chapter 5 Cardiology Parenteral drugs for treatment of hypertensive emergencies Side effects (SE) Notes Labetalol Nausea/vomiting, paresthesias (eg, scalp tingling), bronchospasm, dizziness, nausea, heart block Avoid in acute decompensated heart failure. Use cautiously in obstructive or reactive airway. Beta-blocker should not be withdrawn abruptly, but gradually tapered to avoid acute tachycardia, hypertension, and/or ischemia. Nitroglycerin (glyceryl trinitrate) (Adrenergic inhibitor) Beta-Blocker With Alpha-Blocking Activity Hypoxemia, tachycardia (reflex sympathetic activation), headache, vomiting, flushing, methemoglobinemia, tolerance with prolonged use (Vasodilators) Nicardipine Tachycardia, headache, dizziness, nausea, flushing, local phlebitis, edema (Vasodilators) Calcium Channel Blocker, Dihydropyridine Clevidipine Atrial fibrillation (most common SE), nausea, lipid formulation contains potential allergens (eg, soy, egg) Avoid in patients with defective lipid metabolism (hypertriglyceridemia is an expected SE). Patients who develop hypertriglyceridemia (eg, >500 mg/dL) are at risk of developing pancreatitis. Dihydropyridine calcium channel blockers may cause negative inotropic effects and exacerbate HF. Hydralazine (Vasodilators) Calcium Channel Blocker, Dihydropyridine Sudden precipitous drop in blood pressure, tachycardia, flushing, headache, vomiting, aggravation of angina (Vasodilators) Direct vasodilation of arterioles Nitroprusside (Vasodilators) Elevated intracranial pressure, decreased cerebral blood flow, reduced coronary blood flow in CAD, cyanide and thiocyanate toxicity, nausea, vomiting, muscle spasm, flushing, sweating Phentolamine Tachycardia, flushing, headache, nausea/vomiting (Adrenergic inhibitor) Alpha 1 Blocker Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad used as adjunctive therapy for patients with acute coronary syndrome or acute pulmonary edema. contraindicated in patients with increased intracranial pressure (eg, intracranial hemorrhage) Avoid use in acute heart failure. Caution with coronary ischemia. In general, hydralazine should be avoided due to its prolonged and unpredictable hypotensive effect. Contraindicated in coronary artery disease; mitral valve rheumatic heart disease and SLE. In general, nitroprusside should be avoided due to its toxicity. avoid in AMI, CAD, CVA, elevated intracranial pressure, renal or hepatic impairment. Alternative option for catecholamine excess (eg, adrenergic crisis secondary to pheochromocytoma or cocaine overdose). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hypertensive urgency Definition Hypertensive urgency: systolic BP ≥ 180 or diastolic BP ≥ 110 + NO end organ damage Presentation • Asymptomatic patient with a BP in the "severe" range (ie, ≥180/≥120 mmHg) • Often a mild headache, but no signs or symptoms of acute end-organ damage. Management • All patients should be provided a quiet room in which to rest. This may produce a fall in blood pressure ≥20/10 mmHg in approximately one-third of adults. If this is not effective, antihypertensive drugs may be given. • Gradual lowering of the BP over a period of hours to days to <160/<100 mmHg or no more than 25 to 30% of baseline BP. • The risk of adverse events (eg, stroke or myocardial infarction) that may occur if the BP is lowered too rapidly or to a level below the ability for autoregulation to maintain adequate tissue perfusion. • Can often be safely managed in the clinician's office • Add or modify oral antihypertensive Malignant hypertension (Accelerated hypertension) A patient with malignant hypertension always has retinal papilledema Definition • BP ≥180/120 mmHg (often over 220/120 mmHg) with signs of retinal haemorrhage and/or papilloedema (swelling of the optic nerve). • It is usually associated with new or progressive target organ damage Pathophysiology • The pathologic hallmark of malignant hypertension is fibrinoid necrosis of the arterioles which occurs systemically, but specifically in the kidneys. Management : as hypertensive emergency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Secondary hypertension General indicators of secondary hypertension • Young age (< 40 years) at onset of hypertension • Onset of diastolic hypertension at an older age (> 55 years) • Abrupt onset of hypertension • End-organ damage that is disproportionate to the degree of hypertension • Recurrent hypertensive crises • Resistant hypertension: hypertension that is resistant to treatment with at least three antihypertensives of different classes including a diuretic Causes • Primary hyperaldosteronism, including Conn's syndrome (5-10% of hypertensive patients) the single most common cause of secondary hypertension ↑BP + ↓K+ + ↑ Aldosterone CT or MRI of the abdomen identifies a secretory adrenal adenoma • Renal diseases: include glomerulonephritis pyelonephritis Reflux-associated scarring is the commonest renal disease.  This will cause abnormalities on dimercaptosuccinic acid (DMSA) scan. adult polycystic kidney disease renal artery stenosis • Coarctation of the aorta (the commonest non-renal cause) • Endocrine disorders (other than primary hyperaldosteronism): phaeochromocytoma Cushing's syndrome Liddle's syndrome ( ↑BP + ↓K+ + ↑Na+)  hypokalaemic hypertension  metabolic alkalosis  low plasma renin and aldosterone (called pseudo-hyperaldosteronism). congenital adrenal hyperplasia (11-beta hydroxylase deficiency) acromegaly • Fibromuscular dysplasia, a rare cause of hypertension and hypokalaemia, more common in women. It causes hyperreninaemic hyperaldosteronism. • Pregnancy (PIH, pre-eclampsia , eclampsia) • Drugs Liquorice ingestion  causes a primary aldosterone type picture.  It is caused by glycyrrhizic acid contained in liquorice, blocking the enzyme 11b hydroxysteroid dehydrogenase. This prevents the inactivation of cortisol, which in turn activates mineralocorticoid receptors in the kidney. driving hypokalaemic metabolic alkalosis with hypertension. NSAIDs, combined oral contraceptive pill, steroids, MAOI Different diagnostics for causes of secondary hypertension Diagnostic findings Underlying condition  Hypokalaemia  Conn syndrome  Renal artery stenosis  Metabolic alkalosis and ↑ aldosterone-to-renin ratio  Difference in blood pressure in both arms  Takayasu arteritis  Aortic dissection  Aortic arch syndrome  Subclavian steal syndrome  Of upper and lower limbs  Coarctation of the aorta distal to the left subclavian artery  Daytime sleepiness (Epworth scale, Berlin questionnaire)  Nondipping in 24-hour blood pressure monitoring (the failure of BP to fall by ≥10% during sleep.)  Increased 24-hour urinary metanephrines  Pheochromocytoma  ↑ Serum calcium, ↑ PTH level, ↓ serum phosphates  ↑ Serum cortisol  Excess of glucocorticoids (e.g., Cushing syndrome)  ↓TSH, ↑ free T4  Hyperthyroidism MRCPUK- part 2- March 2017 : A 28-year-old woman of Afro-Caribbean ethnic origin c/o difficultto-manage hypertension, despite taking maximal-dose amlodipine and indapamide. The GP trialled an ACE inhibitor, but this was discontinued due to a rise in serum creatinine. Renin and aldosterone are both Elevated. K is 3.1 mmol. Which of the following is the most likely diagnosis? Fibromuscular renal artery dysplasia  This patient’s age and ethnicity suggest that her hypertension is related to fibromuscular dysplasia rather than to atherosclerotic renal artery stenosis.  The renin and aldosterone elevation, coupled with hypokalaemia and deterioration in renal function on starting ACE inhibitors, are consistent with the diagnosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Conn syndrome  Obstructive sleep apnoea  Hyperparathyroidism Chapter 5 Cardiology Hypokalaemia and hypertension Hypokalaemia with hypertension Hypokalaemia without hypertension  Cushing's syndrome  Conn's syndrome (primary hyperaldosteronism)  Liddle's syndrome (autosomal dominant disorder that mimics hyperaldosteronism) • renal artery stenosis • 11-beta hydroxylase deficiency 21-hydroxylase deficiency, which accounts for 90% of congenital adrenal hyperplasia cases, is not associated with hypertension • Carbenoxolone, an anti-ulcer drug, and liquorice excess • The first step in case of (↑ BP + ↓ K+) should be further simple investigations Plasma renin and aldosterone levels Cushing's & Conn's high aldosterone and a low renin, Renal artery stenosis high renin and aldosterone Liddle's syndrome low renin and aldosterone. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Diuretics  GI loss (e.g. Diarrhoea, vomiting)  renal tubular acidosis (type 1 and 2) type 4 renal tubular acidosis is associated with hyperkalaemia.  Bartter's syndrome  Gitelman syndrome Hypertension in pregnancy Physiology • The blood pressure in normal pregnancy: usually falls in the first trimester (particularly the diastolic), and continues to fall until 20-24 weeks after this time the blood pressure usually increases to pre-pregnancy levels by term Definition • Hypertension in pregnancy in usually defined as: systolic > 140 mmHg or diastolic > 90 mmHg or an increase above booking readings of > 30 mmHg systolic or > 15 mmHg diastolic Classification Pre-existing hypertension Pregnancy-induced hypertension (PIH, also known as gestational hypertension) A history of hypertension before pregnancy or BP > 140/90 mmHg before 20 weeks gestation Hypertension (as defined above) occurring in the second half of pregnancy (i.e. after 20 weeks) No proteinuria, no oedema No proteinuria, no oedema Oedema may occur but is now less commonly used as a criterion Occurs in 3-5% of pregnancies and is more common in older women Occurs in around 5-7% of pregnancies Resolves following birth (typically after one month). Women with PIH are at increased risk of future pre-eclampsia or hypertension later in life Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pre-eclampsia Pregnancy-induced hypertension in association with proteinuria (> 0.3g / 24 hours) Occurs in around 5% of pregnancies Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Treatment of chronic hypertension with pregnancy • Pre-pregnancy advice: If they are taking ACE inhibitors or ARBs, thiazide or thiazide-like diuretics and planning for pregnancy discuss an alternative antihypertensive treatment, stop it if they become pregnant. the limited evidence available has not shown an increased risk of congenital malformation with any other antihypertensive. • Best antihypertensive: 1st line : labetalol 2nd line: nifedipine (if labetalol is not suitable) 3rd line: methyldopa (if both labetalol and nifedipine are not suitable) • Target BP: 135/85 mmHg • Aspirin 75–150 mg once daily from 12 weeks. • Offer placental growth factor (PlGF)-based testing to help rule out pre-eclampsia between 20 weeks and up to 35 weeks of pregnancy, if women with chronic hypertension or PIH are suspected of developing pre-eclampsia. Treatment of hypertension in the postnatal period • If women not planning to breastfeed →treat as hypertension in general • If women planning to breastfeed: 1st line:  non-black African or Caribbean women: enalapril  black African or Caribbean women: nifedipine or amlodipine if the woman has previously used this to successfully control her BP. 2nd line: combination of nifedipine (or amlodipine) and enalapril 3rd line: add atenolol or labetalol to the combination treatment or swapping 1 of the medicines already being used for atenolol or labetalol. • avoid using diuretics or angiotensin receptor blockers for women who are breastfeeding. Treatment of hypertension in the postnatal period (NICE guidelines June 2019 ) • If women not planning to breastfeed treat as hypertension in general • If women planning to breastfeed: 1st line:  non-black African or Caribbean women: enalapril  black African or Caribbean women: nifedipine or amlodipine if the woman has previously used this to successfully control her BP. 2nd line: combination of nifedipine (or amlodipine) and enalapril 3rd line: add atenolol or labetalol to the combination treatment or swapping 1 of the medicines already being used for atenolol or labetalol. • Avoid using diuretics or angiotensin receptor blockers for women who are breastfeeding. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pre-eclampsia/Eclampsia Definitions • Pre-eclampsia: is a condition seen after 20 weeks gestation characterised by pregnancyinduced hypertension in association with proteinuria. use albumin: creatinine ratio (8 mg/mmol) or protein: creatinine ratio (≥30 mg/mmol) to confirm significant proteinuria (Do not use 24-hour proteinuria or first morning urine void). • Eclampsia: development of seizures in association pre-eclampsia. Risk factors • 40 years old • nulliparity (or new partner) • multiple pregnancy • body mass index > 30 kg/m^2 • diabetes mellitus • pregnancy interval of more than 10 years • family history of pre-eclampsia • previous history of pre-eclampsia • pre-existing vascular disease such as hypertension or renal disease • There is some evidence to suggest that pre-eclampsia is actually less common in smokers Features of pre-eclampsia • severe headache • problems with vision, such as blurring or flashing before the eyes • severe pain just below the ribs • vomiting • sudden swelling of the face, hands or feet. Prevention of pre-eclampsia • Aspirin 75–150 mg of aspirin daily from 12 weeks until the birth of the baby is indicated for pregnant with: One of the following high risk factor for pre-eclampsia:  hypertensive disease during previous pregnancies  chronic kidney disease  autoimmune disorders such as SLE or antiphospholipid syndrome  type 1 or 2 diabetes mellitus  chronic hypertension. More than one of the following moderate risk factor for pre-eclampsia:  first pregnancy  age 40 years or older Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology  pregnancy interval of more than 10 years  body mass index (BMI) of 35 kg/m2 or more at first visit  family history of pre-eclampsia  multi-fetal pregnancy. Treatment • Pre-eclampsia Target blood pressure: BP of 135/85 mmHg or less Best antihypertensive:  1st line : labetalol  2nd line: nifedipine (if labetalol is not suitable)  3rd line: methyldopa (if both labetalol and nifedipine are not suitable) Consider magnesium sulfate treatment, if 1 or more of the following features of severe pre-eclampsia is present:  ongoing or recurring severe headaches  visual scotomata  nausea or vomiting  epigastric pain  oliguria and severe hypertension  progressive deterioration in laboratory blood tests (such as rising creatinine or liver transaminases or falling platelet count). • Eclampsia Magnesium sulphate is used to both prevent seizures in patients with severe preeclampsia and treat seizures once they develop.  IV bolus of 4g over 5-15 minutes followed by an infusion of 1g / hour for 24 hours.  Recurrent fits should be treated with a further dose of 2–4 g given intravenously over 5 to 15 minutes.  urine output, reflexes, respiratory rate and oxygen saturations should be monitored during treatment  treatment should continue for 24 hours after last seizure or delivery (around 40% of seizures occur post-partum) • Other important aspects of treating severe pre-eclampsia/eclampsia include fluid restriction to avoid the potentially serious consequences of fluid overload (limit maintenance fluids to 80 ml/hour) • delivery of the baby is the most important and definitive management step. The timing depends on the individual clinical scenario. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pulmonary arterial hypertension (PAH) Definition • Sustained elevation in mean pulmonary arterial pressure of greater than 25 mmHg at rest or 30 mmHg after exercise. Epidemiology • More common in females • Typically presents at 20-40 years old WHO Classification & causes Group 1: idiopathic pulmonary arterial hypertension (IPAH) Idiopathic (previously termed primary pulmonary hypertension (PPH) 10% are familial (autosomal dominant) Diagnosed when no underlying cause can be found Endothelin thought to play a key role in pathogenesis Group 2: Pulmonary hypertension with left heart disease Congenital heart disease with systemic to pulmonary shunts Left-sided atrial, ventricular or valvular disease such as left ventricular systolic and diastolic dysfunction, mitral stenosis and mitral regurgitation Group 3: Pulmonary hypertension secondary to lung disease/hypoxia COPD Interstitial lung disease Sleep apnoea High altitude Group 4: Pulmonary hypertension due to thromboembolic disease Group 5: Miscellaneous conditions Lymphangiomatosis e.g. secondary to carcinomatosis or sarcoidosis Collagen vascular disease HIV (the mechanism by which HIV infection produces pulmonary hypertension remains unknown) Sickle cell disease  Haemoglobinopathies (eg: sickle cell anemia, thalassemia) intravascular hemolysis → ↓ nitric oxide (NO) → pulmonary vasoconstriction Drugs and toxins: cocaine and anorexigens (e.g. fenfluramine) Increased pressure in pulmonary circuit → elevated right ventricular afterload → dilatation and/or hypertrophy of the right heart →right heart failure and arrhythmias Lung disease can cause pulmonary hypertension by hypoxic vasoconstriction, whereas the heart can cause pulmonary hypertension by pump failure and subsequent fluid backup and stasis. • Pulmonary arterial hypertension is caused by an intrinsic increase in the resistance of the pulmonary vasculature, while pulmonary hypertension can be caused by secondary aetiologies such as lung disease and heart failure. • The most common cause of pulmonary arterial hypertension is idiopathic, while the most common overall cause of pulmonary hypertension is left-sided heart failure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Features • Symptoms exertional dyspnoea is the most frequent symptom  progressive SOB chest pain and syncope may also occur • On examination: cyanosis Nail clubbing raised JVP with prominent 'a' waves, left parasternal heave (due to right ventricular hypertrophy) loud P2 tricuspid regurgitation Investigation • Doppler echocardiography the initial investigation of choice the jet associated with tricuspid regurgitation can be visualised adequately (tricuspid regurgitant jet velocity) • Right heart catheterization confirmatory test the gold standard for the diagnosis World Health Organization (WHO) functional classification for pulmonary hypertension Class WHO functional classification for pulmonary hypertension I No limitations of physical activity. Ordinary physical activity does not cause undue fatigue or dyspnea, chest pain, or heart syncope. II Slight limitation of physical activity. Ordinary physical activity results in undue fatigue or dyspnea, chest pain, or heart syncope. Comfortable at rest. III Marked limitation of physical activity. Less than ordinary physical activity causes undue fatigue or dyspnea, chest pain, or heart syncope. Comfortable at rest IV Inability to carry on any physical activity without symptoms. Dyspnea and/or fatigue may be present even at rest. Management • Treatment of the underlying cause for example: Anticoagulants for PE Bronchodilators and inhalation corticosteroids for COPD, CPAP for patients with obstructive sleep apnea • Acute vasodilator testing is central to deciding on the appropriate management strategy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acute vasodilator testing aims to decide which patients show a significant fall in pulmonary arterial pressure following the administration of vasodilators such as intravenous epoprostenol or inhaled nitric oxide  If there is a positive response →oral calcium channel blockers  If there is a negative response: prostacyclin analogues: treprostinil, iloprost endothelin receptor antagonists: bosentan phosphodiesterase inhibitors: sildenafil • Diuretics if right heart failure • Heart-lung transplant Whilst only 10-15% of patients appear to have a pulmonary vascular tree responsive to calcium antagonism, these agents still constitute the initial therapy of choice according to guidelines, but only in those patients who show a response to vasodilator testing. Complication • Cor pulmonale Angina pectoris Non-atherosclerotic angina would be associated with conditions such as • Thyrotoxicosis • Aortic regurgitation • Aortic stenosis • Hypertrophic cardiomyopathy • Anaemia Anginal pain is: constricting discomfort in the front of the chest, or in the neck, shoulders, jaw, or arms precipitated by physical exertion relieved by rest or GTN within about 5 minutes.  Three of the features above are defined as typical angina.  Two of the three features above are defined as atypical angina.  One or none of the features above are defined as non-anginal chest pain. Features which make a diagnosis of stable angina unlikely are when the chest pain is: • continuous or very prolonged and/or • unrelated to activity and/or • brought on by breathing in and/or • associated with symptoms such as dizziness, palpitations, tingling or difficulty swallowing. Consider causes of chest pain other than angina (such as gastrointestinal or musculoskeletal pain). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Investigations for stable chest pain • First-line: 64-slice CT coronary angiography (CTCA) • Second-line: non-invasive functional testing ( if CTCA is non-diagnostic.) Myocardial perfusion scan (MPS) with single photon emission computed tomography (SPECT) (MPS with SPECT) or stress echocardiography or first-pass contrast-enhanced magnetic resonance perfusion or MRI for stress-induced wall motion abnormalities. • Third-line: invasive coronary angiography ( when the results of non-invasive functional imaging are inconclusive) In the context of risk factors for ischaemic heart disease (hypertension, hypercholesterolaemia, smoking), the clinical diagnosis should be confirmed with non-invasive functional scanning such as myocardial perfusion scanning with SPECT. • High-risk patients with classic angina symptoms should proceed directly to coronary angiography. • Offer 64‑ slice (or above) CT coronary angiography if: clinical assessment indicates typical or atypical angina or clinical assessment indicates non-anginal chest pain but 12‑ lead resting ECG has been done and indicates ST‑ T changes or Q waves. • Low-risk patients can be evaluated with non-invasive stress imaging. • Offer non-invasive functional imaging for myocardial ischaemia if 64-slice (or above) CT coronary angiography has shown CAD of uncertain functional significance or is nondiagnostic. non-invasive functional testing for myocardial ischaemia myocardial perfusion scintigraphy with single photon emission computed tomography (MPS with SPECT)  Use adenosine, dipyridamole or dobutamine as stress agents stress echocardiography  Use exercise or dobutamine for stress echocardiography or MR imaging for stress-induced wall motion abnormalities. first-pass contrast-enhanced magnetic resonance (MR) perfusion  use adenosine or dipyridamole as stress agents MR imaging for stress-induced wall motion abnormalities Take account of locally available technology and any contraindications (for example, disabilities, frailty, limited ability to exercise) when deciding on the imaging method. • Offer invasive coronary angiography as a third-line investigation when the results of noninvasive functional imaging are inconclusive. • Treadmill exercise is no longer recommended in the work-up of new-onset chest pain. Definition of significant coronary artery disease (CAD) • CT coronary angiography is:  ≥70% diameter stenosis of at least one major epicardial artery segment or ≥50% diameter stenosis in the left main coronary artery Factors intensifying ischaemia • Such factors allow less severe lesions (for example, ≥50%) to produce angina: reduced oxygen delivery: anaemia, coronary spasm increased oxygen demand: tachycardia, left ventricular hypertrophy large mass of ischaemic myocardium: proximally located lesions longer lesion length. Factors reducing ischaemia which may render severe lesions (≥70%) asymptomatic: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Well-developed collateral supply. • Small mass of ischaemic myocardium: distally located lesions, old infarction in the territory of coronary supply. ESC guidelines 2017 • A reduction in chest pain after nitroglycerin (glyceryl trinitrate) administration can be misleading and is not recommended as a diagnostic manoeuvre • In cases of symptom relief after nitroglycerin administration, another 12-lead ECG must be obtained. • A complete normalization of the ST-segment elevation after nitroglycerin administration, along with complete relief of symptoms, is suggestive of coronary spasm, with or without associated MI. In these cases, an early coronary angiography (within 24 h) is recommended. • In cases of recurrent episodes of ST-segment elevation or chest pain, immediate angiography is required. Drug management You should still use bisoprolol in patients with COPD and IHD, because it carries an important outcome benefit Medication • all patients should receive aspirin and a statin in the absence of any contraindication • sublingual glyceryl trinitrate to abort angina attacks • NICE recommend using either a beta-blocker or a calcium channel blocker first-line based on 'comorbidities, contraindications and the person's preference' • if a calcium channel blocker is used as monotherapy a rate-limiting one such as verapamil or diltiazem should be used. If used in combination with a beta-blocker then use a longacting dihydropyridine calcium-channel blocker (e.g. modified-release nifedipine). Remember that beta-blockers should not be prescribed concurrently with verapamil (risk of complete heart block) • if there is a poor response to initial treatment then medication should be increased to the maximum tolerated dose (e.g. for atenolol 100mg od) • if a patient is still symptomatic after monotherapy with a beta-blocker add a calcium channel blocker and vice versa • if a patient is on monotherapy and cannot tolerate the addition of a calcium channel blocker or a beta-blocker then consider one of the following drugs: a long-acting nitrate, ivabradine, nicorandil or ranolazine A beta-blocker or a calcium channel blocker is used first-line to prevent angina attacks Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • if a patient is taking both a beta-blocker and a calcium-channel blocker then only add a third drug whilst a patient is awaiting assessment for PCI or CABG • The FREEDOM trial demonstrated that in diabetic patients CABG was superior to PCI in that it significantly reduced rates of death and myocardial infarction. • Cardioselective calcium antagonists such as verapamil and diltiazem do not affect prognosis in angina although they may impact on symptoms by reducing heart rate. • If a patients don’t tolerate beta-blockade, ivabradine may be a more appropriate intervention. Nitrate tolerance • many patients who take nitrates develop tolerance and experience reduced efficacy • the BNF advises that patients who develop tolerance should take the second dose of isosorbide mononitrate after 8 hours, rather than after 12 hours. This allows blood-nitrate levels to fall for 4 hours and maintains effectiveness • this effect is not seen in patients who take modified release isosorbide mononitrate • the explanation for nitrate tolerance generation of reactive oxygen species chronic nitrate therapy ↑vascular oxidative stress ↑ degradation of nitric oxide (NO) reduced bioavailability Ivabradine • action  (If ('funny' ion) channel inhibitor which is highly expressed in the sinoatrial node) reducing the heart rate • Indications a new class of anti-anginal drug  there is no evidence currently of superiority over existing treatments of stable angina heart failure:  with (NYHA) class II–IV stable chronic heart failure with systolic dysfunction and who are in sinus rhythm with a heart rate of 75 bpm or more and who are given ivabradine in combination with standard therapy including β-blocker therapy, angiotensin-converting enzyme (ACE) inhibitors and aldosterone antagonists, or when β-blocker therapy is contraindicated or not tolerated and with a left ventricular ejection fraction of 35% or less. • adverse effects: visual effects, particular luminous phenomena, are common.  sensations of enhanced brightness in a fully maintained visual field  due to blockage of Ih ion channels in the retina, which are very similar to cardiac If.  mild, transient, and fully reversible. Bradycardia, due to the mechanism of action, Ulceration of an atheromatous plaque of the abdominal aorta is the most common source of emboli in old man presented with acute pain, pallor and absent pulses in his leg. MRCPUK-part-1-January 2018 exam: Which cell type is most implicated in the development of coronary artery plaques? Macrophages Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Coronary artery bypass graft (CABG) • There are two main approaches. In one, the left internal thoracic artery (internal mammary artery) is diverted to the left anterior descending branch of the left coronary artery. In the other, a great saphenous vein is removed from a leg; one end is attached to the aorta or one of its major branches, and the other end is attached to the obstructed artery. • CABG is superior to PCI in multivessel coronary disease. • indicated when coronary arteries have a 50% to 99% obstruction. • CABG guidelines state CABG is the preferred treatment for: Disease of the left main coronary artery (LMCA). Disease of all three coronary arteries (LAD, LCX and RCA). Diffuse disease not amenable to treatment with a PCI.  high-risk patients such as those with severe ventricular dysfunction (i.e. low ejection fraction), or diabetes mellitus. • Benefits  relief of angina no survival benefit with bypass surgery vs. medical therapy in stable angina Bypass surgery does not prevent future myocardial infarctions. • Complications The incidence of acute coronary syndrome within 30 days of CABG is high, at around 17.5%. Aneurysms are a rare and late complication of CABG. Cardiac syndrome X • consist of: angina-like chest pain during exertion characteristic ECG changes during exercise testing normal coronary arteries on cardiac catheterisation no inducible coronary artery spasm during catheterisation Acute coronary syndrome Poor prognostic factors • age • development (or history) of heart failure • peripheral vascular disease • reduced systolic blood pressure • Killip class* • initial serum creatinine concentration • elevated initial cardiac markers • cardiac arrest on admission • ST segment deviation Clinical factors which are good indicators of ACS: • typical pain lasting at least 15 minutes, associated nausea, and sweating. • Response to GTN should not be used as indicator of ACS Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology ACS referral Chest pain Referral guidelines: • current chest pain or chest pain in the last 12 hours with an abnormal ECG: emergency admission • chest pain 12-72 hours ago: refer to hospital the same-day for assessment • chest pain > 72 hours ago: perform full assessment with ECG and troponin measurement before deciding upon further action Myocardial infarction • The most specific feature, which suggests that the pain is myocardial ischaemia, is the radiation to the jaw, which is relatively specific for pain of myocardial ischaemia. • The clinical classification of MI includes: (NICE 2010) Type 1: ischaemia due to a primary coronary event such as plaque, fissuring or dissection. Type 2: ischaemia due to either increased oxygen demand or decreased supply, such as coronary spasm, coronary embolism, anaemia, arrhythmias, hypertension, or hypotension. The diurnal variation of myocardial ischaemia • There is a diurnal variation in presentation of myocardial ischaemia. • Which physiological process is responsible for this? Vasospasm • The peak incidence of STEMI and the peak incidence of death due to ischaemic heart disease both coincide at around 8-9 am. The early morning is associated with several physiological and haematological factors which predispose to vasospasm, infarction and death. There is  ↑adrenergic activity  ↑plasma fibrinogen levels  ↑inhibition of fibrinolysis and  ↑platelet adhesiveness. • Interestingly, NSTEMIs are not associated with this degree of diurnal rhythm. • Precipitating factors for an infarct include: physical exertion Rest , Sleep Surgical procedure Emotional stressors. 038 - Pages 926-950 038 Pages 926-950 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Risk factors The highest prevalence of myocardial infarction is 72 hours post operation. Patients with diabetes may not have chest pain due to autonomic dysfunction. Investigations • ECG (best initial test) • Cardiac troponin levels: Measure as soon as possible and repeat after 1–6 hours. • Transthoracic echocardiography: if the diagnosis is unclear. Findings: Wall motion abnormalities Decreased LV function Myocardial infarction: management Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Glyceryl trinitrate Sublingual glyceryl trinitrate and intravenous morphine + metoclopramide should be given to help relieve the symptoms. ongoing pain despite the use of sublingual GTN is suggestive of continuing myocardial ischaemia/infarction IV GTN • Aspirin 300mg.  the initial drug therapy Aspirin 300mg should be given to all patients (unless contraindicated).  It is safe in the post-surgical patient with no signs of bleeding at three days post operation. A second antiplatelet is normally given, usually ticagrelor, clopidogrel or prasurgel (all are antagonists of the P2Y12 adenosine diphosphate receptor).  (Aspirin + ticagrelor) is better than (aspirin + clopidogrel) ticagrelor was associated with a 13% relative reduction in cardiovascular events versus a conventional clopidogrel based regimen. This has driven use of ticagrelor in place of clopidogrel in major guidelines on antiplatelet therapy post STEMI. A loading dose of 180 mg stat is recommended at the time of diagnosis of STEMI. This was also associated with increased risk of bleeding events when compared to aspirin and clopidogrel. NICE do not recommend giving other antiplatelet agents (i.e. Clopidogrel) outside of hospital. The dose of clopidogrel is 300 mg in ACS. • Other treatments that may be given include bivalirudin (a direct thrombin inhibitor, usually given alongside aspirin + clopidogrel) and a form of heparin (either low-molecular weight or unfractionated). Heparin in Non-STEMI (has no benefit in ST elevation MI). • do not routinely give oxygen, only give if sats < 94%* • *NICE suggest the following in terms of oxygen therapy: do not routinely administer oxygen, but monitor oxygen saturation using pulse oximetry as soon as possible, ideally before hospital admission. Only offer supplemental oxygen to:  people with oxygen saturation (SpO2) of less than 94% who are not at risk of hypercapnic respiratory failure, aiming for SpO2 of 94-98%  people with chronic obstructive pulmonary disease who are at risk of hypercapnic respiratory failure, to achieve a target SpO2 of 88-92% until blood gas analysis is available. ESC guidelines 2017 state that: routine oxygen is not recommended when SaO2 is ≥ 90%. • perform an ECG as soon as possible but do not delay transfer to hospital. A normal ECG does not exclude ACS • percutaneous coronary intervention (PCI) is the first-line and the gold-standard treatment management to revascularise the myocardium. but is not available in all centres. Thrombolysis should be performed in patients without access to primary PCI offer primary PCI to patients who present within 12 hours of onset of symptoms, if it can be delivered within 120 minutes of the time when fibrinolysis could have been given. A practical example may be a patient who presents with a STEMI to a small district general hospital (DGH) which does not have facilities for PCI. If they cannot be transferred to a larger hospital for PCI within 120 minutes then fibrinolysis should be given. If the patient's ECG taken 90 minutes after fibrinolysis failed to show resolution of the ST elevation then they would then require transfer for PCI. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Percutaneous coronary intervention (PCI) • PCI is a technique used to restore myocardial perfusion in patients with ischaemic heart disease, both in patients with stable angina and acute coronary syndromes. • Stents are implanted in around 95% of patients - it is now rare for just balloon angioplasty to be performed • Following stent insertion migration and proliferation of smooth muscle cells and fibroblasts occur to the treated segment. The stent struts eventually become covered by endothelium. Until this happens there is an increased risk of platelet aggregation leading to thrombosis. • Following insertion, the most important factor in preventing stent thrombosis is antiplatelet therapy. Aspirin should be continued indefinitely. The length of clopidogrel treatment depends on the type of stent, reason for insertion and consultant preference • How long should he continue dual antiplatelet therapy following stent insertion? 12 months When dual therapy is maintained for less than 12 months, early cessation of clopidogrel is associated with an increased risk of further ischaemic events. Thrombosis of a drug-eluting stent is associated with high morbidity (42%) and mortality (71%). For this reason, dual antiplatelet therapy (usually aspirin and clopidogrel) is continued for at least twelve months following the insertion of this type of stent. • Elective surgery should be postponed for twelve months when it is considered safe to stop clopidogrel and continue with aspirin. Complications: Two main complications may occur Stent thrombosis: due to platelet aggregation as above. Occurs in 1-2% of patients, most commonly in the first month. Usually presents with acute myocardial infarction Treated by primary angioplasty. Restenosis: due to excessive tissue proliferation around stent. Occurs in around 5-20% of patients, most commonly in the first 3-6 months. Usually presents with the recurrence of angina symptoms. Risk factors include diabetes, renal impairment and stents in venous bypass grafts  In patients with type-2 diabetes, uncoated coronary stents are liable to re-stenosis at a rate of 40–50% by the end of a 6-month Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Drug eluting stents have been shown to reduce the relative risk of re-stenosis by around 80%, but only where dual anti-platelet therapy with clopidogrel and aspirin is continued for at least 1 year. Types of stent • bare-metal stent (BMS) • drug-eluting stents (DES): stent coated with paclitaxel or rapamycin which inhibit local tissue growth. Whilst this reduces restenosis rates the stent thrombosis rates are increased as the process of stent endothelisation is slowed Thrombolysis Thrombolysis is no longer indicated except in the context of STEMI where PCI is not available within 90 minutes of first medical contact. • ECG criteria for thrombolysis within 24 hours of typical pain include: ST elevation of more than 1 mm in in two adjacent limb leads. ST elevation more than 2 mm in in two adjacent anterior chest leads. new left bundle branch block. • Pre-hospital thrombolysis is indicated if the time from the initial call to arrival at hospital is likely to be over 30 minutes. When primary percutaneous coronary intervention cannot be provided within 120 minutes of ECG diagnosis, patients with STEMI should receive immediate (prehospital or admission) thrombolytic therapy (NICE) recommends using intravenous bolus (reteplase or tenecteplase) rather than an infusion for pre-hospital thrombolysis • Thrombolics tissue plasminogen activator (tPA) has been shown to offer clear mortality benefits over streptokinase streptokinase  mechanism of action Combining with plasminogen to form a complex  Streptokinase forms a 1:1 complex with plasminogen that induces structural changes in the protein that activates it without direct cleavage of the Arg-Val bond. it is not specific for fibrin-bound plasminogen. alteplase  Unlike streptokinase, alteplase activates plasminogen bound to fibrin without activating unbound plasminogen proteins.  it is not associated with hypotension or allergic reactions like streptokinase.  It has a much shorter half-life of only 3-4 minutes compared to 18 minutes for streptokinase. tenecteplase  easier to administer  has been shown to have non-inferior efficacy to alteplase with a similar adverse effect profile • ECG should be performed 90 minutes following thrombolysis to assess whether there has been a greater than 50% resolution in the ST elevation if there has not been adequate resolution then rescue PCI is superior to repeat thrombolysis for patients successfully treated with thrombolysis PCI has been shown to be beneficial. The optimal timing of this is still under investigation • Contraindications to thrombolysis include: Gastrointestinal (GI) bleeding in the preceding three weeks. Heavy vaginal bleeding Ischaemic stroke in last six months Previous history of hemorrhagic stroke Uncontrolled severe hypertension Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prolonged cardiopulmonary resuscitation (CPR) (more than half an hour). Known or suspected aortic dissection Known bleeding disorder Major surgery or serious trauma within two weeks. Lumbar puncture in the preceding week. • Relative contraindications Proliferative diabetic retinopathy, allergy and oral anticoagulants • Risk factors for bleeding Advancing age Renal impairment Low body weight and Known bleeding problems. Management of hyperglycaemia in acute coronary syndromes • the most appropriate treatment for his glycaemic control Commence intravenous insulin infusion and stop metformin metformin increased risk of lactic acidosis. • Nice in 2011 recommends using a dose-adjusted insulin infusion with regular monitoring of blood glucose levels to glucose below 11.0 mmol/l • The Diabetes and Insulin-Glucose Infusion in Acute Myocardial Infarction (DIGAMI) study demonstrated significant reductions in mortality in subjects with diabetes and myocardial infarction (MI) treated with IV insulin infusion (followed by three months of sc insulin) compared with conventional therapy with their oral hypoglycaemic agents. intensive insulin therapy (an intravenous infusion of insulin and glucose with or without potassium, sometimes referred to as 'DIGAMI') regimes are not recommended routinely MRCPUK-part-1-january-2018: What is the mode of action of alteplase? Plasminogen activator  Induce conversion of plasminogen to plasmin leading to the dissolution of a fibrin clot. Myocardial infarction: complications Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Myocardial infarction complications Complication Notes Cardiac arrhythmia Occurs within the first few days after MI. Important cause of death before reaching the hospital and within the first 24 hours post-MI. Ventricular fibrillation is the most common cause of death following a MI. Atrioventricular block is more common following inferior myocardial infarctions. LV failure and pulmonary oedema Can occur 2° to LV infarction, VSD, free wall rupture, papillary muscle rupture with mitral regurgitation. Post infarction fibrinous pericarditis 1–3 days: common around 10% of patients. friction rub Papillary muscle rupture (leads to acute mitral regurgitation). 2–7 days: posteromedial papillary muscle rupture. ↑risk due to single blood supply from posterior descending artery. More common with infero-posterior infarction. Suddenly develops pulmonary oedema and a loud systolic murmur at the apex which radiated into the axilla with associated pulmonary oedema. often require emergency surgical repair. Interventricular septal rupture 3–5 days: macrophage-mediated degradation →VSD →↑O2 saturation and pressure in RV. acute heart failure associated with a pan-systolic murmur. An echocardiogram is diagnostic and will exclude acute mitral regurgitation which presents in a similar fashion. Urgent surgical correction is needed. Ventricular pseudoaneurysm formation 3–14 days: free wall rupture contained by adherent pericardium or scar tissue; low cardiac output, risk of arrhythmia, embolus from mural thrombus. True ventricular aneurysm 2 weeks to several months: outward bulge with contraction (“dyskinesia”), associated with fibrosis. typically associated with persistent ST elevation and left ventricular failure. Thrombus may form within the aneurysm increasing the risk of stroke. Patients are therefore anticoagulated. Ventricular free wall rupture 5–14 days: present with acute heart failure secondary to cardiac tamponade (raised JVP, pulsus paradoxus, diminished heart sounds). LV hypertrophy and previous MI protect against free wall rupture. Urgent pericardiocentesis and thoracotomy are required. Dressler syndrome Several weeks: autoimmune phenomenon resulting in fibrinous pericarditis. characterised by a combination of fever, pleuritic pain, pericardial effusion, friction rub on auscultation and a raised ESR. Treated with NSAIDs. Chronic heart failure The most important factor predicting outcomes post-STEMI is the presence of new systolic heart failure. Primary prevention drugs which have evidence for the reduction of risk of developing a cardiac event? • Angiotensin converting enzyme inhibitor The most appropriate treatment to reduce cardiovascular risk should focus on adequate blood pressure control ↓ BP is most important than control of DM and lipids in CV risk reduction • Aspirin • Metformin treatment of overweight, diabetic patients with metformin, lowers the relative risk of (MI) by 40%, as opposed to treatment with sulphonylureas or insulin. • Statins Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Myocardial infarction: secondary prevention All patients should be offered the following drugs: • dual antiplatelet therapy (aspirin plus a second antiplatelet agent) • ACE inhibitor • beta-blocker • statin Some selected lifestyle points: • Diet: advise a Mediterranean style diet, switch butter and cheese for plant oil-based products. Do not recommend omega-3 supplements or eating oily fish • Exercise: advise 20-30 mins a day until patients are 'slightly breathless' • Sexual activity may resume 4 weeks after an uncomplicated MI. Reassure patients that sex does not increase their likelihood of a further MI. PDE5 inhibitors (e.g, sildenafil) may be used 6 months after a MI.  They should however be avoided in patient prescribed either nitrates or nicorandil Clopidogrel • STEMI: the European Society of Cardiology recommend dual antiplatelets for 12 months. In the UK this means aspirin + clopidogrel • Non-ST segment elevation myocardial infarction (NSTEMI): following the NICE 2013 guidelines, clopidogrel should be given for the first 12 months Aldosterone antagonists • patients who have had an acute MI and who have symptoms and/or signs of heart failure and left ventricular systolic dysfunction, treatment with an aldosterone antagonist licensed for post-MI treatment (e.g. eplerenone) should be initiated within 3-14 days of the MI, preferably after ACE inhibitor therapy Hyperlipidaemia: management See endocrinology Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Heart failure Definition • structural or functional impairment of ventricular filling and/or ejection of blood. Types • Heart failure with reduced ejection fraction (HFrEF) Reduced contractility → systolic ventricular dysfunction → decreased left ventricular ejection fraction (LVEF) → decreased cardiac output Causes include:  Damage and loss of myocytes (e.g., following myocardial infarction, coronary artery disease, dilated cardiomyopathy)  Cardiac arrhythmias  High-output cardiac failure A state of heart failure characterized by increased cardiac output and lowered systemic vascular resistance. May be caused by arteriovenous fistulas, renal disease, anemia, beriberi, or Graves' disease. • Heart failure with preserved ejection fraction (HFpEF) Decreased ventricular compliance → diastolic ventricular dysfunction → reduced ventricular filling and increased diastolic pressure → decreased cardiac output (while the left ventricular ejection fraction remains normal) Causes include:  Increased stiffness of the ventricle (e.g., long-standing arterial hypertension with ventricular wall hypertrophy, restrictive cardiomyopathy)  Impaired relaxation of the ventricle (e.g., constrictive pericarditis, pericardial tamponade) NYHA classification • The New York Heart Association (NYHA) classification is widely used to classify the severity of heart failure: NYHA Class I  no symptoms  no limitation: ordinary physical exercise does not cause undue fatigue, dyspnoea or palpitations NYHA Class II  mild symptoms  slight limitation of physical activity: comfortable at rest but ordinary activity results in fatigue, palpitations or dyspnoea NYHA Class III  moderate symptoms  marked limitation of physical activity: comfortable at rest but less than ordinary activity results in symptoms NYHA Class IV  severe symptoms  unable to carry out any physical activity without discomfort: symptoms of heart failure are present even at rest with increased discomfort with any physical activity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnosis (NICE 2010) • Patient with previous myocardial infarction arrange echocardiogram within 2 weeks  if transthoracic doppler 2D echocardiography imaging is poor (eg: in obese)  consider other imaging methods, such as: radionuclide angiography, cardiac magnetic resonance imaging or trans-oesophageal Doppler 2D echocardiography. • No previous myocardial infarction measure serum natriuretic peptides (BNP)  if levels are 'high' (> 400) arrange echocardiogram within 2 weeks  if levels are 'raised' (100-400) arrange echocardiogram within 6 weeks  40% of patients with raised BNP will have left ventricular systolic dysfunction on echo. the remaining will have other cardiac abnormalities.  if levels are 'normal' (< 100) hear failure is unlikely (investigate for other causes ) B-type natriuretic peptide (BNP) • Source produced mainly by the left ventricular myocardium in response to strain. • Effect The net effect of these peptides is: ↓BP (due to the decrease in systemic vascular resistance) and, thus, afterload on the heart. ↓cardiac output (due to an overall decrease in central venous pressure) and preload as a result of the reduction in blood volume that follows natriuresis and diuresis. • Uses normal level rules out acute heart failure in the emergency setting Very high levels are associated with a poor prognosis. • Excretion Less than 5% of BNP is cleared renally whereas NT-proBNP is reliant solely on the kidney for excretion and hence it is unreliable in patients with coexistent renal dysfunction. BNP NTproBNP High levels 400 pg/ml (116 pmol/litre) 2000 pg/ml (236 pmol/litre) Raised levels 100-400 pg/ml (29-116 pmol/litre) 400-2000 pg/ml (47-236 pmol/litre) Normal levels < 100 pg/ml (29 pmol/litre) < 400 pg/ml (47 pmol/litre) Diagnosis of acute heart failure (Nice guidelines 2014): • In people presenting with new suspected acute heart failure: rule out the diagnosis of heart failure if :  BNP less than 100 ng/litre  NT‑ proBNP less than 300 ng/litre. new suspected acute heart failure with raised natriuretic peptide levels perform transthoracic Doppler 2D echocardiography (within 48 hours of admission) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Factors, which alter the BNP level: Increase BNP levels Decrease BNP levels • Left ventricular hypertrophy • Aortic stenosis, • Hypertension • Ischaemia • Tachycardia • Right ventricular overload • Hypoxaemia (including pulmonary embolism) • GFR < 60 ml/min • Sepsis • COPD, Cor pulmonale • Diabetes • Age > 70 • Liver cirrhosis • Hyperaldosteronism • Cushing's syndrome • Stable angina, Acute coronary syndromes • Atrial fibrillation (AF) • Obesity • Diuretics • ACE inhibitors • Beta-blockers • Angiotensin 2 receptor blockers • Aldosterone antagonists Mechanism of central sleep apnea (CSA) in HF: • Which mechanism is responsible for the patient’s polysomnography findings in heart failure? Increased sensitivity to carbon dioxide and stimulation of the vagal receptors. increased sensitivity to PaCO2 is a protective mechanism from hypercapnia due to heart failure.  HF ↑duration of circulation of blood gases from the lungs to the brain.  When these blood gases reach the brain, the increased sensitivity to PaCO2 higher-than-normal response of hyperventilation ↓PaCO2 lower than the apneic threshold.  As soon as the brain detects low PaCO2 it will cease ventilation with apnea (central) so PaCO2 can rise again.  As soon as the PaCO2 rises again and reaches the brain (longer than normal due to heart failure), it will cause another episode of hyperventilation. supine position ↑venous return pulmonary congestion activate vagal receptors hyperventilation. Hyponatraemia in patients with CHF • Water restriction is the first-line and mainstay of therapy • Stopping furosemide will not be possible for a patient who has decompensated heart failure. • Similarly, administration of hypertonic saline is only indicated if there is neurological manifestation of hyponatremia. • Moreover hypertonic or isotonic saline administration will be poorly tolerated in a volumeoverloaded patient. • associated with the worst prognosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Investigations • Chest x-ray: Features of pulmonary oedema on a chest x-ray may include: interstitial oedema bat's wing appearance upper lobe diversion (increased blood flow to the superior parts of the lung) Kerley B lines pleural effusion cardiomegaly may be seen if there is cardiogenic cause Typical CXR signs associated with heart failure The most common cause of flash pulmonary oedema is myocardial ischaemia. Bilateral renal artery stenosis is a less common cause of flash pulmonary oedema. Pharmacological management Acute heart failure management • Initial pharmacological treatment intravenous diuretics • Initial non-pharmacological treatment cardiogenic pulmonary oedema with severe dyspnoea and acidaemia consider starting non-invasive ventilation  in this case it is the most useful next step , before diuretics . The effect of the diuresis comes much later and has a modest overall contribution in managing the symptoms of shortness of breath. Consider invasive ventilation in acute heart failure that, despite treatment, is leading to or is complicated by: respiratory failure or reduced consciousness or physical exhaustion. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology In a person presenting with acute heart failure who is already taking beta-blockers: • continue the beta-blocker treatment unless they have a heart rate less than 50 beats per minute, second or third degree atrioventricular block, or shock. • restart beta-blockers once their condition has been stabilised – for example, when intravenous diuretics are no longer needed. In a person presenting with acute heart failure who is already taking frusemide 80 mg: • in a patient with evidence of decompensated heart failure and fluid overload. The most appropriate initial management is to Increase furosemide and relieve the symptoms of fluid overload – pulmonary and peripheral oedema. Chronic management • 4 drugs have been shown to improve mortality in patients with chronic heart failure: ACE inhibitors spironolactone beta-blockers hydralazine with nitrates • No long-term reduction in mortality has been demonstrated for loop diuretics such as furosemide. • In patients with symptoms of heart failure not controlled on ACE inhibitors alone, switching to the combination of ARB and neprilysin inhibitor can further improve symptoms and quality of life. e.g: combination of sacubitril and valsartan reduced cardiovascular death and heart failure hospitalisations by 20%. • NICE issued updated guidelines on management in 2010, key points include: first-line treatment for all patients is both an ACE-inhibitor and a beta-blocker  With the persisting symptoms despite 80 mg of furosemide, guidelines would initially suggest the addition of an ACE inhibitor.  Although beta-blockers would be of further benefit in this patient, it is important first to establish him on ACEi and then introduce betablockers like carvedilol, metoprolol or bisoprolol in a small dose and gradually increase. second-line treatment is now either an aldosterone antagonist, angiotensin II receptor blocker or a hydralazine in combination with a nitrate if symptoms persist cardiac resynchronisation therapy or digoxin should be considered  digoxin has also not been proven to reduce mortality in patients with heart failure.  It may however improve symptoms due to its inotropic properties.  Digoxin is strongly indicated if there is coexistent atrial fibrillation  There is no evidence that increasing a dose of digoxin above 62.5 µg in a patient in sinus rhythm would have any added benefit. diuretics should be given for fluid overload offer annual influenza vaccine offer one-off pneumococcal vaccine  adults usually require just one dose but those with asplenia, splenic dysfunction or chronic kidney disease need a booster every 5 years Drugs that improve prognosis are beta blockers, ACE inhibitors, ARNIs, aldosterone antagonists, and hydralazine with nitrate. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad MRCPUK-part-1-jan-2018: In a patient with significant heart failure on maximum medical therapy (ramipril 10 mg OD, furosemide 80 mg OD, bisoprolol 10 mg OD and spironolactone 25 mg OD). Despite this, they have continued to deteriorate but criteria for cardiac resynchronisation therapy (CRT) are not achieved. What is the most appropriate next step to improve mortality?  Ivabradine  acts as an inhibitor of the If current within the myocardium. This current, particularly present in the sino-atrial and atrio-ventricular nodes, acts as the cardiac pacemaker.  By inhibiting this current, ivabradine reduces the heart rate without impacting the force of cardiac contraction.  This has been shown to reduce heart failure hospitalisation and mortality in patients already on maximum medical therapy.  Due to its mechanism, ivabradine is only effective in patients in sinus rhythm. If known case of heart failure – on β-blocker – presented with acute pulmonary oedema Increase diuretics, stop β-blockers and restart β-blockers when his lungs are dry. A significant benefit from using IV iron in patients with heart failure and iron deficiency was demonstrated in a study history of heart failure + iron deficiency. the first step correcting iron deficiency Non- pharmacological management • Cardiac resynchronisation therapy (CRT) (biventricular pacing): criteria for resynchronisation therapy recommended by NICE guidance They are in sinus rhythm +  either with a QRS duration of ≥150 ms estimated by ECG (LBBB)  or with a QRS duration of 120-149 ms estimated by ECG and mechanical dyssynchrony that is confirmed by echocardiography They have a left ventricular ejection fraction of ≤ 35%. They are receiving optimal pharmacological therapy. • Benefit : Improved symptoms and reduced hospitalisation in NYHA class III patients • Investigations : the most useful investigation in predicting symptomatic response to cardiac resynchronisation therapy is transthoracic echocardiogram and ECG (The echo will show asynchronous contraction of the LV and RV and subsequently reduced ejection fraction). • Complications: When a CRT device is implanted the left ventricular lead is inserted in the coronary sinus. To obtain access to the coronary sinus a catheter with an aggressive tip is used. There is a 1% risk of causing dissection/perforation to the coronary sinus which can lead to cardiac tamponade. Implantable cardioverter defibrillator (ICD) • Where there is no LBBB and QRS is between 120-149 ms, ICD is the recommended option according to NICE guidelines. This is because of the risk of VT on account of the low ejection fraction, (<35%), and symptomatic heart failure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Exercise training • improves symptoms but not hospitalisation/mortality Tocolysis-associated pulmonary oedema • Tocolytics are medications administered for the suppression of premature contractions. • Acute pulmonary oedema can occur with administration of β2 agonists for tocolysis in up to 5–15% of cases. • It usually occurs after 24 h of administration of these agents. • The chest X-ray reveals pulmonary infiltrates and normal heart size. • Concomitant use of corticosteroids that are often administered for lung maturation have also been implicated as risk factor for development of tocolysis-associated pulmonary oedema. • Treatment involves stopping the tocolytics, oxygen and careful volume control. • Deferential: Peripartum cardiomyopathy:  typically presents in the last month of pregnancy and up-to 6 months postpartum.  cardiomegaly on chest X-ray. NICE management summery Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Other management options If heart failure is caused or worsened by other conditions, these should be managed appropriately: • Revascularisation (e.g. coronary artery bypass grafting) • Valve surgery (e.g. aortic valve replacement) • Implantable cardiac defibrillator (ICD): inserted if EF <30% for prevention of fatal arrhythmias • Cardiac resynchronisation therapy + defibrillator (CRT-D): a biventricular pacemaker for EF <30% + QRS >130 m/sec to re-synchronise left and right ventricular contraction to improve EF • Cardiac transplantation is rare and strict criteria must be met for consideration. By five years following cardiac transplantation, nearly all patients have some degree of small coronary vascular narrowing (Coronary arteriopathy ). Potentially harmful drugs to avoid in heart failure Drug to avoid Notes Non-steroidal anti-inflammatory drugs (NSAIDs) • May cause sodium and water retention, peripheral vasoconstriction, worsen heart failure, and decrease renal function. • Acute renal failure may be more likely when these agents are used in combination with an ACE inhibitor (ACEI) / angiotensin receptor blocker (ARB) and/or diuretic. Non-dihydropyridine calcium channel blockers –verapamil and diltiazem1 • Negative inotropic effect may further depress cardiac function. Risk is greatest with verapamil, then diltiazem and least risk with dihydropyridines, but use with caution • Non-dihydropyridine calcium channel blockers are contraindicated in systolic heart failure , but may be useful in heart failure with preserved ejection fraction where slowing heart rate can increase filling time Tricyclic antidepressants May prolong QT interval and cause arrhythmias as well as hypotension from alpha-blocking effects Thiazolidinediones (e.g. pioglitazone) May cause fluid retention and heart failure by increasing renal sodium reabsorption Corticosteroids May worsen heart failure due to sodium and water retention (mineralocorticoid effect) Clozapine May cause cardiomyopathy and myocarditis Oncology treatments such as anthracyclines (doxorubicin, daunorubicin), trastuzumab may cause heart failure Tumour necrosis factor antagonists (e.g. infliximab, etanercept) May cause heart failure Moxonidine (centrally acting antihypertensive) Contraindicated in heart failure. Associated with increased mortality in heart failure Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Prognosis • Prognosis is poor overall, with approximately 50% of people with heart failure dying within five years of diagnosis • Factors indicating worse prognosis in heart failure High BNP/NT-pro-BNP Anaemia Hyponatraemia Increased uric acid. Mechanical support with the insertion of an intra-aortic balloon pump (IABP) in patient with Cardiogenic shock • In case with hypotension and cardiogenic shock, what is the most appropriate intervention after failure of an inotropic support treatment? Intra-aortic balloon counter pulsation (IABCP) to support cardiac output. • An intra-aortic balloon pump is inserted under echocardiographic guidance. At which point of the ECG should balloon inflation be timed? Middle of the T wave  Balloon inflation is timed with diastole once closure of the aortic valve has occurred; this corresponds to the middle of the T wave. • What is the contraindication to placement of an intra-aortic balloon pump? For blood to be ejected antegrade to perfuse the tissues and retrograde to perfuse the coronaries, the aortic valve must be closed and competent. Aortic regurgitation is therefore a contraindication to placement of an intra-aortic balloon pump. Hypertrophic obstructive cardiomyopathy (HOCM) HOCM is the most common cause of sudden cardiac death in the young • (HOCM) is an autosomal dominant disorder of muscle tissue caused by defects in the genes encoding contractile proteins. • The most common defects involve a mutation in the gene encoding β-myosin heavy chain protein or myosin binding protein C. • Mutations to various proteins including beta-myosin, alpha-tropomyosin and troponin T have been identified. • type of mutation Frame-shift mutation • The estimated prevalence is 1 in 500. • Septal hypertrophy causes left ventricular outflow obstruction. • It is an important cause of sudden death in apparently healthy individuals. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features Symptoms and signs are similar to those of aortic stenosis, except that the character of the pulse in HOCM is jerky • often asymptomatic • dyspnea (the most common presenting symptom) • angina, • syncope • sudden death (most commonly due to ventricular arrhythmias), arrhythmias, heart failure • jerky pulse, • large 'a' waves, • double apex beat • ejection systolic murmur: increases with Valsalva manoeuvre and decreases on squatting Diastolic decrescendo murmur of aortic regurgitation (10% of patients) Associations • Friedreich's ataxia • Wolff-Parkinson White Echo - mnemonic - MR SAM ASH • mitral regurgitation (MR) • systolic anterior motion (SAM) of the anterior mitral valve leaflet • asymmetric hypertrophy (ASH) ECG • left ventricular hypertrophy • progressive T wave inversion • deep Q waves • right or left axis deviation • PR prolongation • atrial fibrillation may occasionally be seen • Right bundle branch block the most ECG FINDING which support a diagnosis of HOCM RBBB is correlated with anterior, anteroseptal and mid-septal myocardial fibrosis in HOCM. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology ECG showing typical changes of HOCM including LVH and T wave inversion Dagger-like Q waves Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad This ECG shows the typical pattern of apical HCM: • Large precordial voltages. • Giant T wave inversions in the precordial leads • Inverted T waves are also seen in the inferior and lateral leads. Type of cardiomyopathy Selected points Hypertrophic obstructive cardiomyopathy • Leading cause of sudden cardiac death in young athletes • Usually due to a mutation in the gene encoding β-myosin heavy chain protein • Common cause of sudden death • Echo findings include:  MR, systolic anterior motion (SAM) of the anterior mitral valve asymmetric septal hypertrophy Arrhythmogenic right ventricular dysplasia • Right ventricular myocardium is replaced by fatty and fibrofatty tissue • Around 50% of patients have a mutation of one of the several genes which encode components of desmosome • ECG abnormalities in V1-3, typically T wave inversion. An epsilon wave is found in about 50% of those with ARV - this is best described as a terminal notch in the QRS complex Management • Amiodarone • Beta-blockers or verapamil for symptoms • Cardioverter defibrillator • Dual chamber pacemaker • Endocarditis prophylaxis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Beta-blockers • Generally first-line agents increase diastolic filling and decrease contractility Reduces provocable gradient disopyramide • If ß-blockers alone are ineffective, disopyramide, may be added (Class IA antiarrhythmic drug) • anticholinergic side-effects include dryeyes and mouth, urinary hesitancy or retention, and constipation. • QTc interval should be monitored during dose up-titration and the dose reduced if it exceeds 480 ms. • Disopyramide should be avoided in patients with glaucoma, prostatism, and in patients taking other drugs that prolong the QT interval, such as amiodarone and sotalol. Verapamil • Verapamil (starting dose 40 mg three times daily to maximum 480 mg daily) can be used when ß-blockers are contraindicated or ineffective, • close monitoring is required in patients with severe obstruction (≥100 mm Hg) or elevated pulmonary artery systolic pressures, as it can provoke pulmonary oedema. • Verapamil should however be avoided in HOCM patients with coexistent Wolff Parkinson White as it may precipitate VT or VF. Implantable cardioverter defibrillators (ICD) implantation prevention of sudden cardiac death • recommended in patients who have survived a cardiac arrest due to VT or VF or who have spontaneous sustained VT causing syncope or haemodynamic compromise Invasive treatment (myomectomy or alcohol septal ablation) (ESC Guidelines 2014) • Left ventricular outflow tract obstruction (LVOTO) is defined as a peak instantaneous Doppler LV outflow tract gradient of ≥30 mm Hg, but the threshold for invasive treatment is usually considered to be ≥50 mm Hg. • Septal reduction therapy is recommended in patients with LVOT gradient of ≥ 50 mm Hg, who are in NYHA functional Class III–IV, despite maximum tolerated medical therapy. • The most commonly performed surgical procedure used to treat LVOTO is ventricular septal myectomy (Morrow procedure). • Pre-operative determinants of a good long-term outcome are age < 50 years, left atrial size < 46 mm, absence of atrial fibrillation and male gender. • surgery VS septal alcohol ablation (SAA) both procedures improve functional status with a similar procedural mortality. Septal alcohol ablation is associated with a higher risk of AV block, requiring permanent pacemaker implantation and larger residual LV outflow tract gradients. In contrast to myectomy, most patients develop right-, rather than left bundle branch block after SAA. Drugs to avoid • nitrates • ACE-inhibitors • Inotropes : Digoxin Poor prognostic factors, which are predictive of sudden cardiac death Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • syncope • family history of sudden death • Maximum left ventricular wall thickness greater than 3 cm • young age at presentation • non-sustained ventricular tachycardia on 24 or 48-hour Holter monitoring • Abnormal blood pressure changes on exercise (Blood pressure drop during peak exercise on stress testing). Screening of HOCM • Current guidelines suggest that a resting ECG and TTE (transthoracic ECHO) are the most effective screening strategies for relatives of patients with HOCM. • Genetic testing is not recommended as a first line screening tool given varying rates of penetrance. Dilated cardiomyopathy (DCM) Overview • Most common cardiomyopathy • Sex: ♂ > ♀ (approx. 3:1) • dilated heart leading to systolic (+/- diastolic) dysfunction • all 4 chambers affected but LV more so than RV Features • arrhythmias, • emboli cardio-embolic stroke, • mitral regurgitation • absence of congenital, valvular or ischaemic heart disease Causes • Common causes Idiopathic (approx. 50%) alcohol: may improve with thiamine postpartum hypertension • Other causes genetic inherited dilated cardiomyopathy:  around third of DCM patients  the majority of defects are inherited in an autosomal dominant fashion although other patterns of inheritance are seen infections e.g. Coxsackie B, HIV, diphtheria, parasitic endocrine e.g. Hyperthyroidism neuromuscular e.g. Duchenne muscular dystrophy nutritional e.g. Kwashiorkor, pellagra, thiamine/selenium deficiency  Selenium deficiency is one of the reversible causes of dilated cardiomyopathy. drugs e.g. Doxorubicin Infiltrative (may also lead to restrictive cardiomyopathy) e.g. Haemochromatosis, Sarcoidosis Diagnosis Echocardiogram • The echo may show: Reduced left ventricular ejection fraction, myocardial dyssynchrony (myocardial segments contract at different points in time), thinning of the left ventricular wall dilated left ventricle. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Type of cardiomyopathy Selected causes/points Dilated cardiomyopathy Classic causes include • alcohol • Coxsackie B virus • wet beri beri • doxorubicin Restrictive cardiomyopathy Classic causes include • amyloidosis • post-radiotherapy • Loeffler's endocarditis Becker’s muscular dystrophy • X-linked recessive disorder resulting from a mutation in the dystrophin gene. • The clinical picture is similar to that of Duchenne’s muscular dystrophy but it is much milder. • Patients usually present between the ages of 5 and 15 years, though presentation may not be until the fourth or fifth decade. • Patients may present with heart failure secondary to dilated cardiomyopathy rather than the classic proximal muscle weakness. Restrictive cardiomyopathy Causes • amyloidosis (e.g. secondary to myeloma) - most common cause in UK Cardiac involvement is the most common cause of death in patients with amyloidosis associated with an immunocyte dyscrasia - typically as restrictive cardiomyopathy Transthyretin gene mutations can lead to restrictive cardiomyopathy from amyloid deposition in the heart. Diagnosis is confirmed by myocardial biopsy, which shows amyloid infiltration when stained with Congo Red.  myocardial biopsy, which when stained with Congo Red will show "apple green birefringence" amyloid under polarized light. • haemochromatosis • Loffler's syndrome • sarcoidosis • scleroderma • Radiotherapy • Systemic sclerosis • Carcinoid syndrome. Pathophysiology: • Proliferation of connective tissue →↓ elasticity of myocardium →↓ ventricular compliance →↓ diastolic filling → atrial congestion → atrial enlargement and severe diastolic dysfunction Features • Physical examination reveals right heart failure with a raised JVP, characteristically showing a prominent deep Y descent • Heart size is often normal. • S 4 heart sound , due to ventricular noncompliance. • Pericardial effusion is common, but rarely causes tamponade • The most characteristic ECG finding of restrictive cardiomyopathy is diffusely diminished voltages • Echocardiography findings small thick ventricles and a thick interatrial septum due to amyloid deposits, which have a 'granular sparkling' appearance  Amyloid deposits in the heart produce generalized thickening of the myocardium (as opposed to asymmetrical septal hypertrophy commonly seen in hypertrophic cardiomyopathy) and diastolic dysfunction. impaired relaxation in the diastolic phase. bright speckled appearance. Differential diagnosis • constrictive pericarditis Features are very similar in constrictive pericarditis, but in constrictive pericarditis:  the apex is frequently non-palpable due to the thick pericardium  chest X-ray may show pericardial calcifications Features suggesting restrictive cardiomyopathy rather than constrictive pericarditis • prominent apical pulse • absence of pericardial calcification on CXR • heart may be enlarged • ECG abnormalities e.g. bundle branch block, Q waves Clinical Features of Constrictive Pericarditis and Restrictive Cardiomyopathy Clinical Features Constrictive Pericarditis Restrictive Cardiomyopathy History Prior history of pericarditis or condition that causes pericardial disease Systemic examination Heart sounds Pericardial knock, high-frequency sound Presence of loud diastolic filling sound S3, Low-frequency sound Murmurs No murmurs Murmurs of mitral and tricuspid insufficiency apical pulse apex is frequently non-palpable due to the thick pericardium Prior chest radiograph Pericardial calcification Normal results of prior chest radiograph Management • Cardiac transplant Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad History of systemic disease (eg, amyloidosis, hemochromatosis) prominent apical pulse Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Peripartum cardiomyopathy (PCM) • biventricular heart failure during the third trimester. • the aetiology: unknown, although both myocarditis and low levels of dietary selenium have been postulated as causes. Management • similar to the management of heart failure in any other situation with vasodilators, diuretics and beta blockade. ACE inhibition is reserved for the post-partum period. sodium restriction, diuretics to optimise the volume status, digoxin and afterload-reducing agents. Hydralazine • For patients presenting with PCM, defined as left ventricular systolic dysfunction 1 month prior to delivery or 5 months postpartum, volume status should first be managed with diuretics after liaison with obstetricians. Beta-blockers should be added once the patient's volume status is optimised. • Anticoagulation Patients with PCM are at risk of thromboembolism due to both hypercoagulable state of pregnancy and stasis of blood in the left ventricle. Therefore, anticoagulation with heparin is recommended. Type of cardiomyopathy Selected points Peripartum cardiomyopathy • Typical develops between last month of pregnancy and 5 months postpartum • More common in older women, greater parity and multiple gestations Takotsubo cardiomyopathy • 'Stress'-induced cardiomyopathy e.g. patient just found out family member dies then develops chest pain and features of heart failure • Transient, apical ballooning of the myocardium • Treatment is supportive Takotsubo cardiomyopathy Definition: • Takotsubo cardiomyopathy is a type of non-ischaemic cardiomyopathy associated with a transient, apical ballooning of the myocardium. • acute, stress-induced, reversible dysfunction of the left ventricle Epidemiology: • especially postmenopausal women > 60 years Pathophysiology: • emotional/physical stress → massive catecholamine discharge → cardiotoxicity, multivessel spasms and dysfunction → myocardial stunning Features • chest pain • features of heart failure • ST elevation • normal coronary angiogram Treatment • supportive Prognosis: • spontaneous recovery if stressors are avoided Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Congenital heart disease: types Congenital heart disease • cyanotic: TGA most common at birth, Fallot's most common overall • acyanotic: VSD most common cause Acyanotic - most common causes • ventricular septal defects (VSD) - most common, accounts for 30% • atrial septal defect (ASD) 10%. • patent ductus arteriosus (PDA) • coarctation of the aorta • aortic valve stenosis VSDs are more common than ASDs. However, in adult patients ASDs are the more common new diagnosis as they generally presents later Cyanotic - most common causes • tetralogy of Fallot There is a single sound in Fallot's because of an absent P2. A Blalock shunt (anastomosis of subclavian artery to pulmonary artery) used to be performed for Fallot's tetralogy and leads to a weak left radial pulse. • transposition of the great arteries (TGA) Fallot's is more common than TGA. However, at birth TGA is the more common lesion as patients with Fallot's generally presenting at around 1-2 months TGA is usually treated by prostaglandins in order to keep the ductus arteriosus patent (from pulmonary artery to the descending aorta ), so some oxygenated blood can reach systemic circulation. • tricuspid atresia • pulmonary valve stenosis • Total anomalous pulmonary venous connection (TAPVC) TAPVC consists of an abnormality of blood flow in which all four pulmonary veins drain into systemic veins or the right atrium with or without pulmonary venous obstruction. Systemic and pulmonary venous blood mix in the right atrium. Other notes • Aortic regurgitation may be a feature of osteogenesis imperfecta. • Ebstein's anomaly is associated with maternal LiCO3 use if exposed in the first trimester. • The majority of cases of neonates with complete heart block may be caused by autoimmune disease, particularly anti-ro antibodies in the mother. • Left ventricle (LV) hypolasia occurs when the left sided chambers fail to develop and blood enters the systemic circulation from the right ventricle via the pulmonary artery and a patent ductus arteriosus. 039 - Chapter 5 039 Chapter 5 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Tetralogy of Fallot (TOF) • TOF is the most common cause of cyanotic congenital heart disease*. *however, at birth transposition of the great arteries is the more common lesion as patients with TOF generally present at around 1-2 months • It typically presents at around 1-2 months, although may not be picked up until the baby is 6 months old • TOF is a result of anterior malalignment of the aorticopulmonary septum. The four characteristic features are: ventricular septal defect (VSD) right ventricular hypertrophy right ventricular outflow tract obstruction, pulmonary stenosis  There is a single sound in Fallot's because of an absent P2. overriding aorta • The severity of the right ventricular outflow tract obstruction determines the degree of cyanosis and clinical severity Other features • cyanosis • causes a right-to-left shunt • ejection systolic murmur due to pulmonary stenosis (the VSD doesn't usually cause a murmur) • a right-sided aortic arch is seen in 25% of patients • chest x-ray shows a 'boot-shaped' heart, ECG shows right ventricular hypertrophy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • surgical repair is often undertaken in two parts • cyanotic episodes may be helped by beta-blockers to reduce infundibular spasm The most common residual lesion in repaired tetralogy of Fallot is pulmonary regurgitation. Ventricular septal defects (VSD) Overview • The second most common congenital heart defect bicuspid aortic valve is the most common congenital heart defect • They close spontaneously in around 50% of cases. • the most common site for a VSD Perimembranous Perimembranous VSDs account for 70-80% of VSDs and are situated between the inlet and outlet portions of the septum. Associations • Congenital VSDs: associated with: chromosomal disorders (e.g. Down's syndrome, Edward's syndrome, Patau syndrome) • Non-congenital causes include: Fetal alcohol syndrome Intrauterine infection (e.g., TORCH)  post myocardial infarction Features • Pan-systolic murmur which is:  louder in smaller defects usually loudest at the left lower sternal edge (LSE) • Mid-diastolic murmur over cardiac apex Due to increased flow through the mitral valve • systolic thrill • Loud pulmonic S2 (if pulmonary hypertension develops) Investigations • Chest x-ray Enhanced pulmonary vascular markings Left atrial and ventricular enlargement • ECG The clue to diagnosis in the ECG finding Biventricular hypertrophy  Biventricular hypertrophy is classically described as having biphasic QRS complexes in V2–5 – which is known as the Katz Wachtel phenomenon and is classic for VSD. • Doppler echocardiography: confirms diagnosis Complications • Aortic regurgitation due to a poorly supported right coronary cusp resulting in cusp prolapse • Infective endocarditis • Eisenmenger's complex • Right heart failure • Pulmonary hypertension pregnancy is contraindicated in women with pulmonary hypertension as it carries a 30-50% risk of mortality. Treatment • small to moderate defects often heal spontaneously Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Symptomatic and large VSDs Surgical (patch) repair • Heart-lung transplant or lung transplant with concurrent VSD repair if Eisenmenger's reaction has occurred Atrial septal defect (ASD) • common congenital heart lesion VSD is more common Types • Ostium secundum 70% of ASDs associated with Holt-Oram syndrome (tri-phalangeal thumbs) ECG: RBBB with RAD • Ostium primum present earlier than ostium secundum defects associated with abnormal AV valves the AV node is displaced posteriorly and inferiorly and atrial and/or AV nodal conduction is often delayed. ECG: RBBB with LAD, prolonged PR interval wide, fixed, split-second sound + right-axis deviation Ostium secundum wide, fixed, split-second sound + left-axis deviation Ostium primum Features • Symptoms asymptomatic in youth often discovered on routine school health exams mild fatigue frequent respiratory infections Larger ones may lead to signs of right ventricular failure, such as shortness of breath and a parasternal heave. • Physical exam Mid-systolic ejection murmur (over the left second ICS )  Due to Relative pulmonary stenosis due to an increase in stroke volume Soft mid-diastolic murmur (over the lower left sternal border)  arises from increased flow across the tricuspid valve. loud S1 wide fixed-split S2  The most frequently tested knowledge  splitting is fixed (does not vary with respiration) heaving cardiac impulse (LLSB) • Other features The grossly elevated DLco is secondary to the left-right shunt and increased pulmonary blood flow. In contrast, chronic pulmonary emboli will cause a low DLco. Predisposes patient to CHF  2nd/3rd decades of life Eisenmenger's syndrome  pulmonary hypertension  right ventricular hypertrophy  reversal to a right-to-left shunt stroke  due to paroxysmal embolus Associated condition Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Tricuspid atresia is the congenital cardiac disorder most commonly associated with an atrial septal defect. • Down syndrome • Fetal alchohol syndrome • Holt-Oram syndrome Autosomal dominant disorder, which is also called hand-heart syndrome because affected children present with an ASD, a first degree heart block, and abnormalities of the upper limbs (e.g., absent radial bones). It affects approx. 1 in 100,000 children. ECG • Right bundle branch block • ostium primum ASD left axis deviation. • ostium secundum ASD right axis deviation. • first degree heart block prolongation of the PR interval due to delayed conduction through the atria or through the AV node • The QRS pattern typically is either an rSr' or an rsR' resulting from dilation and hypertrophy of the right ventricular outflow tract caused by volume overload of the right heart. prominent left precordium in a young patient with an ejection murmur in the second left intercostal space indicat ASD with pulmonary hypertension A prominent left precordium suggests that:  the right ventricle was dilated during childhood  RV working against a high pressure Patent ductus arteriosus Overview • acyanotic congenital heart defect • connection between the pulmonary trunk and descending aorta • more common in premature babies, born at high altitude or maternal rubella infection in the first trimester Features • left subclavicular thrill • continuous 'machinery' murmur at the left upper sternal edge with late systolic accentuation • large volume, bounding, collapsing pulse • wide pulse pressure • heaving apex beat Management • indomethacin closes the connection in the majority of cases • if associated with another congenital heart defect amenable to surgery then prostaglandin E1 is useful to keep the duct open until after surgical repair Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Patent foramen ovale (PFO) • PFO is present in around 20% of the population. • It may allow embolus (e.g. from DVT) to pass from right side of the heart to the left side leading to a stroke - 'a paradoxical embolus' • There also appears to be an association between migraine and PFO. Some studies have reported improvement in migraine symptoms following closure of the PFO • right heart catheter: left to right shunting of oxygenated blood at level of the atrium. oxygen saturation data show a step-up in the saturations between the vena cava and the right atrium. Paradoxical embolisation • For a right-sided thrombus (e.g. DVT) to cause a left-sided embolism (e.g. stroke) it must obviously pass from the right-to-left side of the heart. • The following cardiac lesions may cause such events patent foramen ovale - present in around 20% of the population atrial septal defect - a much less common cause Blue toe syndrome • 80% of digital ischaemias have an emboli originating from the heart and so an urgent echocardiogram is crucial to prevent further and more severe events occurring. • sudden onset of a cold, painful, and cyanotic big toe. the next steps Therapeutic heparin and urgent echocardiogram Eisenmenger's syndrome Definition • Eisenmenger's syndrome describes the reversal of a left-to-right shunt in a congenital heart defect due to pulmonary hypertension. • This occurs when an uncorrected left-to-right leads to remodeling of the pulmonary microvasculature, eventually causing obstruction to pulmonary blood and pulmonary hypertension. Associated with • ventricular septal defect Although patients with tetralogy of Fallot have, by definition, a ventricular septal defect they do not go on to develop Eisenmenger's syndrome • atrial septal defect • patent ductus arteriosus Features • original murmur may disappear • cyanosis • clubbing • right ventricular failure • polycythemia • haemoptysis, embolism Management • heart-lung transplantation is required Eisenmenger's syndrome - the reversal of a left-to-right shunt Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ebstein's anomaly Definition • Ebstein's anomaly is a congenital heart defect characterised by low insertion of the tricuspid valve resulting in a large atrium and small ventricle. It is sometimes referred to as 'atrialisation' of the right ventricle. Causes • Ebstein's anomaly may be caused by exposure to lithium in-utero Features • hypoplastic (atrialised) RV, • apical displacement of the septal and posterior tricuspid valve leaflets, • ASD, • Right bundle branch block pattern on ECG. Associations • tricuspid incompetence (pan-systolic murmur, giant V waves in JVP) • Wolff-Parkinson White syndrome occurs in around 15% of the patients. The presence of delta waves and short PR interval is indicative of WPW. When correlated with past surgical history (repair of atrial septal defect and tricuspid valve abnormalities as a child), Ebstein’s anomaly is the most likely diagnosis. Cardiac manifestations of genetic disorders Peripheral vascular disease • is a marker for increased risk of cardiovascular events even when it is asymptomatic. • the femoropopliteal artery, the most common site of peripheral arterial disease. paresthesia, intermittent claudication in calf and foot and palpable femoral pulses but absent pedal pulses Risk factors • age about 20% of people aged over 60 years have some degree of peripheral arterial disease. • male gender • Smoking • Diabetes • hypertension • coronary artery disease. Feature • intermittent claudication (leg pain while walking) (The most common initial symptom). • Critical limb ischaemia : ischaemic pain, ulceration, tissue loss and/or gangrene. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Investigations • measuring the ankle brachial pressure index Calculate the index in each leg by dividing the highest ankle pressure by the highest arm pressure. • Imaging before considering revascularization duplex ultrasound ( first-line imaging ) contrast-enhanced magnetic resonance angiography (after duplex ultrasound)  computed tomography angiography ( if contrast-enhanced magnetic resonance angiography is contraindicated or not tolerated.) Treatment Mild symptoms: • exercise programme 2 hours of supervised exercise a week for a 3‑ month period encouraging people to exercise to the point of maximal pain. • management of cardiovascular risk factors (for example, with aspirin or statins) • vasoactive drug treatment (for example, with naftidrofuryl oxalate). • Which drug might help improve pain-free walking distance? Naftidrofuryl Indicated only when exercise has not led to satisfactory improvement and the person refuse angioplasty or bypass surgery. discontinue naftidrofuryl oxalate if there has been no symptomatic benefit after 3–6 months. • Vasoactive drugs have limited benefit in treating intermittent claudication. • There is modest evidence for the use of drugs such as naftidrofuryl and pentoxifylline, but little benefit from cinnarizine or inositol nicotinate. • Simvastatin may be prescribed for patients with peripheral vascular disease who have elevated cholesterol levels, but there is no data on improvements in walking distance. severe symptoms: • endovascular treatment (such as angioplasty or stenting), bypass surgery, pain management and/or amputation. Differential diagnosis of foot ulcers Venous ulcers Arterial ulcer Diabetic ulcer Neuropathic ulcer Location  Gaiter region (above the ankle)  Plantar pressure points of the foot (over the head of the metatarsal bones or the heel) Mechanism  Chronic local venous hypertension → tissue ischemia Wound features  Irregular borders  Exudative  Superficial  Hyperkeratotic borders  Deep Pain  Mild  Severe  Absent Additional features  Varicose veins  Oedema  Stasis dermatitis • Treatment of venous ulceration: control of oedema, treating any infection, and compression. Compressive dressings or devices should not be applied if the arterial circulation is impaired, and ankle-brachial pressure index is needed before application of compression Rheumatic fever Definition • an autoimmune process following infection with group A streptococci. Overview • Type II hypersensitivity is seen in rheumatic fever. • Myocarditis is the most common cause of death during the acute phase of rheumatic fever. Diagnosis: based on: • Evidence of recent streptococcal infection accompanied by: 2 major criteria 1 major with 2 minor criteria • Evidence of recent streptococcal infection ASOT > 200iu/mL history of scarlet fever positive throat swab increase in DNase B titre Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Pressure points of the foot and shin (e.g., lateral malleolus, tips of the toes)  Vessel occlusion → tissue ischemia  Diabetic microvasculopathy and neuropathy → impaired tissue sustenance  Punched-out appearance  No exudation  Pale, shiny, cold, hairless surrounding skin  Nail dystrophy  Absent pulses  Charcot joints  Absent ankle reflex  Impaired sensation (esp. vibration)  Claw toes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Jones Criteria • Major criteria erythema marginatum Sydenham's chorea polyarthritis carditis (endo-, myo- or peri-) subcutaneous nodules  Pea-sized, firm and non-tender.  characteristically seen on the extensor surfaces of joints such as knees and elbows and also over the spine. • Minor criteria raised ESR or CRP pyrexia arthralgia (not if arthritis a major criteria) prolonged PR interval Histology • Aschoff bodies are foci of chronic inflammation seen histologically in the myocarditis of acute rheumatic fever. Anitschkow cells are reactive histiocytes with wavy, slender, caterpillar-like nuclei seen in Aschoff bodies of acute rheumatic fever. Erythema marginatum is seen in around 10% of children with rheumatic fever. It is rare in adults Rheumatic fever major criteria: J♥NES • Joints - polyarthritis; • ♥- carditis; • Nodules (subcutaneous); • Erythema marginatum; • Sydenham's chorea. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Infective endocarditis (IE) The most common cause of endocarditis: • Staphylococcus aureus is now the most common cause of infective endocarditis • Staphylococcus epidermidis if < 2 months post valve surgery. Definition • an infection of the endocardium, the inner layer of the heart and valves. Pathophysiology • Damaged valvular endothelium → adherence of platelets and fibrin → sterile vegetation (microthrombus) → bacteremia → bacterial colonization of vegetation →valve destruction with loss of function Risk factors • previous episode of endocarditis: The strongest risk factor for developing infective endocarditis. • previously normal valves (50%, typically acute presentation) • rheumatic valve disease (30%) • prosthetic valves • congenital heart defects • intravenous drug users (IVDUs, e.g. Typically causing tricuspid lesion) • hemodialysis • Hypertrophic cardiomyopathy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Types Acute Endocarditis Subacute Endocarditis Larger vegetations Smaller vegetations Attacks previously normal valves Attacks damaged or abnormal valves Destructive; 50% mortality rate despite treatment Less destructive; most patients recover with treatment High-virulence organisms, especially S aureus Low-virulence organisms, especially the viridans streptococci S mutans and S sanguinis The likelihood of infection • The higher the valvular pressure, the greater the likelihood of infection. Thus, mitral > aortic > tricuspid > pulmonary. The exception to this rule is IV-related infective endocarditis; in this case, the tricuspid valve is the most commonly involved because it is the first valve encountered after venous injection. • If the valve is already abnormal, then the likelihood of infection is greater and will be most likely on the aortic valve (High-pressure systems create more blood turbulence and permit inoculation of the valve). • Diseases that affect the mitral valve, such as mitral valve prolapse and mitral regurgitation, are the most common valvular diseases. So the mitral valve is the valve most frequently affected by endocarditis. The exception is IV drug use. In these patients, the tricuspid valve is the most frequently involved valve Causes Streptococcus bovis endocarditis is associated with colorectal cancer • Staphylococcus aureus (coagulase positive) : the most common causative organism of IE (especially acute presentation, IVDUs). Staphylococcus aureus endocarditis is an aggressive disease frequently associated with valve destruction and abscess formation. • Staphylococcus epidermidis (coagulase negative) most commonly associated with prosthetic valves < 2 months post operative. • Streptococcus viridans: commonly causing subacute bacterial endocarditis. The two most notable viridans streptococci are Streptococcus mitis and Streptococcus sanguinis. They are both commonly found in the mouth and in particular dental plaque so endocarditis caused by these organisms is linked with poor dental hygiene or following a dental procedure • Streptococcus gallolyticus (formerly Streptococcus bovis) is associated with colorectal cancer colonoscopy should be done. • Bacteroides is the most likely organism following bowel resection, though S. bovis is also seen. Management is metronidazole. • Candida endocarditis: Risk factors: Intravenous drug abuse, immunodeficiency states and indwelling catheters. The aortic valve is the most common valve to be involved. Treatment with Valve replacement followed by amphotericin B for 6 weeks. • Non-infective (sterile vegetations) systemic lupus erythematosus (Libman-Sacks), commonly result in mitral regurgitation. malignancy: marantic endocarditis • Culture negative causes prior antibiotic therapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Coxiella burnetiid (Q fever agent), typically associated with exposure to animals (sheep and cattle). Bartonella (from cats) Brucella Chlamydia psittaci (from birds). HACEK: (Haemophilus, Actinobacillus, Cardiobacterium, Eikenella, Kingella)  slow-growing, Gram negative bacteria  These are normal flora of the upper respiratory tract  constitute 5-10% cases of endocarditis;  they require prolonged incubation in enriched media and increased carbon dioxide tension.  The human bite injury and gram-negative culture make Eikenella corrodens the most likely causative organism.  third-generation cephalosporin (Ceftriaxone) is effective against enteric gram-negative rods, including HACEK organisms Associations Most common cause Generally Staphylococcus aureus prosthetic valves < 2 months post operative Staphylococcus epidermidis IV drug use Staphylococcus aureus Recent dental procedure Streptococcus viridans : (Streptococcus mitis and Streptococcus sanguinis). Colorectal cancer Streptococcus gallolyticus (formerly Streptococcus bovis) Diagnosis Infective endocarditis: Modified Duke criteria • Infective endocarditis diagnosed if pathological criteria positive, or 2 major criteria, or 1 major and 3 minor criteria, or 5 minor criteria • Pathological criteria Positive histology or microbiology of pathological material obtained at autopsy or cardiac surgery (valve tissue, vegetations, embolic fragments or intracardiac abscess content) • Major criteria Positive blood cultures  two positive blood cultures showing typical organisms consistent with infective endocarditis, such as Streptococcus viridans and the HACEK group, or  persistent bacteraemia from two blood cultures taken > 12 hours apart or three or more positive blood cultures where the pathogen is less specific such as Staph aureus and Staph epidermidis, or  positive serology for Coxiella burnetii, Bartonella species or Chlamydia psittaci, or  positive molecular assays for specific gene targets Evidence of endocardial involvement  positive echocardiogram (oscillating structures, abscess formation, new valvular regurgitation or dehiscence of prosthetic valves). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • Minor criteria predisposing heart condition or intravenous drug use microbiological evidence does not meet major criteria fever > 38 C vascular phenomena: major emboli, splenomegaly, clubbing, splinter haemorrhages, Janeway lesions, petechiae or purpura immunological phenomena: glomerulonephritis, Osler's nodes, Roth spots Classical symptoms of infective endocarditis can be remembered using the mnemonic FROM JANE: fever, Roth spots, Osler nodes, murmur, Janeway lesions, anaemia, nail-bed haemorrhage, emboli. Ow for Owsler nodes: Osler nodes and Janeway lesions are similar in appearance, yet Osler nodes are painful and Janeway lesions are painless. Peripheral signs associated with infective endocarditis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Investigation • Transthoracic echocardiography (TTE) is the initial test of choice for all patients with suspected IE. • How should the blood samples be drawn to maximise the chances of obtaining positive cultures? Draw three samples of blood from different venepuncture sites with the first separated from the last by at least one hour over 24 hours Aortic valve endocarditis can cause aortic root abscess which can cause damage to the AV node resulting in prolongation of the PR interval on ECG. Management Current antibiotic guidelines (source: British National Formulary) Scenario Suggested antibiotic therapy Initial blind therapy • Native valve: Not allergic to penicillin , no MRSA , not sever sepsis:  Amoxicillin + gentamicin Allergic to penicillin , MRSA , or sever sepsis:  vancomycin + gentamicin • prosthetic valve: vancomycin + rifampicin + gentamicin Staphylococci endocarditis • Native valve: Not allergic to penicillin , no MRSA , not sever sepsis:  Flucloxacillin Allergic to penicillin , MRSA , or sever sepsis:  vancomycin + rifampicin • Prosthetic valve: Not allergic to penicillin , no MRSA , not sever sepsis:  Flucloxacillin + rifampicin + gentamicin Allergic to penicillin , MRSA , or sever sepsis:  vancomycin + rifampicin + gentamicin Streptococci endocarditis • Native valve and Prosthetic valve : not allergic to penicillin  Benzylpenicillin ± gentamicin Allergic to penicillin:  vancomycin + gentamicin IV amoxicillin is the empirical treatment of choice in native valve endocarditis The most useful laboratory test used to monitor the treatment of infective endocarditis is serial C reactive protein estimation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology • length of treatment: 6 weeks of intravenous therapy is generally accepted as the length of treatment needed. Indications for surgery • organisms that are difficult to eradicate by medical therapy as such fungi, brucella, coxiella, pseudomonas aeruginosa, vancomycin-resistant enterococci • persistent bacteraemia despite appropriate antibiotic therapy • extension of infection to a extravalvular site • early prosthetic valve endocarditis (within 2 months) • dehiscence or obstruction of a prosthetic valve. • large (more than 10 mm) vegetations Prophylaxis • NICE recommends the following procedures do not require prophylaxis: dental procedures upper and lower gastrointestinal tract procedures genitourinary tract; this includes urological, gynaecological and obstetric procedures and childbirth upper and lower respiratory tract; this includes ear, nose and throat procedures and bronchoscopy • Prophylaxis is only recommended in those patients who are at highest risk of adverse outcomes on the development of endocarditis. These patient groups include: Prosthetic cardiac valve or prosthetic material used for cardiac valve repair Previous endocarditis Unrepaired cyanotic congenital heart disease including palliative shunts and conduits Completely repaired congenital heart defect with prosthetic material or device, whether placed by surgery or by catheter intervention, during the first six months after the procedure Repaired congenital heart disease with residual defects (persisting leaks or abnormal flow) at the site or adjacent to the site of a prosthetic patch or prosthetic device (which inhibit endothelialisation) Cardiac transplantation recipients who develop cardiac valve abnormalities. Prognosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Poor prognostic factors • Staph aureus infection ( Acute endocarditis) (Streptococcus viridans Subacute bacterial endocarditis has a better prognosis.) • Prosthetic valve (especially 'early', acquired during surgery) • Culture negative endocarditis • Low complement levels • Infection of the aortic rather than mitral valve • Associated rhythm disturbance. • Heart failure: the most common cause of death from infective endocarditis • Intravenous drug abuse (often left and right sided disease) • Old age • Insulin dependent diabetes mellitus • Severe co-morbidities. Mortality according to organism • Staphylococci - 30% • Bowel organisms - 15% • Streptococci - 5% Myocarditis The short prodromal illness coupled with the development of biventricular heart failure, tachycardia, T-wave inversion and elevated troponin is most consistent with viral myocarditis. The features, including the mild flu-like illness, are consistent with Coxsackie B. Pathology • Lymphocytic infiltrate with focal necrosis of myocardial tissue Causes • In 50% of cases, no cause can be identified; hence, myocarditis is commonly idiopathic. • In patients with an identified cause: the most commonly implicated etiology is viral (similar to pericarditis), of which enteroviruses, notably Coxsackie B, are the most common. • Viral: The most common in adults:  Parvovirus B19  Human herpes virus 6 Other Viral Causes  Coxsackie B virus most common in children results in dilated cardiomyopathy.  Adenovirus, HIV, Hepatitis C, Influenza virus, Epstein-Barr virus • Bacteria: diphtheria, clostridia • Spirochaetes: Lyme disease (most commonly presents as heart block). • protozoa Chagas' disease,  caused by Trypanosoma cruzi, a common pathogen in South America  Chagas disease myocarditis results in dilated cardiomyopathy. Toxoplasmosis • Noninfectious Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology Autoimmune (e.g., systemic lupus erythematosus, sarcoidosis, dermatomyositis, polymyositis), Vasculitis (e.g., Kawasaki disease) Toxins (e.g., carbon monoxide poisoning, black widow venom), Cocaine. Medication (e.g., sulfonamides), chemotherapy (e.g., anthracycline, doxorubicin) Radiation therapy Presentation • usually young patient with a history of viral prodrome 2 to 3 weeks prior to the onset (fever, arthralgia, myalgia, upper respiratory tract infections) • typically present with symptoms of heart failure (dyspnea, orthopnea, and leg swelling). • chest pain, due to involvement of the pericardium. • Palpitations, typically sinus tachycardia. Investigations • Markedly raised troponin. • ↑ ESR (and CRP) • ECG: sinus tachycardia or ventricular arrhythmias nonspecific ST changes  diffuse ST elevation in those with pericardial involvement (perimyocarditis). • Echocardiography: global systolic dysfunction Differential diagnosis • Acute coronary syndrome differentiating factors: ECG changes (NSTEMI and STEMI) with increased troponins Treatment • Supportive, usually similar to heart failure. • NSAIDs should be avoided in the acute phase of acute myocarditis as it may impair healing. DVLA: cardiovascular disorders Group 1 car and motorcycle Group 2 bus and lorry Angina  Must not drive when symptoms occur at rest, with emotion or at the wheel.  Need not notify the DVLA. Acute coronary syndromes (ACS)  After successful coronary angioplasty: can drive after 1 week.  If no successful coronary angioplasty, drive after 4 weeks  Need not notify the DVLA Coronary artery bypass graft (CABG)  Can drive after 4 weeks  Need not notify the DVLA Arrhythmia  Can drive if arrhythmia is controlled for at least 4 weeks.  may need to notify the DVLA. Successful catheter ablation  May drive after 2 days  Need not notify the DVLA Pacemaker implant  Can drive after 1 week  Need not notify the DVLA CRT pacemaker  Can drive after 4 weeks  Must notify the DVLA  Can drive after 6 weeks  Must notify the DVLA Implantable cardioverter defibrillator (ICD)  Can drive 6 months  May need to notify the DVLA. Hypertension  May drive and need not notify the DVLA  Must not drive and must notify the DVLA if resting BP is consistently:180 mm Hg or higher systolic and/or 100 mm Hg or more diastolic. Heart failure  Asymptomatic: May drive and need not notify the DVLA.  Symptomatic: Must not drive but need not notify the DVLA.  Left ventricular assist device implanted: Can drive after 3 months. Need not notify the DVLA. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Must not drive and must notify the DVLA when symptoms occur.  Driving may be relicensed if no angina for at least 6 weeks.  Can drive after 6 weeks  Must notify the DVLA  Can drive after 3 months  Must notify the DVLA  Can drive if arrhythmia is controlled for at least 3 months  Must notify the DVLA  For arrhythmia causing incapacity: can drive after 6 weeks.  For arrhythmia NOT causing incapacity: can drive after 2 weeks.  Must notify the DVLA  Can drive after 6 weeks  Must notify the DVLA  Permanent bar  Must notify the DVLA  Asymptomatic: May drive and need not notify the DVLA.  Symptomatic: Must not drive and must notify the DVLA. Relicensing would require LV ejection fraction at least 40%  Left ventricular assist device implanted: Licence will be refused permanently. Must notify the DVLA. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 5 Cardiology ICD means: • cannot drive a group 1 vehicle for 6 months • Loss of a group 2 HGV license, regardless of the circumstances DVLA advice post MI: • if successfully treated by angioplasty cannot drive for 1 week • If does not undergo angioplasty cannot drive for 4 weeks DVLA: cardiovascular disorders Acute coronary syndrome • if successfully treated by angioplasty cannot drive for 1 week • If does not undergo angioplasty cannot drive for 4 weeks Coronary artery bypass graft (CABG) • Group 1 car: 4 weeks off driving • Group 2 bus and lorry: Must not drive and must notify the DVLA. pacemaker insertion:1 week off driving implantable cardioverter-defibrillator (ICD): • if implanted for sustained ventricular arrhythmia: cease driving for 6 months. • If implanted prophylactically then cease driving for 1 month. • for Group 2 drivers permanent bar Heart failure : LVEF of < 40% bars him from driving a lorry, even if he becomes asymptomatic with treatment successful catheter ablation for an arrhythmia: 2 days off driving Dextrocardia Definition • The heart is located on the right side of the chest. Epidemiology • No ethnic or gender-related predilection Associations • Situs inversus totalis (reversal in the position of other organs) • Kartagener syndrome: classic triad of situs inversus (reversal in the position of the abdominal organs), recurrent sinusitis, and bronchiectasis • When dextrocardia is associated with a normal position of other thoracoabdominal structures, it is called situs solitus. ECG Features • Right axis deviation • Negative P wave and QRS complex in lead I. • Upright p wave in AVL • Reverse R wave progression across the precordium; the R wave is tallest in V1 and progressively decreases in amplitude in leads V2 to V6. The diagnosis may be confirmed by obtaining right-sided chest leads that demonstrate the normal progression of R wave amplitude. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Characteristic changes of dextrocardia include a negative P wave and QRS complex in lead 1, since atrial and ventricular depolarization begin on the left and spread to the right. There is also reverse R wave progression across the precordium; the R wave is tallest in V1, and progressively decreases in amplitude in leads V2 to V6. Differential diagnosis • Cardiac dextroposition Dextrocardia also involves a change in the orientation of the heart with its base to the apex axis being directed to the right, in contrast to the normal heart orientation where the apex is directed to the left. This change in orientation differentiates it from cardiac dextroposition, where the heart is displaced to the right side as a result of extracardiac causes, such as a diaphragmatic hernia, right pneumonectomy, or right lung hypoplasia. Prognosis • Isolated dextrocardia is a benign condition often diagnosed incidentally. • Typically, patients have a normal life expectancy if no cardiac anomalies are present. Third edition Notes & Notes For MRCP part 1 & 11 By Dr. Yousif Abdallah Hamad Nephrology Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Renal anatomy The tables below show the anatomical relations of the kidneys: Right kidney Direct contact Layer of peritoneum in-between Right suprarenal gland Duodenum Colon Liver Distal part of small intestine Left kidney Direct contact Layer of peritoneum in-between Left suprarenal gland Pancreas Colon Stomach Spleen Distal part of small intestine Renal physiology Diagram showing the basic physiologic mechanisms of the kidney Renal blood flow (RBF) • Renal blood flow is 20-25% of cardiac output • The 'Fick principle' can be used to estimate RBF through clearance. • Sympathetic stimuli produce vasoconstriction and RBF should be increased in response to hypoxia. • Renal cortical blood flow > medullary blood flow (i.e. tubular cells more prone to ischaemia) • Glomerular filtration rate and renal blood flow increase by about 50% in pregnancy leading to decreased BUN and creatinine on laboratory examination. • What is the effect of decrease in hematocrit on renal function? Decreased Renal Blood Flow  the relationships between Renal Blood Flow (RBF), Renal Plasma Flow (RPF), Hematocrit (Hct), and Glomerular Filtration Rate (GFR): Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad RBF = RPF / (1 - Hct). Assuming that the GFR is stable, this equation suggests that a decrease in Hct would lead to an decrease in RBF. Renal tubular functions • Sodium, glucose, bicarbonate and amino acids are absorbed at the proximal tubule level • Sodium reabsorption is mostly through active transport in the loop of Henle with only a modest reabsorption facilitated by aldosterone. • Ammonia is secreted by the distal tubule • Regulation of water secretion is by the distal tubule and the collecting ducts under the influence of vasopressin increase permeability to water. • The relative hyperosmolality of the medulla is maintained by a counter-current mechanism and is responsible for the flux of water across the renal tubule • descending loop of Henle is permeable to water but impermeable to solutes, due to the presence of aquaporin 1 in its tubular wall water moves to medullary space hypertonic filtrate • ascending loop of Henle is impermeable to water (because of a lack of aquaporin, a common transporter protein for water channels in all cells except the walls of the ascending loop of Henle) but permeable to solutes, but here Na+, Cl−, and K+ are actively transported into the medullary space, making the filtrate hypotonic • What is the renal cellular mechanism that prevents a sodium load intake from drastically increasing plasma osmolality? Movement of aquaporin channels to the apical surface of collecting duct cells  An increase in sodium intake will cause an increase in plasma osmolality, triggering the release of antidiuretic hormone (ADH), a.k.a. vasopressin. The immediate effect of ADH (occurs over minutes) movement of aquaporin channels to the apical surface of collecting duct cells. the long-term effect of ADH (occurs over days) Increase in aquaporin gene expression by collecting duct cells. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Renal Physiology of Pregnancy • Kidneys size increase by 1 to 1.5 cm during pregnancy. • Kidney volume increases by up to 30%, primarily due to an increase in renal vascular and interstitial volume. • Glomerular filtration rate (GFR) and renal blood flow rise markedly during pregnancy, resulting in a physiologic fall in the serum creatinine concentration. A serum creatinine of 1.0 mg/dL in a pregnant woman probably reflects significant renal insufficiency. The glomerular filtration rate increases 50% with subsequent decrease in serum creatinine, urea, and uric acid values. • mechanisms contribute to decreased vascular resistance, increased renal plasma flow, and increased GFR during pregnancy: Reduced vascular responsiveness to vasopressors such as angiotensin 2, norepinephrine, and antidiuretic hormone. Additionally, the ovarian hormone and vasodilator relaxin is a key mediator of enhanced nitric oxide signaling in pregnancy. • The best method to estimate GFR in pregnancy is by 24-hour urine collection for creatinine clearance. Completeness of the collection should be confirmed by checking the 24-hour creatinine excretion (10 to 15 mg creatinine/day per kg body weight is consistent with a complete collection). Estimating equations, such as the Modification of Diet in Renal Disease Study (MDRD) and Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) equations, are not accurate in pregnancy. Physiologic ureteral dilatation (hydronephrosis and hydroureter) is common during pregnancy, and results from: 040 - Pages 976-1000 040 Pages 976-1000 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  hormonal effects,  external compression, and  intrinsic changes in the ureteral wall. Urinary frequency and nocturia are common, but usually require no specific treatment. Urinary incontinence also can occur during pregnancy. Other physiologic changes in pregnancy include:  respiratory alkalosis,  mild hyponatremia,  glucosuria, and  proteinuria up to 300 mg/day. Renin-angiotensin –aldosterone system Renin • Released by juxtaglomerular cells in kidney in response to ↓ renal perfusion, low sodium • Hydrolyses angiotensinogen to form angiotensin I • when decreased cardiac output occurs, stimulation of renin release is the primary event which leads to peripheral oedema • renin ↓in primary hyperaldosteronism due to negative feedback ( ↑ Aldosterone ↑ BP ↑renal perfusion ↓ renin) Which renal cells would respond first to this acute event of hypotension to increase blood pressure? Juxtaglomerular cells Factors stimulating renin secretion • ↓ BP → ↓ renal perfusion • Hyponatremia • renal artery stenosis • Sympathetic nerve stimulation • Catecholamines • Erect posture Factors reducing renin secretion • β-blockers • NSAIDS Chapter 6 Nephrology Angiotensin • ACE in lung converts angiotensin I → angiotensin II • Vasoconstriction leads to raised BP Aldosterone • Released by the zona glomerulosa (the outer layer of adrenal cortex) in response to raised angiotensin II, potassium, and ACTH levels • Act in distal tubule retention of Na+ in exchange for K+/H+ : ↑ resorption of Na+ ↓Na+ loss in urine ↑ resorption of water (osmotic effect due to ↑ Na+) ↑ excretion of K+ The counter-current concentrating mechanism in the kidney Urine is concentrated by a complex interaction between the loops of Henle, the medullary interstitium, vasa recta and the collecting tubules, collectively termed 'the counter-current mechanism': • Vasa recta possess fenestrated walls that facilitate the movement of diffusible substances (free movement of water and electrolytes across the walls of the vasa recta) • Fine-tuning of the salt and water balance is achieved in the distal and collecting tubules under the influence of aldosterone and antidiuretic hormone • The ascending limb of the loop of Henle is impermeable to water but permeable to sodium • All nephrons are involved in this process • The glomerular filtration rate ensures that the elimination of compounds such as urea from plasma can take place without losing large amounts of water as well Renal Investigations Urinalysis Significance of presence of casts in urine • Hyaline casts may be seen in normal urine, particularly after exercise • Coarse granular casts occur in glomerular and tubular disease • Tubular cell casts may be seen in patients with acute tubular necrosis • The presence of 10 or more white blood cells/mm3 infection • The presence of red-cell casts characteristic of glomerulonephritis Red cell casts: Present in: • Acute glomerulonephritis • Renal vasculitis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Stimulates thirst • Stimulates aldosterone and ADH • Accelerated hypertension • Interstitial nephritis. Oliguria • Oliguria is defined as <400 ml urine/day. • a urine output of <0.5mL/kg/h. comment Normal limits urinalysis or cubic millimeter (mm3) < 10 (WBCs) / leukocytes / (pus cells) "Significant pyuria " ≥10 leucocytes per microlitre (µl) characteristic of glomerular origin 0 - 3 dysmorphic RBCs Suggestive of in vivo hemolysis but must be distinguished from hematuria. In case of hemoglobinuria, a urine dipstick shows presence of blood, but no RBCs are seen on microscopic examination. hemoglobinuria a positive test suggests presence of bacteria in significant numbers (ie more than 10,000 per ml) , A negative result does not rule out a UTI nitrites Sterile pyuria Definition • Pyuria in the absence of bacteriuria Causes • adult polycystic kidney disease • Chemical cystitis (eg cyclophosphamide) • analgesic nephropathy • Acute glomerulonephritis • Tubulo-interstitial diseases Glycosuria in pregnancy • The most likely mechanism of glycosuria in pregnant womanReduced renal reabsorption • patients with persistent glycosuria should be investigated with a glucose tolerance test at around 24 weeks Ketonuria in pregnancy • Ketonuria may also be seen in normal pregnancy, as a result of the increased metabolic requirements Urine pH • The range is 4.5 to 8. urine is commonly acidic (ie 5.5-6.5) • Acidic urine (low pH) may be caused by: diet (eg, acidic fruits such as cranberries) uric acid calculi. • Urine pH generally reflects the blood pH but in renal tubular acidosis (RTA) this is not the case. In type 1 RTA (distal) the urine is acidic but the blood alkaline. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • partially treated UTI • urethritis and sexually transmitted diseases e.g. Chlamydia • renal tuberculosis • renal stones • foreign body eg: urinary catheter, • appendicitis • bladder/renal cell cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology In type 2 (proximal) the urine is initially alkaline but becomes more acidic as the disease progresses. • Alkaline urine (high pH) is seen in: the initial stages of type 2 RTA Infection with urease-splitting organisms, may be associated with the formation of stag-horn calculi. Diet, (vegetarians having more alkaline urine when compared with omnivores).  Animal proteins contained in meat, eggs and cheese are often converted into acidic products (for example, amino acids) during digestion, absorption or metabolism. This provides a daily increase in the body's acid content, which has to be excreted by the kidneys.  For people eating a vegetarian diet, consumption of foods rich in citrate or carbonated drinks raise the urine pH. • Other situations can interfere with this balance, such as tubular function or bacterial infection, which often promotes an alkaline urine pH due to the presence of bacterial enzymes converting urea to ammonia. • Effects of urine pH on stone formation: Acidic urineuric acid stones are more likely to form. Alkaline urine phosphate stones are more likely to form (calcium phosphate becomes less soluble at pH>6;). • Excretion of ammonium occurs when an acid urine is produced but the pH of urine is of course determined by the concentration of H+ ions. • Unable to lower the pH to less than 5.5 in type 1 RTA. • A pH of above 7.0 after prolonged and severe vomiting would be expected in an attempt to compensate for the loss of acid; however, when there is extracellular fluid depletion the retention of sodium takes priority. Instead of bicarbonate being excreted it is reabsorbed in the proximal and distal nephron and this perpetuates the metabolic alkalosis until the fluid balance is restored with intravenous (IV) fluids. Disproportionately raised creatinine compared with the urea level leads to suspicion of rhabdomyolysis. Additional clue is raised PO4 and K+ & renal failure. Disproportionately raised urea compared with creatinine level leads to suspicion of dehydration. Renal investigations • The most appropriate an urgent scan to exclude obstruction of the kidneys is Ultrasound renal tract • Retrograde urethro-graphy is the mainstay of investigation for urethral stricture disease • Renal scintigraphy with DMSA Involves administration of radioactive isotope (dimercaptosuccinic acid) which is taken up by the renal parenchyma. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad This identify regions of decreased uptake due to acute inflammation (such as pyelonephritis) or renal scarring. The technique of dimercaptosuccinic acid DMSA scan also allows detection of congenital renal disorder. A small kidney with uniform uptake of DMSA is likely to represent congenital hypodysplasia, whereas a focal area of reduced cortical uptake associated with loss of contours is more likely to represent an infection-related scar. Renal Biopsy • The hila of the kidneys lie at the L1 and L2 vertebral levels. • For a routine biopsy there is no preferable side to biopsy, but commonly it is the Lt Kidney. • Coagulation studies should always be performed prior to renal biopsy due to the risk of bleeding (e.g. in a case of alcohol excess, clotting studies may be deranged). Complications • Macroscopic haematuria can occur in up to 10% of renal biopsies. • Nephrectomy is a rare but serious complication of renal biopsy required to control bleeding. It should be consented for that. Contraindications • Absolute contraindications to renal biopsy include the following: Uncorrectable bleeding diathesis Uncontrollable severe hypertension Active renal or perirenal infection Skin infection at biopsy site • relative contraindications to renal biopsy: Uncooperative patient Anatomic abnormalities of the kidney which may increase risk Small kidneys Solitary kidney Haematuria • Haematuria is defined as >3 RBC/high power field (hpf) of centrifuged sediment under the microscope. • Non-visible (Microscopic) haematuria is found in around 2.5% of the population. Causes of transient or spurious non-visible haematuria • urinary tract infection • menstruation • vigorous exercise (this normally settles after around 3 days) • sexual intercourse Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Causes of persistent non-visible haematuria • cancer (bladder, renal, prostate) • stones • benign prostatic hyperplasia • prostatitis • urethritis e.g. Chlamydia • renal causes: IgA nephropathy, thin basement membrane disease Spurious causes - red/orange urine, where blood is not present on dipstick • foods: beetroot, rhubarb • drugs: rifampicin, doxorubicin what is the pathophysiology of Exercise-induced hematuria? Extracorpuscular mechanical trauma causing hemolysis  patients present after the event with rust-colored urine. Management • Current evidence does not support screening for haematuria. • The incidence of non-visible haematuria is similar in patients taking aspirin/warfarin to the general population hence these patients should also be investigated. Testing • urine dipstick is the test of choice for detecting haematuria • persistent non-visible haematuria is often defined as blood being present in 2 out of 3 samples tested 2-3 weeks apart • The incidence of non-visible haematuria is similar in patients taking aspirin/warfarin to the general population hence these patients should also be investigated as normal. • renal function, albumin: creatinine (ACR) or protein: creatinine ratio (PCR) and blood pressure should also be checked • urine microscopy may be used but time to analysis significantly affects the number of red blood cells detected • in an elderly presented with painless macroscopic haematuria. the most important thing to exclude after infection would be a bladder tumour initially before embarking upon a renal biopsy. Therefore cystoscopy is the best initial investigation. NICE urgent cancer referral guidelines (updated in 2015). • Urgent referral (i.e. within 2 weeks) Aged ≥45 years AND:  unexplained visible haematuria without UTI, or  visible haematuria that persists or recurs after successful treatment of UTI. Aged ≥60 years AND have unexplained nonvisible haematuria and either dysuria or a raised white cell count on a blood test. • Non-urgent referral Aged ≥60 years with recurrent or persistent unexplained UTI. • patients under the age of 40 years with normal renal function, no proteinuria and who are normotensive do not need to be referred and may be managed in primary care. May 2009 exam: A 62-year-old man with H/O hypertension & AF, on warfarin. A urine dipstick showed blood + with no protein or leucocytes. This result repeated twice. What is the most appropriate action? Cystoscopy (The incidence of non-visible haematuria is similar in patients taking warfarin to the general population therefore these patients should be investigated as normal) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acute interstitial nephritis (AIN) Definition • Acute interstitial nephritis is inflammation of the renal tubulo-interstitium, secondary to a hypersensitivity reaction to drugs. Epidemiology • accounts for 25% of drug-induced acute renal failure Pathophysiology • The onset of AIN occurs approximately 10-14 days after the initiation of the inciting agent and resolves with removal of the offending drug. • It is typically characterized by Eosinophilia and Eosinophiluria with elevated levels of IgE in the serum suggesting a type I hypersensitivity. • AIN may also be caused by type IV hypersensitivity with mononuclear interstitial infiltrate on renal biopsy. • Drug → Hypersensitivity reaction (type IV) within the kidney interstitium → acute kidney injury. Causes • Drugs: the most common cause NSAIDs, (The most common causative drug) Penicillin, rifampicin, cephalosporins, vancomycin, Co-trimoxazole, Sulphonamides Allopurinol Thiazides and furosemide Phenytoin Ranitidine, Cimetidine, Omeprazole • Infection: (eg, Mycoplasma) • Autoimmune diseases (eg, Sjögren syndrome, SLE, sarcoidosis). Features • Allergic reaction: triad of rash, fever, and eosinophilia (only in 10%) • Many patients are not oliguric despite moderately severe acute renal failure. Patients with non-oliguric acute renal failure should always be investigated for AIN • hypertension • Proteinuria is dominant Investigations • Eosinophilia is common • Urine: white cells, red cells, and white cell casts (Eosinophiluria) • Acute Kidney injury (AKI) : ↑ creatinine • Renal biopsy : for definite diagnosis → shows mononuclear cell infiltrate throughout the interstitium with associated oedema. Treatment • The majority of patients recover following withdrawal of the offending drug • High-dose prednisolone is indicated in some cases to hasten recovery. NSAID-induced AIN does not generally respond to glucocorticoid therapy. • Dialysis may be required in severe cases. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Prognosis • Good prognosis if it is managed early. Untreated AIN results in interstitial fibrosis. Drug induced acute interstitial nephritis (AIN) Remember these 7 P’S: Pee drugs (diuretics): Thiazides and furosemide Pain-free (NSAIDs) Penicillins and cephalosporins Proton pump inhibitors Phenytoin RifamPin SulPha drugs: Sulfasalazine, Sulfonylureas Acute interstitial nephritis (AIN) should be suspected in a patient who presents with an elevated serum creatinine and a urinalysis that shows white cells, white cell casts, and, in some cases, eosinophiluria. Contrast induced acute kidney injury (CI- AKI) Definition • a 25% increase in creatinine occurring within 3 days of the intravascular administration of contrast media. eg: iv contrast agent during angiography • A continued enhancement of the kidneys days after contrast injection suggests contrastinduced nephropathy. Features • ↑ serum creatinine within 24 to 48 hours after the iodinated contrast exposure (usually mild) Patients with oliguria and severe AKI (who may require renal replacement therapy) may be more likely to have an alternate etiology of AKI. • Most patients are nonoliguric. Oliguria may develop in patients with severe AKI and in patients with moderate to severe chronic kidney disease (CKD) at baseline. • Protein excretion is typically absent or mild (unless the patient had proteinuric CKD at baseline). • Urine: usually shows classic findings of acute tubular necrosis (ATN), including muddy brown granular and epithelial cell casts and free renal tubular epithelial cells Risk of acute kidney injury in adults having iodine-based contrast media • chronic kidney disease (adults with an eGFR less than 40 ml/min/1.73 m2 are at particular risk) • diabetes but only with chronic kidney disease (adults with an eGFR less than 40 ml/min/1.73 m2 are at particular risk) • heart failure • renal transplant • age 75 years or over • hypovolaemia • increasing volume of contrast agent • intra-arterial administration of contrast medium with first-pass renal exposure (when the contrast reaches the renal arteries in a relatively undiluted form, e.g., through injection into the left heart, thoracic and suprarenal abdominal aorta, or the renal arteries.). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Preventing acute kidney injury in adults having iodine-based contrast media • Adequate hydration is the most important step to prevent contrast media nephropathy → (iv 0.9% sodium chloride or isotonic sodium bicarbonate) • Temporarily stop ACE inhibitors and ARBs if eGFR ˂ 40 ml/min/1.73 m2 • Metformin is usually withheld for 48 hours after the use of contrast Criteria for renal replacement therapy in AKI • if any of the following are not responding to medical management: hyperkalaemia metabolic acidosis symptoms or complications of uraemia (for example, pericarditis or encephalopathy) fluid overload pulmonary oedema. Imaging for Dialysis-dependent patients • Dialysis-dependent patients who receive contrast for a CT scan may need haemodialysis to remove the contrast. • MR contrast tends not to be nephrotoxic and therefore haemodialysis is not usually necessary to remove MR contrast. • The magnetic resonance angiography with gadolinium is not recommended because it carries a risk of nephrogenic systemic fibrosis MRCP-part-1- exam- January 2014 exam: What is the most important step in reducing the risk of contrast-induced nephropathy? Intravenous 0.9% sodium chloride pre- and post-procedure Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Acute tubular necrosis vs. prerenal uraemia Pre-renal uraemia Acute tubular necrosis Pathology due to hypoperfusion due to circulatory compromise and/or nephrotoxins Urine sodium < 20 mmol/L 30 mmol/L Urine osmolality 500 <350 Fractional sodium excretion* < 1% 1% Fractional urea excretion** < 35% 35% Urine: plasma osmolality 1.5 < 1.1 Urine: plasma urea 10:1 < 8:1 urine/plasma creatinine 40 <20 Specific gravity 1020 < 1010 Urine 'bland' sediment A urine free of red blood cells or casts brown granular casts Response to fluid challenge Yes No • *fractional sodium excretion = (urine sodium/plasma sodium) / (urine creatinine/plasma creatinine) x • **fractional urea excretion = (urine urea /blood urea ) / (urine creatinine/plasma creatinine) x 100 • 80-90% Of the acute renal failure seen by physicians will fall into the category of prerenal failure or ATN. • Normal plasma osmolality = 278 – 305 mOsmol/Kg • Normal urinary osmolality = 350 – 1000 mOsmol/Kg September 2009 exam: Which test is most useful when determining whether there is prerenal uraemia or acute tubular necrosis? Urinary sodium Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acute tubular necrosis (ATN) Pathological mechanism • ATN usually arises following an acute ischaemic or nephrotoxic event in ischemic causes of ATN the thick ascending limb of the Loop of Henle is injured in nephrotoxic event the proximal convoluted tubule is affected. • the injured tubular cells fail to reabsorb sodium, tubular concentrating ability is lost, and urea clearance is low Causes of ATN include • Hypotension • Hypertension: Accelerated hypertension can cause small vessel obstruction with proliferative endarteritis of intralobular arteries and fibrinoid necrosis of afferent arterioles and glomerular capillary tuft. • Rhabdomyolysis • Hepatic failure: Renal failure from ATN occurs in 25% of patients with severe hepatic damage. • Eclampsia • Drugs such as : aminoglycosides,  Aminoglycoside undergoes glomerular filtration and then reabsorption in the proximal tubule where tubular cell injury/death occurs. cephalosporins,  cisplatin,  amphotericin. Heavy metal poisoning, carbon tetrachloride, Heroin addicts. Associated furosemide is likely to increase the plasma concentration of toxic drugs and leads to (ATN). Corticosteroid therapy has not been associated with ATN. Phases: (ATN) is characterised by 3 phases: Initiation phase, with acute decrease in GFR with sudden rise in serum creatinine ± oliguria Maintenance phase, with a sustained marked reduction in GFR and rising Cr (1-2 weeks) Recovery phase, in which tubular function is gradually restored and urine volume gradually rises, with concomitant decrease in Cr to pre-injury levels Features • Oliguria is common in the early stages of acute tubular necrosis (ATN) • ATN after aminoglycoside impairment in the concentrating ability, and most patients are non-oliguric • acute renal failure expected to begin more than five days after the initiation of gentamicin • Small amounts of 'tubular' proteinuria (<1 g/day) may be seen, but >3 g suggests a glomerular leak • Urinalysis often reveals brown granular casts, which are tubular epithelial cells. Precautions in management • After inappropriate attempts to initiate a diuresis by infusion of normal saline without adequate monitoring of the patient's volume status, pulmonary oedema due to salt and water retention is not uncommon • Aminoglycoside nephrotoxicity correlates withFrequency of aminoglycoside dosing Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology • Multiple human clinical trials (including meta-analysis) studies report less nephrotoxicity and equal efficacy when aminoglycosides are given once daily (supratherapeutic doses) rather than in conventional divided doses. Prognosis • Oliguria during the initial stages of ATN is followed by polyuria, and even after a relatively minor insult, recovery may take up to 6 weeks • Creatinine clearance would be expected to be normal in only 40% of cases one year after the initial insult. • The mortality rate associated with ATN may be up to 50%, but this is largely dependent on the precipitating illness • the chance of recovery of renal function to the level where dialysis is not required  95 % Complication • Sepsis, particularly Gram-negative septicaemia, is the most frequent complication and cause of death in acute renal tubular necrosis while awaiting spontaneous recovery of renal function Neither the use of prophylactic antibiotics nor barrier nursing has been shown to reduce infection risk in this situation. Papillary necrosis Causes • chronic analgesia use (concomitant diuretic use may exacerbate renal hypotension ) • sickle cell disease • TB • acute pyelonephritis • diabetes mellitus UTI are relatively more common in women with diabetes. Untreated infections in people with diabetes can result in renal papillary necrosis, Features • fever, loin pain, haematuria • IVU - papillary necrosis with renal scarring - 'cup & spill' Consequences of renal papillary necrosis • Ureteric obstruction may result if the papillae have sloughed off Management • Where there is obstruction, review by a urologist is advised as ureteric stent placement may be required • If there is no obstruction withdrawal of the offending agent + adequate hydration Acute Pyelonephritis Epidemiology • The two peaks of incidence in adults occur in young sexually active women and in men > 50 years of age Aetiology • Gram-negative bacilli such as Escherichia coli or Klebsiella species are responsible in more than 95% of cases • Unusual organisms may be responsible if there has been a history of urethral instrumentation • Staphylococcal urinary sepsis is usually indicative of haematological seeding of infection Symptoms • include fever, rigors, flank pain, dysuria, polyuria, haematuria, nausea and vomiting, headache and diarrhea. The absence of fever rules out acute pyelonephritis Investigations • In young women with a first infection, urine culture may be all that is required • urea and electrolytes measurement, a full blood count and blood cultures, and renal ultrasound in compromised patients Treatment • trimethoprim or ciprofloxacin • Surgical opinion may be required for: recurrent infections evidence of vesicoureteric reflux on scanning . Acute vs. chronic renal failure Best way to differentiate is renal ultrasound - most patients with CRF have bilateral small kidneys. (normal range for both kidneys 10-12 cm) Renal size Renal size asymmetry in the presence of hypertension and renal impairment suggest renovascular disease. Small kidneys suggest chronic renal failure Causes of Large kidneys (chronic renal failure with normal/enlarged kidneys) • amyloidosis • Stage 1 diabetic nephropathy • Hydronephrosis • Rapidly progressive glomerulonephritis • HIV-associated nephropathy Causes of one small kidney • Renal arterial disease • or chronic renal scarring due to vesico-ureteric reflux (associated with recurrent UTI)  Voiding cysto-urethrogram (VCUG) is the investigation of choice to demonstrate potential reflux disease Other features suggesting CRF rather than ARF • hypocalcaemia (due to lack of vitamin D) • evidence of renal osteodystrophy on plain X-ray • skin pigmentation and peripheral neuropathy are the result of long-standing metabolic abnormality such as chronic renal failure Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The usual range of kidney size measured longitudinally is between 9-12 cm. • Acromegaly • Renal vein thrombosis • Adult polycystic kidney disease • Scleroderma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Cholesterol embolization Overview • cholesterol emboli may break off causing renal disease • seen more commonly in arteriopaths, abdominal aortic aneurysms Features • eosinophilia • purpura • renal failure • livedo reticularis MRCPUK-part-1-May 2014 exam: H /O impaired RFT + purpuric rash on feet after coronary angiogram is performed for acute MI. What is the most likely diagnosis? Cholesterol embolization (Cholesterol embolisation is a well-documented complication of coronary angiography) Chronic kidney disease (CKD) Definition • Impaired renal function for >3 months based on abnormal structure or function, (GFR ˂ 60 mL/minute/1.73 m²) Common causes • diabetic nephropathy (Type II > type I) • hypertension • chronic glomerulonephritis (commonly IgA nephropathy) • chronic pyelonephritis • adult polycystic kidney disease Investigations • Creatinine-based estimate of glomerular filtration rate (eGFR) If eGFR result is less than 60 ml/min/1.73 m2 in a person not previously tested, what is the next step → Repeat the test within 2 weeks. The most commonly used formula now is the CKD-EPI equation (more accurate than the old MDRD equation ), which uses the 4 variables: serum creatinine, age, gender and ethnicity. The new 2021 version of CKD-EPI equation does not include a term for race. Factors, which may affect the result  muscle mass ↓muscle mass (e.g. amputees, body-builders) → overestimation.↑ muscle mass →underestimation.  eating red meat 12 hours prior to the sample being taken  pregnancy • Urine albumin to creatinine ratio (ACR): the first initial test for Albuminuria ACR ˃ 30 mg/g indicates albuminuria If ACR 30 - 70 mg/mmol → repeat with early morning sample to confirm If ACR ≥70 mg/mmol →no need to repeat • Urine for haematuria Diagnosed by reagent strips , no need to use urine microscopy to confirm • Renal doppler ultrasound the first-line imaging technique for the assessment of kidney structure. Helps to diagnose CKD if kidney atrophy is present Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Creatinine-based estimate of GFR VS Cystatin C-based estimate of GFR • There are no difference in the bias between the equations, • Precision may be worse with cystatin C-based estimates. • Creatinine-based estimate of GFR are recommended by NICE as initial first choice • When to use a cystatin C-based estimate of GFR for diagnosis of CKD? (Nice 2014) If creatinine based eGFR is 45–59 ml/min/1.73 m2, sustained for at least 90 days + no proteinuria or other marker of CKD →do eGFR cystatin C, if it is more than 60 ml/min/1.73 m2 → rule out CKD Creatinine-based estimate of glomerular filtration rate (eGFR) • 2 formulas are used Modification of Diet in Renal Disease (MDRD) equation  Uses the 4 variables: serum creatinine, age, gender and ethnicity.  Paradoxical higher risk observed in people at higher eGFR  Performs better at lower levels of GFR CKD-EPI equation  more accurate than MDRD equation  Less bias at eGFR > 60 , similar performance at eGFR ˂ 60.  Recommended now as the best equation  The new version (2021) of this equation does not include a term for race Classification of CKD Stage Description eGFR (ml/min) Notes Normal 90 with other evidence of chronic kidney damage e.g. Albuminuria Mild impairment 60-89 with other evidence of chronic kidney damage 3a Moderate impairment 45-59 with or without evidence of chronic kidney damage 3b Moderate impairment 30-44 with or without evidence of chronic kidney damage Severe impairment 15-29 with or without evidence of chronic kidney damage End stage renal failure (ESRF) Less than 15 or on dialysis Features • Early stages are often asymptomatic • Symptoms usually only occur once stage 4 is reached (GFR <30). • Symptoms of end-stage renal disease (eg, pruritus, refractory electrolyte imbalances, metabolic acidosis, severe nausea, neurologic impairments) typically occur when GFR is 5 to 10 mL/minute/1.73 m² Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Consequences of CKD • Hyperkalaemia CKD → metabolic acidosis → causes the ion to exit the intracellular space to the extracellular → ↑↑serum potassium CKD → decreased potassium excretion • Hyperphosphataemia : CKD → ↓ phosphate excretion→ ↑ hyperphosphatemia. • Secondary Hyperparathyroidism: ↓ Ca2+ + ↑ serum phosphate → ↑PTH • Metabolic acidosis is a result of bicarbonate wasting and reduced ammonia and acid excretion. • Hypertension: due to sodium and water overload and direct renal effects secondary to the underlying renal disease. • Anaemia due to decreased erythropoietin production, low grade haemolysis, inadequate intake ↓ synthesis of erythropoietin → ↓ stimulation of RBC production → normocytic, normochromic anemia • Hypertriglyceridaemia Due to decreased plasma lipoprotein lipase activity • Pericarditis and cardiomyopathy uraemia leads to exudation of fibrin onto the epicardial and pericardial surfaces. • Glucose intolerance: due to tissue insulin resistance. • Cardiovascular-associated CKD-complications • Increased risk of vascular diseases: Increased risk of coronary artery disease and stroke A falling GFR is an independent risk factor for cardiovascular disease this is the chief cause of death from renal failure. • Increased skin pigmentation Chronic kidney disease (CKD): Disorders of mineral and bone metabolism Hypocalcaemia • Secondary to reduced levels of 1,25(OH)2 vitamin D ↓ Renal hydroxylation of vitamin D → ↓ 1,25-(OH)2 vitamin D3 → ↓ intestinal Ca2+ absorption → ↓ Ca2+ • Secondary to hyperphosphataemia ↓ Renal excretion of phosphate → hyperphosphatemia → calcium-phosphate precipitation in tissues → ↓ Ca2+ Hyperphosphataemia PO(4) ↑↑: Due to reduced phosphate excretion. Secondary hyperparathyroidism • hyperphosphataemia and hypocalcaemia → ↑↑parathyroid hormone (secondary hyperparathyroidism) → renal osteodystrophy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Renal osteodystrophy • Definition: Renal osteodystrophy refers to specific changes in bone morphology associated with CKD. The term "renal osteodystrophy" is exclusively used to define bone pathology observed on biopsy. • Diagnosis PTH is the best noninvasive test for the assessment of bone turnover. Bone biopsy is the gold standard for diagnosing renal osteodystrophy and identifying the specific type. • Subtypes include osteitis fibrosa cystica, adynamic bone disease, osteomalacia, and mixed uremic osteodystrophy (MUO). Osteitis fibrosa cystica  characterized by high bone turnover due to persistently high PTH.  There is a marked increase in the number and activity of osteoblasts (ie, bone-forming cells) and osteoclasts (bone-reabsorbing cells) and an increase in osteoid (unmineralized bone).  PTH >450 pg/mL suggests osteitis fibrosa cystica Adynamic bone disease  most common form of renal osteodystrophy observed in dialysis patients, particularly diabetic patients.  characterized by low bone turnover with reductions in both osteoblast and osteoclast activity.  Risk factors include the use of calcium-containing phosphate binders, highdialysate calcium, and the use of active vitamin D analogs.  Features: usually asymptomatic, bone pain.  Complications: fractures, hypercalcemia, and vascular calcification  Suggested diagnosis among dialysis patients →very↓↓(PTH; ie, <100 pg/mL) especially if hypercalcemia is present.  Suggested diagnosis among patients who are not on dialysis →Initially high PTH and progressively ↓↓ less than normal during treatment with vitamin D analogs.  normal or low bone-specific alkaline phosphatase (BSAP)  Treatment: by allowing PTH secretion to rise. using non-calcium-containing phosphate binders rather than calciumcontaining phosphate binders decrease the dose or stop calcitriol and all active vitamin D analogs For dialysis patients →use low-calcium dialysate (ie, 2 mEq/L) rather than standard (ie, 2.5 mEq/L) Osteomalacia  characterized by decreased mineralization, causing an increase in unmineralized osteoid  caused by aluminum deposition in bone.  uncommon in ESKD patients since aluminum-based phosphate binders were abandoned Extra-skeletal calcification (Metastatic calcification) • mainly due to calcium phosphate deposition, • Increased prevalence with time on haemodialysis • CKD managed with dialysis is the commonest cause of secondary oxalosis (acute arthritis of small joints with digital calcific deposits). • Calciphylaxis: a rare complication of end-stage renal failure. Pathophysiology: deposition of calcium within arterioles causing microvascular occlusion and necrosis of the supplied tissue. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Features: most commonly affects the skin and presents with painful necrotic skin lesions. Risk factors: hypercalcaemia, hyperphophataemia and hyperparathyroidism. Exacerbating factors: Warfarin is widely reported as causing/exacerbating calciphylaxis in high risk patients, however the underlying mechanism is not known. Treatment:  reducing calcium and phosphate levels and controlling hyperparathyroidism  avoiding contributing drugs such as warfarin and calcium containing compounds. Management • Reduce hyperphosphataemia Phosphate binders  1st line: calcium based binders such as calcium acetate is the most appropriate initial treatment. the additional calcium in calcium acetate may be sufficient to increase the plasma calcium into the normal range. Side effects : vascular calcification  2nd line: if calcium acetate is not indicated (eg, hypercalcaemia or low serum parathyroid hormone levels) or not tolerated → Offer sevelamer carbonate  aluminium containing binders are no longer used Dialysis  Dialysis is able to remove only about half of the phosphate that the healthy kidney would be able to do. The healthy adult kidney excretes 5400 mg per week of phosphate. the maximum amount of phosphate that can be removed by dialysis in a patient with anuric renal failure who is dialysis dependent is 2700 mg / week. • Reduce PTH level → vitamin D chronic renal failure and hypocalcaemia with a raised parathyroid hormone (PTH)  secondary hyperparathyroidism. Chronic renal failure leads to hyperphosphataemia, which triggers release of parathyroid hormone. Studies such as UKPDS reveal that: • improving glycaemic control would reduce microvascular complications but this has no significant impact upon cardiovascular morbidity and mortality. • lowering blood pressure significantly reduced morbidity from both microvascular and macrovascular disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad eGFR variables => CAGE => Creatinine, Age, Gender, Ethnicity MRCPUK-part-1-January 2010 exam: Which factor is most likely to invalidate the use of the Modification of Diet in Renal Disease (MDRD) equation to calculate a patients eGFR? Pregnancy MRCPUK-part-1-May 2012 exam: Which factor is most likely to explain unexpectedly low result of eGFR? Large muscle mass secondary to body building Diabetic nephropathy Definition • Persistent albuminuria due to glomerular injury that is caused by prolonged exposure to hyperglycemia Epidemiology • Diabetic nephropathy is a major cause of end stage renal disease (ESRD). • The peak incidence of frank albuminuria is 17 years after diagnosis of type 1 diabetes Pathophysiology • Seen in patients with diabetes for > 10 years • Glomerulosclerosis the most common renal complication of DM • The characteristic microscopic changes which will confirm a diagnosis of diabetic nephropathy Focal nodular mesangial tissue expansion Kimmelstiel-Wilson lesion → Pathognomonic nodular glomerulosclerosis Risk factors Modifiable Non-modifiable • Hypertension • Hyperlipidaemia • Smoking • Poor glycaemic control • Raised dietary protein • Male sex • Duration of diabetes • Genetic predisposition (e.g. ACE gene polymorphisms) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Stages Stage Description Stage 1 • hyperfiltration: increase in GFR • may be reversible Stage 2 (silent or latent phase) • most patients do not develop microalbuminuria for 10 years • GFR remains elevated Stage 3 (incipient nephropathy) • microalbuminuria (albumin excretion of 30 - 300 mg/day, dipstick negative) Stage 4 (overt nephropathy) • persistent proteinuria (albumin excretion > 300 mg/day, dipstick positive) • hypertension is present in most patients • histology shows diffuse glomerulosclerosis and focal glomerulosclerosis (Kimmelstiel-Wilson nodules) Stage 5 • end-stage renal disease, GFR typically < 10ml/min • renal replacement therapy needed Diagnosis • Microalbuminuria is the earliest clinical sign of diabetic nephropathy. • Urinary albumin to creatinine ratio ≥30 mg/g, GFR ˂ 60 mL/minute/1.73 m² Absence of albuminuria in patients with diabetes and a reduced estimated GFR raises the possibility of nondiabetic chronic kidney disease Management • Optimal glycaemic and blood pressure control BP control: aim for < 130/80 mmHg Early antihypertensive treatment delays the progression of diabetic nephropathy. ACE inhibitors or angiotensin receptor blockers, are the preferred drugs The best therapeutic option to prevent progression of renal disease Treat with ACEI (superior to glycaemic control ) CKD: anaemia Causes of anaemia in renal failure • reduced erythropoietin levels - the most significant factor Investigations: diagnostic tests • Hypochromic red blood cells content (% HRC; ˃ 6%) • If using % HRC is not possible, use reticulocyte Hb content (CHr; ˂ 29 pg) • If % HRC & CHr are not available, use Combination of transferrin saturation (˂ 20%) and serum ferritin measurement (˂100 micrograms/litre). Management • 1st step: correct iron status with oral or iv Most non haemodialysis patient may take oral iron . In contrast most haemodialysis patients will require intravenous iron Transfusions in patients awaiting renal transplants are usually avoided where possible, due to the potential risk of circulating antibodies and thus organ rejection. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  If the patient is haemodynamically unstable and an urgent blood transfusion is advised (e.g. symptoms and signs of severe anaemia, i.e. angina): → postpone transplant for at least 3 months, following repeat antibody screening. • 2nd step: Once iron stores are restored and ferritin is in the normal range, if the patient is still anaemic then erythropoietin would be the next appropriate option • Targets for treatment Hb: 10 - 12 g/dl (NICE 2015) Ferritin: 200-500 μg/L (NICE 2015 advice: ferritin should not rise ˃ 800 mic/litre & review iron dose when ferritin reach 500. Transferrin saturation >20% haematocrit <33%. percentage hypochromic red cells <6%. Current Renal Association guidelines suggest that the target Hb for patients receiving erythropoetin therapy is between 105-125 g/L. CKD - Management Referral criteria for specialist assessment • Risk of needing renal replacement therapy • ACR ≥70 mg/mmol (unless diabetic) • ACR ˃30 mg/mmol + haematuria • ↓↓ eGFR ≥25% and a change in eGFR category within 12 months • ↓↓ eGFR ≥15 ml/min/1.73 m2 per year • Poorly controlled hypertension despite the use of at least 4 antihypertensive medicines • Suspected renal artery stenosis or genetic causes of CKD Chronic Kidney Disease CKD: management of hypertension • Hypertension is both a cause and consequence of chronic kidney disease. • Treatment Angiotensin-receptor blocker (ARB) or an angiotensin-converting enzyme (ACE) inhibitor: the 1st line for CKD + ACR > 30.  Side effects: NICE suggest that a decrease in eGFR of up to 25% or a rise in creatinine of up to 30% is acceptable. A rise greater than this may indicate underlying renovascular disease. Furosemide is useful as anti-hypertensive in patients with CKD, particularly when the GFR falls to below 45 ml/min*.(*the NKF K/DOQI guidelines suggest a lower cutoff of less than 30 ml/min) • Target range for BP in CKD: NICE guidelines recommend that: CKD + proteinuria ACR ˂70 mg/mmol →˂ 140/90 (target range 120-139/<90). CKD + proteinuria ACR ≥70 mg/mmol or DM →˂ 130/80 (target range 120129/<80). Chronic Kidney Disease : Diagnosis and management of proteinuria • Diagnosis: Proteinuria (ACR ≥3 mg/mmol) Urine reagent strips are not used Urine Albumin: creatinine ratio (ACR) is the first initial test Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology  If ACR 3 - 70 mg/mmol → repeat with early morning sample to confirm  If ACR ≥70 mg/mmol → no need to repeat Microalbuminuria is defined as a urine albumin excretion of between 30-300 mg per 24 hours. in non-diabetics an ACR greater than 30 mg/mmol is considered clinically significant proteinuria in diabetics microalbuminuria (ACR greater than 2.5 mg/mmol in men and ACR greater than 3.5 mg/mmol in women) is considered clinically significant. • Management CKD + DM + ACR ≥ 3 mg/mmol → ARB or an ACE inhibitor CKD without diabetes + ACR ≥ 70 mg/mmol → ARB or an ACE inhibitor & nephrologist assessment CKD without diabetes + ACR above 30 but below 70 mg/mmol → monitor Spironolactone  The second choice to reduce proteinuria after ACEi  Side effects: hyperkalaemia & small ↓in GFR Effects of ARB or ACE inhibitor on CKD • ↓↓ proteinuria & BP • ↓↓ breakdown of bradykinin (an efferent arteriolar vasodilator); • ↓↓ production of cytokines, such as transforming growth factor–beta (TGF-beta), that promote glomerulosclerosis and fibrosis. ARB or ACE inhibitor in CKD (NICE guidelines/ November 2021) • Monitor serum potassium before starting and 1 and 2 weeks after starting or increasing the dose. If potassium ˃ 5.0 mmol/litre : do not start If potassium ≥ 6.0 mmol/litre: stop ARB or an ACE inhibitor • Monitor eGFR before starting and 1 and 2 weeks after starting or increasing the dose. If eGFR ↓↓ by ˂ 25% or serum creatinine ↑↑ by ˂ 30% of baseline: do not modify the dose and repeat the test in 1 to 2 weeks. If eGFR ↓↓ by ≥ 25%, or serum creatinine ↑↑ by ≥30%: look for other causes (e.g., NSAIDs), stop or reduce the dose and add an alternative antihypertensive if needed. Prescribing in patients with renal failure Questions regarding which drugs to avoid in renal failure are common Drugs to avoid in renal failure • antibiotics: tetracycline, nitrofurantoin • NSAIDs NSAIDs reduce glomerular perfusion by inhibiting production of prostaglandins which dilate the afferent arteriole of the glomerulus. The reduction in blood supply to the kidney results in impairment of kidney function. Thus, the most likely cause of renal decline is prostaglandin related. NSAIDs can also cause an interstitial nephritis but this is often accompanied by a nephrotic syndrome-like picture. • lithium • metformin Drugs likely to accumulate in chronic kidney disease - need dose adjustment • most antibiotics including penicillins, cephalosporins, vancomycin, gentamicin, streptomycin • digoxin, atenolol • methotrexate • sulphonylureas • furosemide • opioids Alfentanil, buprenorphine and fentanyl are the preferred opioids in patients with chronic kidney disease. Drugs relatively safe - can sometimes use normal dose depending on the degree of chronic kidney disease • antibiotics: erythromycin, rifampicin • diazepam • warfarin • Omeprazole is principally dependent upon hepatic clearance and safe even with marked renal impairment. • Erythropoietin • Erythropoietin is a haematopoietic growth factor that stimulates the production of erythrocytes. Sources of Erythropoietin • interstitial fibroblasts in the kidney (predominant during adulthood) • perisinusoidal cells in the liver (predominates in the fetal period) • Exogenous erythropoietin, or recombinant human erythropoietin (rhEPO), is produced by recombinant DNA technology . The main uses of erythropoietin are • to treat the anaemia associated with chronic kidney disease The best option to relieve fatigue in patient with end stage renal failure is Treatment of anaemia with erythropoietin Improvement in haemoglobin level results in the increased well-being and better appetite. • Anaemia associated with cytotoxic therapy. • Prevention of anaemia in premature babies with low birth weight. Side effects of erythropoietin • accelerated hypertension headache, encephalopathy & seizures (BP ↑↑in 25%) • ischaemic stroke • bone aches • flu-like symptoms • skin rashes, urticaria • pure red cell aplasia (PRCA) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • raised PCV thrombocythaemia ↑ risk of thrombosis (e.g. Fistula) • iron deficiency 2nd to increased erythropoiesis • anaphylaxis • Hyperkalaemia in uraemic patients • ↑mortality of patients with malignancy (e.g. renal cell carcinoma) Chapter 6 Nephrology Causes of response failure to erythropoietin therapy: • iron deficiency • inadequate dose • concurrent infection/inflammation • hyperparathyroid bone disease • aluminium toxicity : if suspected, perform a desferrioxamine test • folate deficiency ESA induced pure red cell aplasia (PRCA) • due to antibodies against erythropoietin • Indicated by a low reticulocyte count, together with anaemia and the presence of neutralising antibodies. • Confirmed by presence of anti-erythropoietin antibodies together with a lack of pro erythroid progenitor cells in the bone marrow • the risk is greatly reduced with darbepoetin Treatment protocol • Ideally, before starting EPO in renal patients you should get their haematinics (iron, B12, folate) to ensure they are replete of all. If any are found to be low they should be replaced. • Parameters commonly measured to assess iron status are: serum ferritin and transferrin saturation. Both are indirect measures of iron and frequently do not permit an assessment of the adequacy of iron supply to the erythron. direct measures by flow cytometry, cell volume and hemoglobin concentration can be measured in individual red blood cells and reticulocytes, using two parameters ( particularly useful in identifying iron-deficient erythropoiesis).  The percentage of hypochromic erythrocytes (defined as red blood cells with a hemoglobin concentration of less than 28 g/dl)  the content of hemoglobin in reticulocytes (CHr) • If there is Iron deficiency (NICE 2015) For patient on haemodialysis or ESA I.V iron therapy. For patient not on haemodialysis trial of oral iron If they are intolerant of oral iron or target Hb levels are not reached within 3 months intravenous iron therapy. (part 2 Exam July 2002) offer maintenance iron to people with anaemia of CKD who are receiving ESAs haemodialysis patients will need the equivalent of 50–60 mg intravenous iron per week (1 mg/kg/week). [NICE 2015] • If Ferritin is below the recommended level of 200 for patients receiving erythropoietin treatment iron supplementation is recommended.  GI absorption of iron is suboptimal in patients with renal failure, and IV replacement is therefore the preferred intervention. • Erythropoietin is given subcutaneously at a dose of 25-50 U/kg three times per week • The blood pressure, haemoglobin and reticulocyte count should be monitored every 2 weeks • erythropoiesis-stimulating agent (ESAs): dose and frequency adjusted to keep the rate of Hb increase between 10 and 20 g/litre/month. • Adjusting ESA treatment  if ACEi & ARB are used, an increase in ESA therapy should be considered. ferritin should be >200g/l in patients treated with EPO. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • marrow fibrosis • development of antibodies against the treatment • ESA-induced PRCA • testosterone deficiency in males • poor compliance Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Significance of erythropoietin levels (EPO test) • Low serum erythropoietin levels suggest polycythaemia vera • raised serum erythropoietin level suggests hypoxic cause  autonomous production of erythropoietin (as in renal carcinoma). erythropoietin abuse (Erythropoietin has been misused as a performanceenhancing drug by some athletes) May 2010 exam: H/O CKD patient started on erythropoietin. What is the main benefit of this treatment? Improved exercise tolerance Erythropoietin can be detected in urine for few weeks after the latest dose Renal replacement therapy • Patients usually begin dialysis when their glomerular filtration rate (GFR) reaches 10 ml/minute or 15 mL/minute if they are diabetic. Indications for dialysis • Refractory pulmonary oedema • Persistent hyperkalaemia (K+ >7mmol/L) • Severe metabolic acidosis (pH<7.2 or base excess <10) • Uraemic complications such as encephalopathy or Uraemic pericarditis (pericardial rub) Uraemic peripheral neuropathy • Drug overdose—BLAST: Barbituates, Lithium, Alcohol (and ethylene glycol), Salicylates, Theophyline, Vascular access for routine haemodialysis • Arterio-venous fistula: Current Renal Association guidelines state that an arterio-venous fistula is the first choice of vascular access for dialysis.  arterio-venous fistulas are preferred due to their longevity and lower risk of infection. Arterio-venous grafts:  using prosthetic material,  have a reduced longevity compared to arterio-venous fistulas.  These are second choice preference for vascular access. Dialysis catheters (tunnelled and non-tunnelled):  carry a risk of infection and are not preferred as first line.  They can be used when emergency dialysis is required, or as an interim measure when awaiting more permanent dialysis access. Arterio-venous fistula is the first choice of vascular access for dialysis. 041 - Chapter 6 041 Chapter 6 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Haemodialysis (HD) Assessment of haemodialysis adequacy: The adequacy of haemodialysis session is best measured by : • 'Clearance' is used to indicate dialysis adequacy, and most commonly the clearance of urea is used. Clearance is the ratio of removal rate to blood concentration. Removal rate can be measured by sampling blood on either side of the dialyser and multiplying the difference by the inflow rate. Clearance is the removal rate divided by the inflow concentration.  However, this only provides a measure of dialysis at one point in time. • The adequacy of an entire haemodialysis session is best measured by the fall in solute concentration from before dialysis to after. This is calculated using complex equations and is expressed as Kt/V. The current recommendation for adequate dialysis for three treatments per week are a Kt/V of 1.2. • (the 'urea reduction ratio').A more crude assessment of the adequacy of dialysis obtained by noting the magnitude of the decrease in blood urea concentration • It is standard practice in the UK to take biochemical and haematological measurements before and after haemodialysis sessions at regular intervals (monthly in hospital HD patients and at least 3 monthly in home HD patients). Adequate HD is indicated by: pre-dialysis serum bicarbonate levels of 18-24 mmol/L,  potassium 4.0-6.0 mmol/L, phosphate 1.1-1.7 mmol/L, calcium and albumin within normal range. Pre and post- dialysis values: • . A high pre-dialysis or inter-dialysis blood pressure may be related to: excessive sodium and water ingestion during the inter-dialysis period or a high dialysate sodium level, • A high post-dialysis blood pressure may reflect inadequate achievement of dry weight.  Volume and blood pressure are linked and it is therefore important to optimise ultrafiltration and dry weight to control blood pressure. A patient’s dry weight is their normal weight when they are not fluid overloaded, also called euvolemia The rate of ultrafiltration depends upon the porosity of the membrane and the hydrostatic pressure of the blood, which depends upon blood flow. This is very effective in removal of fluid and middle-sized molecules, which are thought to cause uremia. • Weight gain between dialyses of more than 4.8% is associated with increased mortality. • The combination of high pre- and post-dialysis blood pressure, and high pre-dialysis potassium, indicate that the patient is receiving inadequate dialysis. Both procedural issues (insufficient blood flow rate, dialysis time and frequency and needle size) and access issues should be addressed. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad If these fail to improve the situation a different dialysis modality should be considered, such as more frequent or sustained haemodialysis. • It is recommended that pre-dialysis haemoglobin concentration should be maintained between 100-120 g/L. If his haemoglobin below the recommended level for a dialysis patient, you need to measure haematinics initially prior rather than jumping in with EPO treatment.  Many haemodialysis patients are iron deplete, and in these cases intravenous iron is indicated rather than EPO in the first instance. Adverse effects of dialysis • Modem techniques of dialysis preclude chances of vitamin D or calcium deficiency, fluid and electrolyte imbalance or risk of viral hepatitis • protein-calorie malnutrition is the most common problem associated with haemodialysis seen in up to 50% of patients Dietary restriction of foods with high phosphate content (milk, eggs and cheese), decreased protein intake,anorexia, nausea and vomiting, may all contribute to this condition Complications of rapid haemodialysis • Disequilibrium syndrome: Caused by cerebral oedema, resulting from the rapid shifts of uraemic toxins associated with too-rapid haemodialysis in a severely uraemic patient characterized by weakness, dizziness, headache, and in severe cases, mental status changes. The diagnosis is one of exclusion; a prime characteristic of this syndrome is that it is nonfocal. Long-term haemodialysis • associated with carpal tunnel syndrome this is due to beta-2 microglobulin deposition • Cardio-vascular disease is the commonest cause of death (50%) in dialysis patients • Carnitine deficiency Patients on chronic hemodialysis may have carnitine deficiency. Carnitine is essential for the transport of long-chain fatty acids from the cytosol into the mitochondria. chronic hemodialysis carnitine deficiency Impaired mitochondrial transport of long-chain fatty acids Cardiomyocytes and skeletal muscle cells extensively use fatty acids as a fuel. Carnitine deficiency leads to:  accumulation of long-chain fatty acids in the cytosol of cardiomyocytes (resulting in cardiac fatty change and cardiomegaly)  accumulation of long-chain fatty acids in the cytosol of skeletal muscle cells (resulting in muscle cramps). Treatment is via L-carnitine administration. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Line-related infection A patient with a tunnelled haemodialysis catheter who develops a fever on dialysis should be considered to have line-related infection until proven otherwise. • The most common organisms for line-related sepsis are gram-positive bacteria, namely S. aureus. • Blood cultures should be taken from the line and peripherally, and if the same organism is growing from them both, this strongly suggests the line is the source of the infection. • Indications of Catheter removal : Staphylococcus aureus bloodstream infection non-staphylococcus aureus catheter-related bloodstream infection in the following circumstances:  Severe sepsis  Haemodynamic instability  Endocarditis  Evidence of metastatic infection, or  Persistence of bacteraemia after 48-72 hours of effective antibiotics. • Treatment Methicillin-resistant Staphylococcus aureus (MRSA) infection  vancomycin is the drug of choice Dialysis amyloidosis Aetio-pathogenesis • Occurs due to the failure of clearance of B2-microglobulin This protein, the light chain of class-1 HLA antigens, is usually freely filtered at the glomerulus but is not cleared by cellulose-based dialysis membranes • There is resulting amyloid deposition within the synovium Clinical features: Amyloid deposition within the synovium results in: • clinical syndrome of median nerve compression • pain and stiffness in multiple joints Treatment & Prognosis • The syndrome resolves slowly after renal transplantation, • some benefit is seen in switching patients to dialysis with a biosynthetic dialysis membrane Complications: • gastrointestinal haemorrhage caused by amyloid deposition around submucosal blood vessels Peritoneal dialysis • Peritoneal dialysis (PD) is a form of renal replacement therapy. It is sometimes used as a stop-gap to haemodialysis or for younger patients who do not want to have to visit hospital three times a week. • The majority of patients do Continuous Ambulatory Peritoneal Dialysis (CAPD), which involves four 2-litre exchanges/day. Complications: • Peritoneal dialysis-associated peritonitis • sclerosing peritonitis • Adynamic bone disease (ABD) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Peritoneal dialysis-associated peritonitis • Causes: The most common cause coagulase-negative staphylococci such as Staphylococcus epidermidis (40-50% of cases). another common cause Staphylococcus aureus • Diagnosis is made by peritoneal fluid cell count (neutrophils above 100/ml).( White cell count 100/mm3 in PD fluid sample ) PD fluid neutrophil percentage of greater than 50% is in keeping with PD peritonitis. • Treatment intraperitoneal antibiotics (vancomycin) And oral quinolone (Before culture results are received).  the initial treatment of choice would be intraperitoneal antibiotics.  initial antibiotic regimes should cover Gram positive (including MRSA) and Gram-negative organisms. Give intra-peritoneal vancomycin and gentamicin  Intravenous antibiotics would be preferable if the clinical condition worsened despite intraperitoneal antibiotics, Recurrent Staph, epidermidis peritonitis may necessitate removal and replacement of the peritoneal dialysis catheter due to chronic colonisation Adynamic bone disease (ABD) (low bone turnover) • Definition: (ABD) is a variety of renal osteodystrophy characterized by reduced osteblasts and osteoclasts, no accumulation of osteoid and markedly low bone turnover (↓bone formation and resorption). • Distinguish ABD from the second low-turnover form, i.e. osteomalacia: In ABD: Both the rate of collagen synthesis by osteoblasts and the subsequent mineralization of bone collagen are subnormal. there are few or no osteoblasts In osteomalacia: mineralization defect exceeds the defects in bone formation, resulting in a relative osteoid excess. Bone alkaline phosphatase (BAP) is the single most useful biochemical parameter for the assessment of bone formation.  ↑↑BAP exclude ABD  elevations of BAP along with total AP may be seen in severe osteomalacia. • Risk factors & Causes: overtreatment of secondary hyperparathyroidism associated with CKD (ABD is, at least in part, often iatrogenic) commonly CKD patients on dialysis, either peritoneal or hemodialysis  ↑ in CAPD compared to haemodialysis  Especially prevalent in diabetic patients on peritoneal dialysis  ↑ in age of dialysis patients Aluminum overload  Serum aluminium levels do not correctly reflect body aluminium stores and do not correlate well with signs of aluminium toxicity.  desferrioxamine (DFO) test increases the diagnostic accuracy High calcium load Low PTH levels Vitamin D over-treatment (eg : alfacalcidol) High prevalence of diabetes mellitus • Pathophysiology: basically in CKD:  PTH serum levels are higher than normal Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology  bone tissue is resistant to PTH PTH serum levels decrease beyond relatively low levels, which would be considered normal in the general population. So that a relative reduction of PTH low turnover state. • Complications: (pain, fracture,↑ Ca+) bone pain increased incidence of hip fracture hypercalcaemia as the bone loses its capacity to buffer serum calcium • Treatment: currently follows two principles: reduce calcium and vitamin D load  Stop calcium-containing phosphate binders and replace with non-calcium-, non-aluminium-containing phosphate binders  Assess oral dietary calcium intake and reduce to <2000 mg/day  Reduce or stop active vitamin D compounds  Lower dialysate calcium to 1.25 mmol/L or below  Avoid bisphosphonates, strontium and fluoride administration restore PTH activity • Follow- up Changes of bone markers, such as bone-specific alkaline phosphatase, over time, may be suitable indicators for the assessment of therapeutic effects. Other complications of peritoneal dialysis • Worsening of diabetic control: dialysis fluid contains a high glucose patients with diabetes may require significantly more diabetes treatment to reduce their blood glucose once dialysis is commenced • Worsening of abdominal hernias: due to the large fluid volume expansion and should be surgically repaired • Stomas adhesions: Stomas may be associated with significant adhesions and changes within the abdominal cavity making catheter placement impossible Contraindication of continuous ambulatory peritoneal dialysis ( CAPD): • Colostomy.  increase the risk of peritonitis • Recent or prospective abdominal surgery Complex abdominal surgery and resultant extensive adhesion damage the peritoneal membrane (peritoneal fibrosis) and lead to compartments within the peritoneum. Simple abdominal surgery, however, does not preclude peritoneal dialysis; examples include cholecystectomy, appendectomy or caesarian section. May 2013 exam: A patient on Ambulatory Peritoneal Dialysis (CAPD). Feels generally unwell with abdominal pain and fever. Which organism is most likely to be responsible for this presentation? Staphylococcus epidermidis Renal transplant Hyperacute graft rejection is due to preexistent antibodies to HLA antigens and is therefore IgG mediated Some basic points on the HLA system • class 1 antigens include A, B and C. Class 2 antigens include DP, DQ and DR • when HLA matching for a renal transplant the relative importance of the HLA antigens are as follows DR > B > A • Which HLA subtypes is usually implicated with respect to matching for avoiding hyperacute rejection? HLA-C  Anti-HLA-C IgG antibodies are usually implicated in hyperacute rejection;  specifically, HLA-CW5 subtype antibodies have been implicated most in hyperacute rejection of renal transplant. Types of Transplants: • Autografts: same individual acts as both donor and recipient. • Isografts: donor and recipient are genetically identical (twins). • Allografts: donor and recipient are genetically dissimilar but belong to the same species (the commonest). • Xenografts: donor and recipient belong to different species (between animal and human). • Orthotopic transplants: the transplanted part is placed in its normal anatomical location. • Heterotopic transplants: the transplanted part is placed in different anatomical location. Graft survival 1 year 10 years Cadaveric transplants 90% 60% Living-donor transplants 95% 70% Hyper acute rejection (minutes to hours) • due to pre-existent antibodies against donor HLA type 1 antigens (a type II hypersensitivity reaction) and is therefore IgG mediated • rarely seen due to HLA matching • antigen-antibody complexes activate the complement system causing massive thrombosis in the capillaries avascularization of the graft. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Renal transplant HLA matching DR is the most important Post-operative problems • ATN of graft • vascular thrombosis • urine leakage • UTI Chapter 6 Nephrology • the kidney is most susceptible to hyperacute rejection; the liver is relatively resistant, possibly because of its dual blood supply, but more likely because of incompletely understood immunologic properties. Reasons for deterioration in renal function soon after a renal transplant: • Hyperacute rejection (which usually occurs in hours) • Acute tubular necrosis, and • Surgical complications (renal arterial or venous thrombosis and ureteric stenosis). In the presence of a dropping urine output and rising creatinine, an urgent ultrasound scan should be obtained to exclude any mechanical obstruction of the renal tract before considering other options. Acute graft failure (< 6 months) • Approximately 25% of transplant patients will have at least one episode of rejection mostly between days 7 and 21, and less commonly up to three months post-operation. • usually due to mismatched HLA. Cell-mediated (cytotoxic T cells) • other causes include cytomegalovirus infection Although CMV infection would not cause a sudden deterioration in renal function • Doppler ultrasound studies may show a sharp deterioration in graft perfusion, and kidney biopsy will show invading lymphocytes penetrating the tubular basement membrane, causing tubulitis. • It is often clinically silent, with only a sharp rise in serum creatinine pointing towards the diagnosis. • may be reversible with steroids and immunosuppressants Chronic graft failure (> 6 months) • both antibody and cell mediated mechanisms cause fibrosis to the transplanted kidney (chronic allograft nephropathy) • caused by recurrence of original renal disease (MCGN > IgA > FSGS) Recurrence of renal pathologies post-renal transplantation: Membranoproliferative GN: 40-90% recurrence rate, type 2 much greater than type 1). FSGS: 40%. Membranous GN: 30%. Differentiate between acute cellular rejection and CMV Onset Feature Renal function Acute cellular rejection Commonly between days 7 and 21 often clinically silent Sudden sharp rise in serum creatinine CMV Usually seen after four weeks Risk factors of chronic rejection include: • number of previous acute rejection episodes • presence of anti-HLA antibodies • anti-endothelial antibodies • CMV infection • dyslipidaemia • hypertension • functional mass of the donor kidney, and • delayed graft function (a clinical manifestation of ischaemia/reperfusion injury). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Systemic feature (pulmonary, GIT and Retinitis). Gradual rise in serum creatinine Type of transplant rejection Hyperacute rejection Acute rejection Chronic rejection Frequency • < 1% • 50% • 50% Onset after transplantation • < 48 (usually within minutes to hours) • < 6 months (usually within days to weeks) Pathophysiology • Preformed antibodies against class I HLA → activation of complement system and adhesion to granulocytes → thrombosis of vessels → graft ischemia • T-lymphocyte induced cellmediated and/or humoral immunity Clinical findings • Intraoperative assessment: swelling of the organ as soon as perfusion is restored • Pain in the graft region • Graft edema • Fever and deterioration of general condition • In kidney transplants: ↑ BP and RFT; ↓urine output Diagnosis • Biopsy: small vessel thrombosis and graft infarction • Biopsy (confirmatory test) Prevention • Preoperative cross- matching, ABO grouping and HLA matching • Post-transplant immunosuppressive therapy Treatment • Graft removal • Change or increase dosage of immunosuppressive therapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • 6 months (usually after a few years) • Irreversible intimal fibrosis and obstruction of vessels • Slow, progressive loss of organ function • Biopsy  Kidney: Glomerular sclerosis  Heterogenous mononuclear aggregates± antibody deposition  Heart: accelerated coronary artery disease  C4d staining indicates humoral graft rejection  Liver: vanishing bile duct syndrome  Negative C4d staining indicates cellular rejection • Irreversible process with no known prevention • Graft removal, and re-transplantation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Graft versus host disease (GVHD) presents with liver abnormalities, significant diarrhoea and skin changes. Definition • damage to the host as a result of a systemic inflammatory reaction induced by T lymphocytes present in the graft Etiology • Allogenous hematopoietic stem-cell transplantation • Small bowel transplantation • Transfusion of non-irradiated blood products Products implicated in cases of transfusion associated GVHD include:  Non-irradiated whole blood  Packed red blood cells  Platelets  Fresh non-frozen plasma  Granulocytes The following have not been implicated:  Frozen deglycerolised red blood cells  FFP and  Cryoprecipitate Types of graft-versus-host disease Acute graft-versus-host disease Chronic graft-versus-host disease Onset • < 100 days after transplantation • 100 days after transplantation Pathophysiology • Donor T lymphocytes react with the recipient's organs Clinical presentation • Pruritic or painful maculopapular rash • Nausea, vomiting, diarrhea, and/or cramping abdominal pain • Hepatic dysfunction: jaundice Diagnostics • CBC: anemia, thrombocytopenia, leukope nia • ↑ALP • Confirmatory test: biopsy of skin, rectum, or liver Prevention • Antithymocyte globulin • Cyclosporine and one of the following:  Methotrexate  Mycophenolate mofetil Treatment • Optimize GvHD prophylaxis (e.g., cyclosporine levels) • Corticosteroids < 50% skin involvement: topical steroids Involvement of the GI tract, liver, or > 50% of skin: systemic steroids ± topical steroids Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Mostly unknown • Scleroderma-like and lichenoid skin changes • Sicca syndrome: xerophthalmia, xerostomia, dry pruritic skin • Chronic enteritis (similar to inflammatory bowel disease): bloody diarrhea, abdominal pain, weight loss • Hepatic dysfunction: jaundice • Bronchiolitis obliterans: chronic cough, wheezing, and dyspnea that is not responsive to bronchodilator therapy • Myasthenic symptoms • polymyositis: weakness, muscle pain • Spirometry: obstructive lung disease • Confirmatory test: biopsy of the skin, oral cavity, liver, or lung • First-line: corticosteroids • Second-line : cyclosporine and increased corticosteroid dose Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Post-transplant problems Cytomegalovirus (CMV) infection Renal transplant + infection CMV • Epidemiology Over 50% of renal transplant patients have a significant infection within the first 12 months of having a renal transplant. • Risk factors Two main factors determine whether a patient will develop CMV infection after transplantation :  Whether the donor or recipient harbours a latent virus capable of reactivation after transplantation At the time of transplant, the CMV-serological status of the donor and recipient are noted. the highest risk is seen in CMV-seronegative recipients who receive a kidney from a CMV-seropositive donor. These patients are usually given antiviral prophylaxis. Primary disease is the commonest and most severe type of posttransplant CMV infection. This occurs in individuals who have never been infected with CMV who receive an allograft that contains latent virus from a CMV-seropositive donor.  The degree of immunosuppression after transplantation. CMV infection occur as a result of immunosuppression Usually seen after four weeks as before this time the immune system has not been fully affected by the immunosuppressants. • Features Interstitial pneumonitis Oesophagitis Peptic ulceration Colitis and Retinitis. • Complications graft rejection renal artery stenosis. • Management Ganciclovir (synthetic guanine derivative) is the most appropriate treatment for CMV  concomitant use with ciclosporin leads to elevated creatinine  Pancytopenia may occur as a result of ganciclovir toxicity Foscarnet is the drug of choice for ganciclovir-resistant cytomegalovirus retinitis. the two most common causes of declining renal function post renal transplant are: • graft rejection and • ciclosporin toxicity. Acute pyelonephritis: • high risk of acute episode of pyelonephritis in the transplanted kidney, due to the immunosuppression, the neuropathic bladder and self-catheterisation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • present like an acute rejection episode, with a tender swollen graft, low-grade pyrexia, and deteriorating graft function. • Especially in the intermediate stage of the post-transplantation immunosuppression, when the patient is most immunocompromised (three to six months post-transplant). Interstitial pneumonia • Cytomegalovirus is the predominant cause of infection in patients within a period of 1-4 months after renal transplantation • A chest X-ray will show a bilateral interstitial or reticulonodular infiltrate that begins in the periphery of the lower lobes and spreads centrally and peripherally BK virus: • C4d staining is used for detection of BK virus after renal transplantation Epstein-Barr virus (EBV) • Epstein-Barr virus (EBV)-associated lymphoproliferative disease (e.g: non-Hodgkin's lymphoma) may occur in individuals with inherited or acquired immunodeficiency syndromes. • Approximately 1% of renal transplant recipients develop post-transplant lymphoproliferative disease (PTLD) in the first year following their transplant. skin cancer • Kidney transplant recipients have a high risk of developing non-melanoma skin cancer, therefore, cancer surveillance is an important consideration in kidney transplant recipients . • The patient may has a malignant melanoma with liver metastases, hence the deranged liver function tests and liver capsule pain. • The patient is often unaware of the melanoma lesion, and the primary lesion may in fact disappear as the disease progresses. Patient may present with RUQ pain and high LFT. • Post-transplant patients are much more prone to develop malignancy compared to normal population. Cyclosporine is one of the main reasons for development of post-transplant malignancy. • Non-melanoma skin cancers (NMSC) are the commonest malignancies in post-transplant state. Of these, squamous cell Ca is the commonest. Kidney donation • Providing there is a sibling who is proven not to have polycystic kidney disease, living related donation should be considered as this would ensure a better match and better graft survival. • Siblings are close genetically, and therefore usually are a better match than spouses. The husband should not be accepted for kidney donation until all siblings have been considered • The age difference is not, however, a contraindication to kidney donation. • Living unrelated kidney donation could also be considered, and is increasing in use in the UK. • Adults should be considered as doner prior to children because renal cysts usually develop during teenage years, so one cannot be confident a child has not been affected until they are at least 20. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Autosomal dominant polycystic kidney disease (ADPKD) Epidemiology • ADPKD is the most common inherited cause of kidney disease, • affecting 1 in 1,000 Caucasians. • Accounting for approximately 8% of cases of end-stage renal disease (ESRD). • Typically presents between the ages of 30-50. Genetics • Two disease loci have been identified, PKD1 and PKD2, which code for polycystin-1 and polycystin-2 respectively • As it is an autosomal dominant, the chance of passing this condition from affected patient to his son is 50%. Types ADPKD type 1 ADPKD type 2 85% of cases 15% of cases Chromosome 16 Chromosome 4 Presents with renal failure earlier, reach ESRF by 50s. Have a slower course, reaching ESRF by 70s. Features • Hypertension (the earliest manifestation of ADPKD) • recurrent UTIs • abdominal pain (loin pain due to a cyst haemorrhage or infection) • renal stones • haematuria (rupture cysts presents with visible haematuria) (Gross haematuria in ADPKD carries a poor prognosis however microscopic haematuria may be a complication) • chronic kidney disease Renal Complications • CKD ADPKD is like a CKD with high phosphate, low calcium but with normal/high Hb due to excess erythropoietin secretion. • Excessive erythropoietin production polycythaemia. • Renal cell carcinoma with lung metastasis: it is very rare but recognized complication of ADPCKD CT Thorax & Abdomen. Extra-renal manifestations • Liver cysts (70%) • Berry aneurysms (8%) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Subarachnoid haemorrhage may be a cause of mortality in 9% of patients with ADPKD, 8% of patients have an asymptomatic intracranial aneurysm screening for cerebral aneurysms should only be carried out in high risk patients. These include factors such as: Previous rupture of aneurysm Concerning neurological symptoms (for example, severe headache) Positive family history of haemorrhagic stroke or aneurysm. Even if aneurysms are found, the rupture risk can still be low, and the morbidity implications of curative surgery may outweigh conservative management. • Cardiovascular system: mitral valve prolapse (25%) (needs echo screening), mitral/tricuspid incompetence, aortic root dilation, aortic dissection • Colonic diverticula (with any related symptoms, screen by barium enema) • cysts in other organs: pancreas, spleen; very rarely: thyroid, oesophagus, ovary Investigations • Ultrasound (Sensitivity for ADPKD1 is 99% for at-risk patients older than 20 years) Sonographic diagnostic criteria (in patients with positive family history):  age < 30 years 2 unilateral or bilateral cysts  age 30-59 years 2 cysts in each kidney  age > 60 years 4 cysts in each kidney Sensitivity of these criteria  nearly 100% for patients 30 years of age or older and for younger patients with PKD1 mutations,  67% for patients with PKD2 mutations younger than 30 years of age.  CT scan or MRI should therefore be used in the latter group.  one cannot be confident a child has not been affected until they are at least 20: a normal ultrasound scan at 20 years of age means you can be 90% confident they are not affected, a normal scan at 30 increases the confidence level to 98%. Screening is not usually recommended in children because the presence or absence of cysts does not affect management (tight blood pressure control), and the absence of cysts in children does not exclude the disease. All children of affected patients should have their blood pressure monitored at least annually, from early childhood (around age 3) onwards. If cysts are not seen in a younger with a positive family history, the ultrasound should be repeated every five years until the age of 30. • Contrast-enhanced CT scan or MRI Abdominal CT is sensitive for the detection of cysts however the high radiation dose, particularly in young patients, means it is not widely used as a screening test. should be used if ultrasound is equivocal, especially in patients with PKD2 mutations younger than 30 years of age. CT: More sensitive than USS and may aid in diagnosis in younger patients. MR angiography: In patients with a family history of intracranial aneurysm - to screen for cerebral aneurysms. • Genetic testing The most appropriate strategy to investigate younger with a family history of ADPK is genetic counselling (referral) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology The major indication for genetic screening in (ADPKD) is for subjects who are considering donating a kidney to a relative affected by the disease sequence analysis can identify only around 70% of known mutations and linkage analysis requires the availability of sufficient family members. can be used in the following cases:  The imaging results are equivocal or inconclusive.  To confirm a presumed diagnosis in the absence of family history of the disease (conclusive proof of the diagnosis in these patients relies on mutation analysis).  When a definite diagnosis is required in a younger patient, such as a potential living related kidney donor. • Renal biopsy is contraindicated due to a high risk of haemorrhage into a cyst Treatment • high fluid intake (to prevent the formation of renal stones or blood clots) • non-NSAID-based analgesia are the cornerstones of management IV fluids, paracetamol and codeine • Hypertension ACE inhibitors or angiotensin receptor antagonists  ACE inhibitors reduce proteinuria and may reduce cyst formation in ADPKD, aliskiren, the direct renin inhibitor, also has early data which show promise with respect to reducing new cysts. • A new therapy (tolvaptan) to delay disease progression (recommended by NICE in 2015) Action: selective vasopressin antagonist inhibit the binding of vasopressin to the V2 receptors reduces cell proliferation, cyst formation and fluid excretion.  adverse reactions: thirst, polyuria, nocturia, pollakiuria (frequent urination),↑ liver enzyme. • Urinary tract infections should be treated with lipophillic drugs (for example, ciprofloxacin, trimethoprim-sulphamethoxazole) as they have the best penetration into cyst fluid. • The patient should be offered genetic counselling, despite the fact that the disease has a variable clinical course even between affected family members. • End-stage renal disease → Transplantation Prognosis • the renal function usually deteriorates in a gradual fashion, usually with a drop in creatinine clearance of 5/6 ml/min/year • Approximately half of patients require dialysis by the age of 60 MRCPUK-part-1-January 2016 exam: You are reviewing a patient with adult polycystic kidney disease. Which cardiovascular feature are you most likely to find on examination? Mitral valve prolapse Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Autosomal recessive polycystic kidney disease (ARPKD) • Autosomal recessive polycystic kidney disease (ARPKD) is much less common than autosomal dominant disease (ADPKD). • It is due to a defect in a gene located on chromosome 6 • Diagnosis may be made on prenatal ultrasound or in early infancy with abdominal masses and renal failure. Newborns may also have features consistent with Potter's syndrome secondary to oligohydramnios. • End-stage renal failure develops in childhood. • Patients also typically have liver involvement, for example portal and interlobular fibrosis. • Renal biopsy typically shows multiple cylindrical lesions at right angles to the cortical surface. Medullary sponge kidney • is a disorder characterised by dilatation of the collecting ducts in the papillae, with accompanying cystic changes • It is often associated with calculi, which can result in pyelonephritis and renal tract obstruction. • Typically, not inherited but is a congenital condition. The aetiology is uncertain, but it is thought to be a developmental abnormality, possibly resulting from tubular or collecting duct obstruction at any early age. • The kidneys size are normal or increased. • The age of presentation is usually in the third or fourth decade • The majority of cases are sporadic, although a rare autosomal dominant familial form exists with onset in adulthood, and a juvenile autosomal recessive form is also recognised. Recent research has identified a possible defect in the development of the proton pump mechanism in the kidney. • Diagnosis Diagnosis is made via excretion urography, showing small calculi in the papillary zones with surrounding increase density; this is because the dilated collecting ducts are filled with contrast medium About 20% of patients have associated hypercalciuria or renal tubular acidosis Skeletal hemihypertrophy may be associated Renal failure is highly unusual Alport's syndrome • Alport syndrome is the second most common inherited cause of renal failure (after polycystic kidney disease) • usually inherited in an X-linked dominant pattern. Inheritance is variable, but the majority are X linked dominant (85%) ;  Therefore, as only the Y chromosome is passed from father to son there is no chance of the son having the disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology 15% are autosomal recessive with rare autosomal dominant variants • Most cases arise from the COL4A5 gene on the X chromosome . • It is due to a defect in the gene which codes for type IV collagen resulting in an abnormal glomerular-basement membrane (GBM). Patients with Alport syndrome are at risk of developing antiglomerular basement membrane disease (Goodpasture's disease) following transplantation, as their immune systems have never been exposed to type IV collagen and hence lack tolerance. What is the most likely reason for the decline in graft function?  Anti-glomerular-basement membrane antibodies (Goodpasture's syndrome ) • There is a high spontaneous mutation rate, which means 20% of patients have no family history. • Prevalence is around 1 in 5000 • The disease is more severe in males with females rarely developing renal failure • usually presents in childhood. • more severe in males females do not develop progressive renal failure with this condition. • A favourite question is an Alport's patient with a failing renal transplant. This may be caused by the presence of anti-GBM antibodies leading to a Goodpasture's syndrome like picture Features "Can't see, can't pee, can't hear a bee." • microscopic haematuria Most common and earliest manifestation • progressive renal failure • bilateral sensorineural deafness (usually occurs before the onset of renal failure) • ocular Anterior lenticonus  protrusion of the lens surface into the anterior chamber  Occurs in 25% of patients  is the pathognomonic feature of Alport syndrome Dot-and-fleck retinopathy  Most common ocular manifestation of patients with Alport syndrome, (occurring in 85%) retinitis pigmentosa Investigations • renal biopsy:  Light microscopy  usually unremarkable and electron microscopy is usually required. Electron microscopy  splitting of lamina densa basket weave pattern of glomerular basement membrane  foam cells produced by lipid accumulation in visceral epithelial cells • slit lamp examination:  bilateral thin lens capsules conical protrusions on the anterior aspect of the lens, subcapsular cataracts. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Rigorous control of hypertension may delay the onset of end stage renal failure, • angiotensin-converting enzyme inhibitors or angiotensin-receptor blockers if they have proteinuria • Renal transplant Prognosis • ESRF seen in 90% of patients with Alport's by the age of 40 years. MRCPUK-part-1-September 2009 exam: What is the mode of inheritance of Alport's syndrome in the majority of cases? X-linked dominant MRCPUK-part-1-January 2008 exam: Alport's syndrome is due to a defect in:? Type IV collagen Haemolytic uraemic syndrome The presence of thrombocytopenia and evidence of haemolysis in association with bloody diarrhoea should make you think of haemolytic uraemic syndrome (HUS). Haemolytic uraemic syndrome is generally seen in young children and produces a triad of: • acute renal failure • microangiopathic haemolytic anaemia • thrombocytopenia with normal clotting. Causes • post-dysentery - classically E coli 0157:H7 ('verotoxigenic', 'enterohaemorrhagic') .Toxins produced in the intestine enter the blood and bind to endothelial cells in target organs. Endothelial cell damage leads to platelet and fibrin deposition with resultant fragmentation of circulating red blood cells and microvascular occlusion. The syndrome has also been reported after infections with coxsackie, echovirus and Shigella. • tumours • pregnancy • ciclosporin, the Pill • systemic lupus erythematosus • HIV • Inherited recurrent HUS has been described with both dominant and recessive patterns of inheritance Investigations • full blood count: anaemia, ↓↓Serum haptoglobins (which bind haemoglobin), thrombocytopaenia, fragmented blood film The hallmark of HUS is the appearance of schistocytes (fragmented, deformed, irregular, or helmet shaped red cells) on the blood film. • There is normal coagulation and fibrinogen. • U&E: acute renal failure • stool culture Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Major differential diagnosis is: Sepsis with DIC - presents with abnormalities of clotting parameters. TTP - thrombotic thrombocytopenic purpura presents with microangiopathic haemolytic anaemia, thrombocytopenic purpura, neurologic abnormalities, fever, and renal disease. Patients with TTP lack a plasma protease that is responsible for the breakdown of von Willebrand factor (vWF) multimers and these accumulate in the plasma. The activity of this protease is normal in patients with HUS. Until the test for vWF protease activity becomes available, differentiation between HUS and TTP is based on the presence of central nervous system involvement in TTP and the more severe renal involvement in HUS. In HUS 90% of patients are children and a history of prodromal diarrhoeal illness is more common. feature HUS TTP Acute kidney injury more severe Less severe Neurological symptoms less common More common Complications include: • Stroke, seizure and coma occur in 25% of patients • Rarely pancreatitis, and • Pleural and pericardial effusions. • Approximately 5% of patients will develop end stage renal failure. Management • treatment is supportive e.g. Fluids, blood transfusion and dialysis if required • there is no role for antibiotics, despite the preceding diarrhoeal illness in many patients • the indications for plasma exchange in HUS are complicated. As a general rule plasma exchange is reserved for severe cases of HUS not associated with diarrhoea • Non-steroidal anti-inflammatory drugs and anti-diarrhoeals should be avoided Prognosis • Most children recover spontaneously from the illness, but mortality may be high in the elderly. • Unfortunately fatality rates from HUS remain high, at between 5 and 10%. MRCPUK- part-1- September 2012 exam: H/O bloody diarrhea and dehydration + ↓Platelet , ↑WBC, ↑urea & creatinine. Given the likely diagnosis, which organism is the most likely cause? E. coli MRCPUK- part-1- May 2010 exam: Feature of diarrhoea , lethargy & acute renal failure. There is a known local outbreak of E coli 0157:H7. Given the likely diagnosis, which one of the following investigation results would be expected? Fragmented red blood cells (∆ haemolytic uraemic syndrome ) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Renal tubular defects • thick ascending limb of Henle's loop: Bartter syndromes are renal tubular salt-wasting disorders in which the kidneys cannot reabsorb chloride in the thick ascending limb of Henle's loop • distal convoluted tubule: Gitelman syndrome are renal tubular salt-wasting disorders in which the kidneys cannot reabsorb chloride due to defect of thiazide-sensitive Na-CI cotransporter in the distal convoluted tubule • proximal tubule: Carbonic anhydrase is expressed in the proximal tubule and is inhibited by acetazolamide; this is manifested biochemically by normal anion-gap metabolic acidosis Fanconi syndrome refers to a proximal tubular defect that results in wasting of phosphate, calcium and amino acids . seen in:  cystinosis  myeloma kidney  Wilson's disease • collecting ducts : Aquaporin channels are expressed in the cortical collecting ducts and are involved in water handling; defects result in diabetes insipidus You may find it useful to remember the location of the nephron defects in these conditions as being alphabetical, i.e. Bartter affects the thick ascending limb, Gitelman affects distal tubule and Liddle syndrome affects the collecting ducts. BGL is in alphabetical order, as is the order of the affected location in the nephrons. Fanconi syndrome Pathophysiology • Autosomal recessive • Generalised dysfunction of the proximal tubule, with the resultant urinary loss of bicarbonate, calcium, phosphate, urate, amino acids, glucose, and other organic acids and bases. • The proximal convoluted tubule cells are unable to reabsorb HCO3- leading to increased HCO3- excretion in the urine →Type 2 (proximal) renal tubular acidosis (RTA) Causes • Inherited disorders Cystinosis (most common cause in children) Wilson's disease Type 1 glycogen storage disease • Sjogren's syndrome • Multiple myeloma • Nephrotic syndrome • Drugs: e.g. Rifampicin , Expired tetracycline antibiotics, aminoglycosides • Heavy metal poisoning (e.g., lead, cadmium, mercury) • Ischemia (acute tubular necrosis) • Amyloidosis • Vitamin D deficiency • Paroxysmal nocturnal haemoglobinuria Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Feature • Polyuria, aminoaciduria, Glucosuria despite normal or low serum glucose • Phosphaturia → Hypophosphatemia • Hypouricemia • In children → growth retardation, renal rickets • Metabolic acidosis • Osteomalacia Treatment • Replacement of lost electrolytes including potassium, phosphate, bicarbonate. • Treatment of the cause Fanconi syndrome • Renal proximal convoluted tubular dysfunction. • Symptoms: Failure to thrive (poor growth), hypokalaemia (muscle weakness or spasms, fatigue, palpitations), and hypophosphatemia (rickets, abnormal growth). Bartter and Gitelman syndromes Definition • Bartter and Gitelman syndromes are an autosomal recessive renal tubular defects result in hypokalemic salt-losing (ie, salt-wasting). Pathophysiology • Gitelman syndrome: a loss of function mutation defect in thiazide-sensitive Na-CI cotransporter in the distal convoluted tubule • Bartter syndrome: a loss of function mutation defect in sodium chloride reabsorption in the thick ascending limb of Henle's loop (NKCC2) • Hypokalemia, hypochloraemic metabolic alkalosis, polyuria, low to normal blood pressure, all result from impaired sodium chloride reabsorption. • Renal biopsy →Hyperplasia of the juxtaglomerular apparatus is characteristic Similar features (both Bartter and Gitelman) • Often asymptomatic • fatigue, cramps and weakness. • Salt craving, thirst, polydipsia, polyuria and nocturia. • Normotensive hypokalaemic metabolic alkalosis • ↑sodium loss in the urine →volume depletion, → ↑serum renin and aldosterone → potassium loss in the urine Different features (which may differentiate Bartter from Gitelman) • Gitelman: most common, present in adolescence and early adulthood, has milder symptoms,  pseudogout hypocalciuria severe hypomagnesemia. • Bartter: present in children or early adolescence, has more severe symptoms, sensorineural deafness hypercalciuria and normal or mild hypomagnesemia. increased prostaglandin E2 (PGE2) production Diagnosis approach • Step 1: suspicion: Bartter or Gitelman syndrome should be suspected in any patient with unexplained hypokalemia, metabolic alkalosis, and a normal or low blood pressure. • Step 2 : exclude other more common causes of these findings, in particular diuretic and/or laxative abuse and surreptitious vomiting → Urine diuretic screen. • Step 3: spot urine chloride (repeated several times) consistently high (>20 mEq/L) in Bartter and Gitelman syndromes. consistently low (<20 mEq/L) with vomiting fluctuates between low and high with intermittent (and surreptitious or denied) diuretic use (high when the diuretic effect is present and low when it dissipates). • Step 4: genetic testing Distinguishing Bartter syndrome from Gitelman syndrome Bartter syndrome Gitelman syndrome SLC12A1 (Bartter syndrome type I) SLC12A3 Gene affected 1 in a million. 1 in 40,000 prevalence Thiazide-sensitive Na-CI cotransporter in the distal convoluted tubule Site of defect present in adolescence and early adulthood Presentation ) milder symptoms ( Concentrating capacity reduced and diluting capacity reduced Concentrating capacity normal/near normal and diluting capacity reduced Concentrating and diluting abilities Increased (hypercalciuria) Reduced (hypocalciuria) Urinary calcium either normal or mildly reduced severe hypomagnesemia is common Serum magnesium Treatment (for Bartter or Gitelman syndrome) • First line: Electrolyte supplementation (sodium, potassium, and magnesium salts) • Second line: Potassium-sparing diuretics that inhibits distal sodium-potassium exchange, such as spironolactone, eplerenone, or amiloride. • Third-line: NSAIDs or ACE inhibitors Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sodium chloride reabsorption in the thick ascending limb of Henle's loop (NKCC2) Most cases are discovered in infancy or early adolescence (more severe symptoms) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Locations of renal tubular defects SAME: Syndrome of Apparent Mineralocorticoid Excess The effects of Gitelman syndrome are similar to those of a thiazide diuretic. The effects of Bartter syndrome are similar to those of a loop diuretic. Loop diuretics work by inhibiting NKCC2- Think of Barters syndrome as like taking large dose of furosemide. Gitelman's syndrome: Normotensive hypokalaemic metabolic alkalosis with Hypocalciuria and significant hypomagnesaemia. The hypokalemia with normal blood pressure in a middle aged male without any skeletal abnormalities or retardation would suggest a diagnosis of Gitelman syndrome rather than Bartter’s syndrome. Bartter syndrome: Normotensive hypokalaemic metabolic alkalosis with hypercalciuria, normal or mild hypomagnesaemia, metabolic alkalosis. Renal tubular defects Causes Defect Effect Note Bartter syndrome Autosomal recessive Reabsorption defect in thick ascending loop of Henle (affects Na+ /K+/2 Cl – cotransporter) Gitelman syndrome Autosomal recessive Reabsorption defect of NaCl in distal convoluted tubule Liddle syndrome Autosomal dominant Gain of function mutation →Na+ channel degradation → ↑Na+ reabsorption in collecting tubules Fanconi syndrome Hereditary defects (eg, Wilson disease, tyrosinemia, glycogen storage disease), ischemia, multiple myeloma, nephrotoxins/drug s (eg, cisplatin), lead poisoning Generalized reabsorption defect in PCT excretion of amino acids , glucose, HCO3 –, and PO43 –, and all substances reabsorbed by the PCT Syndrome of Apparent Mineralocortid Excess (SAME) Autosomal recessive OR acquired from glycyrrhetinic acid (present in liquorice), which blocks activity of 11β-hydroxy steroid dehydrogenase Cortisol activates mineralocorticoid receptors;11β-HSD converts cortisol to cortisone (inactive on these receptors) Hereditary 11βHSD deficiency →↑cortisol →↑mineralocorticoi d receptor activity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Normotensive hypokalaemic metabolic alkalosis hypercalciuria Presents similarly to chronic loop diuretic use Normotensive hypokalaemic metabolic alkalosis, hypomagnese mia, hypocalciuria Presents similarly to life-long thiazide diuretic use Less severe than Bartter syndrome Hypertensive hypokalaemic metabolic alkalosis, ↓aldosterone Presents similarly to hyperaldosteronism, but aldosterone is nearly undetectable. Treatment: amiloride Hypokalemic metabolic acidosis (proximal RTA), hypophosphat emia Growth retardation and rickets/ osteopenia common due to hypophosphatemia Volume depletion also common Hypertensive hypokalaemic metabolic alkalosis, ↓aldosterone, Cortisol tries to be the SAME as aldosterone Treatment: K+- sparing diuretics (↓mineralocorticoid effects) or corticosteroids (exogenous corticosteroid →↓ endogenous cortisol production →↓ mineralocorticoid receptor activation) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Liddle's syndrome Pathophysiology • Autosomal dominant (gain of function mutation) → ↑activity of Epithelial Sodium Channels (ENaC) → ↑reuptake of water and sodium → activation of sodium/potassium exchange independent of circulating mineralocorticoid (pseudohyperaldosteronism). Diagnostic features • Hypertension • Hypokalaemia • Metabolic alkalosis • Decreased renin and aldosterone levels Treatment • Amiloride: Potassium-sparing diuretics: acts directly on the sodium channel → ( epithelial sodium channel (ENaC) antagonists) • Spironolactone is not an effective treatment as the increased activity of the ENaC is not mediated by aldosterone. Top Tips hypokalaemic alkalosis + suppressed renin and aldosterone + hypertension →Liddle’s syndrome The clinical features of Liddle syndrome are similar to those of hyperaldosteronism, except that Liddle syndrome manifests with decreased renin and aldosterone levels. Glomerulonephritides Knowing a few key facts is the best way to approach the difficult subject of glomerulonephritis: Membranous glomerulonephritis • presentation: proteinuria / nephrotic syndrome / chronic kidney disease • cause: infections, rheumatoid drugs, malignancy • 1/3 resolve, 1/3 respond to cytotoxics, 1/3 develop chronic kidney disease IgA nephropathy - aka Berger's disease, mesangioproliferative GN • typically young adult with haematuria following an URTI Diffuse proliferative glomerulonephritis (DPGN) 042 - Pages 1026-1050 042 Pages 1026-1050 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • classical post-streptococcal glomerulonephritis in child • presents as nephritic syndrome / acute kidney injury • The following features are supportive of diagnosis: haematuria proteinuria oedema hypertension • most common form of renal disease in SLE • In DPGN, more than 50% of the glomeruli (diffuse) show an increase in mesangial, epithelial, endothelial (proliferative), and inflammatory cells (ie, glomerulonephritis). (Increased cellularity) • when < 50% of the glomeruli are involved, the condition is termed focal proliferative glomerulonephritis. However, this entity has the potential to progress to DPGN. Minimal change disease • typically a child with nephrotic syndrome (accounts for 80%) • causes: Hodgkin's, NSAIDs • good response to steroids Focal segmental glomerulosclerosis • may be idiopathic or secondary to HIV, heroin • presentation: proteinuria / nephrotic syndrome / chronic kidney disease Rapidly progressive glomerulonephritis - aka crescentic glomerulonephritis • rapid onset, often presenting as acute kidney injury • causes include Goodpasture's, ANCA positive vasculitis Mesangiocapillary glomerulonephritis (membranoproliferative) • type 1: cryoglobulinaemia, hepatitis C associated with low C4 • type 2: partial lipodystrophy associated with low C3 • C3 nephritic factor is an autoantibody specific for alternative pathway C3 convertase (C3NeF), found in mesangiocapillary GN type II and partial lipodystrophy. Diagnosis • Renal biopsy is the best investigation to diagnose Glomerulonephritis • RBC casts in urinary sediment suggest a diagnosis of acute glomerulonephritis (Acute nephritic syndrome) • Immune complex glomerulonephritides can be classified based on normal or decreased C3. Associated with reduced C3 and C4  Cryoglobolinaemia  Infective endocarditis  lupus nephritis Associated with reduced C3.  membranoproliferative GN  post-streptococcal GN Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Glomerulonephritis and low complement Disorders associated with glomerulonephritis and low serum complement levels: post-streptococcal glomerulonephritis subacute bacterial endocarditis systemic lupus erythematosus mesangiocapillary glomerulonephritis MRCPUK-part-1-May 2014 exam: A patient of SLE present with pedal oedema , ↑ BP. Dipstick urine shows protein ++, blood+++.What is the renal biopsy most likely to show? Diffuse proliferative glomerulonephritis (Diffuse proliferative glomerulonephritis is the most common and severe form of renal disease in SLE patients.) Minimal change disease Epidemiology • accounting for 75% of cases in children and 25% in adults. • peak incidence 2-3 years of age Causes • 90% of cases are idiopathic • Other causes (10 – 20%) drugs: NSAIDs, rifampicin gold and lithium Hodgkin's lymphoma, thymoma infectious mononucleosis Pathophysiology • The glomerular basement membrane is normal on electron microscopy • T-cell and cytokine mediated damage to the glomerular basement membrane → polyanion loss • the resultant reduction of electrostatic charge → increased glomerular permeability to serum albumin Features • nephrotic syndrome nearly always presents as nephrotic syndrome • normotension hypertension is rare (only 10%) • highly selective proteinuria* (*only intermediate-sized proteins such as albumin and transferrin leak through the glomerulus) A protein selectivity index of less than 10% is highly selective and is a ratio of serum and urine IgG and albumin. High selectivity suggests minimal change disease but is less reliable in adults. • Renal biopsy: light microscopy are normal or small looking glomeruli  electron microscopy shows fusion of podocytes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad (Effacement of the epithelial cell foot processes over the outer surface of the GBM) renal biopsy is not indicated unless no response to steroids is seen within one month, there is hypertension, haematuria or renal impairment.  renal biopsy is usually only attempted when three or more episodes of oedema have occurred. 0BPodocytes fusion is seen in minimal change glomerulonephritis but may occasionally be a feature of focal segmental glomerulosclerosis as well. Minimal change however is far more common Management • majority of cases (80%) are steroid responsive shows excellent response to steroids since the damage is mediated by T- cell cytokines. • cyclophosphamide is the next step for steroid resistant cases Immunosuppression treatment (cyclophosphamide) should be considered in patients who are frequent relapsers (two or more episodes in six months of the initial response, or four relapses in any one year, children who are steroid dependent or steroid toxic). Prognosis is overall good • Remission: Full renal recovery is the most likely outcome. In Children:  30 – 40% of children achieve spontaneous remission  and 90% achieve remission following eight weeks treatment with high dose steroids. In adults only around 50% achieve remission. • Relapse is common. Roughly: 1/3 have just one episode 1/3 have infrequent relapses 1/3 have frequent relapses which stop before adulthood Membranous glomerulonephritis • Membranous glomerulonephritis is the commonest type of glomerulonephritis in adults and is the third most common cause of end-stage renal failure (ESRF). • It usually presents with nephrotic syndrome or proteinuria. • It is an antibody mediated disease in which the immune complexes localise to the subepithelial aspect of the capillary loop. That is, between the outer aspect of the basement membrane and the podocyte (epithelial cell). • Males are twice as commonly affected as females • Typically seen in the over 40 age group (Elderly patients) • Most patients have normal blood pressure at the time of the presentation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology • Most of the patients with membranous glomerulonephritis have antibodies against M-type phospholipase A2 receptor. Causes • idiopathic • infections: hepatitis B, hepatitis C , malaria, syphilis , leprosy, HIV, schistosomiasis, • malignancy: lung cancer, non-Hodgkin's lymphomas lymphoma, leukaemia, colon and gastric cancer (30% of membranous nephropathy cases are secondary, of those around a third (10% of the total cases of membranous nephropathy) are diagnosed with an underlying malignancy) (NOTE: In the case of Hodgkin’s lymphoma, the most common histological type of renal involvement is minimal change glomerulonephritis followed by focal segmental glomerulosclerosis). • drugs: gold, penicillamine, NSAIDs , captopril, and heavy metals: mercury and cadmium • autoimmune diseases: systemic lupus erythematosus (class V disease), thyroiditis, rheumatoid • Sickle cell disease. • Diabetes mellitus. Renal biopsy demonstrates: • light microscopy:  diffuse capillary and glomerular basement membrane thickening. • electron microscopy: the basement membrane is thickened with subepithelial electron dense deposits (Thickened capillary loops). This creates a 'spike and dome' appearance • Immune complex  deposition with IgG and C3 Complications • Renal vein thrombosis is particularly likely to complicate membranous glomerulonephritis As the left testicular vein drains into the left renal vein, a left-sided varicocele may develop in this condition. Prognosis • Rule of thirds one-third: spontaneous remission one-third: remain proteinuric one-third: develop ESRF • Good prognostic features include: female sex young age at presentation and asymptomatic proteinuria of a modest degree at the time of presentation. Management: • Immunosuppression: corticosteroids alone have not been shown to be effective. • A combination of corticosteroid + another agent such as chlorambucil is often used Cyclophosphamide plus methylprednisolone is the most appropriate management • blood pressure control: ACE inhibitors have been shown to reduce proteinuria Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ramipril is proven to affect both proteinuria and hypertension in patients with a diagnosis of membranous nephropathy, and is therefore the most likely treatment to affect the patient's prognosis • consider anticoagulation • Approximately 30% of cases are secondary to other conditions, and in those cases treatment of the underlying cause may be curative. MRCPUK-part-1-September 2011 exam: H/O colorectal cancer developed 'frothy' urine. The results suggest nephrotic range proteinuria. Assuming the proteinuria is related to his colorectal cancer what is the renal histology most likely to show? Membranous glomerulonephritis MRCPUK-part-1-May 2012 exam: H/O peripheral oedema with no past medical history of note. His urinary protein is 4.2g/24 hours. BP is 160/92 mmHg. A renal biopsy shows: thickened capillary walls& Subepithelial deposits. Given the likely diagnosis, which one of the following drugs is most likely to be beneficial? ACE inhibitor (∆ membranous glomerulonephritis) IgA nephropathy Basics • also called Berger's disease or mesangioproliferative glomerulonephritis • commonest cause of glomerulonephritis worldwide • thought to be caused by mesangial deposition of IgA immune complexes • there is considerable pathological overlap with Henoch-Schonlein purpura (HSP) • Has a male preponderance • commonly diagnosed in the age range of 20-40. Differentiating between IgA nephropathy and post-streptococcal glomerulonephritis • post-streptococcal glomerulonephritis is associated with low complement levels • main symptom in post-streptococcal glomerulonephritis is proteinuria (although haematuria can occur) • there is typically an interval between URTI and the onset of renal problems in poststreptococcal glomerulonephritis Presentations • young male, recurrent episodes of macroscopic haematuria • Haematuria occurs within 12-24 hours of pharyngitis, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology • typically associated with mucosal infections e.g., URTI , or less commonly infection of other mucous membranes (e.g. GI, bladder, breast). • accompanied also by loin pain, muscle pain and fever. • nephrotic range proteinuria is rare • The majority of patients have normal renal function. • renal failure Associated conditions • Alcoholic cirrhosis (Alcohol excess) (haematuria + alcohol excess IgA nephropathy). • coeliac disease/dermatitis herpetiformis • Henoch-Schonlein purpura Diagnosis • Renal biopsy is the investigation of choice to confirm the diagnosis histology: Mesangial hypercellularity, positive immunofluorescence for IgA & C3 Management • No specific treatment is available. Observation is the most appropriate management • steroids/immunosuppressants not be shown to be useful. Treatment with corticosteroids is usually reserved for those patients with hypertension and a rising creatinine. • When there is nephrotic range proteinuria (>3 g/day) an 8-12 week course of prednisolone should be prescribed. • If the proteinuria is <3 g/day an ACE inhibitor can be used. Prognosis • 30% of children will have a spontaneous remission within 10 years • 25% of patients develop ESRF within 20 years • markers of good prognosis: frank haematuria • markers of poor prognosis: male gender, proteinuria (especially > 2 g/day), hypertension smoking, hyperlipidaemia, ACE genotype DD MRCPUK-part-1-September 2011 exam: A 17-year-old man with several episodes of visible haematuria. occurs within a day or two of URTI . Urine dipstick is normal. What is the most likely diagnosis? IgA nephropathy MRCPUK-part-1-January 2006 exam: A 10-year-old boy with past two days H/O sore throat associated with blood in his urine. glomerulonephritis is suspected. What would a renal biopsy most likely show? Mesangial hypercellularity (∆ IgA nephropathy) MRCPUK-part-1-September 2007 exam: A 12-year-old boy with purpuric rash on the extensor surfaces of his lower legs + abdominal pain and an urticarial rash. Urine dipstick reveals blood ++.What would be the likely finding on renal biopsy? Mesangial hypercellularity (Henoch-Schonlein purpura is associated with IgA nephropathy) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad MRCPUK-part-1-January 2014 exam: A 19-year-old woman C/O painless visible haematuria, occur within a day or two of developing tonsillitis. BP is 148/90 mmHg. Given the likely diagnosis, which marker indicate poor prognosis? Hypertension (∆ IgA nephropathy) MRCPUK-part-1-September 2007 exam: Which one of the following is associated with a better prognosis in patients with IgA nephropathy? Frank haematuria Post-streptococcal glomerulonephritis Overview • Also known as acute proliferative glomerulonephritis • typically occurs 7-14 days following a group A beta-haemolytic Streptococcus infection (usually Streptococcus pyogenes). Acute glomerulonephritis can be caused by both pharyngeal and skin infections with group A beta-haemolytic Streptococcus , but only pharyngeal infections typically lead to acute rheumatic fever. • caused by immune complex (IgG, IgM and C3) deposition in the glomeruli. • type III hypersensitivity reaction. Epidemiology • Young children most commonly affected. Features • general: headache, malaise • haematuria Dark-colored urine is often a presenting sign. • nephritic syndrome • hypertension Investigations • BMP (Basic metabolic panel)  the most important step in the diagnosis BMP to evaluate serum creatinine kidney function is ideal to determine the level of glomerulonephritis in this patient and guide treatment. • low C3 • normal C4 level or only slightly reduced, indicating activation of the alternate complement pathway • Depressed CH 50 level • Raised ASO titer • Renal biopsy post-streptococcal glomerulonephritis causes acute, diffuse proliferative glomerulonephritis endothelial proliferation with neutrophils electron microscopy:  subepithelial 'humps' caused by lumpy immune complex deposits.  The hump-like appearance in subepithelial space is characteristic of post-streptococcal glomerulonephritis.  'Lumpy-bumpy' appearance on immunofluorescence is characteristic. immunofluorescence:  granular or 'starry sky' appearance  There is antibody and compliment deposition on immunostaining. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology light microscopy  'wire-loop' lesions on light microscopy. Treatment • Patients with acute proliferative glomerulonephritis presenting with hypertension are managed with loop diuretics. Prognosis • Carries a good prognosis • Age is the most important prognostic factor in post-streptococcal glomerulonephritis. 95% of affected children recover completely, compared with 25% of adults over 60 years old. Membrano-proliferative glomerulonephritis (MPGN). Overview • also known as mesangio-capillary glomerulonephritis(MCGN), • more recently been termed complement mediated glomerulonephritis. Associations • It is associated with SLE, cryoglobulinaemia with or without hepatitis C, chronic infections (SBE) , neoplasms, hepatitis B, schistosomiasis, malaria and leprosy. General features • may present as nephrotic syndrome, haematuria or proteinuria • Circulating immune complexes are seen • Classically associated with decreased serum C3 (and a normal C4, indicating activation of the alternative pathway of complement). • Hypocomplementemia (Low C3 levels) is a characteristic finding with all types of (MPGN). • appears on light microscopy with "tram-track" capillary loops of glomerular basement membranes. Type 1 • Epidemiology accounts for 90% of cases • histology sub-endothelial immune deposits of electron dense material, Thickening and splitting of the capillary basement membrane (double layer of glomerular basement membrane), resulting in a 'tram-track' appearance • Causes: cryoglobulinaemia (low C3),  hepatitis C (hepatitis C is endemic among the iv drug-users). Hepatitis C is now considered the principal cause of 'idiopathic' mesangiocapillary glomerulonephritis (MCGN), Type 2 • Also known as Dense deposit disease • causes: partial lipodystrophy, factor H deficiency, may be idiopathic or may occur after measles • Features reduced serum complement C3b nephritic factor (an antibody against C3bBb) found in 70% low C3 • Histology 'dense deposit' characterised by mesangial cell proliferation with electron-dense, linear intramembranous deposits that stain positive for C3 (C3 nephritic factor) Type 3 • Subepithelial and subendothelial deposits • causes: hepatitis B and C Management • steroids may be effective Prognosis • poor prognosis MRCPUK-part-1-September 2009 exam: patient of nephrotic syndrome is noted to have marked loss of subcutaneous tissue from the face. What is the most likely underlying cause of her renal disease? Membranoproliferative glomerulonephritis type II (∆ partial lipodystrophy) MRCPUK-part-1-September 2009 exam: A patient develops membranoproliferative glomerulonephritis secondary to partial lipodystrophy. Which type of complement is likely to be low? C3 Rapidly progressive glomerulonephritis (RPGN) Overview • rapid loss of renal function associated with the formation of epithelial crescents in the majority of glomeruli. • results in a rapid decrease in GFR of at least 50% over a short period (a few days to 3 months). • The most aggressive GN, with potential to cause ESRF over days. Causes • Goodpasture's syndrome • Wegener's granulomatosis Types Type I RPGN (~3%): Serum anti-glomerular basement membrane (Anti-GBM) antibody is positive. Antibody deposits along the glomerular basement membrane in a linear fashion. Example: Goodpasture syndrome. Type II RPGN: Immune complex disease (~45% of cases): (Anti-GBM) antibody is negative, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • others: SLE, microscopic Polyarthritis • secondary syphilis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology but irregular immune complex (antibody-antigen) deposits are found within the glomeruli. Example: lupus nephritis and post-streptococcal glomerulonephritis. 3. Type III RPGN: (Pauci-immune disease (~50% of cases, 80–90% ANCA +ve): Serum anti-neutrophil cytoplasmic (ANCA) antibodies are positive. Negative immunofluorescence. Example: Wegener granulomatosis and microscopic polyangiitis. Features • nephritic syndrome: haematuria with red cell casts, proteinuria, hypertension, oliguria • features specific to underlying cause (e.g. haemoptysis with Goodpasture's, vasculitic rash or sinusitis with Wegener’s Investigations • Immunofluorescence detects deposits of IgG and C3 in the glomerular BM • The main pathological finding is fibrinoid necrosis ˃ 90% of biopsy specimens with extensive crescent formation in at least 50% of the glomeruli. These crescents are collections of epithelial cells and macrophages proliferation within the Bowman’s space. Treatment • Aggressive immunosuppression with high-dose IV steroids and cyclophosphamide • +/- plasma exchange. Prognosis: • 5-year survival 80%. MRCPUK-part-1-January 2012 exam: H/O chronic sinusitis, haemoptysis and microscopic haematuria. cANCA (PR3)= Positive. Given the likely diagnosis, what findings would be expected on renal biopsy? Crescentic glomerulonephritis Focal segmental glomerulosclerosis (FSGS) Overview • cause nephrotic syndrome and chronic kidney disease. • In FSGS, as the name suggests, only some glomeruli are affected (focal) and just some of the affected glomeruli are diseased (segmental). • cholesterol levels rise due to increased cholesterol synthesis in the liver and the loss of lipid-regulating proteins in urine Epidemiology • generally presents in young adults. • the second most common cause of nephrotic syndrome in adults, after membranous glomerulonephritis (GN) • The most common cause of nephrotic syndrome in Hispanic and African-Americans • Incidence: 40% in adults. 20% in children Pathophysiology • Caused by an injury to podocytes in the renal glomeruli. Causes • idiopathic (in 80%) • secondary to other renal pathology e.g. IgA nephropathy, reflux nephropathy • HIV'collapsing glomerulopathy' The most common type of (HIV-associated nephropathy) is a collapsing (FSGS). • intravenous drug use Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • heroin • Alport's syndrome • sickle-cell • associated with severe obesity • medications: Interferon alfa, lithium, sirolimus, and pamidronate. Histology • histology may appear normal and may be confused with minimal change nephropathy • deep glomeruli at the corticomedullary junction are affected first, these may be missed on transcutaneous biopsy, leading to a mistaken diagnosis of a minimal change glomerular lesion • light microscopy Segmental sclerosis and hyalinosis • Immunofluorescence microscopy usually unremarkable. Immunofluorescence is negative because there is no antibody or immune complex deposition. biopsy will show partial scarring of the glomerulus with no immunofluorescence. • Electron microscopy The hallmark pathologic feature is podocyte foot processes fusion. can distinguish primary from secondary FSGS. Foot process fusion is diffuse in primary FSGS but is mostly limited to sclerotic areas in secondary FSGS. • fibrinogen are deposited in juxtamedullary capillaries Treatment • 50% of (FSGS) do not respond to steroid • The first line of management is glucocorticoids. • (ACE) inhibitors are a recognised strategy to slow the progression of renal disease. Prognosis • It leads to chronic renal failure in 50% of cases. • typically progresses to renal failure over a 6–8 year period. • 2% of dialysis patients have FSGS. • have a high recurrence rate in renal transplants FSGS recurs in 40% of renal transplants January 2011 exam: A patient with H/O heroin abuse, his creatinine = 156, urine show = ++ protein. What is the most likely cause of his deteriorating renal function? Focal segmental glomerulosclerosis (Heroin is a known cause of focal segmental glomerulosclerosis) Goodpasture's syndrome Goodpasture's syndrome is characterised by pulmonary haemorrhage and crescentic glomerulonephritis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Definition • Goodpasture's syndrome is rare condition associated with both pulmonary haemorrhage and rapidly progressive glomerulonephritis. Epidemiology • more common in men (sex ratio 2:1) • has a bimodal age distribution (peaks in 20-30 and 60-70 age bracket). Genetics • associated with HLA DR2 • p-ANCA positive in 30% and is directed against myeloperoxidase. Pathophysiology • It is a type II cytotoxic reaction caused by anti-glomerular basement membrane (anti-GBM) antibodies against the α 3 chain of type IV collagen (basement membrane of both the kidneys and lungs). • Goodpasture syndrome is due to IgG antibodies produced against the basement membrane causing damage via a type II hypersensitivity reaction. Features • pulmonary haemorrhage respiratory symptoms can vary from minimal hemoptysis to massive alveolar hemorrhage, leading to respiratory failure. In lungs, this is a type 2 hypersensitivity reaction.  Hemoptysis is a clinical feature of Goodpasture's syndrome due to cross reaction of anti-glomerular basement membrane antibodies at the lungs. cough Fever • followed by rapidly progressive glomerulonephritis (RPGN) (Renal impairment is caused by a crescentic glomerulonephritis) haematuria proteinuria, and red cell casts. Factors which increase likelihood of pulmonary haemorrhage • normally, the alveolar epithelium prevents contact of antibody with basement membrane collagen, thus any condition that increases permeability of alveoli can cause triggering of this syndrome. Such susceptibility factors include: smoking lower respiratory tract infection pulmonary oedema inhalation of hydrocarbons and toxic gases • young males Investigations • serological testing (for anti-GBM antibodies) • biopsy from kidney rather than lung. Renal biopsy:  linear IgG deposits along basement membrane (the most likely finding on renal biopsy Linear immunofluorescence) Lung biopsy  linear staining of IgG along the alveolar capillary basement membranes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  disruption of alveolar septa and haemosiderin-laden macrophages because there may be pulmonary haemorrhage associated with the condition. • raised transfer factor secondary to pulmonary haemorrhages. • Serial measurement of carbon monoxide (CO) diffusing capacity or transfer factor (Tlco) can be used to monitor progression, Management • General management ABC  If the patient is hypoxic intubate and mechanically ventilate the patient. Patients should not smoke and should avoid hydrocarbon exposure. • The most appropriate initial management IV methylprednisolone and cyclophosphamide • plasma exchange (plasmapheresis) Where there is severe haemoptysis, rapid removal of anti-GBM antibody is indicated, and the best way to do this is by plasmapheresis at a specialist centre. This is usually accompanied by pulsed therapy with IV methylprednisolone and cyclophosphamide. • steroids • cyclophosphamide Response is assessed by monitoring symptoms and anti-GBM antibody titres. Cyclophosphamide and prednisolone continued, typically for 6 - 9 months following remission. In the acute setting, treatment is focused on: managing life threatening complications of renal failure, such as hyperkalaemia  haemodialysis. Removing the circulating auto-antibody responsible for disease plasmapharesis (therapeutic plasma exchange), the most important management step in the next few days after haemodialysis Prognosis: • Despite treatment, the mortality of Goodpasture's is 11% and it has a high morbidity with 60% of patients becoming dependent on dialysis. • In practice, glomerulonephritis proves to be a much commoner threat to survival than lung haemorrhage, Other causes of raised anti-GBM antibody levels: • Some healthy individuals exposed to inhaled oils,hydrocarbons or solvents can have borderline raised anti-GBM antibody levels. • Anti-GBM antibodies have also been detected in HIV-negative patients with Pneumocystis pneumonia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Nephrotic syndrome Triad of: • Proteinuria (> 3g/24hr) (The minimum proteinuria which is defined as 'nephrotic' is 300 mg/mmol) causing  • Hypoalbuminaemia (< 30g/L) and • Oedema Other features: • Loss of antithrombin-III, proteins C and S and an associated rise in fibrinogen levels predispose to thrombosis. • Loss of thyroxine-binding globulin lowers the total, but not free, thyroxine levels. • Increased serum cholesterol ↑(LDL)  LDL and VLDL are removed from serum by lipoprotein signals. If the lipoprotein is lost in the urine with nephrotic syndrome, then the lipid levels in the blood rise. HDL is usually normal • ↓↓Ca & vit D (loss of 25-hydroxyvitamin D3 (25OHD3) in the urine hypocalcaemia ) • Serum C3 levels are decreased in immune complex-mediated glomerulonephritis Nephrotic Nephritic Common primary causes Membranous Minimal change FSGS Mesangiocapillary GN IgA nephropathy Mesangiocapillary GN Common secondary causes Diabetes SLE (class V nephritis) Amyloid Hepatitis B/C Post streptococcal Vasculitis SLE (other classes of nephritis) Anti-GBM disease (Figs 1 & 2) Cryoglobulinaemia BP Normal–mild ↑ Moderate–severe ↑ Urine Proteinuria >3.5g/day Haematuria (mild–macro) GFR Normal–mild ↑ Moderate–severe ↓ Causes Nephrotic syndrome - malignancies cause membranous glomerulonephritis • glomerulonephritis accounts for around 80% of cases minimal change glomerulonephritis (causes 80% in children, 30% in adults) membranous glomerulonephritis focal segmental glomerulosclerosis (FSGS).  Patients presenting with isolated heavy proteinuria without the other components of nephrotic syndrome is more likely due to (FSGS). membranoproliferative glomerulonephritis • Systemic disease (about 20%) diabetes mellitus  (Diabetic nephropathy often presents as nephrotic syndrome but typically develops at least 15 years after onset). systemic lupus erythematosus amyloidosis ( in patient with chronic inflammatory state , amyloidosis is the likely cause of NS) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Drugs gold (sodium aurothiomalate), penicillamine • Others congenital neoplasia: carcinoma, lymphoma, leukaemia, myeloma  Chronic lymphocytic leukemia (CLL) and Non-Hodgkin's lymphoma (NHL) are the most common hematologic malignancies associated with glomerular diseases.  Membranoproliferative glomerulonephritis (MPGN) are most common glomerular disease associated with CLL and NHL  the most common renal lesion associated with Hodgkin's disease is minimal change disease infection: bacterial endocarditis, hepatitis B, malaria ( commonly plasmodium malariae) Investigations • Renal biopsy • Contraindications for renal biopsy: Abnormal clotting Hypertension >160/>90mmHg Single kidney (except for renal transplants) Chronic kidney disease with small kidneys (<9cm) Uncooperative patient Horseshoe kidney Renal neoplasms. Serum electrophoresis in nephrotic syndrome • ↑serum α- and β-globulin fractions. (The increase in globulin fractions is thought to occur due to increased synthesis in patients with urinary protein loss) Increased α1 and α2-globulin fractions, decreased serum albumin • A monoclonal paraprotein band will be present where myeloma is the underlying cause, • there may be associated immune paresis with reduced concentrations of one or more of the immunoglobulins IgG, IgA or IgM Complications • increased risk of infection in particular pneumococcal infections due to urinary immunoglobulin loss and decreased splanchnic blood flow. • Increased risk of thromboembolism related to loss of antithrombin III and plasminogen in the urine , increased fibrinogen and increased factor VIIIc. Renal vein thrombosis occurs in 15-20% of patients with nephrotic syndrome Renal vein thrombosis  Occurs in 10-20%  Feature often clinically silent , (loin pain + haematuria) and acute renal injury  Initial investigation US (swollen oedematous kidney)  Diagnosis Duplex US renal veins, CT or MRV  Treatment long term anticoagulation. • hyperlipidaemia • hypocalcaemia (vitamin D and binding protein lost in urine) • acute renal failure • Intravascular volume depletion :Hypoalbuminaemia results in decreased intravascular oncotic pressure, leading to leakage of extracellular fluid from blood to the interstitium Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Treatment • In general, steroids are tried first and then second line agents such as cyclosporin and cyclophosphamide are introduced if needed. • Cyclophosphamide is the best treatment for steroid-dependent nephrotic syndrome No more than two courses of cyclophosphamide should be prescribed in children because of the risk of side effects, which include azoospermia An alternative to cyclophosphamide is ciclosporin, which is effective but must be continued long-term to prevent relapse on stopping treatment. Ciclosporin is also potentially nephrotoxic MRCPUK-part-1-January 2006 exam: What changes in patients with nephrotic syndrome predispose to the development of venous thromboembolism? Loss of antithrombin III Which finding would support a diagnosis of a protein losing enteropathy rather than nephrotic syndrome? Low total cholesterol  The pathophysiology of protein loss in protein-losing gastroenteropathy is different from that in glomerular diseases. In glomerulopathies, protein loss is determined by molecular weight and charge. By contrast, the leakage of individual serum proteins in patients with proteinlosing gastroenteropathy is independent of molecular weight.  For this reason, cholesterol levels are low, in contrast to nephrotic syndrome where cholesterol levels are high (due to the molecular weight of cholesterol). Analgesic nephropathy • common in women , F : M = 2: 1 , and presents most often in middle age • caused by non-steroidal anti-inflammatory drugs (NSAIDs) for chronic pain or headache, • Characteristically, associated with phenacetin use, particularly in Australia and New Zealand • features may include anaemia, chronic renal failure, symptoms of urinary tract infection, haematuria or hypertension. • Complications Urinary tract malignancy (8-10% of patients with analgesic nephropathy), For example, in women under the age of 50 analgesic abuse is the most common cause of bladder cancer. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Renal stones • The most common stones are calcium oxalate stones followed by calcium phosphate. • Calcium phosphate stones are seen in renal tubular acidosis (RTA). Risk factors • dehydration • hypercalciuria, hyperparathyroidism, hypercalcaemia • cystinuria ( AR defect in dibasic amino acid transporter) • high dietary oxalate. hyperoxaluria (for example, XS intake, ileal disease and bypass) • renal tubular acidosis => (Calcium phosphate stones) • medullary sponge kidney, polycystic kidney disease • beryllium or cadmium exposure • Chronic infection with urea splitting organisms: causes stones made of magnesium ammonium phosphate and calcium phosphate (infection stones (5%) • Familial : Idiopathic hypercalciuria inherited as autosomal dominant whereas cystinuria, cystinosis, urate uropathy and hyperoxaluria are autosomal recessive conditions. the most common cause being increased gastrointestinal (GI) absorption of calcium. The most common stones are calcium oxalate stones. • there appears to be a male predominance with a 2:1 ratio. Risk factors for oxalate stones (Calcium oxalate) • foods high in oxalate, (such as spinach, rhubarb and tea) In patients who have oxalate kidney stones, dietary restrictions are necessary. Foods that should be avoided include: spinach, nuts, chocolate, dry beans, rhubarb and strawberries. • calcium-restricted diet • gastrointestinal disease such as Crohn's which increase colonic oxalate absorption in malabsorption, the calcium in the small bowel is bound by the unabsorbed excess fatty acids. Oxalates are left free and are excessively absorbed. Subsequently, they can deposit in the kidney to form stones. • enteric oxaluria may occur in a number of disorders in which malabsorption results in excessive colonic absorption of oxalate. These include: Coeliac disease Crohn's disease Chronic pancreatitis, and Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Short bowel syndrome.  Bile salts in the colon increase oxalate absorption. • Excess vitamin C can be converted to oxalic acid in the body. Subsequent hyperoxaluria can lead to the formation of a kidney stone. Primary hyperoxaluria • inherited enzyme deficiency that leads to excessive metabolism of oxalate. • There are three types: types I and III are due to an enzyme defect in the liver glyoxalatepathway Type I is the commonest and results in widespread calcium oxalate deposition throughout the body. in type II there is failure of reduction of glyoxalate to glycolate. • Treatment is aimed at increasing urinary pH to make calcium oxalate more soluble. This is by administering supplemental citrate and magnesium. • Renal insufficiency is common, and patients require a combined liver and kidney transplant in type I disease. Risk factors for urate stones • gout • ileostomy: loss of bicarbonate and fluid results in acidic urine, causing the precipitation of uric acid • high purine intake, • High cell turnover. (for example, haematological malignancy). Primary polycythaemia would predispose to uric acid stone formation, whereas secondary polycythaemia does not. • Dehydration • Thiazide diuretics cause hyperuricaemia and can predispose to hyperuricosuria and uric acid stone formation. Stag-horn calculi (Triple phosphate stones: magnesium ammonium phosphate): • involve the renal pelvis and extend into at least 2 calyces. • They develop in alkaline urine and are composed of struvite (ammonium magnesium phosphate, triple phosphate). • Urea plasma urea lyticum and Proteus infections predispose to their formation Proteus produces urease, which leads to hydrolysis of urea to produce ammonia, this leads to precipitation of organic and inorganic salts, one of which is known as struvite, or magnesium ammonium phosphate • classically produced by urea splitting organisms such as Klebsiella or Proteus. Drug causes • drugs that promote calcium stones: loop diuretics, steroids, acetazolamide, theophylline • topiramate (anti-epileptic) increase the propensity to form calcium phosphate stones. • thiazides can prevent calcium stones (increase distal tubular calcium resorption) Renal conditions associated with recurrent urinary tract infections: • Reflux nephropathy. • Renal stone (but is less likely than reflux nephropathy) Hypercalcuria Thiazide diuretics reduce renal tubular calcium excretion, and therefore can prevent calcium stone formation. • high urine calcium that is not due to hypercalcemia (idiopathic hypercalciuria) • Idiopathic hypercalciuria is often familial, the most common cause being increased gastrointestinal absorption of calcium. • predisposes to stone formation. • The 24-hour urine is an essential component of the initial evaluation and guides recommendations for prevention • Treatment including dietary calcium restriction and pharmacological management. • Both thiazide diuretics and potassium citrate can be used to reduce urinary excretion of calcium. Potassium citrate is generally preferred as it has fewer side effects, and is therefore better tolerated. • Thiazide diuretics are the drug treatment of choice as they act directly on the renal tubule to reduce urinary calcium excretion ( there is a disagreement between onexamination and pastest in which drug is better for hypercalcuria? But after thorough review of sources and uptodate, thiazide is a better choice than potassium citrate) • Dietary calcium restriction alone has minimal effect on calciuria, given the large amount of calcium that can be mobilised from bone.. • Loop diuretics increase urinary excretion of calcium, and therefore would exacerbate calcium renal stone formation. • Pencillamine is used in the management of hypercalcuria associated with Wilson's disease • Idiopathic hypercalciuria has a familial or sporadic pattern. In the familial pattern an autosomal dominant inheritance is present. The type of the disease is identical in affected members of the same family and the typical presentation is of recurrent urinary calculi. Imaging The table below summarises the appearance of different types of renal stone on x-ray Type Frequency Radiograph appearance Calcium oxalate (the most common) Mixed calcium oxalate/phosphate stones Triple phosphate stones 10% Opaque Calcium phosphate 10% Opaque Urate stones 5-10% Radio-lucent Cystine stones 1% Semi-opaque, 'ground-glass' appearance Xanthine stones <1% Radio-lucent • patients presenting to the Emergency Department usually have a KUB x-ray (shows 60% of stones) • the imaging of choice is a non-contrast CT (NCCT). 99% of stones are identifiable on NCCT. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 40% Opaque 25% Opaque Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Imaging (European Association of Urology guidelines 2016) • Ultrasound (US) should be used as the primary diagnostic imaging tool. US is safe (no risk of radiation), reproducible and inexpensive. US has a sensitivity of 45% and specificity of 94% for ureteric stones and a sensitivity of 45% and specificity of 88% for renal stones. the preferred method of imaging in pregnant women. • KUB (kidney-ureter-bladder radiography) x-ray The sensitivity: 44-77% and specificity: 80-87%. should not be performed if NCCT is considered. KUB is helpful in differentiating between radiolucent and radiopaque stones and be used for comparison during follow-up. • Non-contrast CT (NCCT) (Non-contrast helical CT kidneys, ureters and bladder (CT KUB)) The imaging of choice is a non-contrast CT (NCCT). become the standard for diagnosing acute flank pain 99% of stones are identifiable on NCCT. Following initial ultrasound assessment, use non-contrast-CT to confirm stone more accurate than intravenous urography (IVU), so has replaced it. • Imaging in pregnant women first-line ultrasound as the preferred method of imaging second-line magnetic resonance imaging (MRI) last-line option low-dose computed tomography (CT) Management Acute management of renal colic Medication • the British Association of Urological Surgeons (BAUS) recommend diclofenac (intramuscular/oral) as the analgesia of choice for renal colic* *Diclofenac use is now less common following the MHRA warnings about cardiovascular risk. It is therefore likely the guidelines will change soon to an alternative NSAID such as naproxen • BAUS also endorse the widespread use of alpha-adrenergic blockers to aid ureteric stone passage • Stones < 5 mm will usually pass spontaneously. • Lithotripsy and nephrolithotomy may be for severe cases. Prevention of renal stones Calcium stones may be due to hypercalciuria, which is found in up to 5-10% of the general population. • high fluid intake the main initial treatment should aim for a daily urinary output in excess of 2000 ml. • low animal protein, low salt diet (a low calcium diet has not been shown to be superior to a normocalcaemic diet) • thiazides diuretics (increase distal tubular calcium resorption) and hence lower calcium concentration in the urine. Oxalate stones • cholestyramine reduces urinary oxalate secretion • pyridoxine reduces urinary oxalate secretion • High fluid intake and calcium carbonate are mainstay of prevention. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Avoid foods high in oxalate such as chocolate, rhubarb and nuts . • Increasing dietary calcium intake decreases urinary oxalate excretion by reducing absorption (as free oxalate is bound). • Other treatments which can help enteric hyperoxaluria include: Calcium, cholestyramine and magnesium - bind strongly to free intestinal oxalate, preventing absorption. Iron and aluminium - act as intestinal oxalate binding agents. Potassium citrate - alkalinises the urine, which reduces urinary oxalate excretion.  propensity to form stones is reduced when citrate intake is increased. Uric acid stones • allopurinol • urinary alkalinization e.g. oral bicarbonate • Reducing intake of offal is most helpful at reducing urate excretion Contraindications to lithotripsy • absolute contraindication uncorrected bleeding disorder • relative contraindications Ureteric stricture, UTI and cardiac pacemaker MRCPUK-part-1-September 2008 exam: What is the most likely composition of a staghorn calculus? Struvite MRCPUK-part-1-September 2012 exam: What are stag-horn calculi normally composed of? Magnesium ammonium phosphate Cystinuria • The commonest inborn error of amino acid transport. • Amino acids excreted in urine are cystine, ornithine, arginine and lysine (mnemonic - COAL). • The glomerulus is unable to resorb these amino acids, and they are therefore excreted into the urine. Genetics • autosomal recessive condition. • The rBAT gene is responsible, • There are two genes identified: SLC3A1 (Chromosome 2)and SLC7A9(Chromosome 19) Features: • Cystinuria usually presents with recurrent nephrolithiasis in the form of cystine stones (which are often bilateral, multiple, and can form staghorns). • The renal stones are semi radio-opaque due to the presence of sulphur. (Semi-opaque, 'ground-glass' appearance) On plain film, which is not used as much in the UK any more, they are radio-lucent. On CT, as with almost all stones, cysteine stones are radio-opaque. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Diagnosis • Diagnosis of cystinuria can be made by stone analysis; such stones are pale yellow, and analysis reveals high cystine levels. It can then be confirmed by an amino acid chromatogram and quantification of cystine excretion. • cystine may precipitate out as pathognomonic hexagonally-shaped crystals Management includes: • conservative high fluid intake (>4 L/day); alkalinisation Urine pH should be regularly monitored (aiming for 7.5-8), with sodium bicarbonate being used if necessary (not in hypertensive patients or those with renal failure). The aim of such treatment is to reduce the urinary cystine concentration to below 300 mg/L. • If this fails, d-penicillamine, alpha-mercaptopropionylglycine or captopril can be used. • Cystine stones are not easily broken by lithotripsy, and therefore percutaneous removal is most often used. Cystinosis • autosomal recessive • caused by mutations in the CTNS gene, which encodes a lysosomal transporter of the amino acid cystine. Without this transporter, cystine accumulates in the lysosomes of proximal tubule cells, eventually leading to cell toxicity. • the most common form of Fanconi syndrome in children. • occurs almost exclusively in whites. Feature • presents in the first year of life with: failure to thrive, and rickets progressive renal damage (Renal failure develops before the age of 10 years) polyuria, polydipsia Visual impairment (occurs as a result of cystine deposits in the retina and cornea) hypothyroidism Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Renal tubular acidosis (RTA) • All three types of renal tubular acidosis (RTA) are associated with hyperchloraemic metabolic acidosis (normal anion gap) Type 1 RTA (distal) (acid retention) • Inability to generate acid urine (secrete H+) by a failure of the alpha intercalated cells of the distal tubule to excrete hydrogen ions. • Causes Idiopathic, gene defects, Autoimmune diseases such as primary biliary cirrhosis, thyroiditis RA, SLE, Sjogren's, Drugs: amphotericin B toxicity, analgesic nephropathy , hypergammaglobulinaemic states, • Features hypokalaemia, (as K+ reabsorption is linked to H+ excretion). acidosis low urinary ammonium production inability to lower the urinary pH below 5.3 after ammonium chloride administration despite systemic acidosis low urinary citrate Hypercalciuria: These predispose to renal stones, rickets or osteomalacia and nephrocalcinosis • Complications nephrocalcinosis and renal stones ( Alkaline urine increases the risk of calcium deposition) Osteomalacia develops because of calcium loss and buffering of retained H+ in bone • Management Bicarbonate and potassium supplements should be given to maintain adequate plasma levels. Recurrent kidney stones, hypokalaemia, acidosis and a normal anion gap is a typical presentation for RTA type 1. RTA type 2 present with similar biochemical features but is more unlikely to have a history of kidney stones. Treatment of RTA involves correction of the acidaemia with oral sodium bicarbonate, sodium citrate or potassium citrate Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Abdominal x-ray showing nephrocalcinosis - a classical finding in type 1 RTA Type 2 RTA (proximal) (bicarbonate loss) Fanconi syndrome (RTA type 2) is associated with Wilson's disease • decreased HCO3- reabsorption in proximal tubule • very rare in adult practice • As the distal tubule functions normally, the acidosis is less severe than type 1 RTA, and they urine has a pH of less than 5.3. • Causes include idiopathic, as part of Fanconi syndrome, Wilson's disease, cystinosis, lead poisoning myeloma outdated tetracyclines carbonic anhydrase inhibitors • Features acidosis, hypokalaemia hypophosphataemia increased risk for hypophosphatemic rickets. • Complications • osteomalacia (Phosphate wasting results in marked bone demineralisation) Type 4 RTA (hyperkalaemic)( hypoaldosteronism) • the most common renal tubular disorders • Causes include: Aldosterone deficiency (hypoaldosteronism): decreased aldosterone production, secondary to:  adrenal insufficiency  diabetes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diabetic nephropathy decreased renin production  Hyporeninaemic hypoaldosteronism low sodium and raised potassium Patients with diabetes may have impaired extrarenal potassium homeostasis, caused by a lack of insulin, and autonomic neuropathy with resulting impaired beta2 -mediated influx of potassium into cells.  chronic reflux nephropathy Aldosterone resistance  → 1.Drugs: Non-steroidal anti-inflammatories, angiotensin converting enzyme inhibitors, angiotensin 2 receptor blockers, eplerenone, spironolactone, trimethoprim, pentamidine heparin, cyclosporine  → 2.Pseudohypoaldosteronism • Features: hyperkalaemia  usually mild but may be exacerbated by drugs such as beta-blockers and ACE inhibitors. low sodium metabolic acidosis Urinary pH is commonly normal reduction in renin and aldosterone leads in turn to a reduction in proximal tubular ammonium excretion • Treatment: Treatment is usually successful with conservative measures such as:  stopping provocatory agents,  low potassium diet. Small doses of fludrocortisone could be considered for refractory cases. Type 3 RTA (Juvenile RTA) is combined proximal & distal RTA. • autosomal recessive • Results from inherited carbonic anhydrase II deficiency. • 70% of the reported cases are from the Magreb region of North Africa • rarely discussed • described as a failure to generate NH3 in the setting of a decreased glomerular filtration rate, • Features: normokalaemic hyperchloraemic metabolic acidosis. A syndrome of osteopetrosis Renal tubular acidosis Cerebral calcification Mental retardation. 043 - Chapter 6 043 Chapter 6 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Type Type 1 Type 2 Type 4 Location Distal tubules Proximal tubules Adrenal Acidosis? Yes (severe) Yes Mild when present Potassium Hypokalemia Hypokalemia Hyperkalemia Pathophysiology H+ secretion Bicarb reabsorption hypoaldosteronism/ pseudohypoaldosteronism January 2010 exam: Which feature is most likely to be seen as a consequence of type 1 renal tubular acidosis? Nephrocalcinosis Renal vascular disease (RAS) The presence of difficult to treat hypertension, renal impairment, evidence of other atherosclerotic disease (carotid bruit) and discrepent renal size makes renovascular disease a distinct possibility. • Renovascular disease is due to disease affecting the arterial supply of the kidney(s). • The resulting renal hypoperfusion leads to hyperactivation of the renin-angiotensinaldosterone axis, causing hypertension. • In one third of cases the disease is bilateral; 40% may have peripheral vascular disease and there may be proteinuria. Suspicion for renal artery stenosis: • Current UK guidelines with regard to chronic kidney disease recommend referral for further investigation of atherosclerotic renal artery stenosis when there is: Refractory hypertension (BP >150/90 mmHg despite 3 antihypertensives); Recurrent episodes of pulmonary oedema despite normal left ventricular function; Rise of >20% serum creatinine or fall of GFR >15% over 12 months with high clinical suspicion of widespread atherosclerosis, or during the first 2 months after initiation with an ACE inhibitor or angiotensin receptor blocker. A rise in serum creatinine more than 20% above the baseline after starting an (ACEI) hold the drug, monitor renal function and investigate for renal artery stenosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes • Atherosclerosis is most common cause (> 95% of patients). • Arteriosclerosis (renal artery sclerosis) is a more common cause of RAS than fibromuscular dysplasia. 40% may have peripheral vascular disease (PVD) with intermittent claudication  there may be proteinuria. • In younger patients however, fibromuscular dysplasia (FMD) needs to be considered. FMD is more common in young women and characteristically has a 'string of beads' appearance on angiography. Patients respond well to balloon angioplasty renal artery narrowing is unlikely to progress • Takayasu's arteritis • Congenital RAS is extremely rare and may be associated with coarctation of the aorta Associated risk factors • Smoking and hypertension that cause atheroma elsewhere in the body. Presentation It may present as: • Hypertension, which can be resistant to standard treatment. • chronic renal failure • 'flash' pulmonary oedema. • It can also lead to renal impairment when patients are started on ACE inhibitors or angiotensin-II receptor antagonists, hypokalaemia or flash pulmonary oedema. ACE inhibitor reduce vasoconstriction in the efferent arterioles, which in turn reduces glomerular filtration pressure. In patients with RAS this can often prompt a precipitous drop in glomerular filtration rate. A rise in creatinine of 15% from baseline is expected with commencement of an ACEinhibitor. Investigation • MR angiography  the investigation of choice and can be performed safely in patients with CKD stage 3 and 4 • CT angiography. Commonly used but can be complicated by radio-contrast nepropathy in patients with CKD. • conventional renal angiography less commonly performed used nowadays, but may still have a role when planning surgery • U/S Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Atherosclerotic renal artery stenosis (RAS) is suggested by the asymmetric reduction in renal size on U/S, with mild proteinuria quite common in the condition. Typical ultrasound changes are asymmetrical kidneys; the affected kidney >2 cm smaller than the unaffected kidney. • ↑↑ Aldosterone • ↑↑ Renin Serum renin can differentiate renal artery stenosis (↑↑ Renin +↑↑ Aldosterone) from primary hyperaldosteronism (↓↓ Renin +↑↑ Aldosterone) ↑↑ Renin work as a mechanism to improve renal perfusion. ↓↓ Renin in primary hyperaldosteronism is due to the resulting hypertension causing excessive renal perfusion, which results in decreased renin production (negative feedback mechanism). Flash pulmonary edema, U&Es worse on ACE inhibitor, asymmetrical kidneys ↓ Renal Artery Stenosis ↓ Do MR angiography Treatment: • Optimize vascular risk factors, • cautious use of ACE inhibitors and angiotensin-II receptor antagonists and avoiding other nephrotoxics. • The current evidence favours medical therapy in these patients, that is, an antiplatelet agent (aspirin), lipid lowering therapy (simvastatin) and tight blood pressure control (amlodipine). • No benefit of vascular intervention such as stenting. The ASTRAL trial showed no significant difference between stenting and medical therapy, it is often decided on an individual level. • Although patients with unilateral renal artery stenosis who have recurrent pulmonary oedema may benefit from stenting, the optimal first step is control of hypertension. Per se, better targeting of blood pressure is likely to reduce the number of episodes of heart failure. • Renal artery stenting to reduce further risk of pulmonary oedema is the next step following medical therapy to control blood pressure. The subsequent reduction in renin production will reduce the incidence of heart failure. • Although surgical renal artery bypass is successful, it is invasive and associated with significant operative morbidity versus percutaneous stent insertion. Indication for stenting in renal artery stenosis:(mrcpass.com) • hemodynamically significant renal artery stenosis Flash pulmonary oedema episodic pulmonary edema, congestive cardiac failure, unstable angina. Prognosis • poor prognosis (80% mortality at five years) is related to concurrent coronary disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Lupus nephritis (SLE: renal complications) Epidemiology • Lupus nephritis affects a third of patients early in the disease • it is frequently un-recognised until nephritic and/or nephrotic syndrome with renal failure occur. WHO classification • class I: normal kidney • class II: mesangial glomerulonephritis • class III: focal (and segmental) proliferative glomerulonephritis • class IV: diffuse proliferative glomerulonephritis • class V: diffuse membranous glomerulonephritis • class VI: sclerosing glomerulonephritis end stage renal disease irreversible not respond to any immunosuppression Class IV (diffuse proliferative glomerulonephritis) • the most common type in SLE. • the most severe form, affecting > 50% of glomeruli, carries the worst prognosis for progression to renal failure • Renal biopsy characteristically shows: endothelial and mesangial proliferation, 'wire-loop' appearance the capillary wall may be thickened secondary to immune complex deposition  electron microscopy shows subendothelial immune complex deposits granular appearance on immunofluorescence • Treatment high dose steroids and pulses of intravenous cyclophosphamide (initially given monthly for six months and then quarterly).  Pulsed intravenous cyclophosphamide appears to be as effective as oral cyclophosphamide but has lower toxicity. Class V (Membranous nephropathy in SLE) • Nephrotic syndrome without haematuria in a patient with (SLE) suggests membranous nephropathy (class V) • The lesion is differentiated from idiopathic (non-lupus) membranous nephropathy by: The presence of tubulo-reticular structures on electron microscopy, immune deposits along the tubular basement membrane (in addition to the glomerular basement membrane) and the presence of concurrent subendothelial and mesangial immune deposits (in addition to the subepithelial deposits typical of membranous) Class V lupus nephritis is the only form of renal disease in SLE where serological and clinical manifestations of the underlying disease may be absent. Complement levels may be normal and dsDNA antibodies may be absent Clinical features • Hypertension is found at presentation in 20-50% • 20-30% present with acute renal failure • Lupus nephritis typically occurs in SLE patients with extrarenal symptoms such as a rash, arthralgia, Raynaud's phenomenon, and pleuro-pericarditis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Laboratory features • Proteinuria is found in all patients with lupus nephritis and in 50-60% of cases is heavy enough to lead to a nephrotic syndrome • Microscopic haematuria (80% of patients) • In lupus nephritis a biopsy is indicated in those patients with abnormal urinalysis and/or reduced renal function , for histological classification ,disease activity, chronicity and prognosis. Immunological features • the pathognomonic feature of lupus on renal biopsy is 'full house' immunology on immunostaining, ie mesangial deposition of IgA, IgG, IgM, C3 and C4 This differentiates the necrotising glomerulonephritis with crescent formation seen in lupus from a similar pattern which is seen in systemic vasculitis, as the latter condition is 'pauci immune', ie no immunoglobulin deposition • Lupus nephritis is associated with activation of the classical pathway, and often associated with suppression of both C3 and C4. Prognosis • Features associated with a poorer prognosis, and increased risk of progression to end stage renal failure include: young age (<23) Increased serum creatinine Diffuse proliferative lesions (WHO classification class IV) and high chronicity index on renal histologic analysis. Management • treat hypertension • corticosteroids if clinical evidence of disease • immunosuppressants e.g. azathiopine/cyclophosphamide • patients with type IV (and sometimes type III, where < 50% of glomeruli are involved) should be treated with a combination of cyclophosphamide and steroids. Urinary incontinence (UI) Epidemiology • common problem, affect around 4-5% of the population. • more common in elderly females. Risk factors • advancing age • previous pregnancy and childbirth • high body mass index • hysterectomy • family history Classification • urge incontinence /overactive bladder (OAB): due to detrusor over activity characterized by involuntary loss of urine after sudden desire to urinate. Cystourethroscopy may be performed in patients with urge incontinence to exclude the presence of stones as the primary cause. Urge incontinence may present with frequency, which is defined as urinating more than eight times in the 24 hours. • stress incontinence: leaking small amounts when coughing or laughing coughing, sneezing, and laughing ↑intra-abdominal pressure and overwhelm the strength of bladder sphincter muscles in those with weak pelvic floors. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Outlet incompetence in stress incontinence is due to:  urethral hypermobility or  intrinsic sphincteric deficiency. most common in younger women. There is an increased risk of stress incontinence with pregnancy Obesity ↑pressure on pelvic tissues weakening of pelvic structures. • mixed incontinence: both urge and stress • overflow incontinence: causes  bladder outlet obstruction, e.g. prostate enlargement  Neurogenic bladder (detrusor areflexia)  characterized by: absent bladder sensation, decreased tone, increased capacity, hesitancy, and significant residual urine. caused by : diabetes mellitus, multiple sclerosis, cerebrovascular disease (Upper motor neuron lesions) affect descending pathways from the brain delayed bladder sensation urinary retention overflow incontinence. Parkinson's disease, spinal injuries (damage to the conus, cauda equina, and sometimes S2-4 nerve roots) diagnosis  Cystometry is the gold standard for the diagnosis  increased post-void residual urine on catheterization or ultrasound. Treatment  relieve obstruction e.g. catheterization  Sacral nerve stimulation can be used for the management of patients with idiopathic detrusor inactivity Investigation • bladder diaries should be completed for a minimum of 3 days • vaginal examination to exclude cystocele • urine dipstick and culture • urodynamic studies Management depends on whether urge or stress UI is the predominant picture. • If urge incontinence is predominant: bladder retraining (lasts for a minimum of 6 weeks, the idea is to gradually increase the intervals between voiding) bladder stabilising drugs: (antimuscarinic) is first-line  modern anticholinergics (Solifenacin) are recommended vs traditional agents, such as oxybutynin: Anticholinergics for urge incontinence are associated with confusion in elderly people - mirabegron is a preferable alternative antimuscarinics (e.g. Oxybutynin, Tolterodine ) the usual treatment for urge incontinence are contraindicated in patients with a history of urinary retention. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology because oxybutynin is thought to have particularly negative effects on cognitive function in the elderly.  A meta-analysis has shown that the class as a whole may affect the long-term risk of dementia. As such, dose titration to the minimum level required to control symptoms is recommended.  Oxybutynin is an effective treatment for detrusor instability and is a parasympathetic muscarinic antagonist. dry mouth is a problem in up to 70% of cases. not recommended for elderly because it is the most negative of the anticholinergic class with respect to its effects on cognitive function.  In older men, tolterodine is preferred to oxybutynin as the latter has a greater risk of causing confusion.  If anticholinergics fail or are contraindicated, mirabegron may be trialled. Mirabegron activates the β3 adrenergic receptor in the detrusor muscle in the bladder, which leads to muscle relaxation and an increase in bladder capacity surgical management: e.g. sacral nerve stimulation  indicated if not respond to pharmacological intervention or unable to tolerate it. • If stress incontinence is predominant: pelvic floor muscle training:  NICE recommend at least 8 contractions performed 3 times per day for a minimum of 3 months surgical procedures: e.g. retropubic mid-urethral tape procedures Which pharmacotherapies represents the most appropriate initial management step for overactive bladder? Tolterodine MRCPUK-part-2-March 2017: A 72-year-old woman with urinary incontinence. Urodynamic studies confirm detrusor overactivity and significant post-voiding residual volume. She is unable to tolerate oxybutynin for bladder control due to postural hypotension and GI symptoms. what is the most appropriate intervention for control of her bladder symptoms? Sacral nerve stimulator MRCPUK-part-2-March 2018: A 74-year-old woman with urge incontinence. Urine dipstick testing and post-void residual bladder volume are normal. Routine urea and electrolytes are also normal. She has attempted bladder training exercises but has not managed to improve her symptoms. What is the most appropriate next step? Solifenacin modern anticholinergics (Solifenacin) are recommended vs traditional agents, such as oxybutynin, because oxybutynin is thought to have particularly negative effects on cognitive function in the elderly. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Urinary retention • Drug causes Amitriptyline has anticholinergic effects being associated with tachycardia, dry mouth and urinary retention. These features are not typical of selective serotonin reuptake inhibitors (SSRIs) such as fluoxetine or seratonin and noradrenaline reuptake inhibitors (SNRIs) such as venlafaxine with urinary retention and dry mouth rarely reported. Diazepam, a benzodiazepine does not have anticholinergic effects. It has been associated with urinary retention, but this is much less common than with anticholinergics. • Complication of recovery from obstructive uropathy: Amelioration of urinary obstruction and subsequent recovery initially results in a large electrolyte and water loss. And over the next few days as the tubules recover their function his urine will begin to concentrate appropriately. The main approach to management in such patients is to ensure they remain adequately hydrated while their kidneys recover their ability to concentrate urine and manage fluid balance.  Supplement oral intake with intravenous fluids The patient should not be fluid restricted as this would lead to severe dehydration. Osmotic cerebral changes precipitated by urinary sodium loss, the major intravascular cation, is the cause of drowsiness. Hypocalcaemia and hypomagnesaemia may occur as tubular reabsorption is suboptimal in the early stages of recovery but is unlikely to affect conscious level. Acid-base status should improve after relief of the obstruction. Benign prostatic hypertrophy (BPH) Risk factors • Age: around 50% of 50-year-old men will have evidence of BPH and 30% will have symptoms. Around 80% of 80-year-old men have evidence of BPH • Ethnicity: Black > White > Asian Features BPH typically presents with lower urinary tract symptoms (LUTS), which may be categorized into: • Voiding symptoms (obstructive): weak or intermittent urinary flow, straining, hesitancy, terminal dribbling and incomplete emptying • Storage symptoms (irritative) urgency, frequency, urgency incontinence and nocturia • Post-micturition: dribbling • Complications: urinary tract infection, retention, obstructive uropathy Investigations • If the suspicion is of prostatic hypertrophy, then post-void residual volume is the best way to estimate the degree of bladder obstruction. Management options • Watchful waiting • Medication: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology α-blocker (e.g. tamsulosin, alfuzosin) for rapid symptom relief  Considered first-line, improve symptoms in around 70% of men  α-Blockers relax the smooth muscle of the bladder neck and can improve urinary flow rates  ↓ smooth muscle tone (prostate and bladder)  Adverse effects: dizziness, postural hypotension, dry mouth, depression 5 α-reductase inhibitors (e.g. finasteride and dutasteride) to reduce prostate volume  Block the conversion of testosterone to dihydrotestosterone (DHT), which induces BPH  Unlike α-1 antagonists causes a reduction in prostate volume and hence may slow disease progression. This however takes time and symptoms may not improve for 6 months.  They may also ↓ PSA concentrations by up to 50%  Adverse effects: erectile dysfunction, ↓ libido, ejaculation problems, gynecomastia The use of combination (α-1 antagonists, 5 α-reductase inhibitors) therapy was supported by the medical therapy of prostatic symptoms (MTOPS) trial • Surgery: transurethral resection of prostate (TURP) Prostatic carcinoma A man of advanced age presenting with bony metastases is most likely to have metastatic prostate cancer. Overview • These are adenocarcinomas • hormonal factors are thought to play a part in the aetiology • As a rule, prostate cancer is more aggressive in younger men. • Prostate cancer begins in the outer peripheral zone of the prostate, and grows outward, invading surrounding tissue. BPH begins in an area of the inner prostate called the transition zone, a ring of tissue that makes a natural circle around the urethra. In BPH, the growth is inward toward the prostate’s core. Epidemiology • Prostate cancer is now the most common cancer in adult males in the UK and is the second most common cause of death due to cancer in men after lung cancer. • By 80 years of age some 80% of men appear to have malignant foci within the prostate gland • Prostatic carcinoma is found in 10-30% of patients with BPH. Risk factors (BPH is not a risk factor) • ↑age (the strongest risk) • obesity • High intake of animal fats Features • Localised prostate cancer is often asymptomatic. This is partly because cancers tend to develop in the periphery of the prostate and hence don't cause obstructive symptoms early on. • bladder outlet obstruction: hesitancy, urinary retention • haematuria, haematospermia • pain: back, perineal or testicular • digital rectal examination: asymmetrical, hard, nodular enlargement with loss of median sulcus Investigation (NICE 2015) assess for prostate cancer • lower urinary tract symptoms or • erectile dysfunction or • visible haematuria } (PSA) test and digital rectal examination • Prostate-specific antigen (PSA) (PSA) may be elevated in:  Prostatitis  Benign prostatic hyperplasia, and  Prostate cancer. Some prostatic carcinomas may not be associated with an elevated PSA. False positives PSA associated with:  UTI & catheterisation thus should be measured at least two weeks after a treated UTI.  prostatic needle biopsy  PR examination False negatives PSA: Finasteride is the only factor likely to decrease the level of serum PSA. • Trans-rectal prostatic biopsy The most commonly used pathological grading system is the Gleason score The most well differentiated tumours have a Gleason score of 2, and the most poorly differentiated a Gleason score of 10. • Bone scan, CT abdomen and pelvis also indicated to assess both extent of bony metastases and local spread. (metastases may mimic the appearance of Paget's) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • low intake of selenium • Afro-Caribbean ethnicity • family history: 5-10% of cases have a strong family history Refer for P. cancer ↑ PSA (within 2 weeks) Chapter 6 Nephrology Management: depends on histological grading of the tumour prostate cancer stage Treatment options Localised (T1/T2) T1 - clinically unapparent disease T2 - palpable disease confined to prostate • conservative: active monitoring & watchful waiting • radical prostatectomy • radiotherapy: external beam and brachytherapy Localised advanced (T3/T4) T3 = beyond prostatic capsule T4 = involves bladder neck or rectum Most men will have occult mets hormonal therapy Metastatic binding from intracytoplasmic protein complexes Orchidectomy • Synthetic GnRH agonist (Buserelin, Goserelin, leuprolide) Decreased androgen production gonadotrophin releasing hormone agonist that exerts its actions at the level of the pituitary gland. Initially treatment causes increased gonadotrophin release; however, after a few weeks of continued therapy, gonadotrophin production is inhibited, and testosterone levels fall. The initial increase in testosterone levels may be accompanied by a ‘flare’ in disease symptoms in some patients. • docetaxel-based chemotherapy indicated only for patients with hormone-refractory cancer. • Samarium-153 is a radionuclide useful in treating prostate cancer with painful bone metastases and is not useful when the patient is asymptomatic. What histological grading system is used to grade prostate cancer? Gleason grading  Gleason grading takes account of the most prevalent tumour pattern in the pathological system (1-5) and the second most prevalent tumour pattern (1-5).  It is presented as, for example, Gleason 3+4 = 7. This is important as a Gleason 4+3 = 7 obviously has a worse prognosis than a Gleason 3+4 = 7 even though they both have the same total score. Renal cell cancer (RCC) (also known as hypernephroma) Classical triad: haematuria, loin pain, abdominal mass Overview • usually arise from the epithelial cells of the proximal convoluted tubule. • Clear cell RCC is the most common histological variant (∼80% of all cases). • Most cases are sporadic, although positive family history increases risk 4-fold. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • hormonal therapy: see below • radical prostatectomy • radiotherapy: external beam and brachytherapy • Synthetic GnRH agonist e.g. Goserelin (Zoladex) and Leuprolide cover initially with anti-androgen to prevent rise in testosterone • Anti-androgen such as bicalutamide, or flutamide cyproterone acetate prevents DHT Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Epidemiology • Most common malignancy of the renal parenchyma (85% of renal cancers in adults are RCC) • Sex: ♂ > ♀ (∼2:1) • Age of onset: 60–80 years Associations • smoking • von Hippel-Lindau syndrome (the most likely inherited condition) is an inherited syndrome in which cysts or tumours in the kidney, pancreas, adrenal gland, epididymis, cerebellum, and spinal cord may form. (30 - 50% develops renal cell tumors) • tuberous sclerosis • incidence of renal cell cancer is only slightly increased in patients with autosomal dominant polycystic kidney disease Features • Often asymptomatic and diagnosed incidentally. • the classical triad of: Haematuria, Loin pain, A palpable mass. only 5–10%of patients present with all three components of the triad Haematuria is the most common presenting symptom (50-60% of cases) • Anaemia (common) Fatigue • Symptoms of local spread left varicocele (due to occlusion of left testicular vein) Budd-Chiari syndrome: (due to hepatic vein obstruction hepatomegaly, ascites, lower limb edema, hepatic dysfunction) • Paraneoplastic syndromes: may secrete renin Hypertension may secrete erythropoietin (polycythaemia) Increased plasma viscosity. may secrete parathyroid hormone (hypercalcaemia), may secrete ACTH Secondary hypercortisolism myopathy • Symptoms of metastatic disease 25% have metastases at presentation Commonest sites of metastases are lung (50-60%) and bone (30-40%) • pyrexia of unknown origin • Urinalysis may show sterile pyuria Investigations • Ultrasound scan of the renal tract the first investigation of choice,  as it is able to pick up 95% of renal cell carcinomas greater than 1 cm in diameter.  It would also exclude infective or inflammatory collections within the renal tract. • CT abdomen/pelvis (contrast- enhanced CT) Definitive test for diagnosis and staging of RCC. If clinical presentation or ultrasound findings are suspicious for RCC, CT imaging is essential. • MRI abdomen/pelvis Modality of choice for diagnosis and staging in patients where contrast dye is contraindicated (due to renal insufficiency or allergy). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Management • for confined disease: partial or total nephrectomy depending on the tumour size no role for adjuvant therapy after surgery • for metastatic disease: Targeted molecular therapy  receptor tyrosine kinase inhibitors (e.g. sorafenib, sunitinib)  first line therapy have been shown to have superior efficacy compared to interferonalpha recommended by NICE as a treatment for advanced renal cell carcinoma. Sunitinib is superior to interferon alfa in improving progression-free survival. Also, interferon alfa has significant toxicity. Prognosis • Prognosis is related to tumour staging: the 5-year survival rate is around 80-100% in those with TNM stage-1 lesions, but this falls to 5-10% in those with stage-4 lesions • Risk of distant relapse remains 30% for curatively resected renal cell carcinoma. Wilms' tumour • Wilms' nephroblastoma is one of the most common childhood malignancies. • typically presents in children under 5 years of age, with a median age of 3 years old. • primarily composed of blastema, which is primitive kidney mesenchyme. Features • abdominal mass (most common presenting feature) • painless haematuria • flank pain • hypertension • other features: anorexia, fever • unilateral in 95% of cases • metastases are found in 20% of patients (most commonly lung) • Histologic examination is characterized by blastemal, stromal, and epithelial cells (triphasic tumor). Associations • Beckwith-Wiedemann syndrome • as part of WAGR syndrome with Aniridia, Genitourinary malformations, mental Retardation • hemihypertrophy • around one-third of cases are associated with a mutation in the WT1 gene on short arm of chromosome 11 Management • nephrectomy • chemotherapy • radiotherapy if advanced disease prognosis: • good, 80% cure rate Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Angiomyolipoma Overview • the most common benign tumour of the kidney • is a benign hamartomatous tumor composed of blood vessels, smooth muscle cells and fat cells. • caused by mutations in either the TSC1 or TSC2 genes, which govern cell growth and proliferation. Association • commonly seen among patients with tuberous sclerosis. • also commonly found in women with the rare lung disease lymphangioleiomyomatosis. Presentation: • retroperitoneal hemorrhage (most frequent) • unilateral flank mass. Diagnosis • There are three methods of scanning that detect angiomyolipoma: ultrasound, CT and MRI. • Ultrasound is standard and is particularly sensitive to the fat in angiomyolipoma but less so to the solid components. However it is hard to make accurate measurements with ultrasound. • CT is very detailed and fast and allows accurate measurement. However, it exposes the patient to radiation and the dangers that a contrast dye used to aid the scanning may itself harm the kidneys. • MRI is safer than CT but many patients (particularly those with the learning difficulties or behavioural problems found in tuberous sclerosis) require sedation or general anaesthesia and the scan cannot be performed quickly. • Biopsy Some other kidney tumours contain fat, so the presence of fat isn't diagnostic. It can be difficult to distinguish a fat-poor angiomyolipoma from a renal cell carcinoma and a lesion growing at greater than 5 mm per year may warrant a biopsy in order to distinguish it from this form of cancer. Treatment • Large angiomyolipoma can be treated with embolisation. • do not normally require surgery unless there is life-threatening bleeding Bladder cancer Epidemiology • In the Western world transitional-cell (TCC) 93% of bladder cancers squamous-cell carcinomas (SCCs) 6% adenocarcinomas less than 1% • male: female ratio 3:1 • women generally have a worse prognosis than men. Use of cyclophosphamide in granulomatosis with polyangiitis is associated with increased risk of bladder cancer (transitional cell carcinoma) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology • At the time of diagnosis around 70% of carcinomas are still localised to the bladder, 20% extend to involve regional lymph nodes and 3% present with distant metastases Risk factors • Risk factors for transitional cell carcinoma of the bladder include: Smoking Exposure to aniline dyes in the printing and textile industry Rubber manufacture (exposure to nitrosamines (used in the manufacture of some cosmetics, pesticides, and in most rubber products)) Cyclophosphamide • Risk factors for squamous cell carcinoma of the bladder include: Schistosomiasis Calmette-Gurin (BCG) treatment Smoking Diagnosis • Cystoscopy is the gold standard for diagnosing bladder cancer. Treatment • Treatment of choice for localised tumours is transurethral tumour resection, with the use of intravesical chemotherapy. • Intra-vesical instilling of BCG has virtually replaced cystectomy in the treatment of bladder carcinoma in situ. Orthotopic bladder reconstruction for carcinoma of the bladder: • Hyperchloraemic metabolic acidosis is a documented complication of neobladder formation. Neobladder formation following radical cystectomy or cystoprostatectomy is becoming increasingly more common Severe and persistent metabolic acidosis may manifest when patients undergo further surgery for other reasons. Associated electrolyte abnormalities may include hypokalemia, hypocalcaemia, and hypomagnesaemia. it's usually improves with time and is mild. treat metabolic acidosis with intravenous fluids and bicarbonate.  Intravenous infusion of 1.26% sodium bicarbonate and potassium replacement Metabolic acidosis associated with bladder reconstruction (e.g: for carcinoma of the bladder). • Hyperchloraemic metabolic acidosis is a documented complication of neobladder formation. However, it usually improves with time and is mild. • Severe and persistent metabolic acidosis may manifest when patients undergo further surgery for other reasons, as is the case in this patient. • Neobladder formation following radical cystectomy or cystoprostatectomy is becoming increasingly more common, and medical staff treating patients with neobladders should recognise and treat metabolic acidosis with intravenous fluids and bicarbonate. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Rhabdomyolysis Overview • Rhabdomyolysis will typically feature in the exam as a patient who has had a fall or prolonged epileptic seizure and is found to have acute renal failure on admission Pathophysiology • muscle trauma or necrosis myoglobin (a muscle protein), which may cause tubular damage or blockage, intense renovascular constriction, and local inflammation Acute renal failure • Rhabdomyolysis is strongly suggested by the fact that urinalysis is strongly positive for blood, whereas urine microscopy is negative for red blood cells. The positive urinalysis is caused by myoglobin, a muscle protein released during muscle damage; this appears in the urine and can cause acute renal failure. Causes • seizure • collapse/coma (e.g. elderly patients collapses at home, found 8 hours later) • ecstasy • Crush injury: electrical injury, compartment syndrome, prolonged limb or tourniquet anaesthesia, extensive surgical dissection and infectious or inflammatory myopathies. • McArdle's syndrome • Metabolic myopathy should be suspected when myoglobinuria is recurrent, associated with exercise or fasting and occurring with muscle cramps or weakness Carnitine palmitoyltransferase (CPT) deficiency is the commonest cause of inherited metabolic myopathy resulting in recurrent myoglobinuria The enzyme defect is diagnosed using ischaemic forearm testing and muscle biopsy, which demonstrates abnormal lipid or glycogen deposits • Drugs: statins (should be stopped in any patient presenting with the syndrome.)  Statins are metabolised via the CYP3A4 pathway.  Drugs that inhibit its action and lead to excess statin toxicity include macrolide antibiotics such as clarithromycin.  It is important to note that atorvastatin (as a more hydrophilic agent) is less metabolised by CYP3A4 and hence the side effects of this combination are less profound. Features The biochemical features of rhabdomyolysis are raised creatine kinase, hypocalcaemia (especially early after injury), hyperkalaemia and acute kidney injury. • acute renal failure with disproportionately raised creatinine • elevated CK , detectable a few hours after injury and peaks at the 48-h stage • myoglobinuria, on urine dipstick (shows as haematuria), Urine is dark due to myoglobin. Rhabdomyolysis can result from co-prescription of clarithromycin and statins Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Dipstick will be positive for blood (a false positive). On microscopy no red cells are seen although there may be pigmented granular casts. Dipstick is the most quickly test for diagnosis • hypocalcaemia (myoglobin binds calcium) • elevated phosphate (released from myocytes) • hyperuricaemia • hyperkalaemia • metabolic acidosis in severe cases secondary to raised serum lactic acid levels from the ischaemic muscle fibres. The serum lactate is raised which would suggest an acidotic picture over a normal blood gas picture Management • IV fluids to maintain good urine output • urinary alkalinization is sometimes used Loin pain-haematuria syndrome • characterised by severe, unrelenting loin or flank pain and haematuria with dysmorphic features suggesting a glomerular origin • A recent report suggested an important psychological component (unexplained somatic symptoms, an adverse psychological event preceding the onset of pain and a history of greater analgesic ingestion) • One possible explanation for the haematuria in some patients is coexistent thin basement membrane disease. • It was proposed that bleeding into and obstruction of the renal tubules was responsible for the loin pain • Management difficult to treat Dependency on narcotic analgesia is common Some patients undergo autotransplantation of the affected kidney in an attempt to relieve the pain Renal tuberculosis • accounts for 15-20% of extra-pulmonary tuberculosis • The combination of sterile pyuria, haematuria, dysuria and renal tract calcification is highly suggestive of renal tuberculosis • Many patients have refractory hypertension, which is renin-mediated and presumably due to segmental renal ischaemia • Excretion urography is the most helpful diagnostic investigation, may show cavitating lesions in the renal papillary areas, commonly with calcification. There may also be evidence of ureteral obstruction with hydronephrosis Xantho-granulomatous pyelonephritis (XGP) Pathogenesis • It develops as an abnormal macrophage response to infection, particularly in the presence of urinary tract obstruction, and is pathologically related to malacoplakia Clinical features • A flank mass is usually palpable, thereby distinguishing it from simple acute pyelonephritis or renal abscess, and occasionally mimicking renal cancer • The disease is almost invariably unilateral • Patients with XGP often appear chronically ill Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Symptoms include anorexia, fevers, weight loss and flank pain Diagnosis • The relatively rapid history, leukocytosis, renal impairment and positive urine culture make XPN much more probable than cancer • Computed tomography is the investigation of choice to confirm the diagnosis, and it will show the replacement of renal parenchyma by rounded, low-density areas surrounded by a ring of enhancement; it will also establish the extent of the lesion (which may involve surrounding structures) Prognosis and complications • The course may extending over months or years • AA amyloid may develop, resulting in the onset of nephrotic syndrome Vesico-ureteric reflux Vesico-ureteric reflux management: • in childhood: surgical intervention would be beneficial. • When picked up in adulthood, the mainstay of management would be blood pressure control Strict glycaemic control (reduce the frequency of recurrent infections and reduce the risk of progression to diabetic nephropathy.) prompt treatment of UTI and careful surveillance during pregnancy. • Vesicoureteric reflux refers to the retrograde flow of urine from the bladder to the upper urinary tract • It is the most common cause of recurrent urinary tract infections in children. It is identified in approximately 40% of patients. • This may occur due to incompetence of the valve at the vesicoureteric junction • It is most commonly detected the earliest in newborn girls • Present with recurrent UTI • Micturating cystourethrography is the most useful investigation to check for vesicoureteric reflux during voiding in children. It is identified in approximately 40% of patients. (not useful in adult women because by this time the reflux tends to disappear) • the single most appropriate management for grade-V vesicoureteric reflux in child less than 1 year Antibiotic prophylaxis grade Age(year) scaring Initial treatment Follow up V < 1 No Antibiotic prophylaxis Surgery V 1-5 No If unilateral: antibiotic prophylaxis Surgery V 1-5 No If bilateral: surgery V 1-5 Yes Surgery V 5 Surgery Grading of vesicoureteric reflux grade Description I Reflux into a non-dilated ureter II Reflux into the upper collecting system without dilatation III Reflux into a dilated ureter and/or blunting of calyceal fornices IV Reflux into a grossly dilated ureter V Gross dilatation of the ureter, renal pelvis and calyces; calyces show loss of papillary impression Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Chronic reflux nephropathy (Chronic pyelonephritis) • Chronic pyelonephritis is also known as 'reflux nephropathy': • starts in infancy or early childhood, • predisposes to recurrent infections and progressive renal fibrosis and loss of function • the kidneys are small, shrunken and scarred Renal scarring • is a serious complication of chronic pyelonephritis that occurs due to vesicoureteric reflux. • It is mediated by cytokines, chemokines and their receptors, complement, adhesion molecules and extracellular matrix proteins. • The cytokines which seem to play the largest role are: interleukin (IL)-1beta, IL-3 Transforming growth factor (TGF)-beta.  TGF-beta in particular seems to be pro-fibrotic by recruiting fibroblasts,  In a genotype where its production is limited has been shown to be less likely to develop renal scarring. • Chronic reflux nephropathy should be suspected in the presence of multiple urinary tract infections, including during childhood • may present with difficult-to-treat hypertension in young age • The investigation of choice is excretion urography (Micturating cystourethrogram), which may show : an irregular renal outline, calyceal clubbing and cortical scarring on the affected side • The best course of action is to recognise this condition in childhood and consider surgical management where demonstrable ureteric reflux exists, or early intervention with antibiotics where repeat infection exists • Chronic reflux nephropathy is a relatively common cause of end-stage renal failure in late childhood or early adult life if it goes unrecognized Recommendations for the diagnostic evaluation of uncomplicated pyelonephritis • Perform urinalysis (e.g. using a dipstick method), including the assessment of white and red blood cells and nitrite, for routine diagnosis. • Perform urine culture and antimicrobial susceptibility testing in patients with pyelonephritis. • Perform ultrasound of the upper urinary tract to exclude obstructive pyelonephritis. • Additional imaging investigations, such as an unenhanced helical computed tomography should be done if the patient remains febrile after 72 hours of treatment or in patients with suspected complications e.g. sepsis. (European association of urology) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Phimosis • Phimosis is common in 2-year olds • Prognosis and management Most will slowly dilate, thus Wait and watch is the most appropriate treatment In those who have persistent problems into teenage years, around 85% will respond to topical steroids, reducing the need for circumcision Where there is obvious infection, a dorsal slit may be considered Urethral syndrome • The condition is common in elderly postmenopausal women due to dryness and atrophy of the urethral tissue • Presented with dysuria , increased frequency of micturition and sterile urine. • Treatment: Topical oestrogen cream often results in a dramatic response Urinary tract infection (UTI) in adults Classification of UTI (European association of urology guidelines) Uncomplicated UTIs Acute, sporadic or recurrent lower (uncomplicated cystitis) and/or upper (uncomplicated pyelonephritis) UTI, limited to non-pregnant, pre-menopausal women with no known anatomical and functional abnormalities within the urinary tract or comorbidities. Complicated UTIs All UTIs which are not defined as uncomplicated. Meaning in a narrower sense UTIs in a patient with an increased chance of a complicated course: i.e. all men, pregnant women, patients with anatomical or functional abnormalities of the urinary tract, indwelling urinary catheters, renal diseases, and/or with other concomitant immunocompromising diseases for example, diabetes. Recurrent UTIs Recurrences of uncomplicated and/or complicated UTIs, with a frequency of at least three UTIs/year or two UTIs in the last six months. Catheterassociated UTIs UTIs in a person currently catheterised or has been catheterised within the past 48 hours. Urosepsis A systemic, deleterious host response to infection originating from the urinary tract and/or male genital organs. Urosepsis is accompanied by signs of systemic inflammation, presence of symptoms of organ dysfunction and persistent hypotension associated with tissue anoxia. Features • classic symptoms of (UTI):dysuria, frequency of urination, suprapubic tenderness, urgency, polyuria, haematuria • upper urinary tract infection (UUTI): evidence of UTI with symptoms suggestive of pyelonephritis (loin pain, flank tenderness, fever, rigors or other manifestations of systemic inflammatory response). • lower urinary tract infection (LUTI): evidence of UTI with symptoms suggestive of cystitis (dysuria or frequency without fever, chills or back pain). Causes of UTI: • Escherichia coli is the first most common • Staphylococcus saprophyticus is the second most common cause of UTI in sexually active women Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Diagnosis • Diagnosis of UTI is primarily based on symptoms and signs. Bacteriuria or pyuria do not establish the diagnosis of UTI. • The gold standard test for diagnosis of bacteriuria is culture of bladder urine obtained by needle aspiration of the bladder as it minimises the risk of contamination of the urine specimen. All other techniques (urethral catheter and midstream specimens of urine) carry a higher risk of contamination and therefore produce some false positive results • Nitrite test: Gram negative organisms test positive on the nitrite test as they convert nitrates to nitrites for energy. Gram positive organisms are unable to reduce nitrate to nitrite and therefore, test negative. • UTI is usually diagnosed by a bacterial count of >100 000/ml at mid-stream urine (MSU) • Presentation with a first urinary tract infection associated with haematuria in elderly patient Re-testing of urine with cytological examination after antibiotics • Sterile pyuria and negative urine cultures suggest urinary tract infection by the bacteria Neisseria gonorrhoeae or Chlamydia trachomatis. • Persistent haematuria should be investigated with excretion urography and cystoscopy If the mid-stream urine (MSU) reveals bacteriuria, in asymptomatic pregnant lady. what is the most appropriate intervention? Repeat sample  NICE guidelines recommend a second confirmatory sample to be sent before initiating treatment. Recommendations for the diagnostic evaluation of uncomplicated cystitis (European association of urology) Diagnose uncomplicated cystitis based on: • a focused history of lower urinary tract symptoms (dysuria, frequency and urgency); • the absence of vaginal discharge or irritation, in women who have no other risk factors for complicated urinary tract infections. Use urine dipstick testing, as an alternative to culture for diagnosis of acute uncomplicated cystitis. Urine cultures should be done in the following situations: • suspected acute pyelonephritis; • symptoms that do not resolve or recur within two-four weeks after the completion of treatment; • women who present with atypical symptoms; • pregnant women. Management (Sign.uk recommendations for UTI 2012) • Men urine sample should be taken for culture. empirical antibiotics with a quinolone in men with symptoms suggestive of prostatitis. • Non-pregnant women LUTI  Symptomatic bacteriuria three-day course of trimethoprim or nitrofurantoin. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Amoxicillin, ampicillin, nitrofurantoin and oral cephalosporins may be considered as alternatives  Routine urine culture is not required to manage  If not respond to trimethoprim or nitrofurantoin urine for culture to guide change of antibiotic  asymptomatic bacteriuria Do not treat with an antibiotic.  Recurrent UTI consider using cranberry products to reduce the frequency of recurrence. UUTI  ciprofloxacin (7 days) or co-amoxiclav (14 days).  Acute pyelonephritis hospital admission should be considered the BNF currently recommends a broad-spectrum cephalosporin or a quinolone (for non-pregnant women) for 10-14 days • Pregnant women: Treat symptomatic and asymptomatic UTI Urine culture before starting empiric antibiotic and 7 days after completion empiric antibiotic treatment. First line agent Nitrofurantoin  A dose of 50 mg QDS or 100 mg BD of modified release for 7 days is recommended.  Care for nitrofurantoin elderly patients may be at increased risk of toxicity. contraindicated in significant renal impairment. The BNF advises against its use in patients with GFR<60. Advise women with LUTI, who are prescribed nitrofurantoin, not to take alkalinising agents (such as potassium citrate). Second line Trimethoprim  contra indicated in established folate deficiency, low dietary folate intake, or women taking other folate antagonists. Third line cephalosporins  There is 20% cross-over with respect to allergy to penicillin and cephalosporins. Complications asymptomatic bacteriuria is associated with premature delivery and low birthweight.  routine screening for asymptomatic bacteriuria at antenatal appointments is therefore recommended. Infections in pregnancy should be treated, as 25% of patients will develop acute pyelonephritis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology UTI in diabetes Data from the American Diabetes Association have shown that 9.4% of people diagnosed with type 2 diabetes had a UTI compared to only 5.7% of those without. The most common pathogens isolated from the urine of diabetic patients with UTI were E. coli and other Enterobacteriaceae such as Klebsiella spp., Proteus spp., Enterobacter spp. and Enterococci. Infection with Extended spectrum beta-lactamase-producing coli (ESBLproducing E. coli ) is an increasingly recognised cause of infection in diabetes patients and is associated with poor outcomes.  Carbapenems are generally considered the drug of choice for the treatment of ESBL/E. coli (ESBL–EC) infections With a half-life of 4 h, ertapenem is commonly used as it is administered only once daily.  Fosfomycin is an oral antibiotic agent that has broad activity against multidrug-resistant pathogen, including ESBL–EC.  Another oral antimicrobial agent that can be considered for the treatment of ESBL-EC cystitis is nitrofurantoin. Extended spectrum beta lactamase (ESBL) urine infection Intravenous meropenem What is the next step in management of first episode of UTI in elderly after treatment with antibiotics? Re-testing of urine with cytological examination after antibiotics  UTI may develop in patients with an underlying urothelial tumour.  Persistent haematuria should be investigated with excretion urography and cystoscopy.  Bladder tumours are around 50 times more common than tumours of the ureter or renal pelvis. Antibiotic guidelines for urinary tract: The following is based on current BNF guidelines: Condition Recommended treatment Lower urinary tract infection Trimethoprim or nitrofurantoin. Alternative: amoxicillin or cephalosporin Acute pyelonephritis Broad-spectrum cephalosporin or quinolone Acute prostatitis Quinolone or trimethoprim Asymtomatic bacteriuria (ABU) Risk factors for asymptomatic bacteriuria • Female sex • Sexual activity • Comorbid diabetes • Age • Institutionalisation • Presence of catheter Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Recommendations for the management of ABU (European association of urology) • Do not screen or treat asymtomatic bacteriuria in the following conditions: • women without risk factors; • patients with well-regulated diabetes mellitus; • post-menopausal women; • elderly institutionalised patients; • patients with dysfunctional and/or reconstructed lower urinary tracts; • patients with catheters in the urinary tract; • patients with renal transplants; • patients prior to arthoplasty surgeries; • patients with recurrent urinary tract infections. • Screen for and treat asymptomatic bacteriuria prior to urological procedures breaching the mucosa. • Screen for and treat asymptomatic bacteriuria in pregnant women with standard short course treatment. • Take a urine culture following treatment of asymptomatic bacteriuria to secure treatment effect. UTI in childhood • In up to 75% cases of single infection, no abnormality can be found • Escherichia coli is the most common organism isolated (> 70% of cases) • Chronic diarrhoea or even acute diarrhoea can be a presenting feature of childhood urinary tract infection • Trimethoprim is often the best initial antibiotic of choice • In children (particularly neonates and infants), UTI can be haematogenous and may be part of a septicaemic process, therefore, blood cultures and iv antibiotics are necessary Recurrent urinary tract infection (rUTI) Definition • two episodes of infection in six months, or three episodes in one year Recurrent bacteriuria: • Relapse diagnosed by the recurrence of bacteriuria with the same organism within 7 days of completing antibacterial treatment and implies failure to eradicate infection. usually occurs in conditions in which it is difficult to eradicate the bacteria, such as:  renal stones,  scarred kidneys,  polycystic disease or  bacterial prostatitis. • Reinfection occurs when bacteriuria is absent after treatment for at least 14 days, usually longer, followed by recurrence of infection with the same or a different organism. Incidence • annual incidence of a single UTI is 30 per 1000 women, with 44% experiencing recurrence within 12 months Risk factor Age-related risk factors for rUTI in women Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 6 Nephrology Young and pre-menopausal women Post-menopausal and elderly women • Sexual intercourse • Use of spermicide • A new sexual partner • A mother with a history of UTI • History of UTI during childhood • Blood group antigen secretory status • History of UTI before menopause • Urinary incontinence • Atrophic vaginitis due to oestrogen deficiency • Cystocoele • Increased post-void urine volume • Blood group antigen secretory status • Urine catheterisation and functional status deterioration in elderly institutionalised women • Sexual activity in young females Recurrent cystitis may often accompany the onset of sexual activity in young females The appropriate first-line management is to advise strict attention to personal hygiene, and an increase in fluid intake and subsequent urine flow around times of sexual activity • Vesicoureteric reflux • Chronic reflux nephropathy: the best diagnostic investigation is Micturating cystourethrogram • Posterior urethral valves the chief complaint of children with this disorder is a poor urinary stream • Urinary tract obstruction in BPH: post-void residual volume is the best way to estimate the degree of bladder obstruction Diagnosis of rUTI • should be confirmed by urine culture. • Do not perform an extensive routine workup in women with recurrent UTI without risk factors. (European association of urology) Treatment • After treating the acute infection, low dose antibiotics for 6-12 months are the most evidence based preventive measure for recurrent (UTI) in women and are recommended by Scottish Intercollegiate Guidelines Network and the European Association of Urology guidelines as the standard of care. Prevention (European association of urology) • Non-antimicrobial interventions behavioural modifications vaginal oestrogen replacement in post-menopausal women Immunoactive Prophylaxis (in all age groups)  bacterial extracts to stimulate the host’s immune system to produce antibodies e.g. Oral immunostimulant OM-89 • Antimicrobial prophylaxis (continuous or post-coital) When non-antimicrobial interventions have failed, continuous or post-coital antimicrobial prophylaxis should be used. For patients with good compliance, self-administrated short-term antimicrobial therapy should be considered. 044 - Pages 1076-1100 044 Pages 1076-1100 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Catheter-Associated UTI Overview • Once catheter is in place, the • risk of bacteriuria Once catheter is in place: short-term catheterization (ie, 2-4 days) 10% - 30% long-term catheterization90% -100% • the most common source of gram-negative bacteremia in hospitalized patients Causes • Enteric pathogens (eg, Escherichia coli) are most commonly responsible • Proteus and Pseudomonas species are the organisms most commonly associated with biofilm growth on catheters. • Candida, especially Candida albicans, is the second-most-common organism that can cause catheter-associated urinary tract infection or asymptomatic colonization Diagnosis • diagnosis of catheter-associated urinary tract infection can be made when the urine culture shows 100 or more CFU per mL of urine from a catheterized patient. Treatment • Symptomatic bacteriuria mild to moderate infections: oral quinolones, usually for 10 to 14 days. The recommended duration of therapy for severe infections is 14 to 21 days. • Asymptomatic bacteriuria not recommended, with the following exceptions:  patients who are immunosuppressed after organ transplantation,  patients at risk for bacterial endocarditis and  patients who are about to undergo urinary tract instrumentation Urinary tract obstruction in children (posterior urethral valves) Overview • A poor urinary stream suggests a urinary tract obstruction (usually infravesical) • The most common cause in a male child is posterior urethral valves • posterior urethral valves: symmetrical folds of urothelium extending distally from the prostatic urethra to the external urinary sphincter • Renal dysplasia is usually associated with posterior urethral valves Diagnosis • The best diagnostic method is a micturating cystourethrography • The other option is endoscopy . Complications • 30% of patients experience end-stage renal disease • Vesicoureteric reflux occurs in half the patients Third edition Notes & Notes For MRCP part 1 & 2 Dr. Yousif Abdallah Hamad Haematology Oncology Updated By & Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Haematological changes during pregnancy • Platelet Isolated thrombocytopenia  occur in 8%  Usually mild with platelet above 70  Occur due to presence IgG antibodies, which are reactive to platelet  No intervention - recover after delivery • Hypercoagulable state ↑ clotting factors result of venous stasis secondary to uterine pressure on great veins of lower extremity • Anemia ↑ plasma volume by 50% RBC mass only ↑ by 30% Result is a dilutional gap of 15-20% • Leukocytosis result of granulocyte demargination  no absolute increase in WBC number Hyposplenism Causes • splenectomy • sickle-cell • coeliac disease, dermatitis herpetiformis • Graves' disease • systemic lupus erythematosus • amyloid Features • Howell-Jolly bodies • siderocytes Eosinophilia Causes • Pulmonary causes asthma allergic bronchopulmonary aspergillosis Churg-Strauss syndrome Loffler's syndrome tropical pulmonary eosinophilia eosinophilic pneumonia hypereosinophilic syndrome • Infective causes schistosomiasis nematodes: Toxocara, Ascaris, Strongyloides cestodes: Echinococcus • Other causes drugs: sulfasalazine, nitrofurantoin psoriasis/eczema eosinophilic leukaemia (very rare) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Eosinopenia (Decrease eosinophils) Causes • Cushing syndrome would result in a decrease in eosinophils. • Corticosteroids can cause eosinopenia through sequestration of eosinophils in lymph nodes. Hyper-eosinophilic syndrome (HES) Definition • peripheral blood eosinophil count of >1.5 for more than 6 months. • In hypereosinophilic syndrome, the eosinophils represent more than 20 percent of the cell population in the bone marrow. • HES are defined as the association of Hypereosinophilia (as defined above), with eosinophil-mediated organ damage, in which other causes for the damage have been excluded. Features • Hypereosinophilic syndrome most commonly causes manifestations involving the skin. • pruritus. • fatigue, myalgia, • fever, night sweats, • diarrhoea • The most common neurological manifestation of hypereosinophilic syndrome is stroke. • Other symptoms depend on the organ involved: cardiac disease causes chest pain and dyspnoea, respiratory disease presents with a dry cough. Treatment • The first line of treatment of patients with non-myeloid hypereosinophilic syndrome is glucocorticoids. • The best initial therapy for patients with hypereosinophilic syndrome associated with Fip1-like1-platelet-derived growth factor receptor alpha mutation is imatinib. Lymphopenia Causes • common finding in elderly patients. If greater than 0.5 * 109/l no action is normally needed • immunosuppressive drugs e.g. methotrexate • viral infections e.g. HIV • non-viral infections e.g. tuberculosis, malaria • autoimmune disorders e.g. rheumatoid • lymphoproliferative disorders Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Blood films: pathological cell forms Pathological red cell forms Abnormality Associated condition(s) Appearance Target cells Sickle-cell/thalassaemia Iron-deficiency anaemia Hyposplenism Liver disease 'Tear-drop' (Dacrocyte) poikilocytes Myelofibrosis (The morphology results because RBCs are mechanically squeezed out of the bone marrow.) Spherocytes Hereditary spherocytosis Autoimmune hemolytic anaemia Basophilic stippling Lead poisoning Thalassaemia Sideroblastic anemia Myelodysplasia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Abnormality Associated condition(s) Appearance Howell-Jolly bodies Hyposplenism (Howell-Jolly bodies are the basophilic remnants of the RBC nucleus.) Heinz bodies G6PD deficiency Alpha-thalassaemia Schistocytes ('helmet cells') Intravascular haemolysis Mechanical heart valve Disseminated intravascular coagulation 'Pencil' poikilocytes Iron defiency anaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Abnormality Associated condition(s) Appearance Burr cells (echinocytes) Uraemia Pyruvate kinase deficiency liver disease Acanthocytes Abetalipoproteinemia (irregularly distributed spicule in red blood cells). Bite cell (Degmacyte) G6PD (when spleen removes heinz bodies from RBCs) Blood films: typical pictures Hyposplenism e.g. post-splenectomy • target cells • Howell-Jolly bodies These are spherical bluish inclusions within erythrocytes They are nuclear fragments of condensed DNA which are normally removed by the spleen. They are seen in severe haemolytic anaemias or in hyposplenic/asplenic patients. • Pappenheimer bodies • siderotic granules • acanthocytes Iron-deficiency anaemia • target cells • 'pencil' poikilocytes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • if combined with B12/folate deficiency a 'dimorphic' film occurs with mixed microcytic and macrocytic cells Myelofibrosis • 'tear-drop' poikilocytes Intravascular haemolysis • schistocytes Megaloblastic anaemia • hypersegmented neutrophils Congenital Pelger–Huet anomaly • is a laminopathy associated with mutations in the lamin B receptor. • This leads to bilobed nuclei in neutrophils and in homozygotes, • can also be associated with:  skeletal abnormalities which include shortened limbs. Like this patient, heterozygotes usually suffer no symptoms and the neutrophil anomaly is picked up as an incidental finding. MRCP part-1 – jan 2017 A 23-year-old man with tiredness and was noted to have a neutrophil abnormality on his blood film with bilobed nuclei. His father has a skeletal anomaly with a short right arm, Examination reveals no lymphadenopathy, and abdominal examination is entirely normal. What is the most likely diagnosis? Congenital Pelger–Huet anomaly Leucocyte alkaline phosphatase Raised in Low in • myelofibrosis • leukaemoid reactions • polycythaemia rubra vera • infections • steroids, Cushing's syndrome • pregnancy, oral contraceptive pill • chronic myeloid leukaemia • pernicious anaemia • paroxysmal nocturnal haemoglobinuria • infectious mononucleosis Leukaemoid reaction Definition • Presence of immature cells such as myeloblasts, promyelocytes and nucleated red cells in the peripheral blood. Mechanism • This may be due to: infiltration of the bone marrow causing the immature cells to be 'pushed out' or sudden demand for new cells Causes • severe infection • severe haemolysis • massive haemorrhage • metastatic cancer with bone marrow infiltration Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Differentiating chronic myeloid leukaemia from a leukaemoid reaction: Chronic myeloid leukaemia Leukaemoid reaction low leucocyte alkaline phosphatase score • high leucocyte alkaline phosphatase score • toxic granulation (Dohle bodies) in the white cells • 'left shift' of neutrophils i.e. three or less segments of the nucleus Coagulation study Prothrombin time (PT) • Prothrombin time (PT) is a measure of the time it takes for the extrinsic pathway to create a fibrin clot. • tests function of factors (I, II, V, VII, X) defect in any of these → ↑ PT e.g. vitamin K deficiency • best test to follow warfarin therapy normalized as an INR (international normalized ratio) note also increases PTT time • also used to measure hepatic function as most of the factors are synthesized in the liver Used to monitor the extrinsic pathway • Factors make up the extrinsic pathway: Damaged endothelium → tissue factor release → Factor VII activation → common pathway activation • In patients with vitamin K deficiency, the PT is typically prolonged while the partial thromboplastin time (PTT) is usually normal. • Long-term use of antibiotics changes in the gut flora vitamin K deficiency  ↑PT Long-term use of antibiotics (particularly cephalosporins like cefepime) would cause changes in the gut flora that result in vitamin K deficiency (due to decreased populations of the bacteria that synthesize it). vitamin K deficiency would impair the gamma-carboxylation of factors II, VII, IX, and proteins C and S. As a result, the PT, which measures the clotting time of the extrinsic pathway (starting with tissue factor and factor VII), would increase, just as it would in a patient on warfarin. Partial Thromboplastin Time (PTT) (sometimes also called Activated Partial Thromboplastin Time) • tests function of all factors EXCEPT (VII, XIII) defect in any of these→ ↑ PTT • when prolonged indicating hemophilia or (sometimes) von Willebrand’s Disease. • best test to follow heparin therapy note also increases PT time • Used to monitor the intrinsic pathway • Factors make up the intrinsic pathway: Factors XII, XI, IX, VIII. • elevated APTT could be due to: treatment with heparin haemophilia von Willebrand's disease, or antiphospholipid syndrome. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The commonest cause of reduced APTT is in-vitro clotting cascade activation, but tests should be repeated to exclude pathological causes of hypercoagulability. DIC vs TTP • DIC is distinguished from thrombotic thrombocytopenic purpura (TTP) and hemolytic uremic syndrome (HUS) based on coagulation studies. • Although TTP and HUS are also microangiopathic hemolytic anemias, patients with these conditions do not have derangement or consumption of clotting factors. DIC Increased PT, PTT, decreased platelets TTP & HUS normal PT, normal PTT, and decreased platelets. Isolated factor deficiency • Normal PT, increased PTT, and normal platelets suggests an isolated factor deficiency such as hemophilia A and B, in which there is a deficiency of factors VIII and IX, respectively. • An isolated elevated PTT may also suggest von Willebrand's disease. Giant platelet syndrome (Bernard-Soulier syndrome; BSS) • is a defect in platelet adhesion. • The genetic defect is in glycoprotein 1b (GP1b). • characterized by increased megakaryocytes and abnormally large platelets on peripheral smear, hence its name. • thrombocytopenia and an elevated bleeding time but a normal prothrombin time (PT) and partial thromboplastin time (PTT). • BSS can be distinguished from a deficiency in von Willebrand factor (vWF) by a ristocetin test. Ristocetin is an antibiotic that causes vWF to bind to GP1b, causing agglutination in normal blood. In patients with either defective vWF or GP1b (BSS), platelets do not aggregate in the presence of ristocetin. The addition of normal plasma corrects this defect in von Willebrand's disease, but not in BSS (because the platelet receptor remains defective). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Assessment of anaemia From BMJ best practice Causes of normocytic anaemia: • anaemia of chronic disease • chronic kidney disease • aplastic anaemia • haemolytic anaemia Causes of macrocytic anaemia: • can be divided into causes associated with a megaloblastic bone marrow and those with a normoblastic bone marrow Megaloblastic causes Normoblastic causes • vitamin B12 deficiency • folate deficiency • alcohol • liver disease • hypothyroidism • pregnancy • reticulocytosis • myelodysplasia • drugs: cytotoxics Causes of microcytic anaemia: • iron-deficiency anaemia • thalassaemia* *in beta-thalassaemia minor the microcytosis is often disproportionate to the anaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad A question sometimes seen in exams gives a history of a normal haemoglobin level associated with a microcytosis. In patients not at risk of thalassaemia, this should raise the possibility of polycythaemia rubra vera which may cause an iron-deficiency secondary to bleeding. • congenital sideroblastic anaemia • anaemia of chronic disease (more commonly a normocytic, normochromic picture) • lead poisoning Iron metabolism Absorption: • Upper small intestine. • About 10% of dietary iron absorbed. • Fe2+ (ferrous iron) much better absorbed than Fe3+ (ferric iron). • Absorption is regulated according to body's need. • Increased by vitamin C (ascorbic acid) and gastric acid. vitamin C aids iron absorption by reducing iron from the ferric to the ferrous form, and by chelating it into a complex which enhances absorption. • Decreased by PPIs, tetracycline, gastric achlorhydia, tannin (in tea). • From an intake of approximately 6 mg/1000 kcal of dietary iron only 15% is bioavailable. Distribution in body • Total body iron = 4g (2500 mg in the RBCs, 500 mg in liver, 500 mg in macrophages and about 500 mg in muscle). • Haemoglobin = 70% • Ferritin and hemosiderin = 25% • Myoglobin = 4% • Plasma iron = 0.1% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Approximately 4 mg of iron circulate within the plasma. So approximately 0.1% of body iron circulates in the plasma. Transport • Carried in plasma as Fe3+ bound to transferrin. Storage • Stored as ferritin in tissues. It is the plasma protein responsible for binding iron, is an acute phase reactant protein which is increased in inflammatory conditions. Excretion • The majority of iron contained within the RBCs is metabolised and re-utilised but 1 mg per day is lost through the gut. Transferrin serum transferrin is the bus that carry absorbed iron to storage places & stored as ferritin. transferrin saturation is the % of people [iron] carried by that bus [transferrin]. TIBC is the no. of empty chairs in that bus. • Transferrin is a glycoprotein responsible for internal iron exchange Iron (Fe 3+) is carried in the blood bound to transferrin. Fe2+ (ferrous iron) is oxidised to Fe3+ (ferric iron) by caeruloplasmin to bind to transferrin • Transferrin is the binding protein of iron. So when the levels of ferritin are low, the body signals the liver to synthesize more of Transferrin to maintain the levels of iron • Pregnancy and oral contraceptive pill (OCP) both increase transferrin. • Transferrin saturation % The transferrin saturation % (plasma iron /TIBC x 100) is used as a measure of iron stores. In absence of anaemia, transferrin is about 33% saturated with iron (about one third saturated with iron). A value below 16% is indicative of iron deficiency. • iron deficiency low serum Fe, rise TIBC, rise the transferrin level. • iron overload fall in both TIBC and transferrin • haemochromatosis increased in Transferrin saturation% the content within mucosal cells is naturally high in haemochromatosis with high iron store saturation.  in haemochromatosis TIBC is low because transferrin is FULL of iron and no more empty space, hence LOW TIBC and for the same reason transferrin saturation is high [FULL] Iron studies • Serum iron • Total iron binding capacity (TIBC) • Transferrin raised in iron deficiency anaemia (IDA) raised in pregnancy and by oestrogen • Transferrin saturation calculated by serum iron / TIBC • Ferritin raised in inflammatory disorders low in IDA • Rarer tests transferrin receptors increased in IDA • Anaemia of chronic disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad normochromic/hypochromic, normocytic anaemia reduced serum and TIBC normal or raised ferritin Iron deficiency anaemia (IDA) • iron deficiency is the most common cause of anemia worldwide. Causes • the commonest cause of iron-deficiency anaemia worldwide being hookworm infection (Necator americanus and Ancylostoma duodenale), which affects 25% of the global population. • microcytic anaemia in a female should raise the possibility of either gastrointestinal blood loss or menorrhagia. Features • Koilonychia (spoon-shaped nails) • atrophic glossitis • post-cricoid webs Plummer-Vinson syndrome (dysphagia, esophageal webs and iron deficiency) • other cutaneous manifestations of iron deficiency include: pruritus, dry and brittle hair  the hair, skin, nail and mucous membrane changes are often visible before the patient is clinically anemic. • angular stomatitis Investigations • Blood film target cells 'pencil' poikilocytes if combined with B12/folate deficiency a 'dimorphic' film occurs with mixed microcytic and macrocytic cells • Serum ferritin Hypoferritinaemia confirms IDA and is the preferred screening test. the most sensitive marker for iron deficiency  Ferritin is an acute phase reactant and may be grossly elevated in the context of acute inflammation (when it does not accurately reflect iron stores) and to a lesser degree in chronic inflammation. British Society Guidelines on the diagnosis and management or iron deficiency anaemia suggest that: a cut-off of 12-15 mg/L reflects iron deficiency in the absence of inflammation. Where inflammation is present a ferritin of 50 mg/L or more may still be compatible with iron deficiency. Treatment of IDA Iron tablet preparations • Among the tablet preparations, there are: non-enteric coated pills  most commonly used as initial treatment due to their lower cost. enteric-coated prolonged-release formulations.  Delayed release and enteric-coated iron are better tolerated than the nonenteric coated tablets.  less effective since they may contain less iron and their iron may not be released in the duodenum, where iron is absorbed. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology  patients who have been treated unsuccessfully with enteric-coated and prolonged-release iron preparations may respond well to the administration of nonenteric-coated ferrous salts • Ferrous sulphate has more elemental iron by mass than the same dose of ferrous gluconate • Sustained release preparations may improve tolerance of oral iron but do not aid absorption. Iron prescription • Ideally, patients should not take iron supplements within 1-2 hours of antacids alkaline environment reduces absorption (acidity required for iron solubility) • Iron tablets are recommended between meals or at bedtime to avoid the alkalinizing effect of food and to take advantage of the peak gastric acid production late at night. • calcium, phosphorus and magnesium salts contained in iron-containing multivitamin pills impair absorption of elemental iron. For this reason, multivitamin preparations should never be recommended as a sole therapy for iron deficient anemia. • Iron absorption is also delayed with tetracyclines, milk, and phosphate-containing, carbonated beverages such as soft drinks. • Iron replacement in chronic renal failure In chronic renal failure, Erythropoeitin (EPO) therapy is only considered in pateints where the ferritin is >l00 mg/1. If ferritin < 100 iron replacement is the initial intervention of choice. • IV iron Parenteral iron acts no faster than oral iron. It is indicated when oral iron cannot be tolerated or is not absorbed. Indications for IV iron include:  unable to tolerate orally,  Patients who fail to comply with prescriptions for oral iron supplementation.  A history of exertional angina with anaemia strongest indication for transfusion  GIT disorders, such as IBD (ulcerative colitis and Crohn's disease), in which symptoms may be aggravated by oral iron therapy  Iron is poorly absorbed from the GI tract in patients with renal failure, as such IV replacement is the modality of choice. It is considered best practice to administer 1000 mg of low molecular weight iron dextran in 250 mL of normal saline in 1 hour without premedication; a test dose of 10 to 25 mg is infused over 3 to 5 minutes prior to the first infusion. If no acute reaction is observed, the remaining solution is infused over the balance of 1 hour. For those with a history of drug allergies or hypersensitivity, 125 mg of methylprednisolone is infused prior to the test dose. British society of gastroenterology (BSG) guidelines 2011: • correct anaemia and replenish body stores achieved most simply and cheaply with ferrous sulphate 200 mg twice daily. • Lower doses may be as effective and better tolerated and should be considered in patients not tolerating traditional doses. • Other iron compounds (eg, ferrous fumarate, ferrous gluconate) or formulations (iron suspensions) may also be tolerated better than ferrous sulphate. • Oral iron should be continued for 3 months after the iron deficiency has been corrected so that stores are replenished. • Ascorbic acid (250e500 mg twice daily with the iron preparation) may enhance iron absorption • Iron treatment should follow transfusion to replenish stores. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Anemia of Chronic Disease Definition • decreased RBC production due to any longstanding inflammatory, infectious, or malignant disease (includes rheumatoid arthritis, severe trauma, heart disease, diabetes mellitus, and inflammatory bowel disease) Mechanism of Anemia of Chronic Disease • there is primarily a decreased availability of iron, relatively decreased levels of erythropoietin, and a mild decrease in the lifespan of RBCs to 70-80 days (normally 120 days) in anemia of chronic kidney disease, ↓erythropoietin production by the interstitial fibroblasts, (also known as type I interstitial cells), anemia.  The kidneys are responsible for approximately 90% of erythropoietin production. • Increase in hepcidin level in the course of inflammatory disease ↓release of iron from macrophages +↓dietary iron absorption. hepcidin is an acute-phase reactant that is increased in states of inflammation • cytokines, such as interleukins (IL-1 and IL-6), and tumor necrosis factor (TNF-alpha),  destruction of RBC precursors and decrease the number of erythropoietin receptors on progenitor cells. Investigations • RBCs morphology normochromic, normocytic anemia. • Reticulocyte count ↓reticulocyte count points to ↓RBC production as the primary mechanism responsible for anemia, • ↑ferritin • ↓serum iron • ↓TIBC, transferrin saturation, and MCV Treatment • treatment of the underlying disease. • If underlying disease is unknown or treatment of underlying disease does not improve symptomatic anemia measure EPO  if low, administer EPO or erythropoiesis-stimulating agents (ESAs) make sure iron stores are sufficient if insufficient, patients may be resistant to EPO if normal, give packed RBCs Hepcidin • Hepcidin, a peptide hormone synthesized in the liver. • reduces extracellular iron in the body by several mechanisms: lowers dietary iron absorption by reducing iron transport across gut mucosal cells (enterocytes); reduces iron exit from macrophages, the main site of iron storage; reduces iron exit from the liver. In all three instances this is accomplished by reducing the transmembrane iron transporter ferroportin. • inflammation ↑hepcidin ↓serum iron due to: iron trapping within macrophages and liver cells Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology decreased gut iron absorption. inadequate amount of serum iron being available for developing red cells anemia • hemochromatosis ↓hepcidin level iron overload due to: increased ferroportin mediated iron efflux from storage and increased gut iron absorption. • Hepcidin inhibits iron transport by binding to the iron export channel ferroportin which is located on the basolateral surface of gut enterocytes and the plasma membrane of macrophages.  Inhibiting ferroportin leads to:  ↓iron release from macrophages  ↓ dietary iron absorption. Thalassaemias Alpha is located on 16, beta on 11chromosome . Definition • The thalassaemias are a group of genetic disorders characterised by a reduced production rate of either alpha or beta chains. • It is a haemoglobinopathy resulting from defective synthesis of globin chains required for Hb synthesis. • Each copy of chromosome 16 has two genes for the alpha globin subunit (four in total). • And each copy of chromosome 11 has one genes for the beta globin subunit (two in total). Types of haemoglobin Haemoglobin Chains % Hb in normal adult Hb A α2β2 ( (two alpha and two beta chains) 97% Hb A2 α2δ2 (two alpha and two delta chains) < 3.5% Hb F α2γ2 (two alpha and two gamma chains) <1% Alpha-thalassaemia • Alpha-thalassaemia is due to a deficiency of alpha chains in haemoglobin • Alpha-thalassaemia is found in malarial regions of the world (Mediterranean, South-east Asia, Indian sub-continent, Middle East, Sub-Saharan Africa) and should be suspected in patients with these ethnic backgrounds and with microcytosis and/or anaemia. • Acquired Hb H disease is rare and occurs most commonly in male patients with myelodysplastic syndrome. Overview • 2 separate alpha-globulin genes (four in total) are located on each chromosome 16 • There are 4 different alpha-thalassaemias: silent carrier (1 affected alpha-globin gene), alpha-thalassaemia trait (2 affected alpha-globin genes), Hb H disease (typically 3 affected alpha-globin genes) Hb Bart hydrops fetalis syndrome (typically deletion of all 4 alpha-globin genes). • Clinical severity depends on the number of alpha chains present If 1 or 2 alpha chains are absent then the blood picture would be hypochromic and microcytic, but the Hb level would be typically normal Loss of 3 alpha chains results in a hypochromic microcytic anaemia with splenomegaly and HbH in red cells. This is known as Hb H disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad If all 4 alpha chains absent (i.e. homozygote) then death in utero (hydrops fetalis, Bart's hydrops) • Persistence of HbF has survival advantages in severely affected subjects. • Co-inheritance of alpha-gene mutations, and persistence of fetal haemoglobin production, may restore the globin balance and result in a milder syndrome. • Features most are asymptomatic. Many patients with Hb H are also clinically well, but are at risk for:  acute haemolytic episodes  aplastic crises  iron overload, even in the absence of chronic transfusions  hypersplenism; and  endocrine disease. Hemoglobin gel-electrophoresis  α-thalassemia trait normal  3 gene deletion α-thalassemia HbH (β,β,β,β)  4 gene deletion α-thalassemia Hb Barts (γ,γ,γ,γ) Beta-thalassaemia If a person has MCV > 80 and MCH > 27, in the absence of symptoms, thalassemia can be reasonably excluded. Overview • The most common cause of β- Thalassemia is the defect in mRNA splicing of the beta globin gene on chromosome 11 . • autosomal recessive • common in Mediterranean populations • β thalassaemia minor / trait protects against malaria ↑(Hb F) inhibits the development of the malarial parasite. Types • β thalassaemia major (β 0): prevent any formation of β chains, the most severe form of β thalassemia. 2 gene depletion (β0β0) (α,α,α,α hemoglobin present) aggregation of alpha-globin tetramers damage erythrocytes  extravascular hemolysis. HbF tries to convert to HbA during first year of life, Fetal hemoglobin is protective in an infant with beta-thalassemia major, hence the disease will only present after six months of age, as its levels decrease. extramedullary haemopoiesis with hepatosplenomegaly and bone marrow expansion, “hair on end” appearance of bone. Diagnosis  Hemoglobin electrophoresis is the best test for diagnosis Features  anaemia  splenomegaly occurs secondary to extramedullary hematopoiesis.  bone deformities Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology  bone marrow expansion can cause "chipmunk facies" or "crew cut sign" on a skull X-ray.  Target cells on a peripheral blood smear  early death if not treated appropriately. Treatment:  lifelong regular blood transfusions, (usually every two to five weeks, to maintain the pretransfusion haemoglobin level above 9–10.5 g/dl). transfusion programme with iron chelation is the best initial approach.  Indications for transfusion: Hb < 7g/dl on 2 occasions, > 2 weeks apart (excluding all other contributory causes such as infections) or Hb > 7g/dl with: Facial changes, Poor growth, Fractures, and Extramedullary haematopoiesis  The transfusional iron overload can be managed with iron chelation, both IV/SC (desferrioxamine) and/or oral (deferasirox). Desferrioxamine binds iron but needs to be given for 8-12 hours a day for 5-7 days per week, so is a major undertaking for the patient. SE: high frequency deafness, retinopathy and Yersinia infection.  Stem cell transplantation options offer cure.  parents and other siblings should be screened by genetic testing. • β thalassaemia intermedia (β+): caused by a mutation in the Kozak consensus sequence of the Beta globin gene on chromosome 11. they allow some β chain formation to occur. In either case there is relative excess of α chains, but these don’t form tetramers. • β thalassaemia minor / trait: 1 gene deletion Features  usually asymptomatic  mild hypochromic, microcytic anaemia - microcytosis is characteristically disproportionate to the anaemia (marked microcytosis (very low MCV) (i.e. the Microcytosis is disproportionately with very low MCV for the near normal Hb level >9).  HbA2 (α2δ2) raised (> 3.5%) on gel electrophoresis. HbA2 levels above 3.5% are screening criteria for the βthalassemia carrier state. Note that in cases of severe iron deficiency anaemia the HbA2 may be normal in thalassemia minor. • Thalassemia can co-exist with other haemoglobinopathies. The most common of these are: HbE/thalassaemia:  common in Cambodia, Thailand, and parts of India  clinically similar to β thalassaemia major or thalassaemia intermedia. HbS/thalassaemia:  common in African and Mediterranean populations  clinically similar to sickle cell anaemia with additional feature of splenomegaly. HbC/thalassaemia: common in African and Mediterranean populations:  HbC/β0 thalassaemia: causes moderate to severe haemolytic anaemia with splenomegaly.  HbC/β+ thalassaemia: produce a milder disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Delta thalassaemia • about 3% of adult Hb is made of alpha and delta chains. • mutations can occur which affect the ability of this gene to produce delta chains. Aplastic anaemia • Characterised by pancytopaenia and a hypoplastic bone marrow • Peak incidence of acquired = 30 years old Features • Assessment of bone marrow cellularity is best made on trephine biopsy, which often shows replacement of the normal cellular marrow by fatty marrow. • normochromic, normocytic anaemia • leukopenia, with lymphocytes relatively spared • thrombocytopenia • may be the presenting feature acute lymphoblastic or myeloid leukaemia • a minority of patients later develop paroxysmal nocturnal haemoglobinuria or myelodysplasia • In patients with aplastic anemia, the bone marrow is markedly hypocellular. Causes • idiopathic • congenital: Fanconi anaemia, dyskeratosis congenita • drugs: cytotoxics, chloramphenicol, sulphonamides, phenytoin, gold • toxins: benzene • infections: parvovirus, hepatitis • radiation management Supportive • blood products • prevention and treatment of infection Anti-thymocyte globulin (ATG) and anti-lymphocyte globulin (ALG) • prepared in animals (e.g. rabbits or horses) by injecting human lymphocytes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • is highly allergenic and may cause serum sickness (fever, rash, arthralgia), therefore steroid cover usually given • immunosuppression using agents such as ciclosporin may also be given Stem cell transplantation • allogeneic transplants have a success rate of up to 80% Pure Red Cell Aplasia (PRCA) Overview • uncommon disorder • maturation arrest occurs in the formation of erythrocytes. Erythroblasts are virtually absent in bone marrow; however, white blood cell and platelet production are normal. • The anemia due to PRCA is usually normocytic but can be macrocytic. Diagnosis • characteristics of PRCA include Severe unexplained anemia ↓Reticulocyte count <1% The presence of less than 0.5% mature erythroblasts in the bone marrow Normocellular bone marrow in most cases Causes • most cases of chronic PRCA are idiopathic (acquired primary). • Secondary PRCA associated with: Autoimmune disorders (eg, type 1 diabetes, thyroiditis, rheumatoid arthritis, Sjögren syndrome) Thymomas Systemic lupus erythematosus Hematologic malignancies Solid tumors  Erythropoietin-induced pure red cell aplasia in treatment of CKD anaemia Treatment • can be transient and reversible (PRCA due to medications and infections are often reversible.) • symptomatic anaemia transfusion • Treatment of underlying conditions parvovirus B19 infections High-dose intravenous immunoglobin PRCA due to drugs disappear when the drug is stopped. thymoma thymectomy or gamma irradiation of the thymus • Immunosuppressive: Corticosteroids are the mainstay of therapy (45% respond )the first choice cyclosporine, azathioprine, Cyclophosphamide and rituximab are used Fanconi’s Anaemia • Autosomal recessive • Aplastic anaemia • ↑ risk of AML • Neurological manifestation • Skeletal abnormalities • Skin pigmentation (café; au lait spots) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Macrocytic anaemia Macrocytic anaemia can be divided into causes associated with a megaloblastic bone marrow and those with a normoblastic bone marrow Megaloblastic causes Non-megaloblastic causes • vitamin B12 deficiency • folate deficiency • alcohol • liver disease • hypothyroidism • pregnancy • reticulocytosis • myelodysplasia • drugs: cytotoxics • If serum folate levels are low, serum vitamin B12 and methylmalonic acid levels should be measured to exclude concurrent vitamin B12 deficiency before folate levels are corrected. • Normal serum homocysteine levels make folate deficiency unlikely. • RBC folate is a more accurate indicator of folate deficiency than serum folate level. _Vitamin B12 (cobalamin) deficiency Function of vitamin B12 deficiency • Red blood cell development • Maintenance of the nervous system. • B12 is necessary for normal folate metabolism, and therefore when there is a primary B12 deficiency, one can see a low red cell folate as a consequence. Sources • Vit B12 is only found in foods of animal origin e.g. meat, fish and eggs. Metabolism • It is absorbed after binding to intrinsic factor (IF) (secreted from parietal cells in the stomach) and is actively absorbed in the terminal ileum. • A small amount of Vit. B12 is passively absorbed without being bound to IF. • Hepatic stores of vitamin B12 can last for up to 5 years, so it is not uncommon for vegans to display vitamin B12 deficiency years after starting their diet Causes • Dietary deficiency of Vit B12: like vegetarians An MCV of >115 fL is typically seen in nutritional deficiency. very rare  Folate deficiency due to dietary problems is common, particularly in the elderly, but it does take many years to become B12 deficient as a result of dietary deficiency. • Pernicious anaemia • Post gastrectomy  A patient with combined iron deficiency and B12 deficiency, Which operation is he most likely to have had?Partial gastrectomy • Disorders of terminal ileum (site of absorption): Crohn's, blind-loop, Malabsorption of vitamin B-12 secondary to small bowel bacterial overgrowth, tapeworm, etc. • Bacterial overgrowth syndrome characterized by diarrhea, steatorrhea, and macrocytic anemia. The common feature is proliferation of colonic bacteria in the small bowel. In normal individuals, the small bowel is relatively sterile. Common bacteria involved are E.coli or bacteroides. Macrocytic anemia results from increased utilization of vitamin B12 by the colonized bacteria. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Steatorrhea is caused by reduced concentration of conjugated bile acids. Bacteroides can convert conjugated bile acids to unconjugated bile acids, which result in impaired micelle formation. Diarrhea is due to steatorrhea. Features of vitamin B12 deficiency • Macrocytic anaemia • mild jaundice is typical of megaloblastic anaemia (vitamin B12 or folate deficiency) because of increased destruction of red cell precursors in the bone marrow. • Sore tongue and mouth • Neuropsychiatric symptoms: e.g. Ataxia, Mood disturbances Neurological involvement can be present in B12 deficiency even in the absence of anaemia, especially in patients over the age of 60. The peripheral nerves are most commonly involved, followed by subacute degeneration of the spinal cord. Early signs are loss of peripheral vibration and joint position sense, which is usually followed by loss of reflexes and weakness. The legs and feet are usually more involved than the hands. In the late stages there may be spasticity, upgoing plantars and ataxia but thankfully this is rare in the UK. • Serum methylmalonic acid levels are elevated in vitamin B12 deficiency. more sensitive Serum vitamin B12 levels, and should be used to definitively exclude vitamin B12 deficiency. elevated homocysteine and methylmalonic acid levels. • Blood smear will show hypersegmented neutrophils. Treatment • even in case of profound anaemia, if the patient is not haemodynamically compromised no need for blood transfusion. • intramuscular vitamin B12 and oral folic acid. • Patient need to continue on treatment with ferrous sulphate as iron stores are likely to be depleted rapidly once the marrow starts functioning. • Giving oral folic acid without vitamin B12 would be hazardous and could precipitate subacute combined degeneration of the spinal cord. Pernicious anaemia Epidemiology • more common in females (F:M = 1.6:1) • typically develops in middle to old age • more common if blood group A Pathophysiology • autoimmune disease caused by antibodies to gastric parietal cells or intrinsic factor • results in vitamin B12 deficiency • associated with thyroid disease, diabetes Addison's rheumatoid vitiligo • predisposes to gastric carcinoma Features • lethargy, weakness • dyspnoea • paraesthesia • mild jaundice • diarrhoea • sore tongue Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • possible signs: retinal haemorrhages, mild splenomegaly, retrobulbar neuritis Investigation Normal serum gastrin excludes pernicious anaemia • anti-gastric parietal cell antibodies in 90% (most common, but low specificity) • anti-intrinsic factor antibodies in 50% (specific for pernicious anaemia) • macrocytic anaemia • pancytopenia ( with low WCC and platelets) • LDH may be raised due to ineffective erythropoiesis • also low serum B12, • hypersegmented polymorphs on film, megaloblasts in marrow • Schilling test radiolabelled B12 given on two occasions  first on its own  second with oral IF urine B12 levels measured macrocytic anaemia and isolated B12 deficiency (folate is normal) suggest an isolated problem with B12 absorption pernicious anaemia Management • If no neurological involvement: 1 mg of IM Hydroxocobalamin 3 times each week for 2 weeks, then once every 3 months. • If a patient has deficient in both vitamin B12 and folic acid then it is important to treat the B12 deficiency first to avoid precipitating subacute combined degeneration (SCD) of the cord. Sickle cell disease (SCD) Overview • autosomal recessive • Sickle cell disease is a haemoglobinopathy caused by the substitution of glutamic acid by valine at position 6 (from the N-terminal) of the beta chain. (In sickle cell anaemia, valine replaces glutamic acid at the sixth amino acid of the beta globin) • HbS is caused by a single base mutation on the beta-chain • The β globin gene is found on the short arm of chromosome 11. HbS has the following properties: • contains two α-like globins and two β-like globins and four haem molecules. • less negatively charged, due to the loss of glutamate for valine. • has a life span of only 30 days compared to the normal 120 days. • less soluble than HbA. • has lower affinity for oxygen than HbA (right-shift of the oxygendissociation curve), which increases the risk of desaturation, but improves the yield of oxygen to the tissues. 045 - Chapter 7 045 Chapter 7 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Types • Sickle cell trait: heterozygous (HbAS)  occurs when a child inherits a sickle gene from one parent and a normal gene from the other parent. • Sickle cell disease: homozygous (HbSS)  occurs when a child inherits a sickle gene from each parent. • Other, rarer forms of sickle cell disease in which the person has only one copy of the mutation that causes Hb S and one copy of another abnormal Hb allele. Examples: “HbSC”: (sickle –haemoglobin C disease). “HbS/β+”: (sickle-beta-plus-thalassemia). “HbS/β0” : (sickle-beta-zero-thalassemia) Sickling of the erythrocyte • A low partial pressure of oxygen (PO2) causes HbS to polymerise and precipitate resulting in sickling of the erythrocyte. HbSS patients sickle at PO2 of 5-6 kPa HbAS patients sickle at PO2 of 2.5-4 kPa. HbSC Sickling occurs at around 4 kPa. Sickle cell disease and malaria • Sickle cell trait (HbAS) is known to protect against falciparum malaria. As a result, the frequencies of sickle cell carriers are high in malaria-endemic areas. • Patients with HbSS are at higher risk of severe malaria with complications and have a higher mortality rate. Feature • Black pigment gallstones occur in 50 % of patients with sickle cell disease due to an increase in bilirubin excretion. Their small size allows migration into the common bile duct causing low-grade obstruction. Typically leading to hyperbilirubinaemia rather than bile duct dilatation.  cholecystectomy is suggested for patients with sickle cell disease if abdominal surgery is being performed for other reasons. Due to decreased life span of the erythrocyte, average 17 days (normal 120 days), there is also a chronic circulating unconjugated hyperbilirubinaemia. • There is often an inability to concentrate urine The inner medulla is hypoxic, hypertonic and acidotic and therefore predisposes to sickling of red blood cells, which results in vasoocclusion and reduction in renal medullary blood flow. proximal tubule dysfunction impairs urinary concentration distal tubular dysfunction impairs potassium excretion. • Functional hyposplenism in SCD also renders sufferers susceptible to infection with encapsulated bacteria (pneumococci, meningococci). Patients with sickle cell disease have a predisposition to develop osteomyelitis due to Salmonella species. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sickle-cell crises: Four main types of crises are recognised: • thrombotic crises, also known as painful crises or vaso-occlusive crises precipitated by infection, dehydration, deoxygenation ,acidosis , cold temperatures, extreme exercise and stress. infarcts occur in various organs including the bones (e.g. avascular necrosis of hip, hand-foot syndrome in children, lungs, spleen and brain • sequestration crises sickling within organs such as the spleen or lungs causes pooling of blood with worsening of the anaemia acute chest syndrome: dyspnoea, chest pain, pulmonary infiltrates, low pO2 - the most common cause of death after childhood stroke  5-10% of sickle cell patients will suffer a stroke, usually during childhood.  The risk can be predicted by transcranial Doppler measurement of middle cerebral artery (MCA) flow rate,  prompt institution of a prophylactic transfusion program to reduce the HbS % can prevent further strokes.  treatment once occurred Exchange transfusion programme • aplastic crises caused by infection with parvovirus sudden fall in haemoglobin without an appropriate ↑reticulocytosis. The condition is self-limited, with bone marrow recovery occurring in 7-10 days, followed by brisk reticulocytosis. • haemolytic crises rare The anaemia associated with sickle cell disease is usually only symptomatic below 70 g/L, as oxygen is released more readily from erythrocytes.  remember, patients with sickle cell tend to run with a Hb between 70-90 g/L normally The anemia of SC is usually a chronic, reasonably well-compensated hemolytic anemia with an appropriate reticulocytosis. For example, the mean hemoglobin and hematocrit concentrations on average may be 79 g/L and 22.9% respectively, with a reticulocyte count of between 3-15%. Diagnosis of sickle cell disease requires the detection of HbS. • Sickledex test: addition of reagent to blood turbidity confirming the presence of HbS, but it gives no information on other haemoglobins. • Haemoglobin electrophoresis is the only investigation that determines the nature of the haemoglobinopathy predominance of HbS. Absent HbA. HbF 2-20% Treatment • General management analgesia e.g. opiates  NSAIDs do not usually provide effective analgesia on their own in sickle cell painful crises. rehydrate oxygen Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology consider antibiotics if evidence of infection blood transfusion exchange transfusion: e.g. if neurological complications • Avoid iron therapy: There is a tendency to iron overload and therefore iron therapy is not usually indicated. Intra-articular steroids have been associated with a sickle cell crisis, the mechanism of which is not fully understood, but they should be avoided. • pharmaceutical interventions to prevent sickle cell crisis and other acute complications Hydroxyurea  acts by inhibiting ribonucleotide reductase, which inhibits both purine and pyrimidine synthesis.  Action: ↑fetal haemoglobin (Hb F) which protects against sickling.  reduces the incidence of acute chest syndrome and the need for blood transfusion  The major side effect is severe myelosuppression. Malaria chemoprophylaxis in endemic area • Acute chest syndrome defines as 'an acute illness characterized by fever and/or respiratory symptoms, accompanied by a new pulmonary infiltrate on chest X-ray'. management:  Oxygen therapy to maintain saturations > 95%  Intravenous fluids to ensure euvolaemia  Adequate pain relief  Incentive spirometry in all patients presenting with rib or chest pain  Antibiotics with cover for atypical organisms  Early consultation with the critical care team and haematology  Blood transfusion: A senior haematologist will make a decision as to whether a simple or exchange transfusion is necessary. guidelines suggest Hb target of 100-110g/L in either instance. • All adults who have hyposplenism, including patients with SCD, need: Yearly influenza vaccine. Pneumococcal C vaccine, (adults and children over 2 years) repeated every five years. Haemophilus influenzae type b; if not already given as part of childhood immunisation. Conjugated meningococcal C vaccine; if not already given as part of childhood immunisation. Meningococcal ACWY vaccine; if travelling to areas with high risk of meningitis. • Patients with sickle cell disease are prone to infections within encapsulated organisms because of their asplenic state. These include:  Streptococcus pneumoniae,  Haemophilus influenzae and  Neisseria meningitidis. To combat these infections, patients with homozygous sickle cell disease should be on lifelong penicillin and be vaccinated against these organisms. Salmonella osteomyelitis is seen in patients with sickle cell anaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad screening for sickle cell disease in a pregnant women: • She will first be screened for sickle cell carrier status. • If that test is positive, her partner will be screened, • If both are found to be carriers this is confirmed by genetic testing before offering chorionic villus sampling (CVS) (8-10 weeks) or amniocentesis (14-16 weeks). Priapism • Priapism is most often due to idiopathic thrombosis of the prostatic venous plexus. • Other causes include:  leukaemia, sickle-cell anaemia and  carcinomatosis. • Priapism occurs fairly frequently which may lead to permanent impotence if it is not relieved. Sideroblastic anaemia Definition • Sideroblastic anaemia is a condition where red cells fail to completely form haem, whose biosynthesis takes place partly in the mitochondrion. This leads to deposits of iron in the mitochondria that form a ring around the nucleus called a ring sideroblast. Causes: It may be congenital or acquired • Congenital cause: delta-aminolevulinate synthase-2 deficiency The enzyme delta aminolevulinic acid (ALA) is essential in the biosynthesis of heme.  Delta ALA requires pyridoxine (vitamin B6) and copper as cofactors. Hereditary sideroblastic anemia follows a X-linked genetic inheritance pattern. • Acquired causes myelodysplasia (seen in older age groups) alcohol  the most common reversible cause lead drugs: anti-TB medications, chloramphenicol.  Pyridoxine (vitamin B6) deficiency, caused by isoniazid and oral contraceptives, is a reversible cause of sideroblastic anemia. Investigations • hypochromic microcytic anaemia (more so in congenital) • Basophilic stippling: visualization of ribosomes on the surface of red blood cells can be seen on a peripheral blood smear of patients with sideroblastic anemia. • Ferritin levels are increased • bone marrow: sideroblasts and increased iron stores Sideroblasts are red cell precursors with iron-laden mitochondria and are detected via Prussian blue staining. Ringed sideroblasts are pathognomonic for sideroblastic anemia. Management • supportive • treat any underlying cause Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology removal of toxic agents such as zinc and lead, and drugs such as penicillamine and isoniazid. • pyridoxine may help • Deposition of iron in secondary haemochromatosis (haemosiderosis): Oral iron chelators  First-line : oral deferasirox  Second-line: Deferiprone side effect: bloody dyscrasias and liver dysfunction. Liver function tests are imperative whilst the patient is being administered both deferiprone and deferasirox.  Desferrioxamine results in compliance issues due to the subcutaneous route and long infusion time. Whereas phlebotomy is effective at decreasing iron overload, in a patient who is anaemic this is not a viable option. The figure illustrates sideroblasts, which are nucleated (immature) erythrocytes with granules of iron in their cytoplasm. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Haemolytic anaemias: by site The combination of anaemia and jaundice should always suggest haemolytic anaemia until proved otherwise • In intravascular haemolysis free haemoglobin is released which binds to haptoglobin. The benefit of this process (Haptoglobin binds with free plasma hemoglobin):  permits degradative enzymes access to the hemoglobin,  preventing the loss of iron via the kidneys,  shielding the kidneys from damage by hemoglobin. • As haptoglobin becomes saturated haemoglobin binds to albumin forming methaemalbumin (detected by Schumm's test). • Free haemoglobin is excreted in the urine as haemoglobinuria, haemosiderinuria Intravascular haemolysis Extravascular haemolysis • mismatched blood transfusion • G6PD deficiency* • red cell fragmentation: heart valves, TTP, DIC, HUS • paroxysmal nocturnal haemoglobinuria • cold autoimmune haemolytic anaemia • haemoglobinopathies: sickle cell, thalassaemia • hereditary spherocytosis • haemolytic disease of newborn • warm autoimmune haemolytic anaemia *strictly speaking there is an element of extravascular haemolysis in G6PD as well, although it is usually classified as a intravascular cause Haemolytic anaemias: by cause Hereditary causes • can be subdivided into membrane, metabolism or haemoglobin defects membrane: hereditary spherocytosis/elliptocytosis metabolism: G6PD deficiency haemoglobinopathies: sickle cell, thalassaemia Acquired causes • can be subdivided into immune and non-immune causes Acquired: immune causes  autoimmune: warm/cold antibody type  alloimmune: transfusion reaction, haemolytic disease newborn  drug: methyldopa, penicillin methyldopa Anti-RBC antibodies penicillin reaction between penicillin-like drugs and their antibodies Acquired: non-immune causes  microangiopathic haemolytic anaemia (MAHA): TTP/HUS, DIC, malignancy, pre-eclampsia  prosthetic cardiac valves  paroxysmal nocturnal haemoglobinuria  infections: malaria  Direct (non-immune) red cell toxicity may occur after lead exposure. laboratory tests • Hemoglobin: decreased • MCV: normocytic • Reticulocyte count and reticulocyte production index: increased • Unconjugated bilirubin: increased • LDH: increased (esp. in intravascular hemolysis) • Haptoglobin: reduced Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Microangiopathic anemia • The patient’s newly diagnosed heart murmur along with new anemia and schistocytes indicate aortic stenosis as the underlying cause. • Aortic stenosis mechanical destruction of RBCs (as they travel through the narrowed aortic opening) microangiopathic anemia • Schistocytes are fragmented RBCs. Also called helmet cells, they are pathognomic of microagiopathic hemolytic anemias. Zieve syndrome • triad of jaundice, hemolytic anemia, and hyperlipidemia. • Hepatic dysfunction is usually evident in all cases. • Hemolytic anemia is reversible. • Hyperlipidemia due to excess alcohol intake causes metabolic and osmotic abnormalities in (RBCs), making them very susceptible to hemolysis. • Peripheral blood smear reveals: normocytic normochromic anemia acanthocytes  Acanthocytes are also called spur cells.  They have multiple projections on their surface caused by hyperlipidemia. • Definitive treatment alcohol cessation. Zieve's syndrome should be suspected whenever there is anemia and elevation of unconjugated bilirubin in the setting of acute alcohol intake with no obvious sign of gastrointestinal bleeding. Autoimmune haemolytic anaemia (AIHA) • Autoimmune haemolytic anaemia (AIHA) may be divided in to 'warm' and 'cold' types, according to at what temperature the antibodies best cause haemolysis. • It is most commonly idiopathic but may be secondary to a lymphoproliferative disorder, infection or drugs. • AIHA is characterised by a positive direct antiglobulin test (Coombs' test) Warm AIHA • In warm AIHA the antibody (usually IgG) causes haemolysis best at body temperature and haemolysis tends to occur in extravascular sites, for example the spleen. Management options include steroids, immunosuppression and splenectomy. • Causes of warm AIHA autoimmune disease: e.g. systemic lupus erythematosus*  SLE can rarely be associated with a mixed-type AIHA neoplasia: e.g. lymphoma, CLL drugs: e.g. methyldopa, Penicillins, Cephalosporins, levodopa, NSAIDs and Quinidine  treated by stopping the drug ± short course of oral prednisolone. • The bone marrow respond by increasing RBCs production, which will be evident in peripheral blood by increase in the reticulocytes, immature RBCs, which will have high MCV. • Management options include steroids, immunosuppression and splenectomy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Blood transfusion can be life-saving until immunosuppression can take effect. • All patients with active haemolysis are at risk of acquiring folate deficiency due to increased metabolic demands and all should receive folic acid replacement therapy. Cold AIHA • The antibody in cold AIHA is usually IgM and causes haemolysis best at 4 deg C. • Haemolysis is mediated by complement and is more commonly intravascular. • Causes of cold AIHA neoplasia: e.g. lymphoma infections: e.g. mycoplasma, EBV Secondary cold agglutinin disease typically presents with anaemia and haemoglobinuria due to intravascular haemolysis two to three weeks following infection such as with:  Mycoplasma pneumoniae  Viruses (EBV, CMV, etc)  Legionnaires' disease  Malaria The best diagnostic test Cold agglutinin titre Cold agglutinins occur normally but at very low titres. • Features may include symptoms of Raynaud's and acrocyanosis • Patients respond less well to steroids Warm AIHA Cold AIHA Definition haemolysis best at body temperature haemolysis best at 4 deg C Antibody IgG IgM Site of haemolysis extravascular (e.g :spleen) intravascular Causes • autoimmune disease: e.g. systemic lupus erythematosus • neoplasia: e.g. lymphoma, CLL • drugs: e.g. methyldopa • neoplasia: e.g. lymphoma • infections: e.g. mycoplasma, EBV Treatment steroids, immunosuppression and splenectomy. respond less well to steroids Paroxysmal cold haemoglobinuria (PCH) • a rare type of autoimmune haemolytic anaemia (AIHA) occurring primarily in children/adolescent. • The classic symptom is a sudden onset of haemoglobinuria following exposure to cold, even for a few minutes. • Symptoms may occur minutes to hours following exposure to cold. • Haemoglobinuria is not always present because in some persons with PCH the autoantibody level is not high enough to cause intravascular haemolysis. • The direct agglutination test (DAT) (Coomb’s test) is usually negative. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Cold agglutinin disease • caused by autoantibodies that react at temperatures < 37 °C, • typical causes are: lymphoproliferative disorders,  infections such as mycoplasma or Epstein–Barr virus. Around 50% of cases are idiopathic. Non-Hodgkin’s lymphoma is more typically associated with cold agglutinins than Hodgkin’s. Hook effect • Also called or the prozone effect • In agglutination test, a person's serum (which contains antibodies) is added to a test tube, which contains a particular antigen. • If the antibodies agglutinate with the antigen to form immune complexes, then the test is interpreted as positive. • However, if too many antibodies are present that can bind to the antigen, then the antigenic sites are coated by antibodies, and few or no antibodies directed toward the pathogen are able to bind more than one antigenic particle. Since the antibodies do not bridge between antigens, no agglutination occurs. Because no agglutination occurs, the test is interpreted as negative. In this case, the result is a false negative. • The range of relatively high antibody concentrations within which no reaction occurs is called the prozone. • The effect can also occur because of antigen excess, when both the capture and detection antibodies become saturated by the high analyte concentration. In this case, no sandwich can be formed by the capturing antibody, the antigen and the detection antibody. In this case, free antigen is in competition with captured antigen for detection antibody binding. • Examples include: • high levels of syphilis antibodies in HIV patients or high levels of cryptococcal antigen leading to false negative tests in undiluted samples. • This phenomenon is also seen in serological tests for Brucellosis. • when the serum is diluted, the blocking antibody is as well and its concentration decreases enough for the proper precipitation reaction to occur. Hereditary spherocytosis Epidemiology • most common hereditary haemolytic anaemia in people of northern European descent Aetiology • autosomal dominant defect of red blood cell cytoskeleton • the most frequent cause is a mutation in the spectrin gene; spectrin is a component of the red cell membrane. • The most common mutation in a Northern European population is a combined spectrin and ankyrin mutation, which is found in 40–65% of patients. • the normal biconcave disc shape is replaced by a sphere-shaped red blood cell • red blood cell survival reduced as destroyed by the spleen Pathophysiology • Genetic mutation → Defects in RBC membrane proteins (especially spectrin and/or ankyrin) responsible for tying the inner membrane skeleton with the outer lipid bilayer → Continuous loss of lipid bilayer components → Decreased surface area of RBCs in relation to volume → Sphere-shaped RBCs with decreased membrane stability → Inability to change form while going through narrowed vessels: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad → Entrapment within splenic vasculature → Splenomegaly → Destruction via splenic macrophages → Extravascular hemolysis Features Patient with hereditary spherocytosis + acute abdomen think of: Biliary colic or rupture spleen. normocytic anaemia, gallstones and family history hereditary spherocytosis • failure to thrive • Congenital skeletal abnormalities (eg, tower-shaped skull, polydactylism) occasionally occur. • Anemia and pallor • jaundice (↑unconjugated bilirubin) • gallstones (pigment stones) common and may be the presenting symptom (made of calcium bilirubinate) may lead to cholecystitis • Splenomegaly with left upper quadrant pain • aplastic crisis precipitated by parvovirus infection Complications • Aplastic crisis can be triggered by parvovirus B19 infection. Investigations • Normocytic anemia (normal MCV) • increase in both RDW and MCHC ( the high MCHC, indicating hyperdense cells) • Findings of hemolytic anemia ↑ Unconjugated bilirubin ↑ LDH ↓ Haptoglobin Reticulocytosis • Direct antiglobulin (direct Coombs) test to exclude autoimmune hemolytic anemia (positive Coombs test), since spherocytosis is seen in both clinical presentations Direct Coombs' test is negative in Hereditary spherocytosis, as it is not an immune haemolysis • Eosin-5-maleimide binding test (EMA): test of choice, as results are readily available (within two hours) • Osmotic fragility test (Rupture of Spherocytes in mildly hypotonic solution), unreliable and is no longer recommended in routine clinical practice. this has now been replaced by the eosin-5-maleimide binding to red cells and then being detected by flow cytometry. • Osmotic gradient ektacytometry used to differentiate hereditary spherocytosis from hereditary stomatocytosis, but is only available in specialised laboratories. • If the diagnosis is equivocal, the cryohaemolysis test and EMA binding can be used. • In atypical cases, gel electrophoresis analysis of erythrocyte membranes is the test of choice. • Blood smear Characteristic spherocytes (absent central pallor) Potentially anisocytosis • Ultrasound: to evaluate gallbladder complications Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Diagnosis The first step in analysis of a spherocytic hemolytic anaemia is direct antiglobulin test (to determine whether the process is hemolytic or not). If negative confirm HS with other tests. The osmotic fragility test is unreliable and is no longer recommended in routine clinical practice. Osmotic gradient ektacytometry is used to differentiate hereditary spherocytosis from hereditary stomatocytosis Management • supportive for most patients: folate replacement • splenectomy best avoided until at least 6 years of age to reduce the risk of post-splenectomy sepsis. It is important to rule out stomatocytosis where splenectomy is contraindicated because of the thrombotic risk. Hereditary elliptocytosis (HE) • autosomal dominant condition. • Elliptocytosis is usually caused by spectrin and spectrin-protein 4.1 defects. • Horizontal membrane protein defects (for example, spectrin ankyrin interaction defect) results in HE whereas vertical defects result in hereditary spherocytosis. • Features Clinical manifestations range from an asymptomatic carriage to severe haemolytic anaemia. Most patients with HE or its variants lead healthy lives. The degree of haemolysis does not correlate with the percentage of elliptocytes seen in the blood. presence of cigar-shaped elliptocytes on the peripheral blood smear (The hallmark of HE) Elliptocytes are normochromic and normocytic and range from few to 100% of erythrocytes. • Complication Aplastic crisis • Treatment Heterozygotes are asymptomatic but show elliptocytes on blood film; they do not have haemolysis and do not require any particular treatment The treatment for symptomatic hereditary elliptocytosis is splenectomy. Hereditary elliptocytosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Glucose-6-phosphate dehydrogenase (G6PD) deficiency Basics • (G6PD) plays a vital role in the hexose monophosphate pathway • It is involved in the oxidation of glucose 6-phosphate to 6-phosphoglycerate.This oxidation reaction is needed in RBCs as it provides the only source of NADPH • NADPH maintains the level of glutathione protect the RBCs against oxidative damage from compounds like hydrogen peroxide Prevalence • G6PD deficiency is the commonest red blood cell enzyme defect. • It is more common in people from the Mediterranean, Africa and Chinese Aetiology • inherited in a X-linked recessive fashion. • Homozygotes and heterozygotes can be symptomatic, although the disease typically is more severe in persons who are homozygous for the deficiency. Factors which Precipitates crisis: • infections (the most common cause) • drugs • broad (fava) beans Favism is most common in persons with G6PD class II variants, but rarely it can occur in patients with the G6PD A–variant (Class III African descent). • henna Pathophysiology • ↓ G6PD → ↓ glutathione → increased red cell susceptibility to oxidative stress • The haemolytic anaemia is non-immune (direct antiglobulin test [DAT] negative). Features • usually asymptomatic • neonatal jaundice is often seen • intravascular haemolysis Decreased haptoglobin levels, hematuria, and presence of urinary hemosiderin indicate severe intravascular hemolysis. • acute hemolysis can cause back or abdominal pain and jaundice secondary to a rise in unconjugated bilirubin Jaundice, in the setting of normal liver function, typically does not occur until > 50% of the erythrocytes have been hemolyzed. • gallstones are common • splenomegaly may be present • Heinz bodies (denatured hemoglobin) on blood films Diagnosis: • made by using a G6PD enzyme assay • usually done by fluorescent spot test detecting the generation of NADPH from NADP. The test is positive if the blood spot fails to fluoresce under ultraviolet light. • In patients with acute hemolysis, testing for G6PD deficiency may be falsely negative because older erythrocytes with a higher enzyme deficiency have been hemolyzed. Young erythrocytes and reticulocytes have normal or near-normal enzyme activity. • Female heterozygotes may be hard to diagnose because of X-chromosome mosaicism leading to a partial deficiency that will not be detected reliably with screening tests. • Acute haemolytic reaction Blood count is normal between attacks of haemolysis During an attack the blood film may show:  irregularly contracted cells  bite cells Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology  blister cells  Heinz bodies  Reticulocytosis • Peripheral blood smear Heinz bodies (rarely seen in clinical practice) • Reticulocyte count: Increases four to seven days after hemolysis • Haptoglobin Decreased Treatment • avoidance exposure to an oxidative stressor in the form of an infection, oxidative drug, or fava beans • Acute hemolysis is self-limited, but in rare instances it can be severe enough to warrant a blood transfusion  Hemolysis typically occurs 24 to 72 hours after ingestion, with resolution within 4 to 7 days. • Methaemoglobinaemia in G6PD-deficient patients is best treated with exchange transfusion. Some drugs causing haemolysis • anti-malarials: primaquine • Quinine/quinidine. • Ciprofloxacin • Nitrofurantoin • chloramphenicol • sulph- group drugs: sulphonamides, sulphasalazine, sulfonylureas • vitamin K, probenecid • aspirin and (NSAIDs) Some drugs thought to be safe • penicillins • cephalosporins • macrolides • tetracyclines • trimethoprim In “Co-trimoxazole”: the sulfamethoxazole causes haemolysis in G6PD, not the trimethoprim. Comparing G6PD deficiency to hereditary spherocytosis: G6PD deficiency Hereditary spherocytosis Gender Male (X-linked recessive) Male + female (autosomal dominant) Ethnicity African + Mediterranean descent Northern European descent Typical history • Neonatal jaundice • Infection/drugs precipitate haemolysis • Gallstones • Neonatal jaundice • Chronic symptoms although haemolytic crises may be precipitated by infection • Gallstones • Splenomegaly is common Blood film Heinz bodies Spherocytes (round, lack of central pallor) Diagnostic test Measure enzyme activity of G6PD Osmotic fragility test Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Other notes • G6PD deficiency confers partial protection against malaria • Hemolysis begins 24 to 72 hours after exposure to oxidant stress. • Hemolysis due to oxidant stresses are usually self-limiting within 8 to 14 days due to the compensatory production of young red blood cells with high levels of G6PD. • Young RBCs are not vulnerable to oxidative damage and hence limit the duration of hemolysis. • G6PD deficiency is an X-linked inherited disease that primarily affects men. • Women may be affected if:  they are homozygous, which occurs in populations in which the frequency of G6PD deficiency is quite high. Heterozygous women (carriers) can experience clinical disease as a result of: X chromosome inactivation, gene mosaicism, or hemizygosity • Severe hemolysis due to G6PD deficiency may manifest as methemoglobinemia _Paroxysmal nocturnal haemoglobinuria (PNH) The triad of hemolytic anemia, pancytopenia, and thrombosis PNH • (PNH) is an acquired disorder leading to haemolysis (mainly intravascular) of haematological cells. • Caused by increased sensitivity of cell membranes to complement due to a lack of glycoprotein glycosyl-phosphatidyl-inositol (GPI). • Patients are more prone to venous thrombosis • 50% of PNH affected individuals are died due to thrombotic complications Pathophysiology • GPI can be thought of as an anchor which attaches surface proteins to the cell membrane • complement-regulating surface proteins, e.g. decay-accelerating factor CD 55 (DAF) and Membrane Inhibitor of Reactive Lysis CD 59 (MIRL)., are not properly bound to the cell membrane due a lack of GPI • Hemolysis occurs when patients develop a mild acidosis at night, due to a relative hypoventilation, resulting in the passage of dark urine in the early morning. • thrombosis is thought to be caused by a lack of CD59 on platelet membranes predisposing to platelet aggregation • Intrinsic hemolytic anemia with intravascular hemolysis Features • symptoms of anemia (Pallor, fatigue, weakness) • Intermittent jaundice • haemoglobinuria classically dark-coloured urine in the morning (although has been shown to occur throughout the day) • Abdominal pain may be due to small mesenteric vein thrombi. Complications • thrombosis e.g. Budd-Chiari syndrome • Vasoconstriction: headache, pulmonary hypertension • aplastic anaemia may develop in some patients • ↑ Risk of acute leukemias Investigations • CBC haemolytic anaemia pancytopaenia • Dipstick analysis of the urine: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology  will be positive for 'blood', but the microscopy will show no red blood cells.  This because there is intravascular haemolysis, with intravascular release of haemoglobin. This then passes through the renal tubules, ending up in the urine, and turning the dipstick analysis positive. However, because there are no actual red blood cells in the urine, the microscopy will be negative. • Flow cytometry (immunophenotyping) of blood absence of CD55 and CD59 on the surface of RBCs now replaced Ham's test as the gold standard investigation in PNH • Ham's test: acid-induced haemolysis (normal red cells would not) acidified serum (pH 6.2) is added to blood: PNH cells, but not normal cells, will be lysed. • Coombs test: negative Management • blood product replacement • anticoagulation • eculizumab, a monoclonal antibody directed against terminal protein C5 (C5 inhibitor), is reducing intravascular haemolysis • stem cell transplantation The gold standard curative treatment Splenectomy • Following a splenectomy patients are particularly at risk of infections from: pneumococcus, Haemophilus, meningococcus and Capnocytophaga canimorsus*(*usually from dog bites) • Vaccination if elective, should be done 2 weeks prior to operation Hib, meningitis A & C annual influenza vaccination pneumococcal vaccine every 5 years • Antibiotic prophylaxis penicillin V: unfortunately clear guidelines do not exist of how long antibiotic prophylaxis should be continued. It is generally accepted though that penicillin should be continued for at least 2 years and at least until the patient is 16 years of age, although the majority of patients are usually put on antibiotic prophylaxis for life Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Blood products Whole blood fractions Fraction Key points Packed red cells • Used for transfusion in chronic anaemia and cases where infusion of large volumes of fluid may result in cardiovascular compromise. • Product obtained by centrifugation of whole blood. • In a stable patient, red cell packs may be transfused over 90-120 minutes Rapid infusion of red cells or fresh frozen plasma may be required in an acutely bleeding patient but not in patient who is stable. Platelet rich plasma • Usually administered to patients who are thrombocytopaenic and are bleeding or require surgery. • It is obtained by low speed centrifugation. Platelet concentrate • Prepared by high speed centrifugation • administered to patients with thrombocytopaenia. • the life span of transfused platelets is only 3-7 days. • platelet transfusion should not take more than 20-30 minutes. • Patients who are refractory to platelet transfusions: should be first investigated to check for adequate platelet rises. This is best done on a one or two-hour post platelet transfusion sample. Further test would include checking for HLA antibodies Fresh frozen plasma • Prepared from single units of blood. • Contains clotting factors, albumin and immunoglobulin. • Unit is usually 200 to 250ml. • Usually used in correcting clotting deficiencies in patients with hepatic synthetic failure who are due to undergo surgery. • Usual dose is 12-15ml/Kg-1. • It should not be used as first line therapy for hypovolaemia. Cryoprecipitate • Formed from supernatant of FFP. • Rich source of Factor VIII and fibrinogen. • Allows large concentration of factor VIII to be administered in small volume. SAG-Mannitol Blood Removal of all plasma from a blood unit and substitution with: • Sodium chloride • Adenine • Anhydrous glucose • Mannitol Up to 4 units of SAG M Blood may be administered. Thereafter whole blood is preferred. After 8 units, clotting factors and platelets should be considered. Plasma derivatives • plasma derivatives (such as factor VIII) are prepared from several thousand plasma donations, typically 20,000, or 5,000 kg of plasma at a time. • Pooled plasma has been sourced from outside the UK since 1999 to avoid vCJD risks. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology The process involves several chemical steps including:  ethanol extraction,  chromatography, and  viral inactivation steps which results in a freeze-dried product. • These products have a long shelf life of several months to years. Cell saver devices These collect patients own blood lost during surgery and then re-infuse it. There are two main types: • Those which wash the blood cells prior to re-infusion. These are more expensive to purchase and more complicated to operate. However, they reduce the risk of re-infusing contaminated blood back into the patient. • Those which do not wash the blood prior to re-infusion. Their main advantage is that they avoid the use of infusion of blood from donors into patients and this may reduce risk of blood borne infection. It may be acceptable to Jehovah's witnesses. It is contraindicated in malignant disease for risk of facilitating disease dissemination. Blood products used in warfarin reversal Immediate or urgent surgery in patients taking warfarin: Stop warfarin Vitamin K (reversal within 4-24 hours)  IV takes 4-6h to work (at least 5mg)  Oral can take 24 hours to be clinically effective Fresh frozen plasma  Used less commonly now as 1st line warfarin reversal  30ml/kg-1  Need to give at least 1L fluid in 70kg person (therefore not appropriate in fluid overload)  Need blood group  Only use if human prothrombin complex is not available Human Prothrombin Complex (reversal within 1 hour)  Bereplex 50 u/kg  Rapid action but factor 6 short half life, therefore give with vitamin K Neonatal exchange transfusion • An exchange transfusion requires blood which is plasma reduced whole blood in CPD (citrate phosphate dextrose/anticoagulant), irradiated and less than five days old. • The Rh group should either be Rh negative or identical to the neonate, to avoid haemolytic transfusion reaction in the neonate. Blood Transfusion Thresholds ■ Sepsis: 7 g/dL ■ Upper or lower GI bleeds: 7 g/dL ■ Acute neurologic injury or TBI : 7 g/dL ■ Stable CV disease: 8 g/dL ■ ACS: 10 g/dL Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Blood product transfusion complications Complications • haemolytic: immediate or delayed • febrile reactions • transmission of viruses, bacteria, parasites, vCJD • hyperkalaemia • iron overload • ARDS • clotting abnormalities Immediate haemolytic reaction • occur during the transfusion. • e.g. ABO mismatch • massive intravascular haemolysis Delayed haemolytic transfusion reaction • occurs 24 hours after the transfusion. • This happens in a patient who has been previously immunised by transfusions or pregnancy. The antibodies are not detectable initially but become obvious as a secondary immune response to the antigen exposure during the transfusion occurs. Febrile reactions • due to anti HLA antibodies in recipient serum or granulocyte specific antibodies (for example, sensitisation during previous pregnancy or previous blood transfusion). • Febrile non-haemolytic reactions are very common and are due to the presence of pyrogenic cytokines released from leucocytes during storage of the blood units. apart from a mild fever, the patient is very well. rapid rise in temperature may be due to ABO incompatibility, but With ABO incompatibility patients become shocked very quickly. Rhesus D mismatch • It is very often necessary to give D positive platelets to D negative people due to platelet shortage. • If the recipient of this mismatch is a female of child bearing age, then prophylactic anti- D should be administered with the platelets to prevent production of immune anti- D. • If anti-D does not administered, the immune anti-D she has made can cross the placenta when she become pregnant in the future and cause haemolytic disease of the fetus/newborn, if the baby is D positive, and this can be life threatening to the baby. Advise patient that this is only likely to be of consequence should she become pregnant in the future. Causes a degree of immunosuppression • e.g. patients with colorectal cancer who have blood transfusions have a worse outcome than those who do not The risk of viral transmission • A broad knowledge of the risks may be required while consenting a patient for blood transfusion. • in the United Kingdom, the risks; For hepatitis B are 1 per 1.3 million donations For HIV are 1 in 6.5 million and For hepatitis C 1 in 28 million donations. Transmission of vCJD • although the absolute risk is very small, vCJD may be transmitted via blood transfusion • a number of steps have been taken to minimise this risk, including: • → from late 1999 onward, all donations have undergone removal of white cells (leucodepletion) in order to reduce any vCJD infectivity present Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • →from 1999, plasma derivatives have been fractionated from imported plasma rather than being sourced from UK donors. Fresh Frozen Plasma (FFP) used for children and certain groups of adults needing frequent transfusions is also imported • → from 2004 onward, recipients of blood components have been excluded from donating blood iron overload • secondary to chronic blood transfusion (eg : in myelodysplastic syndrome) • early signs: grey skin early hear failure diabetes • treatment: iron chelation with desferrioxamine subcutaneously bind iron needs to be given for 8 – 12 hours a day for 5 – 7 days per week common side effects of desferrioxamine: high frequency deafness retinopathy Yersinia infection irradiated blood products • the advantage of irradiated red cells Inactivates donor lymphocytes • Indications for irradiated blood products Those at risk of transfusion associated with graft versus host disease such as neonates Those receiving purine analogues-based chemotherapy Hodgkin's lymphoma Immunodeficiency states Post bone marrow transplants Pre-operative request for the blood bank for elective surgeries • Group and save only A 'group and save' is adequate for elective surgeries and is standard practice in most modern blood banks. This will involve blood grouping and its confirmation as well as an antibody screen. Other options include cross match and a direct Coombs' test are not routinely done for elective surgery Transfusion errors • Mislabelling of samples, requests, or wrongly identifying recipients are the commonest transfusion errors. January 2016 exam: What is the risk of variant Creutzfeldt-Jakob Disease (vCJD) transmission via blood transfusion? Measures are taken to reduce the risk of vCJD transmission but there remains a very small risk of transmission Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Transfusion Related Acute Lung Injury (TRALI) Definition • (TRALI) is a rare but serious syndrome characterized by sudden acute respiratory distress within six hours after blood product administration Risk factors • Caused by anti-HLA, Human Neutrophil Antigens (HNA) or anti-granulocytes antibody in donor blood. • Donor’s blood sensitization occurs in: Multiparous ♀ develop these antibodies through exposure to fetal blood Previous transfusion Transplantation patient • When blood is obtained from above mentioned donors, it carries higher risk for recipient to develop TRALI; those who have lung pathology are more susceptible. TRALI symptoms resemble ARDS. Pathophysiology • transfused human leukocyte or neutrophil antigen (HLA or HNA) antibodies activation of donor neutrophils Neutrophils adhere to pulmonary endothelium to increase permeability and cause pulmonary edema. • Patients with certain clinical conditions (eg, infection, inflammation, surgery) have primed neutrophils that are susceptible to activation by transfused bioactive substances. • TRALI has two proposed pathophysiologic mechanisms: the antibody hypothesis. (antigen-antibody interactions) The human leukocyte antigen (HLA class I, HLA class II) or human neutrophil antigen (HNA) antibody in the transfused component reacts with neutrophil antigens in the recipient The recipient's neutrophils lodge in the pulmonary capillaries and release mediators that cause pulmonary capillary leakage. As a consequence, many patients with TRALI will develop transient leukopenia. However, transfusions of blood components containing neutrophil antibodies may cause leukopenia, that do not meet the definition of TRALI. The neutrophil priming hypothesis: does not require antigen-antibody interactions occurs in patients with clinical conditions that predispose to neutrophil priming and endothelial activation such as infection, surgery, or inflammation. Bioactive substances in the transfused component activate the primed, sequestered neutrophils, and pulmonary endothelial damage occurs. • Both mechanisms lead to pulmonary edema in the absence of circulatory overload. Feature • Occurring within 1 to 6 hours of transfusion of plasma-containing blood components. • Patients present with the rapid onset of dyspnea and tachypnea. • There may be associated fever, cyanosis, and hypotension. • Clinical examination reveals hypoxic respiratory distress, and pulmonary crackles may be present without signs of congestive heart failure or volume overload. • Chest x-ray (CXR) shows evidence of bilateral pulmonary edema unassociated with heart failure (non-cardiogenic pulmonary edema), with bilateral patchy infiltrates, which may rapidly progress to complete "white out" indistinguishable from acute respiratory distress syndrome (ARDS). • Physiologic findings include acute hypoxemia with PaO2/FiO2 less than 300 mmHg and normal cardiac function on echocardiogram. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Diagnosis: • confirmed by finding of anti-HLA or anti-Neutrophil antibody in donors’ or recipient blood. Treatment • Early and intensive pulmonary support reduces the risk of a fatal outcome. • Since the pulmonary edema in TRALI is not related to fluid overload or cardiac dysfunction, but to altered vascular permeability in the lungs with exudation of fluid and protein into the alveoli, it is logical that:  maintenance of adequate circulating volume is the most beneficial and appropriate therapy.  Corticosteroids, epinephrine and also ventilatory support are treatment options. How to distinguish TRALI and ARDS from Pulmonary oedema? • In the exam take into account the clinical findings and scenario to distinguish. • The hallmark of ARDS is refractory hypoxia with non-cardiogenic pulmonary edema • Normal pulmonary capillary wedge pressure is between 5 - 15 mmHg. A PCWP exceeding 15 mmHg suggests mitral stenosis, mitral insufficiency, severe aortic stenosis, aortic regurgitation, ventricular failure, or other cardiac defects or pathologies. • When the PCWP exceeds 20 mmHg, the transmission of this pressure back into the pulmonary vasculature increases pulmonary capillary hydrostatic pressure which can lead to pulmonary oedema. Graft versus host disease (GVHD) See transplant topic in renal system Plasma exchange Indications for plasma exchange (also known as plasmapheresis) • Guillain-Barre syndrome • myasthenia gravis • Goodpasture's syndrome • ANCA positive vasculitis e.g. Wegener's, Churg-Strauss • TTP/HUS • cryoglobulinaemia • hyperviscosity syndrome e.g. secondary to myeloma Deep vein thrombosis (DVT) DVT Risk Factors: • Hematological Thrombophilia: e.g. Activated protein C resistance, protein C and S deficiency Polycythemia Paroxysmal nocturnal hemoglobinuria Hyperviscosity syndrome • Autoimmune Antiphospholipid syndrome Behcet's • Drugs Combined oral contraceptive pill: 3rd generation more than 2nd generation Antipsychotics (especially olanzapine) have recently been shown to be a risk factor • Other conditions Homocystinuria Diagnosis If a patient is suspected of having a DVT a two-level DVT Wells score should be performed: Two-level DVT Wells score Clinical feature Points Active cancer (treatment ongoing, within 6 months, or palliative) Paralysis, paresis or recent plaster immobilisation of the lower extremities Recently bedridden for 3 days or more or major surgery within 12 weeks requiring general or regional anaesthesia Localised tenderness along the distribution of the deep venous system Entire leg swollen Calf swelling at least 3 cm larger than asymptomatic side Pitting oedema confined to the symptomatic leg Collateral superficial veins (non-varicose) Previously documented DVT An alternative diagnosis is at least as likely as DVT -2 Clinical probability simplified score • DVT likely: 2 points or more • DVT unlikely: 1 point or less If a DVT is 'likely' (2 points or more) • a proximal leg vein ultrasound scan should be carried out within 4 hours and, if the result is negative, a D-dimer test • if a proximal leg vein ultrasound scan cannot be carried out within 4 hours a D-dimer test should be performed and low-molecular weight heparin administered whilst waiting for the proximal leg vein ultrasound scan (which should be performed within 24 hours) If a DVT is 'unlikely' (1 point or less) • perform a D-dimer test and if it is positive arrange: • a proximal leg vein ultrasound scan within 4 hours • if a proximal leg vein ultrasound scan cannot be carried out within 4 hours low-molecular weight heparin should be administered whilst waiting for the proximal leg vein ultrasound scan (which should be performed within 24 hours) Management Low molecular weight heparin (LMWH) or fondaparinux should be given initially after a DVT is diagnosed. • a vitamin K antagonist (i.e. warfarin) should be given within 24 hours of the diagnosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • the LMWH or fondaparinux should be continued for at least 5 days or until the international normalised ratio (INR) is 2.0 or above for at least 24 hours, whichever is longer, i.e. LMWH or fondaparinux is given at the same time as warfarin until the INR is in the therapeutic range • warfarin should be continued for at least 3 months. At 3 months, NICE advise that clinicians should 'assess the risks and benefits of extending treatment' • NICE add 'consider extending warfarin beyond 3 months for patients withunprovoked proximal DVT if their risk of VTE recurrence is high and there is no additional risk of major bleeding'. This essentially means that if there was no obvious cause or provoking factor (surgery, trauma, significant immobility) it may imply the patient has a tendency to thrombosis and should be given treatment longer than the norm of 3 months. In practice most clinicians give 6 months of warfarin for patients with an unprovoked DVT/PE • for patients with active cancer NICE recommend using LMWH for 6 months • for patients with active ulcerative colitis who developed DVT : may require Emergency colectomy, as such warfarinisation would be inappropriate. should be heparinised as this would be easily reversible if it needs to be discontinued prior to surgery or if severe worsening of bleeding occurs. Time of starting prophylaxis in elective knee replacement surgery: • LMWH or fondaparinux (s/c factor X inhibitor) should be started 6 – 12 hours after surgery • Dabigatran (oral factor X inhibitor) 1 – 4 hours after surgery Unprovoked VTE (Malignancy investigations and thrombophilia screening) • As both malignancy and thrombophilia are obvious risk factors for deep vein thrombosis NICE make recommendations on how to investigate patients with unprovoked clots. Malignancy investigations • Offer all patients diagnosed with unprovoked DVT or PE who are not already known to have cancer the following investigations for cancer: a physical examination (guided by the patient's full history) and a chest X-ray and blood tests (full blood count, serum calcium and liver function tests) and urinalysis. • Consider further investigations for cancer with an abdomino-pelvic CT scan (and a mammogram for women) in all patients aged over 40 years with a first unprovoked DVT or PE Thrombophilia screening • not offered if patients will be on lifelong warfarin (i.e. won't alter management) • consider testing for antiphospholipid antibodies if unprovoked DVT or PE • consider testing for hereditary thrombophilia in patients who have had unprovoked DVT or PE and who have a first-degree relative who has had DVT or PE The next most important investigation: • Unprovoked VTE chest X-ray, blood tests and urinalysis • Unprovoked VTE + family history of VTE Thrombophilia screening Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pregnancy: DVT/PE Coagulation elements in pregnancy: • Increased factors VII, VIII, IX, X, and XII ,fibrinogen, plasminogen, and D-dimer. • Decreased factor XI and protein S. • Not changed Factor II, protein C, and anti-thrombin III. Overview • pregnancy is a hypercoagulable state • majority occur in last trimester Pathophysiology • increase in factors VII, VIII, X and fibrinogen • decrease in protein S • uterus presses on IVC causing venous stasis in legs Management • warfarin contraindicated • S/C low-molecular weight heparin preferred to IV heparin (less bleeding and thrombocytopenia) Post-thrombotic syndrome • It is increasingly recognised that patients may develop complications following a DVT. • Venous outflow obstruction and venous insufficiency result in chronic venous hypertension. • The resulting clinical syndrome is known as post thrombotic syndrome. Features • painful, heavy calves • pruritus • swelling • varicose veins • venous ulceration Management • Compression stockings should be offered to all patients with deep vein thrombosis to help reduce the risk of post-thrombotic syndrome. • NICE state the following: Offer below-knee graduated compression stockings with an ankle pressure greater than 23 mmHg to patients with proximal DVT a week after diagnosis or when swelling is reduced sufficiently and if there are no contraindications, and:  advise patients to continue wearing the stockings for at least 2 years  ensure that the stockings are replaced two or three times per year or according to the manufacturer's instructions  advise patients that the stockings need to be worn only on the affected leg or legs. Venous thromboembolism: prophylaxis in patients admitted to hospital Venous thromboembolism (VTE) still accounts for a significant proportion of avoidable hospital deaths. In an effort to tackle this problem NICE produced guidelines in 2010. Before admission • advise women to consider stopping oestrogen-containing oral contraception or HRT 4 weeks before surgery. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • assess the risks and benefits of stopping antiplatelet therapy 1 week before surgery. The following patients are deemed at risk of VTE Medical patients • if mobility significantly reduced for >= 3 days or • if expected to have ongoing reduced mobility relative to normal state plus any VTE risk factor (see below) Surgical patients and patients with trauma • if total anaesthetic + surgical time > 90 minutes or • if surgery involves pelvis or lower limb and total anaesthetic + surgical time > 60 minutes or • if acute surgical admission with inflammatory or intra-abdominal condition or • if expected to have significant reduction in mobility or • if any VTE risk factor present (see below) VTE risk factors • active cancer or cancer treatment • age > 60 years • critical care admission • dehydration • known thrombophilias • obesity (BMI > 30 kg/m2) • one or more significant medical comorbidities (for example: heart disease; metabolic, endocrine or respiratory pathologies; acute infectious diseases; inflammatory conditions) • personal history or first-degree relative with a history of VTE • use of HRT • use of oestrogen-containing contraceptive therapy • varicose veins with phlebitis In-patient VTE prophylaxis As a general rule pharmacological VTE prophylaxis is used for medical patients unless there is a contraindication. For surgical patients mechanical VTE prophylaxis is offered for patients at risk. Pharmacological VTE prophylaxis is also given for if the risk of major bleeding is low. Pharmacological VTE prophylaxis options: • fondaparinux sodium • low molecular weight heparin (LMWH) • unfractionated heparin (UFH) (for patients with renal failure) Mechanical VTE prophylaxis options: • anti-embolism stockings (thigh or knee length) • foot impulse devices • intermittent pneumatic compression devices (thigh or knee length) Post-procedure VTE prophylaxis For certain procedures pharmacological VTE prophylaxis is recommended for all patients, using one of the following: • dabigatran, started 14 hours after surgery • fondaparinux, started 6 hours after surgery • LMWH, started 6-12 hours after surgery • rivaroxaban, started 6-10 hours after surgery. • Apixaban Procedure Length of prophylaxis Elective hip 28-35 days Elective knee 10-14 days Hip fracture 28-35 days 046 - Pages 1126-1150 046 Pages 1126-1150 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Superficial thrombophlebitis • Superficial thrombophlebitis, as the name suggests describes the inflammation associated with thrombosis of one of the superficial veins, usually the long saphenous vein of the leg. • This process is usually non-infective in nature but secondary bacterial infection may rarely occur resulting in septic thrombophlebitis. • Around 20% with superficial thrombophlebitis will have an underlying deep vein thrombosis (DVT) at presentation and 3-4% of patients will progress to a DVT if untreated. • The risk of DVT is partly linked to the length of vein affected - an inflammed vein > 5 cm is more likely to have an associated DVT. Management • Traditionally NSAIDs have been used, with topical NSAIDs for limited and mild disease and oral NSAIDs for more severe disease. • Topical heparinoids have also be used in the management of superficial thrombophlebitis. • A Cochrane review however found topical NSAIDs and heparinoids have no significant benefit in terms of reducing extension or progression to DVT. • Oral NSAIDs were however shown to reduce the risk of extension by 67%. • Compression stockings are also used. • Remember that the ankle-brachial pressure index (ABPI) should be measured before prescribing compression stockings, particularly if using class 2 or above stockings. • One of the major changes to the management of superficial thrombophlebitis is the increased use of low-molecular weight heparin. This has been shown to reduce extension and transformation to DVT. • SIGN produced guidelines in 2010: Patients with clinical signs of superficial thrombophlebitis affecting the proximal long saphenous vein should have an ultrasound scan to exclude concurrent DVT. Patients with superficial thrombophlebitis should have anti-embolism stockings and can be considered for treatment with prophylactic doses of LMWH for up to 30 days or fondaparinux for 45 days. If LMWH is contraindicated, 8-12 days of oral NSAIDS should be offered. Patients with superficial thrombophlebitis at, or extending towards, the sapheno-femoral junction can be considered for therapeutic anticoagulation for 6-12 weeks. • This may be a significant departure from our current practice - the majority of patients with superficial thrombophlebitis (i.e. those affecting the long saphenous vein) should be referred for an ultrasound scan. Thrombophilia: causes inherited thrombophilias: • the most common Factor V Leiden • the higher risk of VTE Anti-thrombin III deficiency Inherited thrombophilias • Gain of function polymorphisms factor V Leiden (activated protein C resistance): most common cause of thrombophilia prothrombin gene mutation: second most common cause • Deficiencies of naturally occurring anticoagulants antithrombin III deficiency protein C deficiency Reduced degradation of factors Va and Villa Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology protein S deficiency The table below shows the prevalence and relative risk of venous thromboembolism (VTE) of the different inherited thrombophilias: Condition Prevalence Relative risk of VTE Factor V Leiden (heterozygous) 5% Prothrombin gene mutation (heterozygous) 1.5% Protein C deficiency 0.3% Protein S deficiency 0.1% 5-10 Antithrombin III deficiency 0.02 10-20 Acquired thrombophilias: • Antiphospholipid syndrome • Drugs the combined oral contraceptive pill NICE recommend testing for thrombophilia in case of unprovoked venous thromboembolism and family history. Indications of thrombophilia testing: Thrombophilia testing is considered useful in patients presenting with: • A first episode of venous thromboembolism (VTE) at a young age (usually considered less than 45 years of age) • Idiopathic venous thrombosis • A family history of thrombosis, particularly in a first degree relative • VTE in an unusual vascular territory • Neonatal purpura fulminans • Warfarin induced skin necrosis Factor V Leiden Epidemiology • Factor V Leiden (activated protein C resistance) is the most common inherited thrombophilia, being present in around 5% of the UK population. • present in 5-9% of the European population but is rare in people of Asian and African descent. Aetiology • It is due to a mutation in the Factor V Leiden mutation. • mostly inherited in an autosomal dominant fashion Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • caused by an amino acid substitution results in replacement of arginine with glutamine in the amino acid chain, that impairs the ability of activated protein C and S to inactivate factor Va. Pathophysiology • Normally, activated protein C inactivates factor V in the clotting cascade → decreases the activation of thrombin. • However, in patients with these defects, factor V remains active → activates prothrombin → increases thrombotic events. Features • results in a 30% lifetime risk of VTE for homozygotes and 5-10% for heterozygotes. • Heterozygotes have a 4-5 fold risk of venous thrombosis. Diagnosis • The gold standard for the diagnosis of factor V Leiden is genetic testing for the mutation. Management • prophylaxis against thromboembolism. • Contraceptive medications and devices that contain the hormone estrogen should not be used Non-hormonal and progesterone-only methods are safe for use in these patients • patients with no history of VTE are not indicated for prolonged anticoagulation prophylaxis. Protein C deficiency • Protein C deficiency is an autosomal codominant condition which causes an increased risk of thrombosis • Protein C is synthesized in the liver. • It is a relatively common thrombophilia disorder, affecting 1 in 500 individuals. Function of protein C • inactivation of factors Va and VIIIa. Features • venous thromboembolism • skin necrosis following the commencement of warfarin: when warfarin is first started biosynthesis of protein C is reduced. This results in a temporary procoagulant state after initially starting warfarin, normally avoided by concurrent heparin administration. Thrombosis may occur in venules leading to skin necrosis The best initial step for the management of warfarin-induced skin necrosis is stopping warfarin. Diagnosis • Copperhead snake venom assay  the best test to detect protein-C deficiency Management • Patients with a history of a thrombotic event should receive prophylactic anticoagulation for life. What pathological process is most likely to be responsible for increased propensity to clot in a patient diagnosed with protein C deficiency? Reduced degradation of factors Va and VIIIa Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Antithrombin III deficiency • Antithrombin III deficiency is an inherited cause of thrombophilia occurring in approximately 1:3,000 of the population. • Inheritance is autosomal dominant Function of Antithrombin III • Antithrombin III inhibits several clotting factors, primarily thrombin, factors II, IX, and X. the affinity of Antithrombin III for Factor II and X is much greater, and it thus has a much stronger inactivation effect on these factors. • It mediates the effects of heparin Features • recurrent venous thromboses • arterial thromboses do occur but are uncommon Diagnosis • The best initial test for diagnosing antithrombin III deficiency is thrombin-heparin cofactor level. Management • thromboembolic events are treated with lifelong warfarinisation • heparinisation during pregnancy* *as patients with antithrombin III deficiency have a degree of resistance to heparin, anti-Xa levels should be monitored carefully to ensure adequate anticoagulation • antithrombin III concentrates (often using during surgery or childbirth) Hereditary haemorrhagic telangiectasia (HHT) • Also known as Osler-Weber-Rendu syndrome • characterised by (as the name suggests) multiple telangiectasia over the skin and mucous membranes. Genetic • autosomal dominant • Two genes: ENG (endoglin) and ALK-1 (activin receptor like kinase-1) encode proteins expressed on vascular endothelial cells. Mutations in these genes cause an imbalance in angiogenesis. Epidemiology • occurs in approximately 1 in 5000 of the population. • 20 % of cases occur spontaneously without prior family history. • commonly presents in teenagers. 62% are diagnosed by age 16. Features and complications • over 90% present with nosebleeds (the most common initial mode of presentation) • GI telangiectasias and arteriovenous malformations (AVMS) may cause chronic slow bleeding leading to iron deficiency anemia • AVMS in the respiratory system may cause dyspnoea and cyanosis and paradoxical cerebral emboli. • GI telangiectasias and arteriovenous malformations may cause acute haemorrhage • In the brain AVMS, angiomas and aneurysms may lead to stroke Diagnosis • There are 4 main diagnostic criteria (Curacao criteria). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad epistaxis: spontaneous, recurrent nosebleeds telangiectases: multiple at characteristic sites (lips, oral cavity, fingers, nose) visceral lesions: for example, gastrointestinal telangiectasia (with or without bleeding), pulmonary arteriovenous malformations (AVM), hepatic AVM, cerebral AVM, spinal AVM family history: a first-degree relative with HHT • The diagnosis is definite if 3 criteria are present, suspected with 2 criteria and unlikely if fewer than 2 criteria are present. The chest x-ray shows multiple pulmonary nodules representing arteriovenous malformations, the largest in the right mid-zone. The CT scan shows multiple hepatic arteriovenous malformations Mucocutaneous telangiectasias involve the lips (HHT) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology The slide shows the typical appearance of hereditary haemorrhagic telangiectasia (also known as Osler-Weber-Rendu disease) Idiopathic thrombocytopenic purpura (ITP) • ITP is an immune mediated reduction in the platelet count. • Antibodies are directed against the glycoprotein IIb/IIIa or Ib-V-IX complex. • Most often the stimulus is unknown, but it can be secondary to other autoimmune disorders (e.g. SLE), viral infections (e.g. CMV, VZV, hepatitis C, HIV), Helicobacter pylori, medication and lymphoproliferative disorders. • It results in isolated thrombocytopenia, with the most common presenting sign being a purpuric rash. • ITP can be divided into acute and chronic forms: Acute ITP • more commonly seen in children • equal sex incidence • may follow an infection or vaccination • usually runs a self-limiting course over 1-2 weeks Chronic ITP • more common in young/middle-aged women • tends to run a relapsing-remitting course Evan's syndrome • ITP in association with autoimmune haemolytic anaemia (AIHA) Investigations • antiplatelet autoantibodies (usually IgG) • bone marrow aspiration shows megakaryocytes in the marrow. This should be carried out prior to the commencement of steroids in order to rule out leukaemia Management • No treatment is an option if asymptomatic. • oral prednisolone (80% of patients respond) • splenectomy if platelets < 30 after 3 months of steroid therapy • IV immunoglobulins • immunosuppressive drugs e.g. cyclophosphamide Prognosis • The principal cause of death in patients with ITP is intracranial haemorrhage Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Langerhans cell histiocytosis .Also called (Eosinophilic granuloma, Histiocytosis X) Definition • Abnormal proliferation of pathogenic Langerhans cells (dendritic cells found in the skin) in single or multiple organs. This leads to inflammation and tissue destruction in different organs of the body • It is the most common type of histiocytosis (i.e., syndrome characterised by the abnormal proliferation of histiocytes). Pathophysiology • Exact aetiology and pathogenesis is unknown; • thought to be either a malignant process or due to immune dysregulation Features • more frequent in children (< 15 year ) typically presents in childhood with bony lesions • bone pain, (present in 80% of patients, and are commonly seen on scalp) typically in the skull or proximal femur • skin rash , cutaneous nodules • Cranial involvement: Diabetes insipidus polyurea and polydipsia (common in patients with multi-system disease) • recurrent otitis media/mastoiditis • GIT involvement : hepatosplenomegaly Young girl with multiple well defined 'punched out' osteolytic lesions with scalloped edges (geographic skull) are seen in the bilateral parietal regions. The lesions have a characteristic bevelled edge. Diagnostics • X-ray: osteolytic lesions • Tissue biopsy of lesion (confirmatory test): on electromicroscopy tennis racket-shaped Birbeck granules proliferation of Langerhans cells; polygonal cells with coffee-bean shaped nuclei, eosinophilic cytoplasm, and Birbeck granules presence of CD1a and langerin (CD207) or Birbeck granules is definitive for diagnosis. Treatment • Multi-system disease is treated with systemic, multi-agent chemotherapy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Myelofibrosis Overview • a myeloproliferative disorder • thought to be caused by hyperplasia of abnormal megakaryocytes • the resultant release of platelet derived growth factor is thought to stimulate fibroblasts • haematopoiesis develops in the liver and spleen • commonly associated with the JAK2 kinase mutation. Features • e.g. elderly person with symptoms of anaemia e.g. fatigue (the most common presenting symptom) • massive splenomegaly  (due to extramedullary hematopoiesis) • hypermetabolic symptoms: weight loss, night sweats etc Complications • Myelofibrosis can change to acute myeloid leukaemia. Laboratory findings • anaemia • high WBC and platelet count early in the disease • 'tear-drop' poikilocytes on blood film • unobtainable bone marrow biopsy - 'dry tap' therefore trephine biopsy needed  bone marrow biopsy is characterized by excessive proliferation of megakaryocytes. • high urate and LDH (reflect increased cell turnover) Blood film showing the typical 'tear-drop' poikilocytes of myelofibrosis Treatment • Bone marrow transplant is the only curative treatment Myelodysplastic syndrome (MDS) Overview • premalignant condition. • primarily affects elderly people (> 60 ). • more common in males than in females Pathophysiology • clonal mutation predominates in the bone marrow, suppressing healthy stem cells. • the main cause of cytopenias In the early stages of MDS increased apoptosis (programmed cell death). As the disease progresses and converts into leukemia, proliferation of leukemic cells overwhelms the healthy marrow. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes • primary or idiopathic MDS (80%) • genetic predisposition • hematopoietic stem cell injury caused by exposure to any of the following: Cytotoxic chemotherapy Radiation Viral infection Genotoxic chemicals (eg, benzene) Features macrocytic anaemia, thrombocytopenia and neutropenia with a small number of circulating blasts suggests a diagnosis of myelodysplastic syndrome • 80% of patients present because of symptoms of anaemia (fatigue and malaise) • Petechiae, ecchymoses, and nose and gum bleeding are common manifestations of a low platelet count. • neutropenia may leads to fever and infections • blood film: dimorphic picture (some red cells are hypochromic and microcytic, while others appear macrocytic) neutrophils are hypogranular and hyposegmented (Pelger-Huet cells). The peripheral blood count may show;  single cytopenia (anemia, thrombocytopenia, or neutropenia) in the early phase or  bicytopenia (2 deficient cell lines) or  pancytopenia (3 deficient cell lines) in later stages. unexplained macrocytic anemia with no evidence of megaloblastic anemia • Bone marrow aspirate stained with Perls' stain showed ring sideroblasts Ring sideroblasts contain an abnormally high concentration of iron, usually stored in perinuclear mitochondria. Perls' stain (which stains for iron) shows this iron deposition as a dark ring around the margin of the nucleus. Cytogenetic studies of the bone marrow cells:  Chromosomal abnormalities are clonal and include 5q-, monosomy 7 (-7) or 7q-, trisomy 8 (+8), Multiple combinations indicates a very poor prognosis. A single abnormality, except those involving chromosome 7, indicates good prognosis. Classification • The (French-American-British (FAB) system classifies MDS into the following five subgroups : Refractory anemia (RA) RA with ringed sideroblasts (RARS)  RA and RARS are characterized by ≤5% myeloblasts in bone marrow.  RARS is defined morphologically as having 15% erythroid cells with abnormal ringed sideroblasts,  Both RA and RARS have a prolonged clinical course and a low prevalence of progression to acute leukemia. progression to acute leukemia occurred in 5% of RARS cases, compared with 25% of RAEB cases RA with excess blasts (RAEB; 6-20% myeloblasts) RAEB in transition to AML (RAEB-T; 21-30% myeloblasts) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology  acute myeloid leukemia (AML; >30%). Chronic myelomonocytic leukemia (CMML)  manifests as monocytosis of ≥1000/μL, total white blood cell (WBC) count of < 13,000/μL, and  trilineage dysplasia.  CMML must be differentiated from classic chronic myelocytic leukemia, which is characterized by a negative Ph chromosome. • WHO classification 2008: Refractory anaemia with unilineage dysplasia- ie anaemia, neutropaenia or thrombocytopaenia (<5% blasts) Refractory anaemia with ring sideroblasts (<5% blasts; >15% sideroblasts) Refractory anaemia with multilineage dysplasia ( based on bone marrow dysplasia in 2 or more myeloid lineages) Refractory anaemia with excess blasts-1(5-9% blasts) and refractory anaemia with excess blasts -2 (10-19%)  Blasts > 20% is now classified as acute myeloid leukaemia. Myelodysplasia unclassified Myelodysplasia with isolated 5qdel( cytogenetic abnormality with prognostic significance) Prognosis • Median survival is two years. • Patients are more likely to have serious infections or life-threatening bleeds than blastic transformation. • MDS who progress to acute leukemia have a poor prognosis than that of de novo acute myeloid leukemia (response to chemotherapy is worse) • International Prognostic Scoring System (IPPS) The revised I (IPSS-R) score is calculated on the basis of five variables: Hemoglobin level Absolute neutrophil count Platelet count Percentage of bone marrow blasts Cytogenetic category Management • Supportive therapy, including transfusions of the cells that are deficient (ie, red blood cells [RBCs], platelets), and treatment of infections are the main components of care. As the vast majority are elderly patients with other medical conditions, excessive intervention is unwarranted (ﻻ ﻣﺒﺮﺭ ﻟﻪ). Granulocyte-colony stimulating factor (G-CSF) and recombinant erythropoietin (rEpo) can improve blood counts.  National Comprehensive Cancer Network (NCCN) guidelines recommend the use of erythropoiesis-stimulating agents (ESAs) for treatment of symptomatic anemia in patients in the R-IPSS very low risk, low risk, or intermediate risk category whose tumor lacks the 5q31 deletion and whose level of endogenous EPO is ≤500 mU/mL.  In cases of the presence of ringed sideroblasts or an absence of response, the addition of granulocyte colony-stimulating factor (G-CSF; filgrastim), 1–2 μg/kg 1–3 times per week should be considered. • hypomethylating agent azacytidine, which has been shown to improve survival compared with either supportive or aggressive therapy and is approved for use in MDS by (FDA). • Aggressive cytotoxic chemotherapy is generally reserved for treatment of transformation to acute myelogenous leukaemia (AML) in younger patients. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Leuco-erythroblastic anaemia • leuco-erythroblastic anaemia (left-shifted granulocytic series and nucleated red blood cells) • This can be seen with: high bone marrow turnover, e.g. in severe haemolytic anaemia  (the reticulocyte count will be high), myelofibrosis and chronic myeloid leukaemia  (where there will be splenomegaly and the white cell and platelet count will usually be raised) bone marrow invasion.  Often in bone marrow invasion the invading malignancy will already have been diagnosed previously.  The diagnosis requires a bone marrow trephine, which will usually show replacement of haematopoietic tissue with malignant cells. Polycythaemia Polycythaemia may be relative, primary (polycythaemia rubra vera) or secondary Types and causes • Relative causes dehydration stress: Gaisbock syndrome • Primary causes polycythaemia rubra vera • Secondary causes Erythropoietin-secreting tumours:  Renal cell carcinoma  Hepatocellular carcinoma  Haemangioblastoma  Uterine fibroids. Chronic hypoxia:  COPD  Right-to-left cardiac shunts  Sleep apnoea  High altitude  Chronic carbon monoxide poisoning (including heavy smoking). Features • Symptoms of hyperviscosity syndrome, including: dizziness tinnitus headaches blurred vision, and pruritus. • Signs include: Various ophthalmological changes (for example, dilated retinal veins) Neurological findings, Facial plethora ('ruddy' appearance). Chapter 7 Haematology&Oncology Differential diagnosis Secondary erythrocytosis EPO Expected Relative (apparent) polycythemia (↑RBC mass due to ↓in plasma volume) ↔ ↓ ↔ • Severe dehydration • Stress erythrocytosis Appropriate absolute polycythemia ↑ ↔ ↓ • High-altitude exposure • Hypoxia: chronic pulmonary and cardiac disease (physiological ↑in RBC mass, secondary to conditions associated with increased stimulation of erythropoiesis due to reduced oxygen saturation) Inappropriate absolute polycythemia (non-physiological ↑in RBC mass, secondary to conditions associated with autonomous production of EPO, renal diseases that affect the EPO secreting cells, and neoplasms). ↑↑ ↔ ↔ • Paraneoplastic syndrome, especially with: • Absolute erythrocytosis, as opposed to apparent, is defined as an HCT greater than 0.60 in males and HCT greater than 0.56 in females. • To differentiate between true (primary or secondary) polycythaemia and relative polycythaemia: JAK2 mutation  JAK2 is a crucial tyrosine kinase which transmits the EPO signal to increase red cells production. Red cell mass studies  The discovery of the JAK2 mutation has made red cell mass a second-line investigation for patients with suspected JAK2-negative PRV.  In true polycythaemia the total red cell mass in males > 35 ml/kg and in women > 32 ml/kg Management • Venesection of patients who are symptomatic is the first line management of polycythaemia. • The diagnostic workup and exclusion of secondary causes usually follows after initial treatment patient with symptoms of hyperviscosity needs to be venesected urgently and an agreed work-up can be performed later. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Oxygen saturation Underlying conditions plasma volume  Renal cell carcinoma (RCC)  Hepatocellular carcinoma (HCC) • Polycystic kidney disease (PKD) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Polycythaemia rubra vera (PRV) Definition • Polycythaemia rubra vera (PRV) is a myeloproliferative disorder caused by clonal proliferation of a marrow stem cell leading to an increase in red cell volume, often accompanied by overproduction of neutrophils and platelets. Aetiology • a mutation in JAK2 is present in approximately 95% of patients with PRV and this has resulted in significant changes to the diagnostic criteria. • occurs due to abnormal negative feedback of hematopoietic growth factor signaling. Epidemiology • peak incidence in the sixth decade Pathophysiology • mutation in the JAK2 gene →↑tyrosine kinase activity → uncontrolled, EPOindependent proliferation of the myeloid cell lines → ↑ blood cell mass (erythrocytosis, thrombocytosis, and granulocytosis) → hyperviscosity + slow blood flow →↑ risk of thrombosis and poor oxygenation. Features • hyperviscosity • pruritus, typically after a hot bath • splenomegaly • haemorrhage (secondary to abnormal platelet function NOT NUMBER) • plethoric appearance • hypertension in a third of patients • low ESR • Low EPO levels the strongest pointer towards primary polycythaemia myeloproliferative increased red blood cell production by the marrow turns off endogenous EPO production low EPO level. • raised leukocyte alkaline phosphatase (ALP) • Mild prolonged PT & PTT: this is related to the ratio of plasma and citrate. In the blue tubes that are used for coagulation tests the ratio is normally 1 citrate to 9 of whole blood. If there is less plasma due to the polycythaemia there will be excess citrate and this will prolong coagulation tests such as the APTT and prothrombin time. • Others: hyperuricaemia, peptic ulceration. Investigations • full blood count/film (raised haematocrit; neutrophils, basophils, platelets raised in half of patients) • JAK2 mutation • serum ferritin • renal and liver function tests • If the JAK2 mutation is negative and there is no obvious secondary causes the BCSH suggest the following tests: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology red cell mass arterial oxygen saturation abdominal ultrasound serum erythropoietin level bone marrow aspirate and trephine cytogenetic analysis erythroid burst-forming unit (BFU-E) culture Diagnostic criteria JAK2-positive PRV - diagnosis requires both criteria to be present Criteria Notes A1 High haematocrit (>0.52 in men, >0.48 in women) OR raised red cell mass (>25% above predicted) A2 Mutation in JAK2 JAK2-negative PRV - diagnosis requires A1 + A2 + A3 + either another A or two B criteria Criteria Notes A1 Raised red cell mass (>25% above predicted) OR haematocrit 0.60 in men, >0.56 in women A2 Absence of mutation in JAK2 A3 No cause of secondary erythrocytosis A4 Palpable splenomegaly A5 Presence of an acquired genetic abnormality (excluding BCRABL) in the haematopoietic cells B1 Thrombocytosis (platelet count >450 * 109/l) B2 Neutrophil leucocytosis (neutrophil count > 10 * 109/l in nonsmokers; > 12.5*109/l in smokers) B3 Radiological evidence of splenomegaly B4 Endogenous erythroid colonies or low serum erythropoietin Management • aspirin • venesection: first line treatment the target hematocrit value after performing phlebotomy is less than 45 %. • Hydroxyurea: the preferred cytoreductive agent used in high-risk patients. slight increased risk of secondary leukaemia • phosphorus-32 therapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • H2-receptor antagonists may be useful in relieving itching this is somewhat surprising. Conventionally it is the H1 antagonists that tend to be used for pruritus in other settings. Prognosis • thrombotic events are a significant cause of morbidity and mortality • 5-15% of patients progress to myelofibrosis Pastest note Transition from primary polycythaemia to myelofibrosis occurs in about 30%of patients, therefore, the probability of developing myelofibrosis is higher and thus more likely than acute leukaemia • 5-15% of patients progress to acute leukaemia (risk increased with chemotherapy treatment) particularly if patients have been exposed to radioactive phosphorous treatment or busulfan therapy. Progression to acute myeloid leukaemia is seen in around 5% of patients. Myelofibrosis • Primary myelofibrosis is a disorder in which normal bone marrow tissue is gradually replaced with a fibrous scar-like material. • Over time this leads to progressive bone marrow failure. • Most commonly seen in older adults (5th/6th decade) • It is almost always accompanied by significant splenomegaly and is JAK2 mutation-positive in about 50% of cases. • fatigue, splenomegaly and teardrop cells Complications • Portal hypertension occurs in 7% of patients with primary myelofibrosis may be related to increased portal flow resulting from marked splenomegaly and to intrahepatic obstruction resulting from thrombotic obliteration of small portal veins. This may result in variceal bleeding or ascites. Hepatic or portal vein thrombosis may occur. Symptomatic portal hypertension is managed by splenectomy, with or without the creation of a portosystemic shunt. • Peripheral blood smear tear-drop RBC membrane is disrupted when RBC passed through fibrosis to leave bone marrow nucleated RBCs band granulocytes Treatment • It is generally incurable, • although bone marrow transplantation and JAK2 inhibitors have a role in younger patients. Disseminated intravascular coagulation (DIC) Pathophysiology • (DIC) is characterized by: systemic activation of blood coagulation deposition of fibrin microvascular thrombi in various organs multiple organ dysfunction syndrome (MODS). ongoing activation of coagulation consumption of coagulation proteins and platelets may induce severe bleeding Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Pathogenesis of DIC (2020 UpToDate) NET: neutrophil extracellular trap; PT: prothrombin time; aPTT: activated partial thromboplastin time; FDPs: fibrin degradation products; dsDNA: double-stranded DNA; MAHA: microangiopathic hemolytic anemia. Epidemiology • present in 1% of hospitalized patients. Common Causes • Sepsis and severe infection ( most commonly) • Trauma (neurotrauma) • Organ destruction (eg, pancreatitis) • Malignancy (solid and lymphoproliferative/myeloproliferative malignancies) • acute hemolytic transfusion reaction. • Obstetric complications: Amniotic fluid embolism abruptio placentae (HELLP) syndrome : triad of: Hemolysis, Elevated Liver enzymes, Low Platelets eclampsia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnosis • CBC Thrombocytopenia (low Platelet count) • Coagulation profile prolonged PT and aPTT low plasma fibrinogen • D-dimers produced by the action of plasmin on cross-linked fibrin These tests reflect the microangiopathy of DIC sensitive, specific, and efficient in the diagnosis of DIC • Fibrin degradation products (FDP) Increased levels of FDP occur in a variety of conditions in which clot formation and lysis occur. sensitive, specific, and efficient in the diagnosis of DIC • Peripheral smear microangiopathic changes on peripheral blood smear  The presence of schistocytes, or red cell fragments, is a frequent but nonspecific Peripheral smear in microangiopathic hemolytic anemia showing presence of schistocytes Treatment • Fibrinogen replacement infusion (cryoprecipitate) is the appropriate first choice • Platelet transfusion is recommended if the count is less than 50 ×109/L. • When bleeding is the major problem, the aim is to: maintain the prothrombin and activated thromboplastin time at a ratio of 1.5 times of the control maintain the fibrinogen level above 1 g/L. the combination of the D-dimer and the FDP assay provides the most rapid and specific diagnosis of DIC. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Thrombocytopenia Causes of thrombocytopenia: ↓production (bone marrow infiltration, suppression, or fibrosis), ↑ destruction (DIC, ITP, and TTP/HUS), dilution sequestration due to splenomegaly. Causes of severe thrombocytopenia • ITP • DIC • TTP • haematological malignancy Causes of moderate thrombocytopenia • heparin induced thrombocytopenia (HIT) • drug-induced (e.g. quinine, diuretics, sulphonamides, aspirin, thiazides) • alcohol • liver disease • hypersplenism • viral infection (EBV, HIV, hepatitis) • pregnancy • SLE/antiphospholipid syndrome • vitamin B12 deficiency Gestational thrombocytopaenia • very common. • Most importantly, the patient should be closely monitored from the present time until she delivers • The platelet count is very mildly reduced • no specific intervention • Steroids may only need to be considered if the platelet count is persistently less than 30 within the last 2 weeks of pregnancy. • Steroids may be considered in the last couple of weeks of pregnancy to raise the platelet count temporarily so that a caesarean section or epidural anaesthesia may be undertaken safely. This may well be combined with intravenous immunoglobulin immune thrombocytopenia • the patient is well. • There is post viral illness with quite marked thrombocytopenia but other full blood count (FBC) parameters are normal. • The diagnosis is one of exclusion, • The most important investigation is a blood film. Although not diagnostic, this will confirm the FBC findings and also exclude more sinister pathology such as leukaemia. • in the absence of major bleeding, management would be observation, as it can resolve spontaneously. Safety for different procedures when thrombocytopenic: • In general, a platelet count of 10-20 ×109 /L is safe for most procedures. The exceptions to this are major surgery and procedures involving the CNS and eyes. In the latter cases, the platelet count should be above 50 ×109/L. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Thrombocytosis Definition • Thrombocytosis is an abnormally high platelet count, usually ≥450 × 109/L • Thrombopoietin is the key hormone in the regulation of megakaryocyte differentiation. Causes • reactive: platelets are an acute phase reactant - platelet count can increase in response to stress such as a severe infection or surgery The most common cause of thrombocytosis is a reactive thrombocytosis. May occur as a response to exercise Secondary thrombocytosis does not place the patient at risk for haemostatic or cardiovascular events. • iron deficiency • Malignancy secondary cause for thrombocytosis is crucial to exclude before considering a diagnosis of a myeloproliferative disorder. • essential thrombocytosis (see below), or as part of another myeloproliferative disorder such as chronic myeloid leukaemia or polycythaemia rubra vera  adequate iron stores are requisite diagnostic criteria (WHO) for essential thrombocytosis. • hyposplenism Essential thrombocytosis (ET): Definition • Essential thrombocytosis is one of the myeloproliferative disorders which overlaps with chronic myeloid leukaemia, polycythaemia rubra vera and myelofibrosis. • Megakaryocyte proliferation results in an overproduction of platelets, in the absence of any identifiable cause. Epidemiology • usually affects older people between the ages of 50 and 70 years • occurs equally in both males and females. Features • asymptomatic (25-33% ) • tingling or burning in the hands and feet, headache, visual problems, weakness and dizziness. burning sensation in the hands is a characteristic symptom Erythromelalgia  burning pain, warmth, and redness of the extremities The pain increases with exposure to heat and improves with cold These symptoms result from excessive numbers of platelets causing blockages in small or large blood vessels in different parts of the body. • Other symptoms include sweating, low-grade fever, and pruritus. • Splenomegaly (40-50%) • Hepatomegaly (20% ) • both thrombosis and haemorrhage can be seen Investigations • Complete blood cell count (CBC) platelet count > 600 * 109/l Around 30% will also have a mildly raised RBC and / or WBC.  A red blood cell (RBC) mass study helps to exclude polycythemia vera. The RBC mass is elevated in polycythemia vera, but is normal in essential thrombocytosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • Genetic studies The majority of patients have mutations in one of three genes: Janus kinase 2 (JAK2), 50-60% of patients. calreticulin (CALR), found in 25% myeloproliferative leukemia virus oncogene (MPL). about 3-5% of cases. MPL codes for the thrombopoietin receptor protein, which promotes the growth and proliferation of megakaryocytes. The mutations result in constitutive activation of the thrombopoietin receptor protein. Rare cases involve mutations in the thrombopoietin gene (THPO), associated with autosomal dominant hereditary thrombocytosis • Bone marrow examination ↑ bone marrow cellularity (found in 90% ) Megakaryocytic hyperplasia is common Bone marrow reticulin is usually increased, but collagen fibrosis is uncommon • Elevation of C-reactive protein (CRP), fibrinogen, and interleukin 6 levels suggests secondary thrombocytosis, because those are acute-phase reactants • Vitamin B-12 levels are increased in 25% of patients • Uric acid levels are elevated in 25% of patients Diagnosis • British guidelines propose the following five criteria for diagnosis of essential thrombocytosis : Sustained platelet count ≥450 × 109/L Presence of an acquired pathogenetic mutation (eg, in the JAK2, CALR or MPL genes) No other myeloid malignancy, especially polycythemia vera, primary myelofibrosis, chronic myeloid leukemia, or myelodysplastic syndrome No reactive cause for thrombocytosis and normal iron stores Bone marrow aspirate and trephine biopsy showing increased megakaryocyte numbers displaying a spectrum of morphology with predominant large megakaryocytes with hyperlobated nuclei and abundant cytoplasm; reticulin is generally not increased (grades 0–2/4 or grade 0/3) Diagnosis requires the presence of criteria 1–3 or criterion 1 plus criteria 3–5. Adverse prognostic markers for essential thrombocythaemia (ET): • Age above 60 • Symptomatology - particularly thrombosis and • Platelet count above 1500. • Previous thrombosis • Obesity • Cardiovascular risk factors such as smoking, hypertension, and hypercholesterolemia • Markers of hypercoagulability such as factor V Leiden and antiphospholipid antibodies [4] • JAK2 mutation Management Essential thrombocythaemia + high-risk of thrombosis Aspirin + hydroxycarbamide Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • low risk observation only • high-risk of thrombosis (eg, age >60, history of thrombosis, or platelet counts >1500 ). hydroxyurea (hydroxycarbamide) is widely used to reduce the platelet count  first-line treatment interferon-α is also used in younger patients  Interferon alfa is a biologic response modifier.  used as second line in older patient  Interferon alfa is not known to be teratogenic and does not cross the placenta, perhaps making it safe for use during pregnancy.  Italian guidelines recommend interferon alfa as a first-line platelet-lowering therapy for patients younger than 40 years low-dose aspirin may be used to reduce the thrombotic risk  low-dose aspirin may be useful in treating patients with symptoms of microvascular occlusion (eg, erythromelalgia).  Patients with the JAK2 mutation or cardiovascular risk factors can be treated with daily low-dose aspirin  Extreme thrombocytosis may promote the abnormal adsorption of large von Willebrand factor (VWF) multimers. These patients should be screened for the presence of acquired von Willebrand disease (VWD). if ristocetin cofactor level (Functional von Willebrand Factor) is at least 30% in absence of other high-risk factors; Low-dose aspirin therapy (eg, ≤100 mg/day) is acceptable if it is less than 30%, all aspirin should be avoided. • Plateletpheresis If platelet is very high with symptoms of clotting or bleeding Prognosis • extremely good in ET with survival of over two decades expected. • The risk of transforming to acute myeloid leukaemia is relatively low (<1%). Thrombotic thrombocytopenic purpura (TTP) (TTP) is classically characterised as a pentad of: thrombocytopenia, microvascular haemolysis, fluctuating neurological signs, renal impairment and fever. Pathogenesis of thrombotic thrombocytopenic purpura (TTP) • abnormally large and sticky multimers of von Willebrand's factor cause platelets to clump within vessels • in TTP there is a deficiency of ADAMTS13 (a metalloprotease enzyme) which breakdowns large multimers of von Willebrand's factor • The primary event that occurs appears to be endothelial damage, which then leads to  thrombus formation, end organ damage (eg brain and kidneys) and platelet consumption • overlaps with haemolytic uraemic syndrome (HUS) Causes • post-infection e.g. urinary, gastrointestinal (Escherichia coli 0157 subtype) • pregnancy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • drugs: ciclosporin, oral contraceptive pill, penicillin, metronidazole antiplatelets: clopidogrel or ticlodipine (< 1%), acyclovir, FK506, Penicillamine sulphonamides • tumours • SLE • HIV Features • rare, typically adult females • fever • fluctuating neuro signs (microemboli) • microangiopathic haemolytic anaemia • renal failure • thrombocytopenia • Which investigation will be most useful to establish the diagnosis? Peripheral blood film  The peripheral blood film reveals fragmented RBCs (schistocytes, eg, spherocytes, segmented RBCs, burr cells, or helmet cells). Management • no antibiotics - may worsen outcome • plasma exchange is the treatment of choice TTP has an untreated mortality of up to 90% and therefore rapid plasma exchange (PEX) may be a life saving intervention. • steroids, immunosuppressants Intravenous methylprednisolone is indicated after treatment with PEX has been completed. • Vincristine • Platelet transfusion in TTP is only indicated if there is an on-going life-threatening bleed. • There is no current role for intravenous immunoglobulin in the routine management of TTP, however there have been reports of its successful use in PEX- and steroid-refractory cases. Prognosis • In adults, the mortality rate 20-50% January 2013 exam: H/O confusion + fever + ↓Platelets 65 , ↑Urea 23, ↑Creatinine 366.What is the most likely diagnosis? Thrombotic thrombocytopenic purpura Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Von Willebrand's disease The combination of a petechial skin rash combined with a slightly elevated APTT and reduced factor VIII activity make Von Willebrand's disease the most likely diagnosis Overview • Von Willebrand's disease is the most common inherited bleeding disorder. • The majority of cases are inherited in an autosomal dominant fashion if both parents have the disease, then three-quarters of their offspring will have the disease, assuming they are both heterozygotes. In an autosomal dominant condition, there is no carrier state. • characteristically behaves like a platelet disorder i.e. epistaxis and menorrhagia are common whilst haemoarthroses and muscle haematomas are rare • Symptoms are exacerbated by medications that inhibit platelet function, such as aspirin and other NSAIDs. Role of von Willebrand factor • large glycoprotein which forms massive multimers • Von Willebrand factor is a coagulation protein that binds to collagen and to the GpIb platelet receptor during platelet adhesion. promotes platelet adhesion to damaged endothelium • carrier molecule for factor VIII • Factor VIII circulates bound to von Willebrand factor (vWF), which protects factor VIII from degradation. Decreased vWF (in part) prolongs the PTT by leading to decreased factor VIII. In people with hemophilia, strategies to increase circulating levels of factor VIII include maximizing vWF levels. increases vWF secretion (leading to increased functional levels of factor VIII). Even in hemophilia A, there is still a small amount of normal factor VIII (<5%). • The intrinsic coagulation pathway is defective in von Willebrand disease. Types • type 1: partial reduction in vWF (80% of patients) the most common form patients have up to a 50% reduction in von Willebrand factor (vWF). Autosomal dominant with variable penetrance Many are asymptomatic and are only diagnosed following an episode of bleeding associated with a dental extraction or minor surgery. • type 2: abnormal form of vWF • type 3: total lack of vWF (autosomal recessive) (most severe form) Investigation • prolonged bleeding time (due to impaired platelet adhesion and aggregation) The bleeding time would be a good screening test but it will not give a quantitative measurement of bleeding tendency in type I vWBD neither sensitive nor specific platelet function analyser (PFA100), have better testing characteristics than the bleeding time • APTT may be prolonged (due to reduced circulating factor VIII). • factor VIII levels may be moderately reduced Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology  the most useful test to assess bleeding tendency in Von Willebrand's disease ? Plasma factor VIII activity • vWB antigen and activity (Ristocetin cofactor assay) (RICOF) The most useful test in practice is to do the vWB antigen and activity (RICOF), but you would also do FVIIIc as this is also low in vWD. • In type I vWD the prothrombin time (PT) and Platelet count will be normal. • defective platelet aggregation with ristocetin Management • tranexamic acid for mild bleeding • desmopressin (DDAVP): raises levels of vWF by inducing release of vWF from Weibel-Palade bodies in endothelial cells  DDAVP is the initial treatment of choice for patients with VWD type 1. Other therapies such as factor VIII concentrates containing VWF are not usually required. • factor VIII concentrate • In minor trauma, desmopressin (DDAVP) can be used to increase the concentration of VWF.  The choice of treatment for a mild vWB facing a more invasive procedure would be DDAVP, providing there is no contraindication. vWB factor concentrate would be reserved as second line treatment to DDAVP. • for major surgery, factor VIII concentrate is used to increase the concentration of vWF.  The most commonly used is Humate-P.  Purified or recombinant preparations are avoided since they contain only small concentrations of vWF.  In cases of severe vWD or prior to major surgery, the product of choice is intermediate purity (vWF rich) factor VIII, which contains the highest concentration of von Willebrand factor. • for Women with menorrhagia: Oral contraceptives (the Pill) raise the level of von Willebrand factor in the blood for women with Type 1 VWD. Haemophilia Definitions • Haemophilia A is due to a deficiency of factor VIII whilst in haemophilia B (Christmas disease) there is a lack of factor IX Hemophilia A (factor VIII): ∼80% of cases Hemophilia B (factor IX): ∼20% of cases Etiology • X-linked recessive disorder Occurs almost exclusively in males due to an X-linked pattern of inheritance. typically skips generations A carrier mother has a 50% chance of passing down the disease to her sons and a 50% chance of passing down the carrier gene to her daughters. • Up to 30% of patients have no family history of the condition. Pathophysiology • The pathological problem in both haemophilia A and haemophilia B is the inability to form a functional tenase complex to activate factor X to factor Xa • The intrinsic coagulation pathway is defective in hemophilia. Features • typically present initially with easy bruising secondary to minimal trauma, • haemoarthroses, haematomas Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Musculoskeletal bleeding is the most common type of haemorrhage. • prolonged bleeding after surgery or trauma, Severity Clinical signs Factor VIII or IX activity Physiologic condition None ≥ 50% Mild hemophilia Hematomas following severe trauma > 5% to < 50% Moderate hemophilia Hematomas following mild trauma ≥ 1% to 5% Severe hemophilia Spontaneous hematomas < 1% Petechial bleeding is a common sign of platelet disorders, NOT coagulation disorders such as hemophilia Blood tests • prolonged APTT • mixing study requested if the aPTT is prolonged. The patient's plasma is mixed with normal plasma and the aPTT repeated. Correction of aPTT with mixing study suggests coagulation factor deficiency. • plasma factor VIII and IX assay • bleeding time, thrombin time, prothrombin time normal Although female carriers of the haemophilia gene do not normally suffer from increased bleeding risk, APTT may be prolonged. Treatment • factor VIII or IX replacement. • Side effects: Up to 10-15% of patients with haemophilia A develop antibodies to factor VIII treatment Methemoglobinemia Methemoglobin • hemoglobin is oxidized to the ferric (Fe3+) • ↓ affinity for O2 • ↑ affinity for cyanide (CN-) CN- poisoning treated with methemoglobin • Methemoglobin (met-Hb) results from the presence of iron in the ferric form (Fe3+) instead of the usual ferrous form (Fe2+). • met-Hb cannot carry oxygen • met-Hb is a naturally occurring oxidized metabolite of hemoglobin, and physiologic levels (< 1%) are normal. • Methemoglobinemia (congenital or acquired) occurs when (RBCs) contain methemoglobin at levels higher than 1%. • Acquired methemoglobinemia is considerably more common than congenital forms. • The low level of methemoglobin is maintained through 2 important mechanisms. 047 - Chapter 7 047 Chapter 7 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology the hexose-monophosphate shunt pathway within the erythrocyte. Through this pathway, oxidizing agents are reduced by glutathione. The second and more important mechanism involves two enzyme systems: diaphorase I: requires nicotinamide adenine dinucleotide (NADH)  the major enzymatic system (This enzyme system is responsible for the removal of 95-99% of the methemoglobin that is produced under normal circumstances.)  Cytochrome b5 reductase plays a major role in this process by transferring electrons from NADH to methemoglobin, an action that results in the reduction of methemoglobin to hemoglobin. diaphorase II: requires nicotinamide adenine dinucleotide phosphate (NADPH).  plays only a minor role in the removal of methemoglobin.  This enzyme system utilizes glutathione production and glucose-6phosphate dehydrogenase (G6PD) to reduce methemoglobin to hemoglobin.  Play a more important role in methemoglobin regulation in patients with cytochrome b5 reductase deficiencies.  can be accelerated by exogenous cofactors such as methylene blue Effect of Methemoglobin: • does not bind oxygen, thus leading to a functional anemia. • causes a left shift of the oxygen-hemoglobin dissociation curve, resulting in decreased release of oxygen to the tissues. Normal people generate met-Hb but in very low levels in the range of 0.5% to 3%. should be suspected when the oxygen saturation as measured by pulse oximetry is significantly different (lower) from the oxygen saturation calculated from arterial blood gas analysis (saturation gap). (low SpO2 with normal PaO2 and SaO2(on ABG) • presence of anemia and cyanosis despite oxygen treatment results from both of these effects. Causes • congenital (secondary to a deficiency in methemoglobinemia reductase) • acquired Dapsone local anesthetics (topical and injectable) nitrates amyl nitrite aniline dyes The presence of methemoglobin may also be a marker and predictor of sepsis, resulting from release of excessive amounts of nitrous oxide (NO) patients with low catalase activity (inherited or acquired) treated with rasburicase for tumor lysis syndrome formation of hydrogen peroxide methemoglobinemia  Some authors have suggested that catalase activity be measured before rasburicase therapy is initiated in this setting. Drugs that cause methaemoglobinaemia include: • Phenacetin • Sulphonamides • Dapsone • Primaquine • Lidocaine • Procaine • Benzocaine. Congenital (hereditary) Methemoglobinemia • autosomal recessive • two forms of congenital cytochrome b5 reductase (b5R) deficiency exist: type Ib5R deficiency type IIb5R more common cytochrome b5 reductase is absent only in RBCs Homozygotes appear cyanotic but usually are otherwise asymptomatic. Heterozygotes may develop acute, symptomatic methemoglobinemia after exposure to certain drugs or toxins. Methemoglobin levels typically range from 10% to 35%. Life expectancy is not influenced presence of abnormal hemoglobins (hemoglobin M [Hb M]) • autosomal dominant • in most of these hemoglobins, tyrosine replaces the histidine residue, which binds heme to globin. • This replacement displaces the heme moiety and permits oxidation of the iron to the ferric state. • Hb M is more resistant to reduction by the methemoglobin reduction enzymes • Patients with Hb M appear cyanotic but are otherwise generally asymptomatic. Feature (are proportional to the methemoglobin level) : Classical presentation includes cyanosis with chocolate-colored blood • 3-15% - Slight discoloration (eg, pale, gray, blue) of the skin and blood color changes (brown or chocolate color). Discoloration of the skin and blood is the most striking physical finding. Fatigue, flu-like symptoms, and headaches may be the only manifestations in the initial phase. • 15-20% - Cyanosis, though patients may be relatively asymptomatic cyanosis is usually the first presenting symptom. • 25-50% - Headache, dyspnea, lightheadedness (even syncope), weakness, confusion, palpitations, chest pain • 50-70% - Abnormal cardiac rhythms; altered mental status, delirium, seizures, coma; profound acidosis • 70% - Usually, death Treatment: • Methylene blue :  the first line treatment contraindicated in G6PD deficiency and ineffective with hemoglobin M.  reduction of met-Hb by methylene blue is dependent upon NADPH generated by G6PD.  methylene blue has an oxidant potential hemolysis in G6PD deficient. • Second line treatment: when methylene blue therapy is ineffective or contraindicated Exchange transfusion: for patients who do not respond to methylene blue or G6PD-deficient individuals who are severely symptomatic Hyperbaric oxygen treatment: another option • IV hydration and bicarbonate (for metabolic acidosis) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad less common cytochrome b5 reductase is deficient in all cells, not just RBCs. associated with several other medical problems, including mental retardation, microcephaly, and other neurologic complications. Life expectancy is severely compromised, and patients usually die at a very young age. Chapter 7 Haematology&Oncology Cyanosis without hypoxia • Persistent cyanosis without hypoxia (a normal Pao2) suggests a diagnosis of methaemoglobinaemia or sulfhaemoglobinaemia. • In a cyanosed patient the amount of reduced haemoglobin in the blood is at least 5 g/dl • The blue colour of the skin and mucous membranes is due to hypoxia and not hypercapnia. Hypoxia should be corrected by oxygen therapy • What is the possible cause of Desaturation on SaO2 (using an oximeter) in spite of normal PaO2? Methaemoglobinaemia  accumulation of reversibly oxidised methaemoglobin causing reduced oxygen affinity of the Hb molecule with consequent cyanosis.  It can occur due to: an inherited condition or as a consequence of drugs such as nitrites. Heparin • can be given as either:  unfractionated, intravenous heparin, or low molecular weight heparin (LMWH), given subcutaneously. • Heparins generally act by activating antithrombin III. • Unfractionated heparin forms a complex which inhibits thrombin, factors Xa, IXa, XIa and XIIa. • LMWH however only ↑ the action of antithrombin III on factor Xa The table below shows the differences between standard heparin and LMWH: Standard Heparin (LMWH) administration Intravenous Subcutaneous Action duration short long Mechanism of action Activates antithrombin III. Forms a complex that inhibits thrombin, factors Xa, IXa, XIa and XIIa Side-effects Bleeding HIT Osteoporosis Monitoring Activated partial thromboplastin time (APTT) Notes Useful in situations where there is a↑ risk of bleeding as anticoagulation can be terminated rapidly Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Activates antithrombin III. Forms a complex that inhibits factor Xa Bleeding Lower risk of HIT and osteoporosis Anti-Factor Xa (although routine monitoring is not required) Now standard in the management of venous thromboembolism treatment and prophylaxis and acute coronary syndromes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Heparin-induced thrombocytopaenia (HIT) • Types Type 1 HIT  non-immune mediated reaction  due to a direct effect of the drug on platelets.  occur soon after the initial administration of heparin (within two days)  self-limiting condition and the platelet count will normalise with continued heparin administration. Type 2 HIT  immune mediated condition  mechanism: IgG antibodies against heparin bound to platelet factor 4 (PF4). Antibody-heparin-PF4 complex will be eliminated by the immune system (→ thrombocytopenia), and activates platelets → thrombosis  It is a prothrombotic condition despite being associated with low platelets.  typically arises 4 to 10 days after starting heparin therapy.  Patients may develop both venous and arterial thromboses,  low platelet counts and mild abnormalities of coagulation.  The D-dimer level is raised due to widespread thrombus formation. • Features include a greater than 50% reduction in platelets, thrombosis and skin allergy • Patients with (HIT), particularly those with associated thrombosis, often have evidence of increased thrombin generation that can lead to consumption of protein C. If these patients are given warfarin without a concomitant parenteral anticoagulant to inhibit thrombin or thrombin generation, the further decrease in protein C levels induced by the vitamin K antagonist can trigger skin necrosis. To avoid this problem, patients with HIT should be treated with a direct thrombin inhibitor, or fondaparinux, until the platelet count returns to normal levels. • Diagnosis: HIT is confirmed by:  HIT antibody serotonin-release assay (SRA). • Treatment options include alternative anticoagulants such as lepirudin and danaparoid Argatroban is not cleared via the kidneys; therefore, this drug is safer than lepirudin/fondaparinux for HIT patients with renal insufficiency. Lepirudin is a direct thrombin inhibitor, which is cleared by kidneys exclusively, and is contraindicated in renal insufficiency. Fondaparinux can be used in HIT as it does not bind to platelets, but it is contraindicated in renal insufficiency. Heparin-induced hyperkalaemia • Both unfractionated and low-molecular weight heparin can cause hyperkalaemia. This is thought to be caused by inhibition of aldosterone secretion. Heparin overdose • Heparin overdose may be reversed by protamine sulphate, although this only partially reverses the effect of LMWH. • The dose of protamine sulphate given is dependent upon the dose of LMWH administered and the time of administration. If protamine is given within eight hours of the LMWH then a maximum neutralising Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology dose is 1 mg protamine/100 units (or 1 mg) of LMWH given in the last dose. If more than eight hours have passed since the dose of LMWH was given, administer 0.5 mg protamine per 100 units (or 1 mg) of LMWH given. • Protamine is administered by slow IV infusion (over 10 minutes) to avoid a hypotensive reaction. • Protamine requires a high level of caution when being prescribed and administered. Heparin resistance • Heparin resistance is seen in up to 22% of patients undergoing cardiopulmonary bypass surgery. • Several mechanisms resulting in heparin resistance have been identified, including: antithrombin deficiency, increased heparin clearance,  elevated heparin-binding proteins,  and elevated factor VIII and fibrinogen levels. • For cardiopulmonary bypass in particular, rapid neutralisation of thrombin is required. In order for heparin to be successful in this, it requires antithrombin III which is an alpha2globulin. It is therefore thought that antitthrombin III deficiency is the underlying problem which is seen in patients resistant to heparin during cardiopulmonary bypass. • Heparin and thyroid function test Heparin is having an "in vitro" effect on thyroxine (T4) levels. IV heparin interferes with the thyroid function tests assay on occasions displacing bound thyroid hormone. Normal TSH + high T3 and T4 Heparin and delivery • Women who are anticoagulated with heparin until the onset of labor generally experience vaginal delivery with no greater blood loss than non-anticoagulated gravidas. • However, Cesarean delivery in heparinized patients is accompanied by a significantly greater blood loss than would otherwise be anticipated. • If preterm labor develops in a patient receiving heparin, only the mother is anticoagulated, and protamine sulfate can be used to reverse maternal heparinization. What is the best way to monitor rivaroxaban compliance? Prothrombin time (PT) Novel oral anticoagulants (NOACs) The table below summaries the three NOACs: dabigatran, rivaroxaban and apixaban. Dabigatran Rivaroxaban Apixaban UK brand name Pradaxa Xarelto Eliquis Mechanism of action Direct thrombin inhibitor Direct factor Xa inhibitor Route Oral Oral Oral Excretion Majority renal Majority liver Majority faecal NICE indications Prevention of VTE following hip/knee surgery Prevention of VTE following hip/knee surgery Treatment of DVT and PE Treatment of DVT and PE Prevention of stroke in nonvalvular AF* Prevention of stroke in nonvalvular AF* *NICE stipulate that certain other risk factors should be present. These are complicated and differ between the NOACs but generally require one of the following to be present: • prior stroke or transient ischaemic attack • age 75 years or older • hypertension • diabetes mellitus • heart failure Dabigatran Rivaroxaban Apixaban Mechanism of action Direct thrombin inhibitor Route Oral Oral Oral Excretion Majority renal Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Direct factor Xa inhibitor Prevention of VTE following hip/knee surgery Treatment of DVT and PE Prevention of stroke in non-valvular AF* Direct factor Xa inhibitor Direct factor Xa inhibitor Majority liver Majority faecal Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Dabigatran Stop dabigatran two days before polypectomy • Mode of action: Dabigatran is a direct thrombin inhibitor with a rapid onset of action. • It is administered as a prodrug The prodrug dabigatran etexilate is rapidly converted by tissue esterases to dabigatran. • it is predominately (80%) excreted by the kidneys. • The anticoagulant effect starts within minutes of oral ingestion and peaks after 2-3 hours. • Advantage of dabigatran: due to its short half-life, a patient's coagulation status will normalize more rapidly than that of a patient treated with warfarin in almost all cases. No need for routine monitoring • Disadvantage of dabigatran Dabigatran is not recommended in patients with prosthetic heart valves because their safety and efficacy have not established.  The rates of thromboembolism are higher for valves in the mitral compared with those in the aortic position.  caged-ball valves are the most thrombogenic followed by tilting-disk and bi-leaflet valves. more thromboembolic events (e.g., valve thrombosis, stroke, TIA, and myocardial infarction) were observed with dabigatran than with warfarin; excessive major bleeding (predominantly postoperative pericardial effusions requiring intervention for hemodynamic compromise) was observed with dabigatran, compared with warfarin. • Monitoring of the anticoagulant effects of dabigatran In general, “routine” monitoring is not required in most cases. However, in some clinical situations a clinician may wish to determine the degree to which dabigatran is reducing the coagulant potential of the blood; e.g., if a patient taking dabigatran requires emergency surgery, has an intracranial or major systemic bleed, or is being considered for thrombolysis due to an ischemic stroke. The thrombin time (TT) and ecarin clotting time are considered the most accurate measures of dabigatran's anticoagulant effect. The aPTT and, if available, the thrombin time (TT) should be used to measure the anticoagulant effect of dabigatran, INR and PT tests are unreliable • Effect of dabigatran on procedural bleeding risk  Dabigatran should be discontinued 1 to 2 days (creatinine clearance ≥ 50 mL/min) or 3 to 5 days (creatinine clearance <50 mL/min) before invasive or surgical procedures. Clinicians may want to consider “longer” periods of discontinuation for patients undergoing major surgery in which bleeding could have serious consequences (e.g., Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad cardiac, neurosurgery, major abdominal or pelvic, spinal puncture, or placement of a spinal or epidural catheter or port). If surgery is urgent and cannot be delayed, there is an increased risk of bleeding; patients with a normal aPTT appear to have a low risk of serious bleeding. • conversion from warfarin to dabigatran (eg : patient had difficulty attending for regular INR) if a patient is taking warfarin with a therapeutic INR, it is recommended to : Stop warfarin, perform daily INR, start dabigatran when INR falls below 2.0 The anticoagulant effect of dabigatran starts minutes after its oral administration and peaks after 2-3 hours. • Contraindications Dabigatran is contraindicated if eGFR <30ml/min. Rivaroxaban, a direct inhibitor of activated factor X, is contraindicated if eGFR <15 and needs dose adjustment if eGFR 15–29 mL/minute. Ecarin clotting time is prolonged by direct thrombin inhibitors such as dabigatran. Treatment with aspirin, warfarin or heparins does not affect Ecarin clotting time. Idarucizumab reverses dabigatran Warfarin Warfarin - clotting factors affected mnemonic - 1972 (10, 9, 7, 2) P450 inhibitors ↑ INR INR also ↑ by ABX that kill intestinal flora by ↓ Vit K absorption Warfarin action inhibition of vitamin K epoxide reductase • Warfarin is an oral anticoagulant which inhibits the reduction of vitamin K to its active hydroquinone form, which in turn acts as a cofactor in the carboxylation of clotting factor II, VII, IX and X (mnemonic = 1972) and protein C. ( warfarin reduces protein C levels in the blood) • Warfarin inhibits epoxide reductase (specifically the VKORC1 subunit), thereby diminishing available vitamin K and vitamin K hydroquinone in the tissues which inhibits the carboxylation activity of the glutamyl carboxylase. • The half-life of warfarin is approximately 44 h Indications • venous thromboembolism: target INR = 2.5, if recurrent 3.5 • atrial fibrillation, target INR = 2.5 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • mechanical heart valves, target INR depends on the valve type and location. Mitral valves generally require a higher INR than aortic valves. Side-effects • haemorrhage • teratogenic, although can be used in breast-feeding mothers the most common teratogenic effect is Nasal hypoplasia • skin necrosis: when warfarin is first started biosynthesis of protein C is reduced. This results in a temporary procoagulant state after initially starting warfarin, normally avoided by concurrent heparin administration. Thrombosis may occur in venules leading to skin necrosis • purple toes Contraindications • Warfarin is generally avoided in pregnancy. In the first trimester it is associated with an increased risk of miscarriage, and teratogenic side effects which include chondrodysplasia patellae, asplenia and diaphragmatic herniae. In the second and third trimester it is associated with retroplacental and intracerebral foetal haemorrhage, as well as foetal microcephaly, optic atrophy and developmental delay. Monitoring • Patients on warfarin are monitored using the INR (international normalised ration), the ratio of the prothrombin time for the patient over the normal prothrombin time. • Warfarin has a long half-life and achieving a stable INR may take several days. Factors that may potentiate warfarin • liver disease • P450 enzyme inhibitors, e.g.: amiodarone, Clarithromycin, ciprofloxacin Clarithromycin increase INR more than ciprofloxacin  Clarithromycin is metabolised by CYP3A4 and is an inhibitor, meaning that it does affect INR to a limited extent, leading to an increase.  Ciprofloxacin is a moderate inhibitor of CYP1A2; some effect is expected on INR, but not as great as that for clarithromycin. • cranberry juice • drugs which displace warfarin from plasma albumin, e.g. NSAIDs • inhibit platelet function: NSAIDs Interaction • Lipid-lowering agents Simvastatin, rosuvastatin and fibrate potentiate the anticoagulant effects of warfarin Atorvastatin and pravastatinare least likely to interfere with warfarin Cholestyramine (a cholesterol-binding resin) is known to reduce the anticoagulant action of warfarin  Cholestyramine reduces absorption of a number of drugs including warfarin. • cranberry juice (↑↑warfarin effect ↑↑ INR).The cause is thought to be bioflavonoids contained in the cranberry juice, which block cytochrome-P450-related warfarin metabolism (CYP2C9) • Paracetamol given in repeated doses may lead to an enhanced response to warfarin and therefore an increased INR • Commonly used drugs that may lead to an increased INR include cephalosporins, azathioprine, cimetidine, metronidazole and testosterone derivatives • Diazepam is a p450 enzyme inducer and is therefore likely to reduce INR Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • the concurrent use of clopidogrel with warfarin increases the bleeding risk. • Co-enzyme Q10 is similar to vitamin K and reduces warfarin's anticoagulant effect (warfarin exerts its anticoagulant effect though inhibition of the synthesis of vitamin K dependent clotting factors). Warfarin: management of high INR A 2005 update of the BCSH guidelines emphasised the preference of prothrombin complex concentrate over FFP in major bleeding. Situation Management Major bleeding  Stop warfarin  Give intravenous vitamin K 5mg  Prothrombin complex concentrate - if not available then FFP INR > 8.0 Minor bleeding  Stop warfarin  Give intravenous vitamin K 1-3mg  Repeat dose of vitamin K if INR still too high after 24 hours  Restart warfarin when INR < 5.0 INR > 8.0 No bleeding  Stop warfarin  Give vitamin K 1-5mg by mouth, using the intravenous preparation orally  Repeat dose of vitamin K if INR still too high after 24 hours  Restart when INR < 5.0 INR 5.0-8.0 Minor bleeding  Stop warfarin  Give intravenous vitamin K 1-3mg  Restart when INR < 5.0 INR 5.0-8.0 No bleeding  Withhold 1 or 2 doses of warfarin  Reduce subsequent maintenance dose *as FFP can take time to defrost prothrombin complex concentrate should be considered in cases of intracranial haemorrhage Prothrombin concentrates are products of choice for warfarin reversal in the setting of active bleeding and a markedly raised INR. management of mother and neonate if preterm labor develops in a patient on warfarin • The management is difficult if preterm labor develops in a patient on warfarin, because both the mother and the fetus are anticoagulated. • the best management to prevent fetal/neonatal hemorrhage Give fresh frozen plasma to the neonate immediately after delivery • Vitamin K administration does not achieve immediate reversal of maternal anticoagulation (which may persist for 24 hours); more rapid reversal requires the transfusion of fresh frozen plasma. • Fetal levels of coagulation factors do not correlate with maternal levels, and infusion of fresh frozen plasma into the mother does not reliably reverse fetal anticoagulation. • A cesarean delivery may prevent hemorrhagic fetal death, and fresh frozen plasma should be administered to the neonate. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Porphyrias Overview Acute intermittent porphyria (AIP) AIP can present with features of an acute abdomen, hypertension, psychiatric disturbance and hyponatraemia, Aetiology • autosomal dominant • caused by a defect in porphobilinogen deaminase, an enzyme involved in the biosynthesis of haem. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Epidemiology • The most common acute porphyria is acute intermittent porphyria. • 20-40-year olds more likely to be affected (only rarely presents before puberty) • AIP is more common in females (5:1) Features • 90% of affected individuals remain asymptomatic throughout their lives. • typically present with abdominal symptoms, • neuropsychiatric symptoms Seizures occur in 10-20% of patients with acute intermittent porphyria (AIP). A range of psychiatric symptoms, including hypomania and delirium may be seen. • hypertension and tachycardia • urine turns deep red on standing • Photosensitivity is unusual in AIP Investigations • Patients excrete urinary porphobilinogen (PBG) between and during acute attacks. • Faecal porphyrin excretion is usually normal or slightly increased. • All attacks of porphyria increase the activity of hepatic 5-aminolevulinate (ALA) synthase. • Lab features hyponatraemia, mild leukocytosis. Diagnosis • Urinary porphobilinogen assay is the optimal way to establish the diagnosis. The best initial test • diagnosis is confirmed by measuring erythrocyte porphobilinogen deaminase activity. Factors precipitate an acute attack: • Stress, • Infection • Pregnancy • Menstruation • starvation • Drugs sulphonamides, barbiturates phenytoin.  Most anti-epileptics should not be given, but gabapentin is safe and the most appropriate choice for seizures occur in (AIP). ACE inhibitors and calcium channel blockers Ibuprofen is safe for use in acute intermittent porphyria, but diclofenac should be avoided. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Acute intermittent porphyria: drugs Drugs which may precipitate attack Safe Drugs • Alcohol • Barbiturates • Benzodiazepines • Tricyclic antidepressants • Halothane • Oral contraceptive pill • Sulphonamides • Cephalosporins • Erythromycin • Isoniazid • flucloxacillin • Anabolic steroids • Sulphonylureas • Theophylline • Antihistamines • MAOIs • Amiodarone • Simvastatin. • Diuretics • calcium channel blockers • ACE inhibitors • Paracetamol • Aspirin • Ibuprofen • Codeine • Morphine • Chlorpromazine • β-blockers • Gabapentin • Penicillin • Metformin • amoxicillin Treatment of seizures in AIP Gabapentin Treatment: • decrease the activity of delta-aminolevulinic acid synthase (ALA) glucose (carbohydrate loading)  high-glucose diets or infusions have been used for mild attacks of pain without neurological symptoms intravenous haem arginate  thereby decreasing heme precursor synthesis.  The treatment of choice  opiate analgesia. Distinguishing between lead poisoning and acute intermittent porphyria • Which one of the following features in an adult patient presenting with porphyrinuria would most suggest lead poisoning rather than acute intermittent porphyria as a cause? Anaemia  Anaemia occurs only in lead poisoning and is due to: inhibition of ferrochelatase (the activity of this enzyme is normal in acute intermittent porphyria) a decrease in red cell lifespan enzyme inhibition (pyrimidine 5'-nucleotidase) leading to the accumulation of pyrimidine nucleotides in red cells, which in turn reduces the stability of the cell membrane (and is seen on a blood film as basophilic stippling) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Porphyria cutanea tarda (PCT) • most common hepatic porphyria mechanism • defect in uro-porphyrinogen decarboxylase Aetiology • inherited most cases are sporadic may be inherited (autosomal dominant), • acquired may be caused by hepatocyte damage e.g.  alcohol, (the commonest cause),  oestrogens (oral contraceptive pill)  excess iron (haemochromatosis)  hepatitis C Features • The most common presenting sign of PCT is fragility of sun exposed skin after mechanical trauma, leading to erosions and bullae, worst on dorsal hands, forearms, and face. • classically photosensitive rash with bullae, Bullae develop on sun-exposed areas When exposed to light, uroporphyrinogen generates free radicals that cause blistering of the skin. lesions heal slowly, leaving scars. • skin fragility on face and dorsal aspect of hands Investigations • plasma total porphyrins The best initial test Porphyrins are increased in liver, plasma, urine and stool. • Urine: elevated uroporphyrinogen (Urinary porphyrins) and pink fluorescence of urine under Wood's lamp • Porphobilinogen (PBG) is normal. • Assay of red blood cells for uroporphyrinogen decarboxylase (UROD) activity is now available • Antinuclear antibodies are frequently seen Management • withdrawal of the precipitant • phlebotomy to deplete the excess iron stores that exacerbate the porphyria. Venesection is effective (450 ml/week) until haemoglobin is 120 g/L. • Chloroquine may also be effective because it promotes porphyrin excretion. Variegate porphyria • autosomal dominant • defect in protoporphyrinogen oxidase • photosensitive blistering rash • abdominal and neurological symptoms • more common in South Africans Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Hodgkin's lymphoma (HL) Overview • Hodgkin's lymphoma is a malignant proliferation of lymphocytes characterised by the presence of the Reed-Sternberg cell. • haematological malignancy arising from mature B cells. • Lymphadenopathy, typically painless and most commonly involving the cervical and/or supraclavicular nodal chain, is the most common presenting symptom of HL. Epidemiology • It has a bimodal age distributions being most common in the third and seventh decades Risk factors • history of EBV infection • family history of Hodgkin's lymphoma • young adults from higher socio-economic class • Immunodeficiency: e.g., organ or cell transplantation, immunosuppressants, HIV infection , chemotherapy • Autoimmune diseases (e.g., rheumatoid arthritis, sarcoidosis) Features • Painless lymphadenopathy Most common is cervical lymph nodes (in ∼60–70% of patients) • Mediastinal mass → chest pain, dry cough, and shortness of breath • Splenomegaly or hepatomegaly may occur if the spleen or liver are involved. • B symptoms Night sweats, weight loss > 10% in the past 6 months, fever > 38°C (100.4°F) • Can occur in a variety of diseases, such as non-Hodgkin lymphoma, other malignancies, tuberculosis, and various inflammatory diseases • Pel-Ebstein fever Intermittent fever with periods of high temperature for 1–2 weeks, followed by afebrile periods for 1–2 weeks. Relatively rare but very specific for HL. • Alcohol-induced pain • Pruritus (focal or generalized) Histological classification Type Frequency Prognosis Notes Nodular sclerosing Most common (around 70%) Good prognosis Mixed cellularity Around 20% Good prognosis Lymphocyte predominant Around 5% Best prognosis Lymphocyte depleted Rare Worst prognosis Poor prognosis • weight loss > 10% in last 6 months • fever > 38 C • night sweats • Other factors associated with a poor prognosis identified in a 1998 NEJM paper included: age > 45 years stage IV disease haemoglobin < 10.5 g/dl lymphocyte count < 600/l or < 8% male albumin < 40 g/l white blood count > 15,000/l A mass of >10 cm in size Fatigue, pruritus, EBV infection although they are common, BUT they have no prognostic significance. Staging Ann-Arbor staging of Hodgkin's lymphoma • I: single lymph node • II: 2 or more lymph nodes/regions on same side of diaphragm • III: nodes on both sides of diaphragm Spleen is regarded as a Lymph Node region, So lymphoma with splenomegaly  Stage III • IV: spread beyond lymph nodes Each stage may be subdivided into A or B • A = no systemic symptoms other than pruritus • B = weight loss > 10% in last 6 months, fever > 38c, night sweats (poor prognosis) Diagnosis • Lymph node biopsy would be more likely to be positive, RSC is evident on microscopy. • Bone marrow Hodgkin results in patchy bone marrow infiltration, an isolated bone marrow biopsy may yield non-specific results. Bone marrow biopsy is more useful for staging of advanced disease Management: • Early stage (IA or IIA): Radiotherapy and chemotherapy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad More common in women. Associated with lacunar cells Associated with a large number of ReedSternberg cells Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Secondary malignancy is the long-term complication of the radiotherapy (need long term monitoring) • Later stage (III, IVA or IVB): Chemotherapy alone. • Large mass in chest regardless of stage: Radiotherapy and chemotherapy. • Chemotherapy includes ABVD: Adriamycin (also known as Doxorubicin), Bleomycin, Vincristine, Doxorubicin, cyclophosphamide, prednisolone, Rituximab & others Bleomycin related pulmonary fibrosis is a major toxicity of the ABVD regimen  A high-resolution CT scan and pulmonary function tests are required to diagnose this condition.  Oxygen therapy should be used with caution in these patients as there is concern about further lung damage secondary to oxygen free radicals. Although doxorubicin (also known as adriamycin) can cause cardiotoxicity, this is unusual at the doses used in this regimen and one would expect abnormalities on the ECG. • Relapsed Hodgkin lymphoma salvage chemotherapy followed by BEAM conditioned autologous stem cell transplantation as the established gold standard. . Prognosis is good overall, but it depends on classification and staging. Hodgkin's lymphoma (HL) Non-Hodgkin's lymphoma (NHL) Younger age Older age more often restricted to lymph nodes in the neck. Peripheral lymphadenopathy is common Reed-Sternberg cells are present. Reed-Sternberg cells are NOT present. Extra-nodal involvement un common Extra-nodal involvement is common Non-Hodgkin's lymphoma (NHL) (NICE guideline 2016) • include any kind of lymphoma except Hodgkin’s lymphomas. • Most of NHL are of B cell phenotype, although T cell tumours are increasingly being recognized. • subtypes of non-Hodgkin's lymphoma (NHL): diffuse large B-cell lymphoma Burkitt lymphoma. Diagnosis • Type of biopsy: first line excision biopsy if not surgically feasible needle core biopsy procedure • in patient with histologically high-grade B-cell lymphoma: use FISH (fluorescence in situ hybridisation) to identify a MYC rearrangement If a MYC rearrangement is found, use FISH to identify the immunoglobulin partner and the presence of BCL2 and BCL6 rearrangements. • Indications of using FDG-PET-CT imaging (fluorodeoxyglucose-positron emission tomography-CT) Staging to assess response at completion of planned treatment for:  diffuse large B‑ cell lymphoma  Burkitt lymphoma. to assess response to treatment before autologous stem cell transplantation for high-grade (NHL). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • follicular lymphoma Asymptomatic patients with low grade lymphoma such as follicular lymphoma (grade 1 and 2) can be observed closely (Wait and watch approach)  The value of intensive chemotherapy is questionable in asymptomatic patients. No long-term survival benefit has been demonstrated with this approach. stage IIA local radiotherapy as first-line stage IIA + asymptomatic + single radiotherapy volume is not suitable 'watch and wait' (observation without therapy) stage IIA + symptomatic + single radiotherapy volume is not suitable treat as advanced-stage (stages III and IV) symptomatic advanced-stage (stages III and IV) asymptomatic rituximab advanced-stage (stages III and IV) symptomatic rituximab + combination with:  cyclophosphamide, vincristine and prednisolone (CVP)  cyclophosphamide, doxorubicin, vincristine and prednisolone (CHOP)  mitoxantrone, chlorambucil and prednisolone (MCP)  cyclophosphamide, doxorubicin, etoposide, prednisolone and interferon‑ α (CHVPi) or  chlorambucil Relapsed or refractory advanced-stage (stages III and IV) :  induction of remission Rituximab + combination with chemotherapy  maintenance therapy Rituximab monotherapy  in second or subsequent remission stem cell transplantation • MALT lymphoma H. pylori-positive gastric MALT lymphoma Helicobacter pylori eradication therapy  H. pylori-negative gastric MALT lymphoma Helicobacter pylori eradication therapy  gastric MALT lymphoma that responds clinically and endoscopically to H. pylori eradication therapy but who have residual disease shown by surveillance biopsies of the stomach, + no high-risk features. 'watch and wait' (observation without therapy) residual MALT lymphoma after H. pylori eradication therapy + high risk of progression [H. pylori‑ negative at initial presentation or t(11:18) translocation],   chemotherapy (for example, chlorambucil or CVP) + rituximab OR  gastric radiotherapy. Non-gastric MALT lymphoma  localised disease sites radiotherapy  if radiotherapy is not suitable or disseminated disease chemotherapy (for example, chlorambucil or CVP) + rituximab  localised + asymptomatic + radiotherapy is not suitable 'watch and wait' (observation without therapy) • Mantle cell lymphoma  advanced-stage , symptomatic chemotherapy + rituximab  localised stage I or II radiotherapy non-progressive + asymptomatic + radiotherapy is not suitable 'watch and wait' (observation without therapy) chemosensitive mantle cell lymphoma autologous stem cell transplantation previously untreated + stem cell transplantation is unsuitable Bortezomib  Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Haematological malignancies: genetics Below is a brief summary of the common translocations associated with haematological malignancies t(9;22) - Philadelphia chromosome • present in > 95% of patients with CML • this results in part of the Abelson proto-oncogene being moved to the BCR gene on chromosome 22 • the resulting BCR-ABL gene codes for a fusion protein which has tyrosine kinase activity in excess of normal • poor prognostic indicator in ALL t(15;17) • seen in acute promyelocytic leukaemia (M3) • fusion of PML and RAR-alpha genes t(1:14) • This translocation is associated with MALT (mucosa-associated lymphoid tissue) lymphoma and deregulates BCL10 t(8;14) • seen in Burkitt's lymphoma • MYC oncogene is translocated to an immunoglobulin gene t(11;14) • Mantle cell lymphoma • deregulation of the cyclin D1 (BCL-1) gene t(11; 18) • This translocation is associated with MALT (mucosa-associated lymphoid tissue) lymphoma and deregulates MALT1 t(14;18) • This translocation is associated with follicular lymphoma • results in a chimeric heavy-chain Ig (chromosome 14) and BCL2 (chromosome 18) gene. • This disease presents with painless “waxing and waning” lymphadenopathy in additional to constitutional symptoms. Haematological malignancies: infections Viruses • EBV: Hodgkin's and Burkitt's lymphoma, nasopharyngeal carcinoma • HTLV-1: Adult T-cell leukaemia/lymphoma • HIV-1: High-grade B-cell lymphoma Bacteria • Helicobacter pylori: gastric lymphoma (MALT) Protozoa • malaria: Burkitt's lymphoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Burkitt's lymphoma • Burkitt's lymphoma is a monoclonal proliferation of B lymphocytes, which results (in approximately 90% of the cases) from chromosome translocations that involve the Myc gene. chromosome translocation means that a chromosome is broken, which allows it to associate with parts of other chromosomes. • It is a high-grade B-cell neoplasm. • There are two major forms: endemic (African) form: typically involves maxilla or mandible sporadic form:  abdominal (e.g. ileo-caecal) tumours are the most common form.  More common in patients with HIV • Burkitt's lymphoma is associated with the c-myc gene translocation, usually t(8:14). The classic chromosome translocation in Burkitt's lymphoma involves chromosome 8, the site of the MYC gene. • The Epstein-Barr virus (EBV) is strongly implicated in the development of the African form of Burkitt's lymphoma and to a lesser extent the sporadic form. Microscopy findings • 'starry sky' appearance: lymphocyte sheets interspersed with macrophages containing dead apoptotic tumour cells Management • Management is with chemotherapy. This tends to produce a rapid response which may cause 'tumour lysis syndrome'.  Rasburicase (a recombinant version of urate oxidase, an enzyme which catalyses the conversion of uric acid to allantoin*) is often given before the chemotherapy to reduce the risk of this occurring. *allantoin is 5-10 times more soluble than uric acid, so renal excretion is more effective  Complications of tumour lysis syndrome include: Hyperkalaemia Hyperphosphataemia Hypocalcaemia Hyperuricaemia acute renal failure Prognosis • Localised Burkitt's is associated with around a 90% survival rate, • although the prognosis is less good in adults. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Cancer in the UK The most common causes of cancer in the UK are as follows* • Breast • Lung • Colorectal • Prostate • Bladder • Non-Hodgkin's lymphoma • Melanoma • Stomach • Oesophagus • Pancreas The most common causes of death from cancer in the UK are as follows: • Lung • Colorectal • Breast • Prostate • Pancreas • Oesophagus • Stomach • Bladder • Non-Hodgkin's lymphoma • Ovarian • Cancer is the cause of 26% of deaths in the UK, and is a more common cause of death than cardiovascular disease. • Lung cancer is the biggest cancer killer in the UK (in both male and female), although breast cancer has the highest incidence *excludes non-melanoma skin cancer Acute lymphoblastic leukaemia (ALL) Epidemiology • ALL is a disease of children. • Most common malignant disease in children • Peak incidence: 2–5 years Classification (The WHO classification) • B-cell ALL (around 80–85% of cases) • T-cell ALL (around 15–20% of cases) Risk factors • Children with certain genetic and immunodeficiency syndromes are at increased risk. These include:  Down syndrome, Neurofibromatosis type 1, Bloom syndrome, and  ataxia telangiectasia. Features • The most common presenting symptoms of ALL are nonspecific: fever, infection, bleeding, bone pain, or painless lymphadenopathy. Fever and lymphadenopathy are rare in AML, but can be common first signs in ALL • Testicular enlargement (rare finding) • Airway obstruction (stridor, difficulty breathing) caused by mediastinal infiltration • Meningeal leukemia (or leukemic meningitis) → headache, neck stiffness Diagnosis • Bone marrow aspirate or biopsy: confirmatory diagnostic tests AML: > 20% myeloblasts in the bone marrow ALL: > 25% lymphoblasts in the bone marrow Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prognostic features Good prognostic factors Poor prognostic factors • French-American-British (FAB) L1 type • common ALL • pre-B phenotype • low initial WBC • del(9p) • t(12;21) • FAB L3 type • T or B cell surface markers • Philadelphia translocation, t(9;22) • t(8:14) the worst prognosis • age < 2 years or > 10 years • male sex • CNS involvement • high initial WBC (e.g. > 100 * 109/l) • non-Caucasian • The 8:14 chromosomal translocation is associated with a particularly poor prognosis, and is found in approximately 1% of adults with ALL. The incidence of CNS involvement is very high at the point of diagnosis, and median event free survival after chemotherapy is only two months. Treatment • Before ALL treatment with chemotherapy, if blast cells count is very high (˃ 100 * 109/l)  the patient needs Leukapheresis to prevent sludge in of capillary beds, this can be lifesaving. • Philadelphia positive ALL: Chemotherapy + rituximab + Tyrosine Kinase Inhibitor  high dose chemotherapy (usually UKALL 14 or hyper-CVAD), together with the anti-CD20 monoclonal antibody rituximab and a tyrosine kinase inhibitor in view of the BCR-ABL positivity. • Central nervous system (CNS) therapy (intrathecal) is indicated in all patients with ALL • Lumber puncture (LP) should be delayed until chemotherapy has begun • Allogeneic stem cell transplantation Chronic lymphocytic leukaemia (CLL) Overview • (CLL) is caused by a monoclonal proliferation of well-differentiated lymphocytes which are almost always B-cells (99%) Prevalence • CLL is the most common form of leukemia found in adults in Western countries. • generally, affects older populations (The median age at diagnosis is 72 years) Features • often none CLL + anaemia with positive Coombs test autoimmune haemolytic anaemia (AHA) Prednisolone is the initial intervention of choice. rituximab is the second-line step. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • constitutional: anorexia, weight loss • bleeding, infections • lymphadenopathy more marked than CML Complications • hypogammaglobulinaemia leading to recurrent infections Infections are the most frequent complication causing death in patients with CLL. Although intravenous immunoglobulin prevents recurrent infections it does not prolong survival. • Autoimmune complications are common with CLL: warm autoimmune haemolytic anaemia in 10-15% of patients  the combination of spherocytes with a raised bilirubin, LDH and positive direct Coombs' test is consistent with an autoimmune haemolysis. immune thrombocytopenia (ITP) the next step in management Chemotherapy and intravenous immunoglobulin In ITP, platelets would only be indicated for life threatening bleeding (or platelet count <10 ×109/L) • transformation to high-grade lymphoma (Richter's transformation) Investigations • Blood film: smudge cells (also known as smear cells)  smudge cells are the artifacts produced by the lymphocytes damaged during the slide preparation. ≥5000 monoclonal B lymphocytes/µl. The clonality of the circulating B lymphocytes needs to be confirmed by flow cytometry. • Immuno-phenotyping: Peripheral blood flow cytometry is the most valuable test to confirm a diagnosis of CLL. will demonstrate the cells to be B-cells  CD5, CD19 and CD23 are characteristically positive. • Although a bone marrow biopsy is not required for diagnosis, it is recommended for the diagnostic evaluation of unclear cytopaenias, or FISH or molecular genetics if peripheral blood cell lymphocytosis does not allow adequate immunophenotyping • An extended FISH analysis is recommended before the start of therapy because the detection of additional cytogenetic abnormalities [del(11q) or trisomy 12] may have therapeutic consequences Peripheral blood film showing smudge B cells Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • observation policy is usual during the early stages of the disease. • Indications for treatment progressive marrow failure: the development or worsening of anaemia and/or thrombocytopenia  Bone marrow compromise (stage C disease). Lymphocyte doubling time of less than 12 months massive (>10 cm) or progressive lymphadenopathy massive (>6 cm) or progressive splenomegaly progressive lymphocytosis: > 50% increase over 2 months or lymphocyte doubling time < 6 months Immune complications, for example, ITP, autoimmune haemolysis systemic symptoms: (Disabling B symptoms)  weight loss > 10% in previous 6 months,  fever >38 C for > 2 weeks,  extreme fatigue,  night sweats • Drugs fludarabine, cyclophosphamide and rituximab (FCR) has now emerged as the initial treatment of choice for the majority of patients monitoring by regular blood counts What antimicrobial prophylaxis should he receive before starting chemotherapy with fludarabine? Co-trimoxazole  Fludarabine is a purine analogue that is phosphorylated intracellularly.  All of the purine analogues cause myelosuppression, but there is a significantly higher risk of patients developing Pneumocystis jirovecii pneumonia while on treatment.  Use of prophylactic co-trimoxazole (Septrin) has dramatically reduced the frequency of this severe opportunistic infection in these patients.  Co-trimoxazole should be continued after chemotherapy until the CD4 counts exceeds 200 cells/mm3 (0.2 ×109/L). • Regular infusions of immunoglobulin to prevent infections Recurrent infections are recognised in CLL due to hypogammaglobulinaemia and immune paresis; but are not an indication for disease control. CLL prognostic factors Poor prognostic factors (median survival 3-5 years) • male sex • age > 70 years • lymphocyte count > 50 • prolymphocytes comprising more than 10% of blood lymphocytes • lymphocyte doubling time < 12 months • raised LDH • CD38 expression positive • deletions of part of the short arm of chromosome 17 (del 17p) Chromosomal changes • deletion of the long arm of chromosome 13 (del 13q) is the most common abnormality, being seen in around 50% of patients. It is associated with a good prognosis • deletions of part of the short arm of chromosome 17 (del 17p) are seen in around 5-10% of patients and are associated with a poor prognosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Differential diagnosis • mantle cell lymphoma (MCL) These tumour cells express B-cell surface antigens and also expresses CD5, but usually not CD23. For cases that express CD23, staining for cyclin D1 or SOX11 and fluorescence in situ hybridisation (FISH) for detecting a translocation (11;14) are useful for establishing the diagnosis of MCL. • small lymphocytic lymphoma (SLL) In the WHO classification, small lymphocytic lymphoma (SLL) and CLL are considered to be a single entity. CLL is effectively the same disease as SLL except the disease is found mostly in the bone marrow or blood.  SLL is found mostly in lymph nodes The diagnosis of SLL requires the presence of lymphadenopathy and/or splenomegaly with a number of B lymphocytes in the peripheral blood not exceeding 5 × 109/l. SLL cells show the same immunophenotype as CLL. The diagnosis of SLL should be confirmed by histopathological evaluation of a lymph node biopsy, whenever possible. • monoclonal B-lymphocytosis’ (MBL) In absence of lymphadenopathy, organomegaly, cytopaenia and clinical symptoms, the presence of fewer than 5000 monoclonal B lymphocytes/µl defines ‘monoclonal B-lymphocytosis’ (MBL) can be detected in 5% of subjects with normal blood count. Progression to CLL occurs in 1%–2% of MBL cases per year. Acute myeloid leukaemia (AML ) • AML is the most common form of acute leukaemia in adults. • It may occur as a primary disease or following a secondary transformation of a myeloproliferative disorder. • Acute leukemia is defined as an accumulation of more than 20 percent of immature blasts at the bone marrow. Chronic myeloid leukaemia often ends in acute blastic transformation after a mean duration of approximately four years. • classically associated with Down syndrome. • Alkylating agents is a chemotherapy drug class that increases the risk of developing AML. • characterized by cells with positive cytoplasmic staining for myeloperoxidase. • The median age of onset of AML is 65 years. Presentation • Vague and non-specific (flu-like symptoms) • Due to pancytopenia (Infection, anaemia , bleeding) • Splenomegaly may occur but typically mild and asymptomatic. • LN swelling is rare. 048 - Pages 1176-1200 048 Pages 1176-1200 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • High total leucocyte count (TLC) leads to leucostasis and hyperviscosity drowsiness and retinal vein dilatation. • Blood film reveals white cells predominantly myeloblasts and promyelocytes. Poor prognostic features AML Cytogenetics Karyotype is of most prognostic value. • 60 years • 20% blasts after first course of chemo • cytogenetics: deletions of chromosome 5 or 7 bone marrow cytogenetics are the most important aspect in determining prognosis in AML Good prognostic features • Karyotype of bone marrow patients with t(8:21) or chromosomes 16 inversion have a low risk of relapse Classification - French-American-British (FAB) • MO - undifferentiated • M1 - without maturation • M2 - with granulocytic maturation the most common (25% of adult AML) associated with a t(8;21) translocation. • M3 - acute promyelocytic (APL) has the best prognosis of all the subtypes of AML. Unlike the other AML subtypes, APL is treated with all-trans retinoic acid (ATRA). t(15;17) • M4 - granulocytic and monocytic maturation associated with a t(16;16) translocation • M5 - monocytic • M6 - erythroleukaemia • M7 – megakaryoblastic AML (monocytic) M5: high count of circulating blasts may lead to symptoms of cellular hyperviscosity (headache, confusion, fits, coma) and tissue deposits of leukaemia cells (gums hypertrophy) with cells stain positive with Sudan Black and myeloperoxidase plus NES. ALL cells characteristically stain positive for PAS (Periodic acid-Schiff) and NSE (Non-specific Esterase). AML cells characteristically stain positive for Sudan Black and myeloperoxidase, but M4 and M5 cells stain positive for NSE, while M6 cells stain positive for PAS. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Management • Combination chemotherapy including arabinosylcystosine after apheresis. • Cytarabine and Anthracycline is considered the initial treatment of choice for patients with AML. Bone marrow transplantation • The aim would be to choose a fully matched sibling who was also CMV-negative. • In general, fully HLA matched, CMV matched, male donors are preferred over fully HLA matched, CMV matched female donors. This is because of the increased risk of graft versus host disease in stem cell donations from female donors to male recipients. Acute promyelocytic leukaemia (APML) • APML, the M3 subtype of AML. • The importance of identifying APML lies in both the presentation (classically disseminated intravascular coagulation) and management • APML is associated with the t(15;17) translocation causes fusion of the PML and RAR-alpha genes. In 95% of cases, retinoic acid receptor-alpha (RARA) gene on chromosome 17 is involved in a reciprocal translocation with the promyelocytic leukaemia gene (PML) on chromosome 15. The mechanism underlying leukaemogenesis is aberrant fusion of 2 genes PML and RARA. Features • presents younger than other types of AML (average = 25 years old) • DIC or thrombocytopenia often at presentation • Auer rods (seen with myeloperoxidase stain) Auer rods are eosinophilic needle-like cytoplasmic inclusions found in blast cells • good prognosis management • treatment of APML differs from that of all other AML forms • the most appropriate initial treatment regimen: All trans retinoic acid (ATRA) a derivative of vitamin A., plus Anthracycline based chemotherapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The distinct elongated cytoplasmic structures are Auer rods which are pathognomonic for AML. Retinoic acid syndrome (or differentiation syndrome) Pathophysiology • thought to be the result of the release of cytokines and subsequent lung infiltration by the neutrophils created by the maturation of myelocytes in APML. • The presence of CD13 expression on leukemic cells can be a predictor of the future development of this syndrome. Causes • after treatment of APML with all-trans retinoic acid (ATRA) (present within a week of treatment) • after treatment of APML with arsenic trioxide. • usually occurs during induction therapy Incidence • 14-16% of patients. Features • dyspnea, pulmonary edema and effusions, A chest X-ray shows interstitial infiltrates. • fevers, • hypotension, • Other complications include pericardial effusion, renal insufficiency, and hypertension. treatment • Corticosteroids • the drug is temporarily stopped, then started again at 50-75% of the earlier dose. Alternatively, arsenic therapy can be tried. prognosis • Without prompt treatment with glucocorticoids, patients with this disorder have a mortality rate as high as 30% due to brain edema or hypoxemic respiratory failure. • Fortunately, most patients improve markedly within 12 hours and their symptoms resolved completely within 24 hours. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Chronic myeloid leukaemia (CML) Pathophysiology • The Philadelphia chromosome is present in more than 95% of patients with (CML). • It is due to a translocation between the long arm of chromosome 9 and 22 - t(9:22)(q34; q11). This results in part of the ABL proto-oncogene from chromosome 9 being fused with the BCR gene from chromosome 22. The resulting BCR-ABL gene codes for a fusion protein which has tyrosine kinase activity in excess of normal Epidemiology • Sex: ♂ > ♀ • Peak incidence: 50–60 years Etiology • Idiopathic (in most cases) • Ionizing radiation (e.g., secondary to therapeutic radiation) • Aromatic hydrocarbons (especially benzene) Features • middle-age (40-50 years) • anaemia, • weight loss, • splenomegaly may be marked abdominal discomfort Complications • may undergo blast transformation (AML in 80%, ALL in 20%) Investigations • Peripheral blood spectrum of myeloid cells seen  The blood film shows both mature (neutrophils) and immature forms in various stages of differentiation (myelocytes and metamyelocytes) In acute myelogenous leukemia (AML) one would expect only immature blasts.  CML causes the most severe leukocytosis (> 500,000/μl) of all forms of leukemia  Increasing basophilia is a sign of acceleration! • Cytogenetic analysis of the patient’s bone marrow the most useful test  most cases of CML are usually associated with BCR-ABL translocation, (Philadelphia chromosome) Better than molecular analysis of peripheral blood • Molecular analysis of peripheral blood useful and least invasive for the patient Chronic myeloid leukaemia – imatinib = tyrosine kinase inhibitor CML- Philadelphia chromosome – t(9:22) Philadelphia translocation, t(9:22) – good prognosis in CML, poor prognosis in AML + ALL Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad BCR-ABL translocation (t[9:22]) can be detected by PCR however, in practice one would still eventually proceed to a bone marrow (BM) examination to assess morphology and you would still also perform conventional cytogenetics on the bone marrow (this is done on a bone marrow sample rather than peripheral blood because the cellularity tends to be greater in the BM, giving lower failure rates of the test). • Leukocyte alkaline phosphatase (LAP) decreased  Low LAP is a distinct feature of CML that distinguishes it from all other forms of leukemia WHO classification of the CML phases CML Phase Blast count in peripheral blood and bone marrow Chronic < 10% Accelerated 10–19% Blast ≥ 20% Management • Unlike (CLL), CML will progress to frank leukaemia quite rapidly, so treatment is needed. • imatinib is now considered first-line treatment inhibitor of the tyrosine kinase associated with the BCR-ABL defect very high response rate in chronic phase CML • If remission is not achieved with imatinib, then: in a patient under 60-65 years, an allogeneic transplant would be considered if there was a matched sibling donor;  in a 50-year-old patient or younger a matched unrelated donor transplant would be considered too. • If the patient had been in blast crisis phase, then AML-type chemotherapy as well as Glivec (imatinib) would be the choice. • hydroxyurea • interferon-alpha • allogenic bone marrow transplant Allogenic bone marrow transplant Complication Cytomegalovirus pneumonia • The microscopy shows owl’s eye inclusion bodies, characteristic of CMV, but diagnosis is usually made by PCR of blood/lavage fluid. • It is the commonest life-threatening complication following allogenic bone marrow transplant, • usually occurring within the first 4 months following surgery. • the treatment of choice Ganciclovir • Onset is rapid and mortality in the context of BMT is around 80%, even with antiviral therapy (ganciclovir). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Hairy cell leukaemia Overview • malignant proliferation disorder of B cells. • Rare, about 2% of leukemias. • more common in males (4:1) • frequently occurs in men in their fifth decade. Features • pancytopenia • splenomegaly • skin vasculitis in 1/3 patients • 'dry tap' despite bone marrow hypercellularity • tartrate resistant acid phosphotase (TRAP) stain positive • characteristic hairy leukocyte on blood smear with a “fried egg” appearance medium-sized lymphocytes with numerous spiky, peripheral, cytoplasmic projections. Management • chemotherapy is first-line: cladribine ( adenosine deaminase inhibitor), pentostatin Cladribine  Cladribine is a purine analog inhibit DNA polymerase and cause DNA strand breaks.  SE myelosuppression, nephrotoxicity, and neurotoxicity. • immunotherapy is second-line: rituximab, interferon-alpha Alpha interferon at 2 million U/m2 subcutaneously three times a week for 12-18 months can be used to salvage relapsed or refractory hairy cell leukemia. Paraproteinaemia Causes of paraproteinaemia • myeloma • monoclonal gammopathy of uncertain significance (MGUS) • benign monoclonal gammopathy • Waldenstrom's macroglobulinaemia • amyloidosis • CLL, lymphoma • heavy chain disease • POEMS Benign monoclonal gammopathy • non-lymphoid malignancy (e.g. colon, breast) • infections (CMV, hepatitis) • autoimmune disorders (RA, SLE) Multiple myeloma classic symptoms of multiple myeloma: bone pain, pathological fracture, anaemia and hypercalcaemia (leading to thirst). Multiple myeloma causes a low anion gap. Definition • Multiple myeloma is a neoplasm of the bone marrow plasma cells. Epidemiology • The peak incidence is patients aged 60-70 years. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Multiple myeloma is the most common primary tumor of the bone in patients older than 50 years. • equal sex ratio • more common in Afro-Caribbean ethnic groups than in Caucasians Monoclonal products produced • IgG (50-60%) • IgA (20-30%) • light chain disease (20%) Association • Type 2/Proximal renal tubular acidosis is a type of renal tubular acidosis associated with multiple myeloma. Pathophysiology • Neoplastic proliferation of plasma cells Bone marrow infiltration → suppression of hematopoiesis → leukopenia, thrombocytopenia, anemia Cell proliferation → osteolysis → hypercalcemia • Overproduction of monoclonal immunoglobulin and/or light chains Non-functioning antibodies → functional antibody deficiency ↑ Serum viscosity → hyperviscosity syndrome Clinical features • bone disease: due to neoplastic plasma cells activating RANKL receptors on osteoclasts. bone pain, (Bones commonly affected are the flat bones of the spine, and as such lower back pain is one of the most common presenting features) osteoporosis + pathological fractures (typically vertebral), osteolytic lesions weakness and paresthesias in the lower extremities due to vertebral compression fractures • anaemia fatigue and malaise The most common presenting manifestations of multiple myeloma are those related to anemia. • infection • hypercalcaemia nausea, fatigue, confusion, polyuria, constipation • hyperphosphataemia due to reduced renal excretion which may be directly due to renal impairment or interference with excessive protein load. • Foamy urine, caused by Bence Jones proteinuria • renal failure the most common cause is from light chain deposition. Usually, the renal damage in MM is tubular. Occasionally there may be glomerular damage with consequent albumin loss. • amyloidosis e.g. Macroglossia, carpal tunnel syndrome; neuropathy; hyperviscosity carpal tunnel syndrome - the most common peripheral neuropathy associated with multiple myeloma • Multiple myeloma may present with roleaux formation on blood film and raised total protein (globulin component). The globulin level is markedly raised (albumin + globulin = total protein), suggesting the presence of a paraprotein.  (globulin level = total protein - albumin). A normal level should be below 36 g/L. • Hypercalcaemia in myeloma primary factor: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology  due primarily to increased osteoclastic bone resorption caused by local cytokines (e.g. IL-1, tumour necrosis factor) released by the myeloma cells much less common contributing factors:  impaired renal function, increased renal tubular calcium reabsorption and elevated PTH-rP levels Which acid-base disorders may be found in an IgG multiple myeloma? Low anion-gap metabolic acidosis  IgG tends to be cationic, whereas IgA tends to be anionic. As a consequence, patients with IgG myeloma will tend to have a lower than normal serum anion gap. Diagnostic criteria for multiple myeloma requires one major and one minor criteria or three minor criteria in an individual who has signs or symptoms of multiple myeloma. • Major criteria Plasmacytoma (as demonstrated on evaluation of biopsy specimen) 30% plasma cells in a bone marrow sample Elevated levels of M protein in the blood or urine  monoclonal proteins: in the serum (usually IgG or IgA) in the urine (Bence Jones proteins) there is Negative dipstick for protein and positive in biochemistry, because Bence jones proteins are not detected by dipstick • Minor criteria 10% to 30% plasma cells in a bone marrow sample. Minor elevations in the level of M protein in the blood or urine. Osteolytic lesions (as demonstrated on imaging studies). Low levels of antibodies (not produced by the cancer cells) in the blood. Investigations: (NICE 2016) 1. to confirm the presence of a paraprotein indicating possible myeloma or (MGUS): serum protein electrophoresis and serum-free light-chain assay  (best initial test) serum protein electrophoresis If serum protein electrophoresis is abnormal use serum immunofixation Do not use serum protein electrophoresis, serum immunofixation, serum-free light-chain assay or urine electrophoresis (urine Bence–Jones protein assessment) alone to exclude a diagnosis of myeloma.  The observation that serum free light chains can occur in the absence of a detectable monoclonal protein in the peripheral blood is the explanation why two tests must always be done when investigating possible myeloma: both serum electrophoresis and either serum or urinary free light chains.  monoclonal free light chains are found in isolation in 20–30% of cases of myeloma 2. to confirm a diagnosis of myeloma: bone marrow aspirate and trephine biopsy the bone marrow aspirate would confirm the diagnosis irrefutably.  morphology to determine plasma cell percentage Bone marrow examination would reveal increased plasma cells (greater than 4% and usually greater than 30%).  flow cytometry to determine plasma cell phenotype  bone marrow aspirate dark red jelly-like material in the syringe (Plasma cells) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad in a patient presenting with spinal cord compression:  the most appropriate initial investigation is Urgent MRI of her spine  This should be done before investigation that used to confirm myeloma. skeletal survey bone lesions Treatment: general view • The best initial treatment of multiple myeloma is chemotherapy induction. • autologous bone marrow transplant in addition to chemotherapy has better results than chemotherapy alone. • Asymptomatic patients: watch and wait, unless patients have:  ≥ 60% clonal cells, excessive free light chains or  ≥ 1 bone lesion • Symptomatic patients HCT eligible: induction therapy followed by autologous HCT HCT ineligible: chemotherapy alone (e.g., dexamethasone and lenalidomide) • Supportive therapy Osteolysis and bone pain  Bisphosphonates  Radiation therapy of osteolytic regions Pancytopenia with anemia and increased risk of infection  Blood transfusions  Granulocyte-colony stimulating factor (G-CSF) and erythropoietin (EPO) Patients with myeloma with high paraprotein levels and symptoms related to hyperviscosity should have urgent plasma exchange, chemotherapy needs to then be instituted promptly to control the disease process and prevent symptoms reoccurring. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Treatment • previously untreated multiple myeloma (newly diagnosed) Patients who are eligible for high-dose chemotherapy with stem cell transplantation  bortezomib + dexamethasone,  or bortezomib + dexamethasone + thalidomide if high-dose chemotherapy with stem cell transplantation is considered inappropriate  thalidomide + alkylating agent + corticosteroid • People who are at first relapse having received one prior therapy and who have undergone, or are unsuitable for, bone marrow transplantation: bortezomib (a proteasome inhibitor) monotherapy • People who have received two or more prior therapies: lenalidomide + dexamethasone  lenalidomide immunomodulatory derivatives (structural derivatives of thalidomide) • People with untreated, newly diagnosed, myeloma-induced acute renal disease: bortezomib + dexamethasone If a bortezomib is unsuitable thalidomide + dexamethasone Do not perform plasma exchange for myeloma-induced acute renal disease. • Preventing bone disease, managing non‑ spinal and spinal bone disease bisphosphonates should be given routinely, even in the absence of hypercalcaemia. Bisphosphonates reduce bony disease in myeloma, lowering the frequency of pathological fractures, modulate the disease and have some antitumor activity.  zoledronic acid or  disodium pamidronate, if zoledronic acid is contraindicated or not tolerated or  sodium clodronate, if zoledronic acid and disodium pamidronate are contraindicated, not tolerated or not suitable surgical stabilisation followed by radiotherapy for non-spinal bones that have fractured or are at high risk of fractures. Consider radiotherapy for people who need additional pain relief • Managing peripheral neuropathy If patient on bortezomib  switch to subcutaneous injections and/or  reduce to weekly doses and/or  reduce the dose. if patient on other than bortezomib  Temporarily stop neuropathy-inducing myeloma treatments if people develop either of the following: grade 2 neuropathy with pain grade 3 or 4 neuropathy • Managing fatigue Erythropoietin analogues (adjusted to maintain a steady state of haemoglobin at 110–120 g/litre) to improve fatigue in people with myeloma who have symptomatic anaemia. • Cord compression secondary to bony involvement of multiple myeloma: I.V Steroids should be commenced immediately  Melphalan and dexamethasone both have a place in the treatment of myeloma but would not be of use as pain control. However, the treatment of choice is local radiotherapy. NICE suggest localised radiotherapy should be the first point of call for urgent treatment.  Radiotherapy is extremely effective as pain control in this situation and would be the ideal choice. Vertebroplasty is typically considered in patients of whom have evidence of metastatic changes in the spine but show no signs of spinal cord compression. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Surgical decompression: is also considered if imaging suggests any form of spinal instability or structural defects, but often after steroids and radiotherapy has been administered. Blood transfusion in myeloma may cause acute deterioration • The plasma volume increases with increasing viscosity and may compromise cardiac function. • They should not be transfused until the viscosity has been lowered as a rise in haematocrit can precipitate a serious worsening of their symptoms. Thalidomide • Immunomodulatory drugs such as thalidomide and lenalidomide are now first line medications in the treatment of myeloma. • The most common side effect of lenalidomide is myelosuppression, whereas somnolence, peripheral neuropathy and constipation are side effects of thalidomide. • The inherent, serious issue that is applicable to both medications is the teratogenic potential - all patients must be informed of this risk and advised regarding birth control and avoidance of sharing of medications with any other person. • It is not known whether lenalidomide is present in the semen of male patients receiving the drug. Therefore, males receiving lenalidomide must always use a latex condom during any sexual contact with females of childbearing potential even if they have undergone a successful vasectomy. Myeloma: prognosis • B2-microglobulin is a useful marker of prognosis - raised levels imply poor prognosis. Beta-2-microglobulin has been shown to be predictive of risk of progression of disease in myeloma, myelodysplastic syndrome, and chronic myeloid leukaemia. In myeloma it is an accurate estimate of total disease load, with guidelines suggesting that a beta-2-microglobulin level of >3.5 mg/L is strongly associated with increased mortality and morbidity. • Low levels of albumin are also associated with a poor prognosis • Increased lactate dehydrogenase levels more than double the normal is considered a bad prognostic sign in multiple myeloma. International prognostic index Stage Criteria Median survival (months) I B2 microglobulin < 3.5 mg/l Albumin > 35 g/l II Not I or III III B2 microglobulin > 5.5 mg/l Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Abnormal serum protein electrophoresis pattern in a patient with multiple myeloma. Note the large spike in the gamma region. • In the interpretation of serum protein electrophoresis, most attention focuses on the gamma region(gamma-globulin zone), which is composed predominantly of antibodies of the IgG type. Monoclonal gammopathy of undetermined significance (MGUS ) • MGUS also known as benign paraproteinaemia and monoclonal gammopathy) is a common condition that causes a paraproteinaemia and is often mistaken for myeloma. Differentiating features are listed below. • can be seen in >5% of people over 70 years of age. Risk of transmission to malignancy: • Around 10% of patients eventually develop myeloma at 5 years, with 50% at 15 years • 1 percent per year develop multiple myeloma. Features • usually asymptomatic • no bone pain or increased risk of infections • around 10-30% of patients have a demyelinating neuropathy Differentiating features from myeloma • normal immune function • normal beta-2 microglobulin levels • lower level of paraproteinaemia than myeloma (e.g. < 30g/l IgG, or < 20g/l IgA) • stable level of paraproteinaemia • no clinical features of myeloma (e.g. lytic lesions on x-rays or renal disease) feature MGUS myeloma M protein concentration in serum <30 g/l 30 g/l bone marrow plasma cells <10 % 10 % organ and tissue impairment no end organ damage including bone lesions organ or tissue impairment (including bone lesions) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Observation • if there is neuropathy MGUS patients are associated with osteoporosis and osteopenia. They may benefit from treatment with bisphosphonates  Bisphosphonates pyrophosphate analogue act by binding to hydroxyapatite in bone which leads to low osteoclastic activity. MRCPUK-part-2-March- 2017: A 72-year-old man C/O persistent tiredness over the past 3 months. No other abnormality. Investigations reveals Albumin: 38 g/l, IgG paraprotein band: 14 g/l, Bone marrow: 7% plasma cells. Which of the following is the most appropriate intervention? Observation  MGUS is defined by paraprotein (<30 g/l), bone marrow plasma cells <10% and the absence of myeloma-related organ or tissue damage (predominantly renal, skeletal or bone marrow impairment).  Annual overall progression to myeloma is 1% and, as such, no intervention is required. Smoldering myeloma • Smoldering multiple myeloma multiple myeloma (M-protein >3g/dL or >10% plasma cells in bone marrow) + no end organ damage. • criteria for end-organ damage, which are: Serum calcium >11.5 mg/dL Serum creatinine >2 mg/dL or estimated creatinine clearance <40 ml/min Anemia with hemoglobin <10 g/dL Bone lesions: osteolytic, pathological fracture; osteopenia • Treatment Observe and monitor Non-secretory myeloma • Bone marrow clonal plasma cells =10%, Myeloma-related end-organ damage, No M protein in blood or urine Thymoma are the most common tumour of the anterior mediastinum and is usually detected between the sixth and seventh decades of life. Associated with • myasthenia gravis (30-40% of patients with thymoma) • red cell aplasia • dermatomyositis • also : SLE, SIADH Causes of death • compression of airway • cardiac tamponade Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Tumour lysis syndrome (TLS) • Tumour lysis syndrome (TLS) is a potentially deadly condition Causes: • treatment of high grade lymphomas and leukaemias. • It can occur in the absence of chemotherapy but is usually triggered by the introduction of combination chemotherapy. Pathophysiology: • breakdown of the tumour cells and the subsequent release of chemicals from the cell. Features: • high potassium • high phosphate • low calcium. • It should be suspected in any patient presenting with an acute kidney injury in the presence of a high phosphate and high uric acid level. Diagnosis: • From 2004 TLS has been graded using the Cairo-Bishop scoring system - Laboratory tumor lysis syndrome: abnormality in two or more of the following, occurring within three days before or seven days after chemotherapy. uric acid > 475umol/l or 25% increase potassium > 6 mmol/l or 25% increase phosphate > 1.125mmol/l or 25% increase calcium < 1.75mmol/l or 25% decrease • Clinical tumor lysis syndrome: laboratory tumor lysis syndrome plus one or more of the following: increased serum creatinine (1.5 times upper limit of normal) cardiac arrhythmia or sudden death seizure Management of acute tumour lysis syndrome • aggressive hydration, aiming for 3 L/m2 control of electrolyte disturbances (typically, hypocalcaemia, hyperphosphataemia, hyperkalaemia and uraemia) • clearance of the increased metabolic load with rasburicase, a specific recombinant enzyme. Prevention: • Patients at high risk of TLS should be given IV allopurinol or IV rasburicase immediately prior to and during the first days of chemotherapy. Rasburicase is a recombinant version of urate oxidase, an enzyme that metabolizes uric acid to allantoin. Allantoin is much more water soluble than uric acid and is therefore more easily excreted by the kidneys.  The commonest reported side effect of rasburicase is fever.  rasburicase overdose may lead to accumulation of hydrogen peroxide. • patients at low risk oral allopurinol during chemotherapy • Other options for the management of tumour lysis syndrome include Acetazolamide to drive urine alkalinisation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Waldenstrom's macroglobulinaemia Overview • It is a lymphoplasmacytoid malignancy seen in older men, characterised by the secretion of a monoclonal IgM paraprotein, • indolent B-cell lymphoma • Also known as Lymphoplasmacytoid lymphoma • most common in older white men Pathophysiology • monoclonal IgM production by a malignant lymphoplasmacytic clone that can cause damage to multiple organs. • The tumor cells in Waldenstrom macroglobulinemia are positive to CD20 markers. Features • monoclonal IgM paraproteinaemia • systemic upset: weight loss, lethargy • hyperviscosity syndrome e.g.: visual disturbance, neurological symptoms such as headache, dizziness, and vertigo raynaud phenomenon • Bleeding is a possible complication as viscous serum causes defective platelet aggregation. • hepatosplenomegaly • lymphadenopathy • cryoglobulinaemia e.g. Raynaud's Investigations • protein electrophoresis elevated IgM • Bone marrow biopsy (the gold standard for the diagnosis) Shows abnormal plasma cells with Dutcher bodies (intranuclear inclusions of IgM deposits) • Plasma viscosity plasma viscosity measurement is essential to diagnose and initiate treatment. The initial treatment would be plasmapheresis followed by cytoreductive therapy. Differential diagnosis • multiple myeloma  usually presents with IgG or IgA secretion and lytic bone lesions. • Waldenström’s In an elderly patient found to have a large IgM–kappa paraprotein, which feature will help to decide whether it is related to Waldenström’s macroglobulinaemia?  No isotype suppression Isotype suppression (normal IgG and IgA levels) is more a feature of myeloma than Waldenström’s macroglobulinaemia and is therefore a good differentiator. Treatment • Asymptomatic Follow-up treatment only indicated in symptomatic patients • Causative: CD20 antibodies (e.g., rituximab) • Hyperviscosity syndrome: plasmapheresis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology ECOG score • The ECOG score ( Eastern Cooperative Oncology Group (ECOG) score) is a 'performance status' scale, or a score that measures the functional status of a patient. • It is used to decide if a patient is a good or poor candidate for future oncological therapies. • Those with a poor functional status is a poor candidate for further chemotherapy. Fully active, able to carry on all pre-disease performance without restriction Restricted in physically strenuous activity but ambulatory and able to carry out work of a light or sedentary nature, e.g., light house work, office work Ambulatory and capable of all selfcare but unable to carry out any work activities; up and about more than 50% of waking hours Capable of only limited selfcare; confined to bed or chair more than 50% of waking hours Completely disabled; cannot carry on any selfcare; totally confined to bed or chair Dead Tumour markers Tumour markers may be divided into: • monoclonal antibodies against carbohydrate or glycoprotein tumour antigens • tumour antigens • enzymes (alkaline phosphatase, neurone specific enolase) • hormones (e.g. calcitonin, ADH) It should be noted that tumour markers usually have a low specificity Monoclonal antibodies Tumour marker Association CA 125 Ovarian cancer primary peritoneal cancer CA 19-9 Pancreatic cancer CA 15-3 Breast cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Tumour antigens Tumour marker Association Prostate specific antigen (PSA) Prostatic carcinoma Alpha-feto protein (AFP) Hepatocellular carcinoma, teratoma , non-seminomatous germ-cell tumours Carcinoembryonic antigen (CEA) Colorectal cancer S-100 Melanoma, schwannomas Bombesin Small cell lung carcinoma, gastric cancer, neuroblastoma β-human chorionic gonadotrophin choriocarcinomas, germ-cell tumours and lung cancers • Bence Jones protein specific for myeloma. false positives are rare, and therefore it is more specific than the other markers. The most specific tumour marker • Alpha-fetoprotein (AFP), beta-hCG and PLAP (placental like isoenzyme of alkaline phosphatase) are the major tumour markers in use for the monitoring of testicular teratoma. Common tumor markers Tumor marker Associated conditions Alpha fetoprotein (AFP) • Hepatocellular carcinoma (HCC) • Hepatoblastoma • Yolk sac tumor of the ovary (endodermal sinus tumor) • Mixed germ cell tumor • Transient elevation during pregnancy • ↑AFP: abdominal wall defects, neural tube defects • ↓AFP: associated with trisomy 21, 18, and 13 (See prenatal diagnostics for details) β-HCG • Testicular germ cell tumors (choriocarcinoma, embryonal cell carcinoma, mixed germ cell tumor, seminoma) • Ovarian cancer: choriocarcinoma (gestational trophoblastic disease) • If detectable in urine • Pregnancy marker • Molar pregnancy (hydatidiform mole) Carcinoembryonic antigen (CEA) • Colorectal cancer • Pancreatic cancer • Breast cancer • Lung cancer (especially in non-small cell cancers) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Common tumor markers Tumor marker Associated conditions • Gastric cancer • Endometrial cancer • Medullary thyroid cancer • Smokers Prostate-specific antigen (PSA) • Prostate cancer • Benign prostatic hyperplasia • Prostatitis Calcitonin • Medullary thyroid cancer Alkaline phosphatase • Metastases to bone or liver • Paget disease of the bone Lactate dehydrogenase (LDH) • Ovarian cancer (dysgerminoma) • Testicular germ cell tumors (both seminoma and nonseminoma) • Lymphomas • Ewing's sarcoma • Hepatitis • Hemolysis • Myocardial infarction Neuron specific enolase (NSE) • Small cell lung cancer • Neuroendocrine tumors • Neuroblastoma • NSE is released secondary to brain injury (e.g., stroke) CA 19–9 • Pancreatic adenocarcinoma CA 15–3/CA 27–29 • Breast cancer CA 125 • Ovarian carcinoma(80–100%) Chromogranin A • Neuroendocrine tumors • Medullary thyroid cancer S-100 protein (S100A) and (S100B) • Malignant melanoma β2 microglobulin (β2M) • Multiple myeloma • Chronic lymphocytic leukemia • Renal disease Thyroglobulin • Papillary thyroid carcinoma • Follicular thyroid carcinoma Monoclonal immunoglobulins • Multiple myeloma • Waldenstroms macroglobulinemia • Monoclonal gammopathy • Infections • Certain autoimmune conditions (e.g., rheumatoid arthritis) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Neutropenic sepsis (Febrile neutropenia) Definition • Neutropenic sepsis is a relatively common complication of cancer therapy (chemotherapy). • It most commonly occurs 7-14 days after chemotherapy. • It may be defined as a neutrophil count of < 0.5 * 109 in a patient who is having anticancer treatment and has one of the following: a temperature higher than 38 C or other signs or symptoms consistent with clinically significant sepsis Causes • in the majority of them identifying a source of the temperature can be impossible. • the most common pathogens are now gram-positive organisms. such as Staphylococcus epidermidis or Streptococcus viridans (around 60% of cases) • Source of infection In neutropenic patients, almost any site can be the source. Indwelling lines Staph.epidermidis infection mucositis or previous quinolone treatment viridans streptococci Risk factors • Age > 65 • Albumin less than 35 g/l • Hepatic disfunction • Baseline neutrophil less than 1.5 * 109 • Planned relative dose intensity > 80% Prophylaxis • if it is anticipated that patients are likely to have a neutrophil count of < 0.5 * 109 as a consequence of their treatment they should be offered a fluoroquinolone Management • antibiotics must be started immediately, do not wait for the WBC,(N.B. after taking cultures). • First-step: NICE recommend starting empirical antibiotic therapy with piperacillin with tazobactam (Tazocin) immediately  piperacillin with tazobactam with gentamicin is the preferred first-line option according to Christies guidelines for patient who are not allergic to penicillin and have no significant renal impairment.  If there is penicillin allergy meropenem 1g three times a day is an appropriate option Dose adjustment may be needed where the GFR is less than 50 ml/min many units add vancomycin if the patient has central venous access, but NICE do not support this approach assessment the patient at 48 hours, If they have improved and the temperature has settled Convert patient to oral antibiotics and discharge Mucositis can be a source of neutropenic sepsis Swab mouth ulcer Neutropenic patients should avoid cold meats, soft cheese and dairy products due to risk of listeriosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology  NICE does not recommend keeping patients in hospital whilst waiting for their neutrophil count to improve. • Second-step: if patients are still febrile and unwell after 48 hours an alternative antibiotic such as meropenem is often prescribed +/- vancomycin • Third-step: if patients are not responding after 4-6 days the Christie guidelines suggest ordering investigations for fungal infections (e.g. HRCT), rather than just starting antifungal therapy blindly • there may be a role for G-CSF (filgrastim) in selected patients if the neutropenic sepsis has responded well to treatment, but is still neutropenic, could be given G-CSF to stimulate a neutrophilia to help restore his cell counts quicker and reduce the chance of developing another episode of neutropenic sepsis. Side-effect of G-CSF (filgrastim):  Filgrastim stimulates a white cell count which can increase far above the normal range, and the white cell count will return to normal once it is stopped. MRCPUK-part-1-May 2016 exam: When is the risk of febrile neutropenia thought to be highest following chemotherapy? 10 days in to treatment Assessment of neutropenia Definition and classification • absolute neutrophil count (ANC) <1500/microlitre or <1.5 x 10^9/L is defined as neutropenia and graded as mild, moderate, severe, or very severe: Mild: 1000 to 1500/microlitre or 1 to 1.5 x 10^9/L Moderate: 500 to 999/microlitre or 0.5 to 0.99 x 10^9/L Severe: 200 to 499/microlitre or 0.2 to 0.49 x 10^9/L Very severe: <200/microlitre or <0.2 x 10^9/L. • As the ANC falls below 1000/microlitre or 1 x 10^9/L, the risk of infection progressively increases. • If the ANC falls below 500/microlitre or 0.5 x 10^9/L, infections may be life-threatening. However, there are some diseases, such as autoimmune neutropenia (AIN), in which a low ANC does not confer an infection risk; infections are rare in these patients despite the ANC often being <500/microlitre or <0.5 x 10^9/L. • The ANC varies according to age and ethnicity. It is lower in children than in adults. Black people and some Arab populations display lower average values. The normal range in black people has a lower limit of 1400/microlitre or 1.4 x 10^9/L. Gram colony stimulating factor (G-CSF) can be used to boost neutrophil numbers in neutropenia Neutropenic sepsis with no response to antibiotics at 48 hrs possible fungal infection Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes • Infections (the most common causes of neutropenia in adults), • drug-induced neutropenias • Acquired bone marrow diseases such as the leukaemias, lymphomas, and aplastic anaemia • nutritional deficiencies (vitamin B12, folate, copper) Systemic mastocytosis Systemic mastocytosis results from a neoplastic proliferation of mast cells Features • urticaria pigmentosa - produces a wheal on rubbing (Darier's sign) • flushing • abdominal pain • monocytosis on the blood film Diagnosis • raised serum tryptase levels • urinary histamine Cervical cancer • Cervical cancer is the most common cancer worldwide • The incidence of cervical cancer peaks around the 6th decade. • It may be divided into squamous cell cancer (80%) adenocarcinoma (20%) Features • may be detected during routine cervical cancer screening • abnormal vaginal bleeding: postcoital, intermenstrual or postmenopausal bleeding • vaginal discharge Risk factors • human papilloma virus (HPV) 16,18 & 33 the most common associated with HPV 16 and 18 in approximately 70% of cases. New vaccines are currently available in the United Kingdom to help immunise against this virus and hopefully prevent future cases of cervical cancer. • smoking • human immunodeficiency virus • early first intercourse, many sexual partners • high parity • lower socioeconomic status • combined oral contraceptive pill* *the strength of this association is sometimes debated but a large study published in the Lancet (2007 Nov confirmed the link Mechanism of HPV causing cervical cancer • HPV 16 & 18 produces the oncogenes E6 and E7 genes respectively • E6 inhibits the p53 tumour suppressor gene • E7 inhibits RB suppressor gene Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Ovarian tumours Ovarian cancer screening is not recommended in the general population as no survival benefit from earlier diagnosis and therapy has been shown. • germ cell tumours Patients are usually young.  most commonly seen in adolescents due to embryologic remnants early pulmonary metastases  The fact that this lady is young, and has early pulmonary metastases, make a germ cell tumour much more likely • The diagnosis is usually made on biopsy in the case of ovarian tumours. • treatment usually consists of surgery followed by chemotherapy (BEP). • Epithelial cell tumours usually disseminate through the abdomen and peritoneum prior to metastasising to the lungs. • Markers such as AFP, β-human chorionic gonadotropin (HCG) and lactate dehydrogenase (LDH) may be raised the most sensitive marker used for monitoring treatment efficacy and risk of relapse is AFP. • Treatment of ovarian cancer: Patients with low risk, early-stage ovarian cancer (stage I, grade 1 disease confined to one or both ovaries with an intact capsule and no ascites) after thorough surgical staging have a greater than 90% cure rate with surgery alone and close observation is required. Platinum-based therapy, such as intravenous carboplatin and paclitaxel, is warranted for high risk, early-stage ovarian cancer (stage IC or II, grade 3 tumour or clear cell histology). Intraperitoneal chemotherapy is indicated for patients with stage III disease Debulking surgery followed by chemotherapy is proven to be the best treatment option in patients with peritoneal carcinomatosis from ovarian cancer.  Intraperitoneal chemotherapy has less toxicity compared to IV chemotherapy and is better tolerated. • A young man with a germ cell tumour (raised β-HCG) can expect a greater than 95% cure rate, especially with seminomas. • β-HCG is the best tumour marker confers the best prognosis _Breast cancer The triple assessment of a breast lump is essential to diagnose a breast lump accurately. It involves; physical examination, mammography and then ultrasound guided fine needle aspiration (FNA). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Risk factors • inherited BRCA-1 mutation (or BRCA-2)  the greatest risk BRCA1/2 carriers have a 40–70% chance of getting breast cancer by age 70, and a 10–70% chance of getting ovarian cancer by age 70. family history of breast cancer at a young age makes this more likely. What is the DNA repair mechanism by which the BRCA1 and BRCA2 proteins act?  Double strand DNA break repair BRCA involved in repair of double strand DNA breaks by homologous recombination. • Early menarche • late menopause due to increased hormone exposure throughout life. • Nulliparity • Oral contraceptive use is also associated with a slight increase in risk of developing breast and also endometrial cancer. What is the best predictive factor for local recurrence of breast cancer after surgery, chemotherapy and radiotherapy? Age  Patients below the age of 40 are significantly more likely to develop local recurrence of a breast cancer than those aged 41+. Screening • Mammograms screening sensitive in older (because of less dense breast tissue) not sensitive in younger (because of denser breast tissue) MRI and ultrasound are better in them. In young patients with a BRCA mutation, mammographic screening has a low sensitivity for detecting tumours • Mammographic screening of all women between the ages of 50 and 70 years can reduce mortality from breast cancer by 25%. There is no evidence for routine screening below this age. • mutation of BRCA1 or BRCA2 gene increases the risk of breast cancer should be screened at younger than 50 years. Breast MRI is used for patients with invasive breast cancer in the following circumstances: • if there is a discrepancy regarding the extent of disease from clinical examination, mammography and ultrasound assessment for planning treatment • if breast density precludes accurate mammographic assessment • to assess tumour size if breast conserving surgery is being considered for invasive lobular cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology • Staging CT is not used routinely in primary breast cancer, only if there is suspicion of metastatic spread. Tumour marker • CA15-3 tumour marker are used to assess disease activity in metastatic breast cancer Management • Breast-conserving therapy lumpectomy with sentinel lymph node biopsy followed by breast irradiation indicated for patients with focal disease randomised clinical trials have shown that the survival rate for women undergoing breast-conserving therapy is equivalent to that of those who undergo mastectomy, breast-conserving therapy resulting in improved cosmetic outcomes and less morbidity than mastectomy. Most patients treated with lumpectomy without radiation therapy have a high risk for local recurrence. Sentinel lymph node biopsy is safe and adequate for screening the axillary lymph nodes for metastases in women with small breast tumours. • Mastectomy indicated in patients in whom complete excision cannot be achieved unless mastectomy is performed or radiation is contraindicated. • Adjuvant radiotherapy is recommended by (NICE) given after wide local excision of a breast tumour to reduce the risk of local recurrence. There is growing evidence that adjuvant radiotherapy also increases survival for those patients at high risk of relapse. There is however a risk of increased cardiovascular mortality after 15-20 years, which may be reduced with the use of modern techniques such as conformal radiotherapy and intensity-modulated radiotherapy. Wound healing can be reduced after radiotherapy, and a period of at least a few weeks is usually given between surgery and initiation of radiotherapy. • Prophylactic mastectomy is indicated only in patients with BRCA1 or BRCA2. Drug therapy • Hormonal treatment is used to remove the proliferative stimulus of oestrogen from tumour cells. • Tamoxifen is used for adjuvant hormone treatment in pre-menopausal women first line. Tamoxifen acts by blocking the binding of oestrogen to its receptor within the nucleus. In patients with oestrogen receptor-positive tumours, tamoxifen therapy for five years in addition to lumpectomy decreases the risk of a new breast cancer event. long-term use is associated with:  vaginal bleeding,  endometrial thickening and increased risk of endometrial cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  thromboembolism. The lack of oestrogen receptor staining suggests a poor response to hormonal therapy with tamoxifen. • Anastrozole is used for adjuvant hormone treatment in post-menopausal women first line. aromatase inhibitor Three aromatase inhibitors are licensed for treatment of early oestrogen-receptorpositive breast cancer: anastrozole, exemestane, letrozole. Aromatase inhibitors work by preventing peripheral conversion of oestrogen and therefore cause profound oestrogen deprivation in a post-menopausal woman. This increases the risk of osteoporosis and fragility fractures. A DEXA scan must be done at the start of treatment to identify those patients in whom a bisphosphonate must be considered for bone protection.  Aromatase inhibitors can be continued in a patient who has suffered no fragility fractures providing adequate measures are taken for bone protection, for example, prescribing a bisphosphonate.  In patients who suffer a fragility fracture tamoxifen must be considered as this does have a partial oestrogen agonist action on bone, reducing the risk of osteoporosis. A common side-effect is reduced bone mineral density, and bone densitometry is therefore often carried out prior to and during treatment. Anastrozole is currently indicated for early oestrogen-receptor-positive breast carcinoma at a dose of 1 mg daily for 5 years. • Fulvestrant is a new pure anti-oestrogen agent which appears to be as effective as anastrozole. It is given by sub-cutaneous injection once every three weeks. mechanism of action Selective oestrogen receptor down regulator has been shown to be equivalent to anastrazole in terms of efficacy. Fulvestrant is the only endocrine agent currently available that can be given parenterally, which offers significant advantages to patients with swallowing difficulties. Fulvestrant is not currently given first line in post-menopausal women but this may change in the near future. • The positive C-erb B2 (HER2/neu) staining suggests that trastuzumab (Herceptin) may be effective. Several randomised trials have demonstrated that 52 weeks of adjuvant trastuzumab therapy reduces the risk for breast cancer recurrence in women with HER2 overexpression by approximately 50% and may even reduce mortality by as much as 30%. 049 - Chapter 7 049 Chapter 7 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology the best test for monitoring the patient while she is receiving Herceptin (trastuzumab)?  Three monthly echocardiogram Herceptin appears to be directly toxic to the cardiac muscle itself with relative sparing of the electrical conductivity of the heart. As such regular echocardiograms are the best test to assess treatment safety, a reduction of greater than 10% in ejection fraction indicating the need to stop treatment. • Bisphosphonate therapy  prevents skeletal complications resulting from osteolytic bone involvement in patients with breast cancer. An intravenous bisphosphonate (eg: zoledronic acid) is indicated for treatment of lytic bone metastases.  The evidence demonstrating benefit of oral bisphosphonate therapy such as alendronate in the treatment of bone metastases is conflicting. oestrogen receptor (ER)-positive tumours + pre-menopausal women Tamoxifen oestrogen receptor (ER)-positive tumours + post-menopausal women Anastrozole ER-negative or are refractory to endocrine treatment chemotherapy Patients with HER2 overexpression chemotherapy + trastuzumab. patients with HER2-negative metastatic breast cancer Bevacizumab Prognosis • Poor prognostic factors include: high-grade tumour, positive lymph node status, oestrogen-receptor-negative tumour, progesterone-receptor-negative tumour, young age (< 40 years), premenopausal at diagnosis increased tumour size. Paget's disease of the breast • Overview Paget's disease of the breast is a rare (1-4% of breast cancers) form of breast cancer that affects the nipple and areola. underlying invasive breast cancer, or ductal carcinoma in situ (DCIS) almost always present  unlike Paget's disease of the vulva Malignant cells infiltrate into the epidermis via the mammary duct epithelium, leading to thickening of the affected skin. • Features Presents with dermatitis or macular rash over nipple or areola It presents insidiously and is similar in appearance to eczema; as such it often goes undiagnosed for several months. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Diagnosis Skin biopsy with immunohistochemistry is the first line investigation. Investigations should also be done for underlying malignancy:  biopsy if a lump is palpable,  imaging if no lump is palpable. • Management usually surgical with post-operative radiotherapy • Prognosis high chance of recurrence. Radiotherapy • External beam radiotherapy or use of targeted intraoperative radiotherapy does not render the patient radioactive. No radiation precautions need to be taken • Use of brachytherapy methods can involve insertion of radioactive seeds or beads which may require some radiation protection precautions depending on the site. • Use of an unsealed source, for example radio-iodine treatment of thyroid cancer, has substantial need for precautions and patients need to be isolated in a lead-lined side room, often for several days. Chemotherapy • Adjuvant chemotherapy is commonly given in many cancers to reduce the risk of local or distant recurrence or metastasis. • multi-drug chemotherapy resistance Upregulation of which protein is associated with multi-drug chemotherapy resistance? P-glycoprotein  P-glycoprotein, which is also known as multidrug resistance protein 1, is a member of the adenosine triphosphate (ATP)-binding cassette transporters which actively remove harmful substances from the cytoplasm.  If upregulated these proteins can pump chemotherapeutic agents out of tumour cells leading to drug resistance. Chemotherapy complications • Oral mucositis Severe mucositis is common with head and neck cancer treatment due to the combination of chemotherapy and external beam radiotherapy.  Admit the patient for IV fluids and nutritional support Often patients require a PEG or RIG to provide adequate nutritional support during their potentially curative treatment. Oral hygiene is the mainstay of treatment in prevention of mucositis however it will not treat an existing mucositis. Chlorhexidine mouthwash can improve a grade 1-2 mucositis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Salivary Gland Tumors • Most commonly occur in the parotid gland generally benign if the tumor involves a non-parotid gland it is more likely to be malignant • Types pleomorphic adenoma  the most common benign salivary gland neoplasm. 70% to 80% of all benign salivary gland tumours.  more common in females (middle-aged women > 40 )  It is found mostly in the parotid gland (84%).  90% of parotid gland pleomorphic adenomas arise lateral to the facial nerve.  benign with high rate of recurrence but may become malignant  Usually they do not enhance following intravenous contrast injection in CT.  The optimal treatment is superficial or total parotidectomy with facial nerve preservation Warthin's tumor  benign  more common in males  heterotopic salivary gland tissue located in a lymph node  surrounded by lymphatic tissue mucoepidermoid carcinoma  most common malignant tumor  note: muco = malignant  generally, involves parotid gland  combination of neoplastic mucus and squamous cells • Physical exam painless, moveable mass found at the angle of the jaw  pleomorphic adenoma disturbance in CN VII function  more likely to be malignant pleomorphic adenoma Palliative care prescribing: pain The breakthrough dose of short acting morphine should be 1/6th of the total 24-hour dose. WHO recommendations • Standard practice would be to follow the World Health Organization recommendations for the management of cancer pain, which suggest analgesia should be given: By the mouth - that is, using the oral route for all drugs including morphine and other opioids unless patient is vomiting, semi-conscious, has dysphagia, etc. By the clock - persistent pain requires preventative treatment and as needed (prn) analgesia only is not acceptable. By the ladder - that is, the WHO analgesic ladder. • The WHO analgesic ladder is as follows: Step 1 - Non-opioid +/- adjuvants (e.g. paracetamol/NSAIDs) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Step 2 - Weak opioid + non-opioid +/- adjuvants (e.g. co-codamol 30/500) Step 3 - Strong opioid + non-opioid +/- adjuvants (e.g. morphine, fentanyl, oxycodone). • Nerve pain often also has a nociceptive opioid responsive element and hence opioids (with a combination of nonsteroidal anti-inflammatory drugs [NSAIDs]) should be tried first (eg: ibuprofen and tramadol) and used as part of the WHO analgesic ladder. Morphine would be tried next, followed by the other agents. Starting morphine • Morphine is the opioid of choice for treating moderate to severe cancer pain. • Choices between morphine preparations when starting treatment, offer patients with advanced and progressive disease regular oral modified-release (MR) or oral immediate-release morphine(IR) (depending on patient preference), with oral immediate-release morphine for breakthrough pain oral modified-release morphine should be used in preference to transdermal patches Immediate release preparations are used for titration as they offer greatest flexibility. Most patients should be started on 5-10mg orally every 4-hours, with the same dose prescribed as a breakthrough (or ‘rescue’) dose wherever needed. Once drug requirements are constant, the patient can be converted to modifiedrelease morphine. Once a patient has been titrated on immediate release opioids these can be converted to the equivalent dose of a modified release preparation. If a patient has good pain control on one drug, the modified release version of this drug should be used. • Morphine doses if no comorbidities use 20-30mg of MR a day with 5mg morphine for breakthrough pain. For example, 15mg modified-release morphine tablets twice a day with 5mg of oral morphine solution as required When increasing the dose of opioids, the next dose should be increased by 30-50%. An appropriate starting dose of morphine sulphate immediate release (IR) should not be more than 10mg every 4 hours. Alternatively, morphine sulphate modified release (MR) 30mg 12 hourly could be used. • Opioids Side effects: Constipation: laxatives should be prescribed for all patients initiating strong opioids  Morphine causes constipation by enhancing intestinal ring contractions. This results in hypersegmentation which in turn impairs peristalsis.  90% of patients taking morphine require a laxative and a stimulant is the best choice (such as senna). Senna is the most commonly used laxative for this indication Nausea: patients should be advised that nausea is often transient. If it persists then an antiemetic should be offered drowsiness is usually transient - if it does not settle then adjustment of the dose should be considered Preferred opioids for patients with chronic kidney disease • Opioids should be used with caution in patients with chronic kidney disease. Alfentanil, buprenorphine and fentanyl are preferred Fentanyl patches are difficult to titrate because they are used for 72 hours. therefore, only used once a patient has a stable opiate usage. Fentanyl is a selective µ receptor agonist. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology It has extensive first-pass metabolism so is not especially effective orally. However, buccal absorption is good so lozenges are an effective mode of administration and have a rapid onset of action (five minutes). This is therefore very useful for patients with "breakthrough pain".  It is very useful in renal failure as it is metabolised mainly in the liver and it has inactive metabolites. What is the most appropriate opioid to prescribe for a syringe driver in renal failure? Alfentanil Combination therapies antagonism • Partial opioid agonists (for example, buprenorphine), when used in association with morphine, may produce a reduction in the analgesic effect due to partial antagonism. • This is an aspect of pain management that needs to be considered when using combination therapies. Oxycodone • Oxycodone is often used as a second line opioid for patients who experience either inadequate analgesia or excessive side effects with morphine. • It has similar analgesic properties to morphine but is twice as potent. • It is available in immediate-release and modified- release oral preparations and can also be used parentally. • Oxycodone can be used in moderate renal failure, but only as breakthrough pain relief. Modified release preparations should be avoided. • Parental oxycodone is twice as potent as oral oxycodone. • The total daily dose of immediate and modified release oral oxycodone is the same. • causes less sedation, vomiting and pruritis than morphine but more constipation. Opioid side-effects Usually transient Usually persistent Nausea Drowsiness Constipation Conversion between opioids • calculate the total daily dose of morphine salt, (include the doses of breakthrough pain) then convert it to the appropriate amount From To Conversion factor Oral codeine Oral morphine Divide by 10 Oral tramadol Oral morphine Divide by 10 From To Conversion factor Oral morphine Oral oxycodone Divide by 1.5-2** **historically a conversion factor of 2 has been used (i.e. oral oxycodone is twice as strong as oral morphine). The current BNF however uses a conversion rate of 1.5 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad From To Conversion factor Oral morphine Subcutaneous morphine Divide by 2 Oral morphine Subcutaneous diamorphine Divide by 3 Oral oxycodone Subcutaneous diamorphine Divide by 1.5 Transdermal perparations: The current BNF gives the following conversion factors for transdermal perparations • transdermal fentanyl a transdermal fentanyl 12 microgram patch equates to approximately 30 mg oral morphine daily fentanyl 75 patch is equivalent to 180mg daily intake of morphine salt fentanyl 100patch is equivalent to 240mg daily morphine salt. • transdermal buprenorphine transdermal buprenorphine 10 microgram patch equates to approximately 24 mg oral morphine daily. Diamorphine • Diamorphine has a rapid onset so could be used for breakthrough pain if the renal function is normal. • Constipation is a characteristic sequel to treatment • Hallucinations also tend to occur. • An aperient (laxative) should always be added to the treatment regime. • Addiction is not a problem. • An intramuscular injection is three times more effective than the same oral dose. • the best option for controlling pain associated with vomiting in palliative care  Subcutaneous diamorphine by continuous infusion (able to effectively titrate the dose to achieve adequate analgesia) Codeine • The analgesic effect of codeine depends on its conversion to morphine by the CYP2D6 hepatic enzyme. Up to 10% of Caucasians are CYP2D6 poor metabolisers and are unlikely to derive any analgesia from it. • If hepatic metabolise is impaired for any other reason (drugs or hepatic impairment) patients are also unlikely to benefit from codeine. Methadone • acts as a neuropathic agent by NMDA antagonism. • Methadone can be used as a third line opioid for patients with complex pain that is poorly responsive to other opioids and adjuvants • Opioids which are safe in CKD 4 and 5 include fentanyl, buprenorphine and methadone. Incident pain • defined as pain which comes on as a result of an action or activity, for example during personal care (pain throughout the day is otherwise well controlled). • Treated with rapid onset and short-acting opioid such as: Sublingual fentanyl morphine sulphate immediate release liquid.  A breakthrough dose (1/6th of the total daily dose) of morphine should be given 30 minutes prior to the activity as indicated in the BNF. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Other notes: • Nifedipine relieves painful oesophageal spasm and tenesmus associated with gastrointestinal tumours and could be used to relieve odynophagia. • Corticosteroids used to treat pain from central nervous system tumours • Oxybutynin painful bladder spasm may be relieved by oxybutynin. • Hyoscine to reduce air way secretions in palliative care Both hyoscine and atropine when given subcutaneously are thought to be equally appropriate for drying up secretions. hyoscine s/c can be given up to three times per day in boluses of 10-20 mg. • Cyclizine Cyclizine is a commonly used antihistamine antiemetic and its primary site of action is the vomiting centre (which is rich in histamine and muscarinic cholinergic receptors). Cyclizine has a strong affinity for muscarinic receptors and therefore anticholinergic side effects (dry mouth, drowsiness, blurred vision, constipation, etc) are common, especially in the first few days. • Gabapentin Gabapentin is a commonly used adjunctive agent for neuropathic pain. mechanism of action: (Activation of GABA inhibitory system). Four to six weeks of treatment are often needed before the patient experiences benefit. • Bisphosphonates inhibits osteoclastic bone resorption useful for bone pain and the associated hypercalcaemia, especially in breast cancer and myeloma. Whilst bisphosphonates have a role in bone metastases they are not suitable for acute pain. The risk of osteonecrosis of the jaw is much greater for patients receiving intravenous bisphosphonates in the treatment of cancer.  All patients receiving bisphosphonates for cancer should have a dental checkup before bisphosphonate treatment.  other patients who are prescribed bisphosphonates should have a dental examination only if they have poor dental health. The beneficial effect of bisphosphonates can be delayed for up to two weeks and can last for one month, and treatments are therefore usually given monthly (typically for 6 months). increase analgesia while waiting for the bisphosphonates to work and review over the next few days to see whether you could reduce them again. Acupuncture is playing an increasing role in pain management. Which structures are involved in mediating the effects of acupuncture? Cerebral cortex and A beta nerve fibres. • The A beta nerve fibres are the path for fast transmission of sensation. • Acupuncture also has a central effect. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Opioid toxicity in palliative care most opiates are renally excreted, leading to opiate toxicity. Fentanyl, buprenorphine and methadone are metabolised by the liver and are therefore safer in renal failure Transdermal fentanyl absorption is increased by heat (e.g. hot water bottle) or pyrexia, potentially leading to opioid toxicity • May be precipitated by: Renal impairment with renally excreted opiates increase transdermal fentanyl absorption by heat eg: fever reduction in opioid requirement. This is a common occurrence in patients who have radiotherapy for bone metastases if their medication dose is not adjusted. • Features: Reduced conscious level, hallucinations, vomiting, myoclonic jerks and pinpoint pupils. • Management stop the long acting opioid temporarily to allow the excess drug to be excreted and then rely on short acting opioid for any breakthrough pain that might occur.  once the patient recovered, the long acting opioid can be reintroduced at a much-reduced dose. Although the patient is opioid toxic, giving naloxone would not usually be the right thing to do.  Naloxone antagonises opioid receptors in the nervous system and this can cause patients significant pain and distress as their analgesia is reversed.  Unless the patient is in a peri-arrest situation where use of naloxone could be justified, it is better simply to withdraw the regular opioid until the patient recovers. Palliative care prescribing: nausea and vomiting Opiate induced nausea • Haloperidol 90% of patients taking morphine require antiemetics (morphine stimulates D2 receptors in the CTZ). Haloperidol is the first-choice antiemetic for opiate induced nausea in the palliative care setting. Haloperidol acts as a central dopamine (D2-receptor) antagonist. The chemoreceptor trigger zone (CTZ) is rich in dopaminergic receptors. Opioid related nausea is thought to be predominantly due to dopamine pathways in the CTZ. haloperidol dopamine receptor antagonist (D2) activity drug-induced parkinsonism (DIP). Post-chemotherapy or radiotherapy induced nausea • Ondansetron (5HT3 antagonist) is mainly used in post-chemotherapy or radiotherapy induced nausea. • In UK 5HT3 antagonists are licensed only for post-chemotherapy and post-operative nausea. • Which antiemetics is most useful following treatment with a platinum-based chemotherapy? Ondansetron  Examples of platinum-based chemotherapies are cisplatin, carboplatin and oxaliplatin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Nausea associated with cerebral disease (brain metastases) • If he patient's history raises the possibility of brain metastases, cyclizine would be the most appropriate first line agent. It targets the dopamine and cholinergic receptors and is widely accepted as the best antiemetic for nausea associated with cerebral disease. Treatment of vomiting associated with breast cancer chemotherapy • modern palliative chemotherapy for breast cancer would be unlikely to cause severe nausea and vomiting. • The patient may have anticipatory vomiting (before attending for treatment) almost certainly associated with anxiety about chemotherapy. Therefore, treatment with a benzodiazepine as an anxiolytic as well as an antiemetic would be the most logical. Palliative care prescribing: hiccups Management of hiccups • Metoclopramide is the first choice to treat hiccup as well as nausea. • chlorpromazine is licensed for the treatment of intractable hiccups • Other options include: baclofen, nifedipine, haloperidol, gabapentin • dexamethasone is also used, particularly if there are hepatic lesions In the presence of hepatic or cerebral cancer a trial of dexamethasone may induce some remission Palliative care prescribing: Constipation Causes • Constipation is common in patients with advanced cancer, particularly in those taking opioid medication, with reduced oral intake and reduced mobility. • Hypercalcaemia can cause constipation (a constipation in cancer do blood tests, including bone profile ) Hypercalcaemia is a common problem in palliative care. prostate cancer with bone metastasis is a frequent cause. Treatment • Polyethylene glycol (Movicol) would seem the best choice in this scenario. It has an osmotic action and helps to retain water in the gut to aid faecal passage. It is generally better tolerated than some other oral laxatives and has been shown to be more effective than lactulose in the management of chronic constipation. • Lactulose (an osmotic laxative) is usually avoided in palliative care as it can cause abdominal cramps and excessive flatulence. Its sweet taste can be unpalatable for some patients it needs to be consumed with large volumes of liquid which is sometimes not practical for palliative care patients. • Co-danthramer is a combination of danthron (a stimulant laxative) and poloxamer (a stool softener) and is a popular choice for constipation in palliative care. It is licensed only for use in patients with a terminal illness and should not be given to those who are incontinent (of urine or faeces) due to the risk of developing a 'danthron burn' through prolonged contact with the skin. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Palliative care prescribing: agitation and confusion Causes • hypercalcaemia, • infection, • urinary retention can even develop in patients who have not received any hydration for several days. Assessment for catheterisation should be one of the first management steps in a newly agitated patient. • medication. Management • Treatment of underlying cause • If specific treatments fail, then the following may be tried: first choice: haloperidol other options: chlorpromazine, levomepromazine Terminal agitation  In the terminal phase of the illness then agitation or restlessness is best treated with midazolam  Midazolam is the drug suggested by the Liverpool Care Pathway (LCP) (starting dose of 2.5 - 5 mg sc PRN).  benzodiazepines are traditionally the first line for terminal agitation. Palliative care: Breathlessness Opioids are the first line treatment to reduce the sensation of breathlessness in Palliative care • Breathlessness is a significant problem in the palliative care setting and not just in patients with lung cancer. • Palliation of breathlessness involves: First-line: Opioids  Opioids are very effective agents to reduce the sensation of breathlessness - they reduce inappropriate respiratory drive.  They rarely cause respiratory depression when used correctly. Second line: Benzodiazepines (effective agents after opioids). Other therapies  Psychological support and physiotherapy are very useful adjuncts to medications. However, these take time and if the patient is distressed, they are not helpful in the immediate cases (unless breathing techniques have been taught).  Oxygen has a small role in the management of breathlessness in palliative medicine, unless the patient is hypoxic. It can be necessary when patients become psychologically dependent on supplementary oxygen. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Palliative care: end of life care • Glucocorticoids are prominent in end of life care Benefits of steroids  Improve general feelings of wellbeing  Relive fatigue and improve energy  Relive nausea  Control of pain 15% improvement in pain If the patient is unable to obtain satisfactory pain relief despite an escalating opiate regimen Commence trial with dexamethasone One of the sources of pain associated with liver metastases is due to stretching and irritation of the liver capsule for which a trial of dexamethasone may provide an analgesic effect.  Liver capsule pain tends not to be opioid responsive, therefore increasing the modified or immediate release morphine would not be the correct option. Dexamethasone is the usual agent of choice • The most important aspect of management is to try to keep the patient calm and relieve distress with a large dose of midazolam (10mg). In a massive terminal haemorrhage, a large dose of midazolam (10mg) can be given as part of 'crisis management' to relieve distress. Red or green towels or blankets should be available to soak up and mask the colour of blood Epstein-Barr virus: associated conditions • Epstein-Barr virus infects B lymphocytes and squamous epithelial cells of the oropharynx. The virus can transform B cells and epithelial cells to produce tumors • Malignancies associated with EBV infection Burkitt's lymphoma (both African and sporadic Burkitt's) Hodgkin's lymphoma nasopharyngeal carcinoma  Epstein-Barr virus is detectable in over 90% of nasopharyngeal cancers  the most common type is the undifferentiated form. HIV-associated central nervous system lymphomas • The non-malignant condition hairy leukoplakia is also associated with EBV infection. September 2019 exam: What type of virus family is associated with nasopharyngeal carcinoma? Herpesvirus (Epstein-Barr virus is one of the herpes viruses) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad T cell lymphoma (Adult T-cell lymphoma (ATLL) • makes up about 10-20% of non-Hodgkin's lymphomas • has a worse prognosis than B cell lymphoma. • Adult T-cell leukaemia/lymphoma (ATLL) is a potentially aggressive type of mature T-cell non-Hodgkin lymphoma. • It is linked to the viral infection, HTLV-1 (human T-cell lymphotropic virus 1). • It is more prevalent in countries where infection with HTLV-1 is common, such as Japan, China, the Caribbean, South and Central America and West Africa. • ATLL occurs in 2%-5% of people who are infected with the HTLV-1 virus. • The HTLV-1 virus is a retrovirus, and is in the same class of virus as the HIV/AIDS virus. It is believed that the HTLV-1 virus is a key factor in the development of this rare lymphoma which is transmitted through sexual contact, exposure to contaminated blood or breastfeeding. • slightly more common in men than in women, • In acute ATLL, symptoms develop rapidly and include:  fatigue, skin rash enlarged lymph nodes hypercalcaemia may also be present which can cause confusion, bone pain and severe constipation. • lymphomatous form of ATLL presents with: enlarged lymph nodes. • Chronic ATLL is slow growing and frequently characterised by:  enlarged lymph nodes Skin rash and fatigue. • Smouldering ATLL develops slowly and presents with very mild symptoms such as a few lesions on the skin. • Patients with the chronic or smouldering types of ATLL can progress to the acute form in about 25% of cases. • for the acute and lymphomatous types: Therapies include antiviral drugs, such as acyclovir and interferon, together with chemotherapy regimens Testicular cancer Epidemiology • Most common solid malignant tumor in young men in the US Classification: • germ cell tumors (comprise more than 90% of all tumours and more commonly malignant) Germ cell tumours are classified as either:  pure seminomas The triad of a testicular lump, a mass on chest X-ray and a raised (3-HCG (human chorionic gonadotrophin) are suggestive of testicular seminoma Testicular mass • ↑LDH pure seminomas germ cell tumor • ↑AFP mixed non-seminomatous germ cell tumour Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology seminoma is the most common type of testicular germ cell tumor. ∼40% Good radiosensitivity; slow growth, late metastases, and better overall prognosis compared to nonseminomas Lactate dehydrogenase (LDH) is most likely to be elevated (in 40– 60%) A raised (3-HCG is found in around 15% of seminomas Orchidectomy with chemotherapy is curative in 90% of cases (3-HCG) levels may be a useful correlate with response to treatment  mixed non-seminomatous germ cell tumours (NSGCTs) Elevated AFP levels are most consistent with NSGCT Choriocarcinoma is the most aggressive of the NSGCTs.  Highly malignant and most aggressive  Early hematogenous metastasis to the lungs or brain is common. Most testicular GCTs cause scrotal swelling, with a palpable mass, choriocarcinoma is different in that the local tumour may be small or nonpalpable. Beta-human chorionic gonadotropin (Beta-HCG) is usually markedly elevated in pure choriocarcinoma but is only elevated in 10-15% of seminomas. Gynecomastia occurs due to elevation of beta-hCG levels and is therefore common in choriocarcinoma, but only rarely seen in patients with a seminoma. On ultrasound scanning, choriocarcinoma is associated with haemorrhage and necrosis and may appear more cystic, inhomogeneous, and calcified than a seminoma. Calcifications and cystic areas are less common in seminomas than in nonseminomatous tumours. can cause precocious puberty in boys. Young men are more at risk for germ cell tumors.  teratoma is a testicular germ cell tumor that is benign in children and malignant in adults. • Non-germ cell tumors (make up less than 10% of all testicular tumours) Leydig cell tumours  golden brown color on morphology  Eosinophilic cytoplasmic inclusion bodies called Reinke crystals are found in Leydig cell type of testicular tumors. Sertoli cell tumours, gonadoblastomas. • Testicular lymphoma is the most common testicular tumor in older men. Most common testicular tumor in men > 60 years of age Testicular lymphoma is a cancer that arises from metastasis from metastatic lymphoma to the testes. Usually extranodal non-Hodgkin lymphoma Risk factors • Cryptorchidism Patients with history of cryptorchidism have a 10- to 40-times increased risk of testicular cancer this risk is greater for the abdominal versus inguinal location of undescended testis. Orchidopexy does not reduce the risk of subsequently developing a malignancy. An abdominal testis is more likely to be seminoma, while a testis surgically brought to the scrotum by orchiopexy is more likely to be non-seminomatous germ cell tumours (NSGCTs)N. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • family history • infertility • Klinefelter syndrome, Down syndrome (increased risk for germ cell tumors) Features • testicular mass Most commonly presents as a hard, painless nodule on one testis noticed by the patient or at a regular clinic examination. • fatigue, weight loss, • gynaecomastia Rarely gynaecomastia can be the trigger by which a young man will seek medical attention; testicular examination should therefore be done in every case. What is the mechanism by which patients with testicular cancer develop gynaecomastia? Raised oestrogen levels  testicular cancers ↑β-HCG ↑oestrogen stimulates hypertrophy of breast tissue. • Testicular tumors metastasize early via the lymphatic system (drain to the para-aortic lymph nodes first) into the retroperitoneum, with the exception of early hematogenously metastasizing choriocarcinomas. Until proven otherwise, a firm nodule on the testis should be considered cancer Investigation β-hCG may be elevated in patients with seminomatous or nonseminomatous tumours, AFP is increased only in patients with nonseminomatous tumours. • Ultrasound of the testis is 90% to 95% accurate in diagnosis. • tumour markers used for diagnosis and in monitoring the treatment response. β subunit of human chorionic gonadotropin (β-hCG):  may be elevated in patients with seminomatous or nonseminomatous tumours α-fetoprotein (AFP):  increased only in patients with nonseminomatous tumours  Raised AFP in a boy with testicular swelling are highly suggestive of a yolk sac tumor. placental ALP  increased in seminomas, Lactate dehydrogenase (LDH)  LDH is elevated in 40–60% of men with testicular germ cell tumours  may be the only tumour marker which is elevated in some men with seminomas.  It is neither sensitive nor specific as a marker for tumour recurrence, although the level at baseline does have prognostic value in men with advanced disease. • Raised oestrogen levels • transillumination test is negative in testicular germ cell tumors. HCG is always elevated in cases of choriocarcinoma and sometimes in seminoma. AFP is always elevated in yolk sac tumors. In mixed germ cell tumors, both AFP and HCG may be elevated. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology If testicular tumor is suspected, the testis is removed and sent to pathology without prior trans-scrotal biopsy Treatment • Radical orchiectomy to confirm histological diagnosis is initial treatment in most cases. • followed by additional staging studies such as a CT scan of the abdomen and pelvis and radiograph of the chest. • In testicular cancer the BEP combination is used: Bleomycin, Etoposide and Cisplatin (Platinum). Etoposide  works by inhibiting topoisomerase II and causing DNA degradation.  Etoposide is also used in the treatment of small cell lung cancer, leukemias, and lymphomas.  adverse effects: myelosuppression and alopecia. Prognosis • ~95% cure is expected with treatment The rapid deterioration, seen over the course of a few hours, is most suggestive of haemorrhage into a metastasis. Teratomas are well known to metastasise via haematogenous spread, including to liver, lung, bone and brain. Laryngeal cancer Treatment • Initial therapy for stages I and II is radiation therapy or surgery. early-stage disease could receive curative therapy with surgery or radiation alone. External beam radiation is the curative and function sparing treatment for patient who prefer not to lose his ability to speak and he is willing to stop smoking immediately. • Chemotherapy is not necessary in patient who has local and potentially curable disease. • In the setting of lymph node-positive or locally advanced disease, the benefit of concurrent chemoradiotherapy is recommended. • Cetuximab is a monoclonal antibody and is effective when combined with radiation, it has been found to improve local control and overall survival rates. Von Hippel-Lindau syndrome Definition • VHL syndrome is an autosomal dominant condition predisposing to neoplasia. Aetiology • due to an abnormality in the VHL gene located on short arm of chromosome 3 von-Hippel-Lindau= 3 words for chromosome 3. • VHL gene normally act as a tumor suppressor gene VHL gene normally is responsible for regulating the hypoxia-inducible factor (HIF), a transcription factor. In patients with VHL, there is constitutive expression of HIF resulting in angiogenesis and cancer development. Epidemiology • it has over 90% penetrance by the age of 65. • prevalence is 1 in 39,000. • Mean age at presentation of 27 years. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Types • Type 1 VHL is associated with tumours in eye, brain, spinal cord, kidney and pancreas. • Type 2 is associated with phaeochromocytoma: Features • haemangioblastomas of the CNS (The most common presentation) retinal haemangiomas: vitreous haemorrhage  Retinal haemangioblastomas is the initial presentation in 40% of patients.  Annual ophthalmological exam for haemangioblastoma is the most appropriate screening investigation cerebellar haemangiomas is another common initial presentation.  CNS haemangioblastomas tend to be infratentorial.  cerebellar haemangiomas secretes erythropoietin-like substance, leading to a secondary polycythaemia.  haemangioblastomas are typically not cancerous, but they can compress the brain and spinal cord resulting in headaches, vomiting, paralysis, and ataxia. • cysts in various organs (e.g., kidney, pancreas, liver) renal cysts (premalignant)  ↑risk of developing clear cell renal cell carcinoma.  Renal cell carcinoma (Clear cell ) is the commonest cause of death (70% of patients having renal cysts and carcinomas by age of 60 years). extra-renal cysts: epididymal, pancreatic, hepatic • phaeochromocytoma occurs in 20% of patients, although the incidence is much higher in those with von Hippel Lindau type 2 • endolymphatic sac tumours Diagnosis • genetic testing mutations in the VHL gene. Ideally, genetic testing in affected families should take place around the age of 5 years. Treatment • Asymptomatic small haemangioblastomasobservation. • Renal cell carcinomasurgery. Monitoring • Affected individuals require: yearly urinalysis, catecholamine screening, fluorescein angiography 3-yearly brain magnetic resonance imaging. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology CT scan showing a cerebellar haemangioma in a patient with Von Hippel-Lindau syndrome. MRI showing renal cysts in patient with known Von Hippel-Lindau syndrome. Haemangiomas • Hemangiomas are benign vascular tumors that lead to a messy clump of dilated blood vessels. • Hepatic hemangioma a benign liver tumor composed of masses of blood vessels the most common benign tumor affecting the liver. The most common site of hemangiomas in internal organs is the liver. mesenchymal in origin and usually, are solitary oral contraceptives and steroids may accelerate the growth of a hemangioma. Investigations  biopsies are contraindicated because of the risk of bleeding.  A good way to determine if a structure is hypervascular is to look for IV contrast enhancement. • Capillary hemangioma cherry hemangioma:  also known as (Campbell de Morgan spots)  benign capillary hemangioma of the elderly that does not regress  benign skin lesions which contain an abnormal proliferation of capillaries.  frequency increases with age.  The most common benign capillary skin tumor found in elderly  affect men and women equally.  Features erythematous, papular lesions typically 1-3 mm in size non-blanching not found on the mucous membranes  As they are benign no treatment is usually required. • Infants with large hemangiomas should have ultrasonography of the abdomen to rule out the presence of other hemangiomas in the viscera. • Propranolol is the first line of treatment of hemangiomas causing disfigurement. Cytotoxic agents The tables below summarises the mechanism of action and major adverse effects of commonly used cytotoxic agents. Alkylating agents Cytotoxic Mechanism of action Adverse effects Cyclophosphamide Alkylating agent - causes cross-linking in DNA Cytotoxic antibiotics Cytotoxic Mechanism of action Adverse effects Bleomycin Degrades preformed DNA Lung fibrosis Doxorubicin Stabilizes DNA-topoisomerase II complex inhibits DNA & RNA synthesis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Haemorrhagic cystitis, myelosuppression, transitional cell carcinoma Cardiomyopathy Chapter 7 Haematology&Oncology Antimetabolites Cytotoxic Mechanism of action Adverse effects Methotrexate Inhibits dihydrofolate reductase and thymidylate synthesis Fluorouracil (5FU) Pyrimidine analogue inducing cell cycle arrest and apoptosis by blocking thymidylate synthase (works during S phase) 6mercaptopurine Purine analogue that is activated by HGPRTase, decreasing purine synthesis Cytarabine Pyrimidine antagonist. Interferes with DNA synthesis specifically at the Sphase of the cell cycle and inhibits DNA polymerase Acts on microtubules Cytotoxic Mechanism of action Adverse effects Inhibits formation of microtubules Vincristine: Peripheral neuropathy (reversible) , paralytic ileus Vinblastine: myelosuppression Vincristine, vinblastine Docetaxel Prevents microtubule depolymerisation & disassembly, decreasing free tubulin. has a further action in blocking bcl-2 Other cytotoxic drugs Cytotoxic Mechanism of action Adverse effects Cisplatin Causes cross-linking in DNA Ototoxicity, peripheral neuropathy, hypomagnesaemia Hydroxyurea (hydroxycarba mide) Inhibits ribonucleotide reductase, decreasing DNA synthesis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Myelosuppression, mucositis, liver fibrosis, lung fibrosis Myelosuppression, mucositis, dermatitis Myelosuppression Myelosuppression, ataxia Neutropaenia Myelosuppression Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Busulfan • alkylating antineoplastic agent, • Busulfan was the mainstay of the chemotherapeutic treatment of chronic myeloid leukemia (CML) until it was displaced by the new gold standard, imatinib • Busulfan is used in pediatrics and adults in combination with cyclophosphamide or fludarabine/clofarabine as a conditioning agent prior to bone marrow transplantation, especially in chronic myelogenous leukemia (CML) and other leukemias, lymphomas, and myeloproliferative disorders. • Busulfan lung Busulfan lung is a form of drug-induced pulmonary toxicity with an idiopathic pulmonary fibrosis-like picture. It is clinically symptomatic in 5% of patients. There are no predictors of toxicity and pulmonary function testing is not a useful “screening” test. Withdrawal of busulfan is the key step in treatment. Combinations of chemotherapeutic agents • what is the rationale behind using combinations of chemotherapeutic agents rather than single agents? Combination therapy decreases the chances of drug resistance developing  There are two main reasons for using combinations of different chemotherapy agents: Different drugs will exert their effects through different mechanisms, so combining them will increase the number of tumour cells killed in each cycle. It also reduces the chances therefore of drug resistance developing. Vinblastine • Vinblastine is an M phase-specific chemotherapeutic agent that works by disrupting the assembly of microtubules via binding tubulin. • Cell death results because anaphase cannot commence without the formation of the mitotic spindle and kinetochore. • Which cellular event occurs in the same phase of the cell cycle at which vinblastine functions? Breakdown of the nuclear membrane • Breakdown of the nuclear membrane occurs during the prometaphase portion of mitosis. Cyclophosphamide • Cyclophosphamide is an alkylating agent used in the management of cancer and autoimmune conditions. • It works by causing cross-linking of DNA • Cyclophosphamide is inactive unless metabolised by the liver to 4-hydroxyl cyclophosphamide, which decomposes into alkylating species as well as to chloroacetaldehyde and acrolein Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Adverse effects • haemorrhagic cystitis (Acrolein causes chemical cystitis): incidence reduced by the use of hydration and mesna • myelosuppression • transitional cell carcinoma • premature ovarian failure , • infertility in both men and women. Mesna • 2-mercaptoethane sulfonate Na • a metabolite of cyclophosphamide called acrolein is toxic to urothelium • mesna binds to and inactivates acrolein helping to prevent haemorrhagic cystitis Cisplatin • Platinum-based antineoplastic (end with: -platin) Mechanism of action • Causes crosslinking in DNA makes it impossible for rapidly dividing cells to duplicate their DNA for mitosis. Side effects • Marrow toxicity • Ototoxicity Due to vestibulocochlear nerve damage (CNVIII) Sodium Thiosulfate Prevents Cisplatin-Induced Hearing Loss in Children With Cancer • Peripheral neuropathy • Nephrotoxicity The nephrotoxicity of platinum-class drugs seems to be related to reactive oxygen species Hypocalcaemia, hypomagnesaemia and hypokalaemia may occur as a result of nephrotoxicity Amifostine is an antidote for cisplatin treatment to counteract nephrotoxicity. Adequate hydration and diuresis is used to prevent renal damage.  Chloride diuresis is a renal procedure that can be performed to prevent the nephrotoxicity caused by cisplatin. • Alopecia, • Changes in taste. • Although optic neuritis is described it is not a typical side effect. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Trastuzumab A baseline echocardiogram to assess heart function is recommended prior to starting trastuzumab. • Trastuzumab (Herceptin) is a monoclonal antibody directed against the HER2/neu receptor. • It is used mainly in metastatic breast cancer although some patients with early disease are now also given trastuzumab. Adverse effects • flu-like symptoms and diarrhoea are common • cardiotoxicity: associated with Dilated cardiomyopathy in 2% to 7% of users more common when anthracyclines have also been used(eg : Doxorubicin). Toxic to cardiac muscle itself with relative sparing of the electrical conductivity of the heart Studies have shown that activation of Erb-b2 (also known as HER-2), the receptor blocked by trastuzumab (Herceptin), is important in preventing the development of cardiomyopathy Mechanism  Anthracyclines activate stress signal pathways within the heart cardiac damage  HER2 activation is protective against the damage that this stress signaling induces  HER2 inhibition removes this layer of protection, leading to dilated cardiomyopathy. An echo is usually performed before starting treatment Regular echocardiogram (three monthly) is the best test to assess treatment safety Reduction of greater than 10% in ejection fraction indicating the need to stop treatment. In which chemotherapeutic agents is the cumulative dose limited due to cardiotoxicity? anthracycline chemotherapeutic agents (eg: Epirubicin )  Epirubicin and the other anthracycline chemotherapeutic agents are extremely potent but are limited by dose constraints.  Cumulative doses of over 900 mg/m2 can lead to significant cardiac toxicity and heart failure.  Trastuzumab can cause direct myocardial damage and must be monitored with regular echocardiograms but it is not limited to a maximum lifetime dose. Erlotinib • Erlotinib specifically targets the epidermal growth factor receptor (EGFR) tyrosine kinase (which is required for the conformational change) and binds in a reversible fashion to the adenosine triphosphate binding site. • For the signal to be transmitted, two members of the EGFR family need to come together to form a homodimer. These then use the molecule of adenosine triphosphate (ATP) to autophosphorylate each other, which causes a conformational change in their intracellular structure, exposing a further binding site for binding proteins that cause a signal cascade to Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology the nucleus. By inhibiting the ATP, autophosphorylation is not possible and the signal is stopped. • A key issue with EGFR-directed treatments is that after a period of 8-12 months, the cancer cells become resistant to the treatment. This most commonly occurs due to a mutation in the ATP binding pocket of the EGFR kinase domain. This prevents the binding of erlotinib (Tarceva). Imatinib • Belong to the class of Signal transduction inhibitor • Imatinib is a tyrosine kinase inhibitor which is fairly specific for the bcr/abl protein. It blocks the active site, which has a number of downstream effects. The result is reduced cell proliferation, reduced cell motility, decreased adhesion and increased apoptosis. • Indications accelerated or blast crisis phase of CML. gastrointestinal stromal tumours. Tamoxifen Tamoxifen is a selective estrogen receptor modulator (SERM) which acts as an oestrogen receptor antagonist and partial agonist. It is used in the management of oestrogen receptor positive breast cancer Adverse effects • menstrual disturbance: vaginal bleeding, amenorrhoea • hot flushes • venous thromboembolism Particularly during and immediately after major surgery or periods of immobility • endometrial cancer Tamoxifen is typically used for 5 years following removal of the tumour. Raloxifene is a pure oestrogen receptor antagonist, and carries a lower risk of endometrial cancer UK licensed monoclonal antibodies Name Target Licensed indication Infliximab TNF-α Refractory Crohn's, Crohn's fistulas, refractory rheumatoid arthritis Palivizumab F protein on RSV Prophylaxis, RSV in premature infants or brochopulmonary dysplasia Abciximab Platelet glycoprotein IIb/IIIa High risk coronary intervention Rituximab CD20 Refractory low grade or follicular B cell lymphoma Basiliximab IL-2 receptor α chain Prophylaxis of acute rejection in allogeneic renal transplantation Daclizumab IL-2 receptor α As Basiliximab Trastuzumab HER 2 growth receptor Relapsed HER2 (high) breast malignancy IL-2, interleukin 2; TNF-α, tumour necrosis factor α; RSV, respiratory syncitial virus. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Rituximab • Rituximab binds to CD20, an antigen located on pre-B and mature B-lymphocytes • The receptor is thought to mediate B-cell lysis and apoptosis • After rituximab therapy, levels of B-lymphocytes appear suppressed for around 6 months, with levels slowly increasing after this time • As well as for rheumatoid arthritis, rituximab is also used for the treatment of nonHodgkin's lymphoma • Infusion reactions associated with cytokine release occur in up to 15% of patients receiving rituximab, and the medicine is administered in a specialist centre for this reason Cetuximab • Action epidermal growth factor receptor (EGFR) inhibitor Cetuximab works by blocking the extracellular domain of EGFR preventing ligand binding and therefore preventing downstream signal transduction. • . Cetuximab is a monoclonal antibody given by intravenous infusion • The patient's tumour must express k-ras wild-type as k-ras mutated is constitutively active regardless of whether a ligand is attached or not. Which histopathological subtypes is essential for successful treatment with cetuximab?  K-ras wild-type Cetuximab and other EGFR inhibitors only work on tumors in which Kras is not mutated it has no effect in colorectal tumors with a K-ras mutation (this also applied to the EGFR antibody panitumumab). genetic testing to confirm the absence of K-ras mutations (and so the presence of the K-ras wild-type gene), is now clinically routine before the start of treatment with EGFR inhibitors. • Cetuximab is licensed by NICE in metastatic colorectal cancer for k-ras wild-type proven patients who require downstaging prior to surgical resection of liver metastatic disease. 75% of patients with metastatic colorectal cancer have an EGFR-expressing tumor and are therefore considered eligible for treatment with cetuximab or panitumumab • Side effect acne type rash (the most important and serious SE). Capecitabine • Capecitabine is the oral analog of 5-fluorouracil, a chemotherapeutic agent which is broken down, predominantly, by dihydropyrimidine dehydrogenase (DPD). • Deficiency of dihydropyrimidine dehydrogenase (DPD) is autosomal recessive and will lead to a toxin buildup which in homozygous patients is usually fatal. Capecitabine versus 5-fluorouracil (5-FU) • Advantages of capecitabine versus 5-fluorouracil (5-FU) Can be orally administered The major difference between capecitabine and 5-FU is that capecitabine is an oral prodrug of 5-FU. 5-FU is one of the most effective chemotherapeutic agents used in the treatment of advanced colorectal cancer, it is administered via IV infusion. Capecitabine is orally administered chemotherapy, it is then metabolised to 5-FU. The final step in metabolism to 5-FU is thymidine phosphorylase, higher activity of thymidine phosphorylase occurring in tumour tissues. • Evidence suggests that efficacy of capecitabine versus 5-FU is broadly similar, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 7 Haematology&Oncology Chemotherapy side-effects: nausea and vomiting • Nausea and vomiting are common side-effects of chemotherapy. • Risk factors for the development of symptoms include: anxiety age less than 50 years old concurrent use of opioids the type of chemotherapy used • For patients at low-risk of symptoms then drugs such as metoclopramide may be used firstline. • For high-risk patients, then 5HT3 receptor antagonists such as ondansetron are often effective, especially if combined with dexamethasone Adverse effects of other cancer treatment Purine analogue (eg: fludarabine) for CLL Pneumocyscis jirovecii infection • This cytotoxic agent affects T-cell function. Patients are therefore prone to opportunistic infections including pneumocystis infection. • Patients therefore receiving purine analogues should also receive co-trimoxazole to reduce this risk. • All patients who receive purine analogues are at risk of transfusion-associated graftversus-host disease and therefore should receive irradiated blood products. The clinical features of transfusion associated graft-versus-host disease are: 1. pancytopaenia, 2. liver dysfunction, 3. diarrhoea and 4. rash Etoposide secondary haematological malignancy • In patients who have received Etoposide, secondary haematological malignancy may develop in as little as 1-3 years. • It is currently indicated for the treatment of small cell lung cancer and non-seminomatous testicular carcinoma. Filgrastim • Action granulocyte colony-stimulating factor (G-CSF) • Mechanism Filgrastim is similar to naturally occurring granulocyte colony-stimulating factor (GCSF). produced by recombinant DNA technology using genetic material of Escherichia coli. stimulating the bone marrow to increase production of neutrophils. • Indications used to treat neutropenia caused by:  chemotherapy,  radiation poisoning,  congenital neutropenia  aplastic anemia  also used to increase white blood cells for gathering during leukapheresis. • It is given either by injection into a vein or under the skin. • side effects The most commonly observed adverse effect is mild bone pain after repeated administration and local skin reactions at the site of injection Severe side effects include splenic rupture and allergic reactions.  Other side effects include 050 - Pages 1226-1250 050 Pages 1226-1250 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  serious allergic reactions (including a rash over the whole body, shortness of breath, wheezing, dizziness, swelling around the mouth or eyes, fast pulse, and sweating),  alveolar hemorrhage, acute respiratory distress syndrome, and hemoptysis.  Severe sickle cell crises, in patients with sickle cell disorders. Sargramostim • Action granulocyte macrophage colony-stimulating factor (GM-CSF) • It is produced in yeast • stimulate other myeloid and megakaryocyte • Indications for myeloid reconstitution after bone marrow transplantation. neutropenia induced by chemotherapy • side effects GM-CSF can cause more severe effects, including fever, arthralgias, and capillary damage with edema. edema Updated 2022 Third edition Notes & Notes For MRCP By Dr. Yousif Abdallah Hamad Volume 3 Foreword With the grace of the Almighty Allah, I have introduced the third edition of the popular book, the Notes & Notes for MRCP Part & 2. The MRCP exam requires a wide range of information, particular thinking, and question directed experience. This book is directed mainly at those who need comprehensive revision of the topics which commonly appear in the written MRCP exams. It will be helpful to go through these topics before you start solving the best of the five questions; it is also recommended to go quickly over this book in the last few weeks before the day of your exam. This new edition contains the new published guidelines. I hope you will find the maximum benefits from this book to get through MRCP written exams. To practice the best of five questions we advise you to join the best website for MRCP passonexam.com For any enquiry or comment, please do not hesitate to contact me. “The mind is not a vessel to be filled, but a fire to be kindled.” ― Plutarch. March - 2022 Dr. Yousif Abdallah Hamad Internal medicine specialist – Sudan medical counsel MRCPS- Glasgow- UK MRCP- Ireland Dryousif23 @gmail.com https://www.facebook.com/dryousif23 The 10 Golden Tips for MRCP written exams you will ever need For MRCP, do not read hard; read smart. Three to six months is usually enough for preparation. Practice the best of the five questions as much as possible. The few days before the exam date, stop revising questions and concentrate on your MRCP notes and top tips. Remember, you are getting ideas and concepts from the questions. Time factor in the exam room is the leading killer after poor preparation. Manage your time wisely. Read the end of the question first; if you can answer it without reading the whole scenario, it will save your time for the other tuff question (long scenario, .what is the action of imatinib?) Take care for any single word in the question, e.g. (the initial test, the diagnostic test, the best test, the next step) Practice, practice and practice. Contents Chapter 8 Rheumatology Rheumatoid factor .................................. Rheumatoid arthritis .......................................... Rheumatoid arthritis: ManagementChronic Rheumatoid arthritis: Management in pregnancy Felty’s syndrome .................................................. Seronegative spondyloarthropathies Adhesive capsulitis / Ankle injury: Ottawa rules Ankylosing spondylitis............................................. Avascular necrosis (AVN)/Behcet›s syndrome Chronic fatigue syndrome .............................. Compartment syndrome ................................. Complex regional pain syndrome (CRPS) Dactylitis / De Quervain›s tenosynovitis Gout ................................................................. Hip pain in adults .......................................... Hip problems in children ................................ Lateral epicondylitis / Lower back pain Mixed connective tissue disease (MCTD) Osteoarthritis ................................................ Osteomyelitis ................................................. Discitis / Osteomalacia .................................... Osteopetrosis / Osteoporosis .......................... Paget›s disease of the bone ............................. Penicillamine ................................................... Pseudogout / Psoriatic arthropathy .................. Reactive arthritis (Reiter syndrome) ............... Amyloidosis..................................................... Septic arthritis ................................................ Sjogren›s syndrome ........................................ Chapter 9 Infectious diseases Classification of bacteria ............................... Identifying gram-positive bacteria .................. Staphylococci ................................................ Streptococci .................................................. Bacteria and growing media / Enterococcus ......... Vancomycin-resistant enterococci / Anthrax .......... Diphtheria ....................................................... Listeria ............................................................ Campylobacte / Shigella ................................. Escherichia coli .............................................. Incubation periods / Virulence factors ............ Systemic lupus erythematosus (SLE) ............. Drug-induced lupus erythematosus ................. Antiphospholipid syndrome ........................... Antiphospholipid syndrome: pregnancy ........ Juvenile idiopathic arthritis (JIA)................... Adult onset Still›s disease (AOSD) (Adult Still›s disease) Raynaud›s ........................................................ Systemic sclerosis (SSc) ................................. Morphea (localised scleroderma) .................... Polymyalgia rheumatica (PMR) ..................... Temporal arteritis (Giant cell arteritis (GCA) Polyarthritis / Polyarteritis nodosa (PAN) Granulomatosis with polyangiitis (Wegener›s granulomatosis) Microscopic Polyangiitis / Churg-Strauss syndrome Idiopathic pulmonary haemosiderosis ..................... Henoch-Schonlein purpura ............................. Kawasaki disease ........................................... Takayasu’s arteritis ........................................ Buerger’s disease ........................................... IBD-associated arthropathy ............................. SAPHO syndrome ........................................... Elbow pain ...................................................... Shoulder problems / Polymyositis ................ Dermatomyositis ............................................ Inclusion body myositis (IBM) ....................... Fibromyalgia (FM) .......................................... Dupuytren’s contracture ................................. Baker cyst ........................................................ Plasmids ......................................................... Antibiotic resistance mechanism / Tetanus ............. Salmonella & Typhoid fever .................................. Meningitis ............................................................... Encephalitis ............................................................ Meningococcal septicaemia / Sepsis ....................... Tuberculosis (TB) ................................................... TB Drug therapy ..................................................... Latent tuberculosis infection (LTBI) ....................... Miliary TB ............................................................... Non-tuberculous mycobacterial infections .............. Multidrug-resistant tuberculosis (MDR-TB)..... Leprosy / Vaccinations .................................... Post-exposure prophylaxis .............................. Brucellosis ................................................... Cat scratch disease (CSD) / Whooping cough (pertussis) Acute epiglottitis............................................. Cellulitis ........................................................ Methicillin-resistant Staphylococcus aureus (MRSA) Necrotising fasciitis ........................................ Toxic shock syndrome (TSS) ......................... Cholera ............................................................ Congenital infections ...................................... Chickenpox (Varicella-zoster virus) .............. Cytomegalovirus ............................................. Dengue fever ................................................... Herpes simplex virus ..................................... Yellow fever .................................................... Human immunodeficiency virus (HIV) HIV and pregnancy ....................................... HIV: anti-retrovirals ....................................... HIV lipodystrophy (Antiretroviral-related lipodystrophy) HIV: diarrhoea ................................................. HIV nephropathy Cryptococcal disease in AIDS (Cryptococcosis) HIV: immunisation ......................................... HIV: Kaposi›s sarcoma .................................. HIV: Dermatologic conditions (Eosinophilic folliculitis) (EF) HIV: abnormal vaginal bleeding .................... CMV retinitis in a patient with HIV / Vaginal discharge Bacterial vaginosis (BV) ............................... Trichomonas vaginalis .................................... Chapter 10 Dermatology Epidermis / Definitions .................................. Acanthosis nigricans ....................................... Acne rosacea / Acne vulgaris .......................... Isotretinoin ...................................................... Alopecia / Alopecia areata .............................. Pemphigus vulgaris ......................................... Bullous pemphigoid ........................................ Dermatitis herpetiformis (DH) ........................ Discoid lupus erythematous ............................ Contact dermatitis ........................................... Pruritus / Eczema herpeticum ......................... Eczema: topical steroids .................................. Pompholyx / Erythema ab igne ....................... Genital ulcers (STI) ...................................... Genital herpes / Chancroid .............................. Lymphogranuloma venereum (LGV) ............ Syphilis ............................................................ Genital warts / Chlamydia genitourinary infections Gonorrhoea ..................................................... Toxoplasmosis ................................................ H1N1 influenza pandemic ............................... Infectious mononucleosis & (Epstein-Barr virus) Parvovirus B19 ...................................................... Leishmaniasis ................................................. Leptospirosis ................................................... Lyme disease .................................................. Lymphadenopathy / Malaria ........................... Measles ........................................................... Rubella / Parotitis / Parotid swelling ............. Orf / Pelvic inflammatory disease(PID) ......... Psittacosis (ornithosis) / Pyogenic liver abscess Pyrexia of unknown origin / Q fever .............. Rabies .............................................................. Scabies ............................................................ Helminths ....................................................... Schistosomiasis ............................................... Strongyloides stercoralis / Tape worms ......... Trypanosomiasis ............................................. Nematodes ..................................................... Filariasis ......................................................... Loiasis .......................................................... Animal bites / Rocky Mountain spotted feve Histoplasmosis ............................................ Actinomycosis / Malignant otitis externa Erythema multiforme ..................................... Stevens-Johnson syndrome (SJS) and toxic epidermal necrolysis (TEN) Erythema nodosum .......................................... Erythema induratum (EI) / Erythrasma / Erythroderma Fungal nail infections ......................................................... Beau›s lines / Granuloma annulare ................ Herpes simplex virus / Molluscum contagiosum Impetigo ........................................................ Erysipelas ....................................................... Koebner phenomenon / Lichen planus ............ Lichen sclerosus ............................................. Lichen simplex chronicus (LSC) / Lichen amyloidosis Onycholysis / Parvovirus B19/ Pityriasis rosea Pityriasis versicolor / Psoriasis ...................... Psoriasis: guttate ............................................ Pyoderma gangrenosum ................................. Scabies ............................................................ Seborrhoeic dermatitis .................................... Skin disorder in pregnancy ............................ Skin disorders associated with tuberculosis ....... Spider nevi / Tinea ............................................. Vitiligo ............................................................ Angular stomatitis / Venous ulceration ........... Pressure ulcers ................................................. Keloid scars ................................................ Chapter 11 Psychiatry Eating disorders: Anorexia nervosa ................ Eating disorders: Bulimia nervosa .................. Hypomania vs mania / Antipsychotics ............ Neuroleptic malignant syndrome (NMS) ........ Serotonin syndrome ........................................ Antidepressants ............................................. Selective serotonin-norepinephrine reuptake inhibitors Serotonin antagonist and reuptake inhibitors (SARIs) Monoamine oxidase inhibitors (MAOIs) ........ Tricyclic antidepressants (TCA) ..................... Atypical antidepressants .................................. Benzodiazepines ............................................. Post-traumatic stress disorder .......................... Post-concussion syndrome / Grief reaction Depression: screening and assessment ........... Suicide / Depression in older people ............... Chapter 12 Ophthalmology Acute angle closure glaucoma (AACG) ......... Primary open-angle glaucoma (POAG) .......... Age related macular degeneration (AMD) Cataracts ............................................................ Angioid retinal streaks ................................... Mydriasis ........................................................ Holmes-Adie pupil / Argyll-Robertson pupil Anisocoria / Optic atrophy .............................. Optic neuritis ................................................... Relative afferent pupillary defect .................... Herpes simplex keratitis / Herpes zoster ophthalmicus Blepharitis / Keratitis ...................................... Red eye ............................................................ Scleritis / Episcleritis ...................................... Increased skin fragility / Basal cell carcinoma (BCC) Squamous cell carcinoma (SCC) .................... Keratoacanthoma (KA) .................................. Actinic keratoses / Malignant melanoma Moles / Systemic mastocytosis / Angiosarcoma Pyogenic granuloma ........................................ Skin disorders associated with malignancy Otitis externa / Livedo reticularis (LR) .......... Hyperhidrosis / Seborrheic keratosis .............. Solar keratosis / Telogen phase ....................... Generalised anxiety disorder ........................... Mood disorder ................................................. Cognitive behavioural therapy ........................ Seasonal affective disorder (SAD) .................. Body dysmorphic disorder .............................. Post-partum mental health problems .............. Alcohol - problem drinking: management Alcohol withdrawal ........................................ Schizophrenia .................................................. Electroconvulsive therapy (ECT) .................... Charles Bonnet syndrome (CBS) .................... Delusions / Personality disorders .................... Panic disorder ................................................. Acute confusional state .................................. Hypnogogic and hypnopompic hallucinations Conjunctivitis / Subconjunctival haemorrhage Posterior uveitis / Retinitis ............................. Retinitis pigmentosa ........................................ Sudden painless loss of vision ......................... Tunnel vision / Ectopia lentis .......................... Fundoscopic features in eye infections ........... Eye signs in Systemic diseases ....................... Hyphaema ....................................................... Chapter 13 Pharmacology Pharmacokinetics: metabolism / Drug absorption First-pass metabolism / Drug kinetics ............ Zero-order kinetics ......................................... Acetylator status / Half-life ............................. Trough level / Affinity & efficacy ................... Dosage intervals .............................................. Clinical trial: phases ....................................... Prodrugs .......................................................... P450 enzyme system ....................................... Drugs required therapeutic monitoring ........... Drug causes gingival hyperplasia .................... Drugs causing photosensitivity ....................... Drugs causing specific skin reactions ............. Drug affects folic acid metabolism ................. Drug causes SIADH / Drug causes of urticaria ..... Drugs induced galactorrhoea .......................... Drugs associated with gynaecomastia ........... Drug-induced impaired glucose tolerance ...... Drug-induced lupus erythematosus ................. Drug-induced Pancytopaenia ....................... Drug-induced thrombocytopenia / Sulfa drugs Disulfiram ....................................................... Drug-induced long QT / Drugs causing ocular problems Drug induced photosensitivity / Drug induced ototoxicity Drug induced seizures .................................... Drug causes erythema multiforme, and the Stevens-Johnson syndrome subtype. ............... Drugs which act on serotonin receptors .......... Drugs that can be cleared with Hemodialysis Prescribing in patients with heart failure Antiarrhythmics: Vaughan Williams classification Atropine / Adenosine ...................................... Flecainide ........................................................ Amiodarone .................................................... Dobutamine & Dopamine / Adrenaline ........... Antiplatelets .................................................... Acetylsalicylic acid (ASA, aspirin) ................ Salicylate overdose ......................................... Clopidogrel ...................................................... IIb/IIIa inhibitors (eg: Abciximab) .................. Phosphodiesterase III (PDE) inhibitors (dipyridamole & cilostazol ) Angiotensin-converting enzyme (ACE) inhibitors Adrenoceptor antagonists / Beta-blockers ...... Calcium channel blockers .............................. Centrally acting antihypertensives / Bosentan Nitroglycerin / Nicorandil .............................. Digoxin and digoxin toxicity ........................... Diuretics ......................................................... Bendroflumethiazide ...................................... Amiloride / Triamterene / Spironolactone Eplerenone / Diuretic abuse / Theophylline Antimuscarinic agent ...................................... Tiotropium / Doxapram / Sodium cromoglicate Magnesium treatment in asthma ..................... Anti-convulsants ............................................. Sodium valproate / Phenytoin ........................ Carbamazepine .............................................. Vigabatrin / Topiramate / Gabapentin ............. Levetiracetam (Keppra) / Procyclidine / Barbiturates Anticholinergic syndrome ............................... Serotonin syndrome / Oculogyric crisis ......... St John›s Wort / Dopamine receptor agonists Bromocriptine / Dopa-decarboxylase inhibitors / Amitriptyline (tricyclic antidepressants) Tricyclic overdose .......................................... Monoamine oxidase (MAO) inhibitors .......... Selective serotonin reuptake inhibitors (SSRIs) Lithium .......................................................... Lithium toxicity ............................................. Therapeutic drug monitoring / Baclofen ......... Octreotide / Orlistat ......................................... Prescribing in pregnant patients ...................... Combined oral contraceptive pills .................. Breast feeding: contraindications .................... Drug causes teratogenesis ............................... Antibiotics: bactericidal vs. bacteriostatic ...... Antibiotics: mechanisms of action .................. Skin rash with antibiotics / Co-trimoxazole Aminoglycosides ............................................ Macrolides ...................................................... Erythromycin / Quinolones ............................. Co-amoxiclav / Probenecid / Sulfonamides Vancomycin .................................................. Linezolid ......................................................... Carbapenems / Trimethoprim .......................... Quinupristin & dalfopristin antibiotics .......... Tuberculosis: drug side-effects and mechanism of action Antiviral agents ............................................... HIV: anti-retrovirals ........................................ Oseltamivir (Tamiflu) / Anti-fungal ................ Griseofulvin / Diethylcarbamazine ................ Overdose of antimalarial medications Chloroquine Ciclosporin (Cyclosporine) ........................... Tacrolimus........................................................ Sirolimus / Azathioprine ................................. Methotrexate ................................................... Mycophenolate mofetil / Hydroxychloroquine Sulfasalazine ................................................... Leflunomide .................................................... Overdose and poisoning: management ........... Drug poisoning: Altered serum glucose in unknown overdose Drugs cleared by alkalization of the urine ...... Measurement of drug concentrations .............. Drug toxicity in renal failure ........................... Characteristic smells of toxins/poisons ................... Arsenic toxicity ............................................... Drugs altered pupil size / Charcoal ................. Methanol poisoning ......................................... Ethylene glycol toxicity .................................. Isopropyl alcohol (Isopropanol) intoxication Ecstasy poisoning / Opioid misuse ................. Morphine / Pethidine ....................................... Buprenorphine / Cocaine ................................. Heroin withdrawal .......................................... Benzodiazepine overdose / Cathinone toxicity Cannabinoids / Cyanide poisoning ................. Sarin gas ......................................................... Arsenic / Acid poisoning / Alkali poisoning Radiosensitiser drugs ...................................... Management of body packers ........................ Chapter 14 Biochemistry & metabolism Anion gap (AG) .............................................. Metabolic alkalosis .......................................... Respiratory acidosis ........................................ Respiratory alkalosis ...................................... Hyperkalaemia ................................................ Pseudohyperkalaemia .................................... Hypokalaemia and acid-base balance ............. Hypernatraemia / Hyponatraemia.................... Hypomagnesaemia .......................................... Hypermagnesaemia ........................................ Hypophosphataemia ....................................... Hyperphosphataemia ...................................... Collagen Types / Vitamin B3 (Niacin) deficiency Heavy metal poisoning / Lead poisoning ..... Mercury poisoning / Cadmium (Cd) poisoning Thallium poisoning / Iron overdose .............. LSD intoxication / New recreational drugs Paracetamol overdose ..................................... Paraquat poisoning ......................................... Organophosphate insecticide poisoning .......... Carbon Monoxide (CO) Poisoning ................. Antiemetics .................................................... 5-HT3 antagonists ........................................... Antihistamines ................................................ Human and animal bite / Botox ....................... D-Penicillamine / Isotretinoin ......................... Cinnarizine / Ergotamine ................................ Finasteride / Acetazolamide ............................ Bicarbonate therapy / Bisphosphonates .......... Botulinum toxin / Immunoglobulins: Therapeutics Malignant hyperthermia (MH) ........................ Intravenous fluid therapy ................................. Lactulose ......................................................... Bismuth / Non-steroidal anti-inflammatory drugs (NSAID) Celecoxib ........................................................ Aminosalicylate drugs / Anti-TNF therapy Monoclonal antibodies ................................... Abatacept / Proton pump inhibitors / Sildenafil Anaesthetic drugs / Inhaled anaesthetic-like agent Pseudocholinesterase deficiency ....................... Succinyl choline ............................................. Local spinal anesthetics / Fentanyl ................. Ketamine / Topoisomerase inhibitors .............. itamin C (ascorbic acid) (scurvy) ................... Vitamin B12 deficiency .................................. Vitamin B1 (Thiamine) deficiency .................. Vitamin E deficiency ....................................... Vitamin K Deficiency / Vitamin A deficiency Vitamin deficiency ......................................... Zinc deficiency / Pyruvate kinase .................... Chapter 15 Immunology Human leukocyte antigen (HLA) .................. Cluster of Differentiation (CD Markers) ......... Complement pathways .................................... Anaphylaxis ..................................................... Exercised induced anaphylaxis ...................... Anaphylactic reactions associated with anaesthesia Allergy tests .................................................... Latex allergy .................................................... Serum Sickness ............................................... Immune system response ................................ Macrophages ................................................... Pathogenesis of atherosclerosis ....................... Fibroblasts / Immunoglobulins ....................... Protein analysis: Gamma globulins ................. Immunoglobulins: therapeutics ....................... Leukotrienes / Acute phase proteins .............. ANCA / Antibodies and immunological markers Interleukins ...................................................... Interferon ......................................................... Tumour necrosis factor (TNF) ........................ Chapter 16 Genetics Autosomal dominant conditions .................... Achondroplasia ............................................... Osteogenesis imperfecta (“brittle bone disease”) Down›s syndrome (trisomy 21) ....................... Noonan’s syndrome ......................................... Ehlers–Danlos syndrome (EDS) ..................... Pseudoxanthoma elasticum (PXE) .................. Phenylketonuria (PKU) ................................... Alkaptonuria .................................................... X-linked recessive .......................................... X-linked dominant disorders .......................... Vitamin D-resistant rickets ............................. Mitochondrial diseases .................................... Kearns-Sayre syndrome ................................. Kallman›s syndrome ..................................... Klinefelter›s syndrome ................................... Turner›s syndrome ......................................... Nitric oxide (NO) .................................... Endothelin-1 (ET-1) / Kinins ........................... Erythrocyte sedimentation rate (ESR) ............ Leukocyte alkaline phosphatase ...................... Thymus / B cells (B lymphocytes) .................. T cells (T lymphocytes) .................................. Primary immunodeficiency ............................. Selective IgA deficiency ................................ IgG subclass deficiency ................................... Isolated IgD deficiency ................................... Common variable immunodeficiency (CVID) Bruton›s agammaglobulinemia (X-linked agammaglobulinemia) ................................... Severe combined immunodeficiency disease (SCID) DiGeorge syndrome ...................................... Wiskott-Aldrich syndrome (WAS) .................. Complement deficiencies ................................ Hereditary angioedema ................................... Granulomatous inflammation .......................... Marfan›s syndrome ........................................ Homocystinuria ............................................... Fragile X syndrome ......................................... Trinucleotide repeat disorders / Genetic anticipation Polygenic diseases ......................................... Lysosomal storage diseases /Gaucher›s disease Fabry›s disease ............................................... Mucopolysaccharidoses (MPS) ....................... Glycogen storage disorders (GSD) ................. McArdle›s disease .......................... .............. Linkage disequilibrium / Imprinting ............... Prader-Willi syndrome .................................... Angelman syndrome / Mutations .................... Chromosome abnormality ............................ McCune–Albright syndrome (MAS) .............. Chapter 17 Genetics Significance tests ............................................. The power ...................................................... Significance tests: types .................................. Choosing the appropriate test ......................... Normal distribution ........................................ Standard deviation .......................................... Skewed distributions ....................................... Confidence interval and standard error of the mean Confounding variable ......................................... Correlation and linear regression .......................... Correlation coefficient / Screening test statistics Incidence and prevalence ................................. Relative risk ................................................... Numbers needed to treat and absolute risk reduction Odds and odds ratio ......................................... Pre- and post- test odds and probability .......... Screening: Wilson and Junger criteria ............. Scales of measurement ................................... Systematic review (meta-analysis) ................. Randomised controlled trial (RCT) ................. Case-control study / Cohort study .................. Observational study / Biological assays ......... Sequential trial / Crossover trial ..................... Sampling / Bias (Systematic error) ................. Study design: evidence and recommendations Study design: new drugs ................................ Graphical representation of data .................... Third edition Notes & Notes For MRCP part 1 & 2 By Dr. Yousif Abdallah Hamad Rheumatology Updated 2022 Chapter 8 Rheumatology Bone markers Bone remodeling • Cells involved Osteoclasts: degrade bone tissue by secreting collagenase and H+ Osteoblasts:  Build bone tissue by secreting type I collagen  Activity assessed by an increase in bone ALP, osteocalcin, and type I procollagen propeptides Bone markers are useful for: • prediction of prognosis • prediction of fracture risk • assessing suitability for therapy and • monitoring the success of therapy. Markers of bone formation (measured in serum) • Bone-derived alkaline phosphatase (ALP). • Osteocalcin • Procollagen type 1 propeptides. • Hydroxyproline. Rheumatoid factor Overview • Rheumatoid factor (RF) is a circulating antibody (usually IgM) which reacts with the Fc portion of the patients own IgG. • Rheumatoid factor is an antibody with reactivity to the heavy chain of IgG. • The rheumatoid factor may be of IgM, IgG or IgA class. • The conventional (agglutination) test, detects only IgM RF. • high titre levels are associated with severe progressive disease (but NOT a marker of disease activity). A positive rheumatoid factor is associated with: • More severe erosive disease • Extra-articular manifestations including subcutaneous nodules and • Increased mortality. Conditions associated with a positive RF include: • Sjogren's syndrome (around 100%) • Felty's syndrome (around 100%) • Mixed cryoglobulinemia (types II and III) - 40 to 100% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Markers of bone resorption (measurable in serum or urine) • Telopeptides • Pyridinium cross-linking molecules • Tartrate-resistant acid phosphatase (TRAP) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • rheumatoid arthritis (70-80%) • Mixed connective tissue disease - 50 to 60% • infective endocarditis (= 50%) • SLE (= 20-30%) • systemic sclerosis (= 30%) • Polymyositis/dermatomyositis - 5 to 10% • general population (= 5%) Rheumatoid arthritis • Around 70% of patients with rheumatoid arthritis are HLA-DR4. • Patients with Felty's syndrome (a triad of rheumatoid arthritis, splenomegaly and neutropaenia) are even more strongly associated with 90% being HLA-DR4 Epidemiology • Prevalence = 1% • F:M ratio = 3:1 • Peak onset = 30-50 years, although occurs in all age groups Aetiology • Idiopathic inflammatory autoimmune disorder of unknown etiology • Genetic disposition: associated with HLA-DR4 and HLA-DR1 Pathophysiology • Autoimmune — inflammation induces formation of pannus (proliferative granulation tissue), which erodes articular cartilage and bone. • Citrullinated proteins (converted from arginine to citrulline) are recognized as foreign → Activation and migration of CD4+ T cells to synovial joints → recruitment of macrophages → secretion of cytokines (TNF-α, IL-1, IL-6) → inflammation and proliferation → pannus and synovial hypertrophy → invasion, progressive destruction, and deterioration of cartilage and bone • TNF is an important in the pathogenesis of rheumatoid arthritis. • Rheumatoid factor (RF) Antibodies against Fc portion of IgG (rheumatoid factor, RF) are produced to aid in removing autoantibodies and immune complexes. RF excess triggers formation of new immune complexes and type III hypersensitivity reaction Individuals with positive RF are more likely to develop extraarticular manifestations. Rheumatoid arthritis - TNF is key in pathophysiology Diagnosis • The diagnosis of RA is clinical Chapter 8 Rheumatology • NICE have stated that clinical diagnosis is more important than criteria such as those defined by the American College of Rheumatology. • Consider RA in patients with arthralgia, joint stiffness, and synovitis lasting ≥ 6 weeks 2010 American College of Rheumatology criteria • Target population. Patients who: have at least 1 joint with definite clinical synovitis with the synovitis not better explained by another disease • Classification criteria for rheumatoid arthritis (add score of categories A-D; a score of 6/10 is needed definite rheumatoid arthritis) Factor A. Joint involvement B. Serology (at least 1 test result is needed for classification) C. Acute-phase reactants (at least 1 test result is needed for classification) D. Duration of symptoms Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Scoring 1 large joint 2 - 10 large joints 1 - 3 small joints (with or without involvement of large joints) 4 - 10 small joints (with or without involvement of large joints) 10 joints (at least 1 small joint) Negative rheumatoid factor (RF) and negative anti-cyclic citrullinated peptide (Anti-CCP) Low-positive RF or low-positive Anti-CCP High-positive RF or high-positive Anti-CCP Normal CRP and normal ESR Abnormal CRP or abnormal ESR < 6 weeks 6 weeks Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Articular manifestations • Polyarthralgia Symmetrical pain and swelling of affected joints (also at rest) Frequently affected joints  Metacarpophalangeal (MCP) joints  Proximal interphalangeal (PIP) joints (DIP joints are NOT typically affected in RA.)  Wrist joints • Morning stiffness (often > 30 min) that usually improves with activity • Joint deformities Swan neck deformity: PIP hyperextension and DIP flexion Boutonniere deformity: PIP flexion and DIP hyperextension. Hitchhiker thumb deformity (Z deformity of the thumb): hyperextension of the interphalangeal joint with fixed flexion of the MCP joint Ulnar deviation of the fingers Piano key sign: dorsal subluxation of the ulna Atlanto-axial subluxation: A loss of ligamentous stability between the atlas (C1) and axis (C2), which can result in compression of the spinal cord, medulla, and/or vertebral arteries by the odontoid process, especially upon neck flexion. Most commonly caused by Down syndrome, rheumatoid arthritis, and trauma. The earliest manifestation of rheumatoid arthritis in the feet → swelling of the metatarsophalangeal joints Extraarticular manifestations • Constitutional symptoms: Low-grade fever, myalgie, malaise, fatigue, weight loss • Rheumatoid nodules: Nontender, firm, subcutaneous swellings (2 mm–5 cm). Commonly occur in areas exposed to higher pressure, e.g., extensor side of the forearm, bony prominences Rheumatoid pulmonary nodules may be accompanied by fibrosis and pneumoconiosis (Caplan syndrome).  • Lungs: pleuritis, pleural effusions, interstitial lung disease (e.g., organizing pneumonia) rheumatoid pleural effusion: characterised by →low glucose level cricoarytenoid arthritis: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology  seen in up to 75% of patients with RA  It can cause stridor, but is often asymptomatic.  symptoms can rapidly worsen in the post-operative period.  the most helpful diagnostic test →Spirometry with flow–volume loop  Patients can need urgent tracheostomy and steroids, both orally and via joint injection. • Eye: keratoconjunctivitis sicca (dry eyes) (most common) scleritis, and episcleritis • Endocrine and exocrine glands: secondary Sjogren syndrome • Hematological Anemia of chronic disease (normocytic anemia)  NSAIDs and/or steroids → increased risk of GI bleeding → iron deficiency anemia (microcytic anemia)  Methotrexate → decreased folate level → macrocytic anemia Neutropenia Splenomegaly • Heart: Pericarditis and myocarditis, constrictive pericarditis is the commonest cardiac complication of rheumatoid arthritis ↑↑risk of myocardial infarction, stroke. • Musculoskeletal: Tenosynovitis and bursitis, Carpal tunnel syndrome • Vascular: Peripheral vasculitis, manifests as livedo reticularis  Raynaud phenomenon Investigations Anti-cyclic citrullinated peptide antibodies are associated with rheumatoid arthritis • Specific parameters (serological studies) Anti-cyclic citrullinated peptide (Anti-CCP) antibodies  It has sensitivity similar to RF (70-80%) with a much higher specificity of 9095%.  a prognostic marker. Rheumatoid factor (RF)  IgM autoantibodies against the Fc region of IgG antibodies  Present in 70–80% of patients, but not specific to RA Serological studies may be negative (i.e., seronegative RA): Up to 30% of patients with RA are negative for Anti-CCP and RF. • Radiographic features X-ray of both hands and feet: initial test  Early findings : soft tissue swelling, osteopenia (juxta-articular)  Late findings: joint space narrowing, marginal erosions of cartilage and bone, osteopenia (generalized), subchondral cysts • Typical RA findings on x-rays may be subtle or absent upon diagnosis in many patients with early RA; therefore, ultrasound or MRI may be more informative, as they have higher sensitivity for detecting early signs of inflammation and erosion. • Analysis of synovial fluid Sterile specimen with leukocytosis (WBC count 5000–50,000/mcL) Abundant neutrophils. High protein levels. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The radiographic features of rheumatoid arthritis can be remembered by the mnemonic LESS: Loss of joint space, Erosions, Soft tissue swelling, and Soft bones (osteopenia) Early x-ray findings Late x-ray findings • loss of joint space • juxta-articular osteoporosis • soft-tissue swelling • periarticular erosions • subluxation Differential diagnosis • Rheumatoid arthritis typically affects the metacarpophalangeal and proximal interphalangeal joints symmetrically. Psoriatic arthritis affects the distal interphalangeal joints and tends to be asymmetrical. • Rheumatoid arthritis vs osteoarthritis Rheumatoid arthritis Osteoarthritis pathophysiology autoimmune (inflammatory) degenerative due to ↑ wear and tear on joints loss of cartilage (noninflammatory) Age of starting At any age Usually later in life Speed of onset Rapid, over weeks to months Slow, over yeas Pain improves with movement worse with movement and better with rest Primary joint affected Proximal interphalangeal Distal interphalangeal Metacarpophalangeal Carpometacarpal Heberdens nodes Absent Present Joint characteristics Soft, warm and tender Hard and bony (little or no swelling) Stiffness Worse after resting (morning stiffness) If present, worse after effort, may be described as evening stiffness Usually ˃ 1 hour Usually ˂1 hour Systemic symptoms Present (eg: fatigue ) Absent RF and anti-CCP Positive Negative ESR and Creactive protein Elevated Normal x-ray Osteophytes absent Osteophytes may be present Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Referral • Indications for urgent referral for specialist opinion: any person with suspected persistent synovitis of undetermined cause. Refer urgently if any of the following apply: the small joints of the hands or feet are affected more than one joint is affected there has been a delay of 3 months or longer between onset of symptoms and seeking medical advice. Prognosis: poor prognostic features: • Anti-CCP antibodies (The poorest prognostic factor) • Rheumatoid factor positive • HLA DR4 • Insidious onset : Acute or Sudden onset is not a poor prognosis. • Poor functional status at presentation • X-ray: early articular erosions (e.g. within the first 6 months of presentation and in less than < 2 years) • Extra articular features e.g. nodules • Female sex. Which micro-organisms may be associated with the development of rheumatoid arthritis in susceptible patients? →Proteus mirabilis Felty's syndrome (RA + splenomegaly + low white cell count) Poorly controlled rheumatoid arthritis + proteinuria and hypoalbuminaemia raises the possibility of systemic amyloidosis → Rectal biopsy MRCPUK-part-1-September- 2009 exam: MRCPUK-part-1-jan-2018: Which (HLA) types is most associated with rheumatoid arthritis?  HLA DR4 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad A patient of RA on etanercept, scheduled for elective surgery. What advice regarding his medication should be given prior to surgery? Stop etanercept 2–4 weeks prior to surgery Updated British Society for Rheumatology (BSR) guidelines (January 2005) for prescribing tumour necrosis factor (TNF-α) blockers in adults with RA recommend: • withholding etanercept and other TNF- blockers (infliximab and adalimumab) for 2–4 weeks prior to a major surgical procedure. • restarted postoperatively if there is no evidence of infection and once wound healing is satisfactory. Rheumatoid arthritis: Management Approach • Acute anti-inflammatory treatment Temporary (< 3 months) symptomatic treatment with glucocorticoids and/or NSAIDs is indicated for disease flares (i.e., episodes of increased disease activity and symptom worsening). Glucocorticoids (prednisone)  Short-term (i.e., < 3 months) therapy at the lowest effective dose is preferred.  Longer term therapy only used in patients with highly active RA who do not respond to maximum doses of DMARDs.  Glucocorticoids should be used at the lowest effective dose and only for short periods of time to reduce the risk of their many adverse effects (e.g., hypertension, osteoporosis, infections). NSAIDs and selective COX-2 inhibitors: relieve symptoms, but do not improve the prognosis. • Long-term treatment Initiation of treatment: all patients with evidence of joint inflammation should start a combination of disease-modifying drugs (DMARD) as soon as possible. Consider short-term concomitant use of acute anti-inflammatory therapy (i.e., glucocorticoids and/or NSAIDs) for symptom control until the onset of action of DMARDs (e.g., ≥ 6 weeks). Disease-modifying anti-rheumatic drugs (DMARDs) • DMARD therapy reduces RA mortality and morbidity by up to 30%. • If DMARD therapy induce disease control →reduce drug doses to levels that still maintain disease control. • Methotrexate (MTX) first-line treatment in patients with moderate to high disease activity All patients should be co-prescribed folic acid supplementation at a minimal dose of 5 mg once weekly to minimize adverse effects. Monitoring of FBC & LFTs is essential due to the risk of myelosuppression and liver cirrhosis. Other important side-effects include pneumonitis • Azathioprine (AZA) Patients should have baseline thio-purine methyl-transferase (TPMT) status assessed • Sulfasalazine Consider in patients with low disease activity if MTX is contraindicated, e.g., during pregnancy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology  Adverse effects: diarrhea, agranulocytosis, cutaneous hypersensitivity reactions • Hydroxychloroquine (HCQ) Consider in patients with low disease activity. Adverse effects: hyperpigmentation and retinopathy Patients should have baseline formal ophthalmic examination, ideally including objective retinal assessment for example using optical coherence tomography, within 1 year of commencing an antimalarial drug • Leflunomide Consider if all other conventional DMARDs are contraindicated. Mechanism of action: reversibly inhibits dihydroorotate dehydrogenase → impaired pyrimidine synthesis → inhibition of T-cell proliferation Other indications: psoriatic arthritis Monitoring rheumatoid arthritis • Recommended DMARD Blood Monitoring Schedule when Starting or Adding a New DMARD (BSR guidelines February 2017) Check FBC, creatinine/calculated GFR, ALT and/or AST and albumin  every 2 weeks until on stable dose for 6 weeks;  then once on stable dose, monthly for 3 months;  thereafter, at least every 12 weeks. Contact rheumatology team urgently and consider interruption in treatment if any of the following develop:  white cell count <3.5 × 109/l;  mean cell volume >105 fL;  neutrophils <1.6 × 109/l;  creatinine increase >30% over 12 months and/or calculated GFR <60 ml/min;  unexplained eosinophilia >0.5 × 109/l;  ALT and/or AST >100 U/l;  platelet count <140 × 109/l;  unexplained reduction in albumin <30 g/l In the setting of acute infection, most DMARDs (except hydroxychloroquine) should be discontinued until the infectious process has resolved. • Measure CRP and key components of disease activity (using a composite score such as DAS28) regularly (monthly until treatment has controlled the disease) to inform decision-making about: increasing treatment to control disease cautiously decreasing treatment when disease is controlled. The first-line treatment for newly diagnosed active RA →combination of DMARDs (including methotrexate and at least one other DMARD, plus short-term glucocorticoids) as soon as possible, ideally within 3 months of the onset of persistent symptoms. TNF-inhibitor • The current indication for a TNF-inhibitor is an inadequate response to at least two DMARDs including methotrexate • Examples of anti-TNF alpha agents: Etanercept: SC administration twice weekly Infliximab: IV administration Adalimumab: SC administration • Adverse effects of TNF blockers include:  reactivation of latent tuberculosis and demyelination. The risk of TB reactivation is most pronounced in the first 3 months of treatment. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad BTS guidelines therefore recommend a clinical examination, and chest radiograph to check for TB. In the UK, patients have a baseline CXR and assessment of risk of infection with Mycobacterium tuberculosis prior to starting treatment with anti-TNF α. • Any patient with active TB, should receive standard chemotherapy. They must complete two months full treatment before starting anti-TNF alpha treatment. • Patients with past TB, who have received previous adequate therapy can be started on anti-TNF alpha therapy but need to be monitored regularly. TB not previously adequately treated, chemoprophylaxis should be given before commencing anti-TNF alpha treatment. What is the optimal TB screening test in patient with previous TB?  Interferon gamma release assay The test is not altered by previous TB or previous BCG vaccination. Positive testing indicates a need for anti-tuberculous treatment alongside golimumab, for example isoniazid. Mantoux testing is less indicative of prior infection because it is likely to evoke a positive reaction in patients with previous TB or who have received BCG vaccination. • Patients with a normal chest radiograph who have not started immunosuppressive threrapy →a tuberculin test is helpful. • Patients with a normal chest radiograph + already on immunosuppressive treatment, the result of the tuberculin test is dampened and it is therefore not useful.  An individual risk assessment should be made: if the annual risk of TB is greater than that of drug-induced hepatitis then chemoprophylaxis should be given. If not, the patient should be monitored and investigated early if symptoms consistent with TB develop. Chemoprophylaxis is generally with isoniazid for 6 months. • Patients who test positive with either of Quantiferon Gold test and Elispot tests should be treated with chemoprophylaxis (either isoniazid for 6 months, or dual therapy Rifampicin + INH for 2 months) at the same time as being started on anti-TNF alpha treatment. • TNF-inhibitors should be stopped 2-4 wks before any major operation. Rituximab • Action Anti-CD20 monoclonal antibody, results in B-cell depletion. • Prescription Two doses of 1g intravenous infusions are given two weeks apart. • Indications rheumatoid arthritis  Nice guidelines of RA Rituximab in combination with methotrexate is recommended as an option for treatment of rheumatoid arthritis who have had an inadequate response to or intolerance of other disease-modifying antirheumatic drugs (DMARDs), including treatment with at least one tumour necrosis factor α (TNF-α) inhibitor therapy. non-Hodgkin lymphoma (The primary clinical use) idiopathic thrombocytopenic purpura. • Follow up Treatment with rituximab plus methotrexate should be continued only if:  There is an adequate response following initiation of therapy.  An adequate response is defined as an improvement in disease activity score 051 - Chapter 8 051 Chapter 8 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology (DAS28) of 1.2 points or more.  Repeat courses of treatment with rituximab plus methotrexate should be given no more frequently than every 6 months. • Side effects: risk of reactivation of hepatitis B,  patients should be screened for previous exposure to hepatitis B prior to starting rituximab;  those with lone anti-hep B core antibodies should be treated with chemoprophylaxis (eg lamivudine) prior to rituximab. Risk of Progressive multifocal leukoencephalopathy Biologic DMARDs • Indication: persistent moderate or severe disease activity after 3 months of conventional DMARD therapy • Agents TNF-α inhibitors: e.g., adalimumab , infliximab , etanercept (see also “Contraindications to anti-TNF-α treatment”) Others: rituximab (anti-CD20), anakinra (IL-1 receptor antagonist, particularly for Still disease), tocilizumab (IL-6 receptor antagonist) • Adverse effects include: Infections TB reactivation Hepatitis B reactivation Rheumatoid arthritis: Management in pregnancy Key points • patients with early or poorly controlled RA should be advised to defer conception until their disease is more stable • RA symptoms tend to improve in pregnancy but only resolve in a small minority. Patients tend to have a flare following delivery • patients should be referred to an obstetric anaesthetist due to the risk of atlanto-axial subluxation Effect of pregnancy on rheumatoid arthritis • 50 to 70% of women with rheumatoid arthritis (RA) improve during pregnancy • 50% of patients eventually flare during the postpartum period, usually within the first three months. • The risk of developing RA increased in the first three months postpartum Effect of RH on pregnancy • RA does not increase fetal losses. • Higher rate of intrauterine growth restriction, pregnancy-induced hypertension, and cesarean delivery Medications in pregnancy • Contraindicated in pregnancy Methotrexate (teratogenic): needs to be stopped at least 3 months before conception leflunomide Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Preferred medications (if required) NSAIDs: may be used until 32 weeks but after this time should be withdrawn due to the risk of early close of the ductus arteriosus. considered category B earlier in the pregnancy Corticosteroids Sulfasalazine hydroxychloroquine • Medications relatively safe to use (require individualized approach) TNFα inhibitors Azathioprine Medications in breast feeding • Breast feeding is not recommended with azathioprine. • Prednisolone and hydroxychloroquine may be taken whilst breast-feeding. • Azathioprine, cyclophosphamide, methotrexate and cyclosporine are contraindicated in breast-feeding mothers. Felty’s syndrome Definition • a severe subtype of RA characterized by neutropenia and splenomegaly • It is considered an extra-articular manifestation of rheumatoid arthritis. Epidemiology • occur in less than 1% of patients with rheumatoid arthritis. Risk factors • usually occurs in patients with long-standing seropositive RA. • HLA subtype (HLA DRW4) is found in 95% of patients with Felty syndrome compared with 70% of people with rheumatoid arthritis alone. Feature • Triad of arthritis, splenomegaly, and neutropenia (absolute neutrophil count <2000/microL) • Neutropenia increases risk of recurrent bacterial infections. • ANA is positive in more than 90% of patients Treatment • Most appropriate initially →Pulsed corticosteroid therapy • First line → Disease-modifying anti-rheumatic drugs (DMARDs): methotrexate • Second line (If no response to methotrexate) → rituximab (RTX) • granulocyte colony-stimulating factor (G-CSF, filgrastim) to stimulate production of granulocytes. • Splenectomy : usually reserved for patients with severe neutropenia and recurrent infections who fail to respond to medical intervention. Felty’s syndrome →Triad of arthritis, splenomegaly, and neutropenia RA during pregnancy →continue current dose of azathioprine and add folic acid Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Seronegative spondyloarthropathies Common features • associated with HLA-B27 • rheumatoid factor negative - hence 'seronegative' • peripheral arthritis, usually asymmetrical • sacroiliitis • enthesopathy: e.g. Achilles tendonitis, plantar fasciitis • extra-articular manifestations: uveitis, pulmonary fibrosis (upper zone), amyloidosis, aortic regurgitation Spondyloarthropathies • ankylosing spondylitis • psoriatic arthritis • Reiter's syndrome (including reactive arthritis) • enteropathic arthritis (associated with IBD) Adhesive capsulitis Overview • Adhesive capsulitis (frozen shoulder) is a common cause of shoulder pain. aetiology of frozen shoulder is not fully understood. Risk factors • Adhesive capsulitis is a recognised musculoskeletal complication of diabetes (40% of diabetic patients developing this problem at some stage.) • occurs more commonly in women after age 50 Features • Severe restriction of both active and passive range of movement of the glenohumeral joint in all planes (especially external rotation) • Dull shoulder pain Diagnosis • Radiographs of the shoulder show osteopenia. • The diagnosis is confirmed by arthrography. Management • no single intervention has been shown to improve outcome in the long-term • treatment options include NSAIDs, physiotherapy, oral and intra-articular corticosteroids Prognosis • Self-limiting condition that usually resolves within 18 to 24 months Ankle injury: Ottawa rules • The Ottawa Rules for ankle x-rays have a sensitivity approaching 100% • An ankle x-ray is required only if there is any pain in the malleolar zone and any one of the following findings: bony tenderness at the lateral malleolar zone (from the tip of the lateral malleolus to include the lower 6 cm of posterior border of the fibular) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad bony tenderness at the medial malleolar zone (from the tip of the medial malleolus to the lower 6 cm of the posterior border of the tibia) inability to walk four weight bearing steps immediately after the injury and in the emergency department • There are also Ottawa rules available for both foot and knee injuries Ankylosing spondylitis Definition • Seronegative spondyloarthropathy that involves chronic inflammatory disease of the spine and sacroiliac joints. Pathophysiology • Autoimmune disorder, 90–95% of patients are HLA-B27 positive • It has a polygenic inheritance. Epidemiology • Typically presents in males (sex ratio 3:1) • Age: 20 – 40 years Features Typically a young man who presents with lower back pain and stiffness of insidious onset • Articular manifestations Spinal joint pain  Features of inflammatory back pain (most common presenting symptom) Morning stiffness > 30 minutes that improves with activity usually worse in the morning and improves with exercise Pain is independent of positioning  Tenderness over the sacroiliac joints (positive Mennell's sign)  Reduced spinal mobility, reduced lateral flexion Reduced forward flexion →positive Schober’s test (restriction in the lumbar flexion when patient asked to touch his toes while keeping the knees straight.)  Accentuated thoracic kyphosis  Loss of lumbar lordosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Extraspinal joint pain  Inflammatory enthesitis (the point where a tendon attaches to a bone)  Dactylitis (an inflammation of the fingers and/or toes)  Arthritis outside the spine, peripheral arthritis (25%, more common in female) • Extraarticular manifestations Anterior uveitis  The most common extra-articular manifestations (in around 40% of patients)  Usually acute, unilateral anterior uveitis  more common in B27 positive than B27 negative patients. Fatigue Restrictive pulmonary disease →↓chest expansion on deep breathing due to decreased mobility of the thoracic spine and costovertebral joints GIT symptoms of inflammatory bowel disease (diarrhea with blood) (5% ) Aortic root inflammation and subsequent aortic valve insufficiency, atrioventricular blocks IgA-nephropathy Ankylosing spondylitis: Diagnostic criteria Lower back pain for > 3 months in patients < 45 years of age and one of the following: Sacroiliitis confirmed on x-ray or MRI and ≥ 1 typical clinical or laboratory finding A positive HLA-B27 test and ≥ 2 typical clinical or laboratory findings Investigations the best option to confirm a diagnosis of ankylosing spondylitis Sacroiliac joints x ray • Inflammatory markers (ESR, CRP) are typically raised although normal levels do not exclude ankylosing spondylitis. • HLA-B27 is of little use in making the diagnosis because it is positive in 90% of patients with ankylosing spondylitis and 10% of normal patients. The likelihood of a positive test depends on the racial and ethnic background of the patient The commonest subtype HLA associations are:  HLA B2705 (Caucasians)  B2704 (Chinese, Japanese)  B2702 (Mediterranean).  The B2706 subtype is weakly associated and commonly found in normal south east Asian individuals. • Autoantibodies (e.g., rheumatoid factor, antinuclear antibodies) are negative • Radiographs Plain x-ray of the sacroiliac joints is the most useful investigation in establishing the diagnosis. Radiographs may be normal early in disease, later changes include:  sacroilitis: subchondral erosions, sclerosis  squaring of lumbar vertebrae  'bamboo spine' ( vertebral fusion) (late & uncommon)  Syndesmophytes: due to ossification of outer fibers of annulus fibrosus (the tramline appearance is due to syndesmophyte growth between the margins of the vertebrae) Syndesmophytes grow vertically, as opposed to spondylophytes, which grow horizontally  Chest x-ray: apical fibrosis Syndesmophytes grow vertically, as opposed to osteophytes, which grow horizontally Syndesmophytes vs. osteophytes Syndesmophytes Osteophytes Definition • Ossification or calcification of the annulus fibrosus or a spinal ligament Radiographic features • Symmetrical, vertical growth, directly from vertebral body to vertebral body • Full manifestation: "bamboo spine” Etiology • Inflammatory spine disease (e.g., AS) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Lipping of vertebral bodies • Horizontal growth • Degenerative spine disease (e.g., diffuse idiopathic skeletal hyperostosis) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology 40-year-old male. There is typical appearance of bamboo spine with a single central radiodense line related to ossification of supraspinous and interspinous ligaments which is called dagger sign. Ankylosing is detectable in both sacroiliac joints Syndesmophytes and squaring of vertebral bodies. Squaring of anterior vertebral margins is due to osteitis of anterior corners. Syndesmophytes are due to ossification of outer fibers of annulus fibrosus • MRI: More sensitive than x-ray (Best method for early detection) Shows:  Bone marrow edema (The earliest change visible on MRI)  Squaring of the vertebrae ,  Erosion of apophyseal joint  Obliteration of sacroiliac joint • Spirometry may show a restrictive defect due to a combination of pulmonary fibrosis, kyphosis and ankylosis of the costovertebral joints. Diagnosis → New York criteria • Current British Society for Rheumatology recommendations state that the modified New York criteria should be used to diagnose ankylosing spondylitis: Clinical criteria:  Low back pain, present for more than three months, improved by exercise but not relieved by rest  Limitation of lumbar spine motion in both the sagittal and frontal planes  Limitation of chest expansion relative to normal values for age and sex. Radiological criteria:  Sacroilitis on x ray. Diagnosis:  Definite AS if the radiological criterion is present plus at least one clinical criterion Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Probable AS if three clinical criteria are present alone or if the radiological criterion is present but no clinical criteria are present. Management • Non-pharmacological: encourage regular exercise such as swimming, physiotherapy • Pharmacological First-line pharmacotherapy in most patients: NSAIDs Second-line : TNF-α inhibitors (e.g., etanercept, adalimumab) Avascular necrosis (AVN) Definition • death of bone tissue due to interruption of blood supply; most commonly affects the epiphysis of long bones such as the femur. Causes • long-term steroid use • sickle cell disease, Gaucher disease • Cellular toxicity (e.g., chemotherapy, radiotherapy, alcohol excess) • trauma Features • initially asymptomatic • pain in the affected joint Investigation • plain x-ray findings may be normal initially • MRI is the investigation of choice. It is more sensitive than radionuclide bone scanning Treatment • Joint replacement (e.g., hip, shoulder, knee) Behcet's syndrome Definition • Behcet's syndrome is a systemic vasculitis that is characterized by autoimmune mediated inflammation of the arteries and veins. • affects small and large vessels (venous and arterial). Pathophysiology • Autoimmune (involves mainly the T helper cells) and infectious triggers (e.g., precipitating HSV or parvovirus infection) • Strong HLA-B51 association HLA B5 is associated with ocular disease; HLA B12 is associated with recurrent oral ulcers. Epidemiology • More common in the eastern Mediterranean (e.g. Turkey) • More common and more severe in men • Tends to affect young adults (e.g. 20 - 40 years old) • Around 30% of patients have a positive family history Features • Recurrent painful oral aphthous ulcers: (95–100%): Usually last about 1–4 weeks • Recurrent genital ulcerations • Ocular disease (50–80%) → Uveitis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • Skin lesions (35–85%) • Erythema nodosum • Vasculopathy: Superficial thrombophlebitis, DVT • Seronegative arthritis: Usually asymmetric arthritis. • Neurological involvement (e.g. aseptic meningitis) • GI: abdominal pain, diarrhoea, colitis • Pathergy (development of pustules at venepuncture sites). • Fever Diagnosis • No definitive test. Diagnosis based on clinical findings • Positive pathergy test is suggestive (puncture site following needle prick becomes inflamed with small pustule forming) → specific to Behcet's disease. It involves intradermal injection of skin with a 20-gauge needle under sterile conditions. It is considered positive if an erythematous sterile papule develops within 48 hours. • Autoantibodies (e.g., ANA, ANCA, rheumatoid factor) are usually absent. • Diagnostic criteria (International Study Group criteria) Recurrent oral ulceration at least three times within a 12-month period AND ≥ 2 of the following  Recurrent genital ulceration  Eye lesions  Skin lesions  Positive pathergy test Treatment • Oral ulcers and/or genital ulcers: topical corticosteroids, topical lidocaine for pain relief • Arthritis or Erythema nodosum: Colchicine is the first line treatment. • Ocular disease, CNS disease, and/or vasculopathy Systemic corticosteroids Immunosuppressant therapy (e.g., azathioprine, infliximab, cyclosporine A, cyclophosphamide, IFN-α, methotrexate) Behcet's syndrome: The classic triad of symptoms are: Oral ulcers Genital ulcers Anterior uveitis (iritis) Behcet's syndrome → PATHERGY Positive pathergy test, Aphthous mouth ulcers, Thrombosis (arterial and venous), Hemoptysis (pulmonary artery aneurysm), Eye lesions (uveitis, retinal vasculitis), Recurrent Genital ulcers, Young at presentation (3rd decade) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 21 Chronic fatigue syndrome Definition • Diagnosed after at least 4 months of disabling fatigue affecting mental and physical function more than 50% of the time in the absence of other disease which may explain symptoms. • also known as myalgic encephalomyelitis Epidemiology • More common in females and young to middle-aged adults. • Past psychiatric history has NOT been shown to be a risk factor Fatigue is the central feature, other recognised features include • Sleep problems, such as insomnia, hypersomnia, unrefreshing sleep, a disturbed sleepwake cycle • Muscle and/or joint pains • Headaches • Painful lymph nodes without enlargement • Recurrent sore throat • Cognitive dysfunction, such as difficulty thinking, inability to concentrate, impairment of short-term memory, and difficulties with word-finding • Physical or mental exertion makes symptoms worse • General malaise or 'flu-like' symptoms • Dizziness • Nausea • Palpitations To confirm a diagnosis of fatigue the following main features need to be present: • Must be new in onset, persistent or recurrent and unexplained by other conditions. • Should be characterised by post-exertional malaise. • Should result in a substantial reduction in activity level. Red flag symptoms which suggest another diagnosis include: • Significant weight loss • Inflammatory arthropathy or connective tissue disease • Localising or focal neurological signs. Investigation • NICE guidelines suggest carrying out a large number of screening blood tests to exclude other pathology e.g. FBC, U&E, LFT, glucose, TFT, ESR, CRP, calcium, CK, ferritin* (*children and young people only), coeliac screening and also urinalysis Management • Treatment of choice: graded exercise therapy a formal supervised program, not advice to go to the gym 'pacing' - organising activities to avoid tiring • Cognitive behaviour therapy - very effective, • Low-dose amitriptyline may be useful for poor sleep • Referral to a pain management clinic if pain is a predominant feature Prognosis • The short-term prognosis for recovery of function is generally poor. The long-term prognosis appears to be better • Better prognosis in children Chronic fatigue syndrome (also known as myalgic encephalomyelitis) →unexplained, persistent, and relapsing fatigue. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Compartment syndrome Pain with passive stretching of the muscles, is the earliest clinical indicator of compartment syndrome. Pathophysiology • External or internal forces as initiating event → increased compartment pressure→ obstruction of venous outflow and collapse of arterioles→ decreased tissue perfusion → lower oxygen supply to muscles → irreversible tissue damage (necrosis) to muscles and nerves after 4–6 hours of ischemia Features • Early presentation Pain  Often out of proportion to the extent of injury  Worse with passive stretching or extension of muscles  Very tight, wood-like muscles that are extremely tender to touch Sensory deficit in the distribution of the peripheral nerve(s) passing through that compartment  Paresthesia (e.g., pins and needles)  Decreased 2-point discrimination is the most consistent early finding  in acute anterior lower leg compartment syndrome, the first sign to develop may be numbness between the first 2 toes (superficial peroneal nerve). Soft tissue swelling • Late presentation Muscle weakness to paralysis Cold peripheries Pallor Absent (or weak) distal pulses Complications • Muscle and soft tissue necrosis • Nerve lesions (esp. the tibial nerve and peroneal nerve) with sensory and motor deficits or paralysis • Rhabdomyolysis with potential Crush syndrome Investigations • A Creatine phosphokinase (CPK) concentration of 1000-5000 U/mL or greater or the presence of myoglobinuria can suggest compartment syndrome. • Compartment pressure measurement (initial and confirmatory test) Risk factors • Trauma • Anticoagulation therapy and bleeding disorders (eg, hemophilia) • Vigorous exertion (has been found in soldiers and athletes without any trauma). Treatment • Surgical → Urgent decompression is required to prevent severe ischaemia. Fasciotomy (tissue and fascia incisions): relieves the pressure, thus restoring perfusion Escharotomy: in the case of circumferential compression by a burn eschar Acute compartment syndrome is a surgical emergency and requires an early fasciotomy. Elevated positioning may worsen ischemia by reducing blood flow. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Complex regional pain syndrome (CRPS) Epidemiology • Three times more frequent in females than males Pathophysiology • Unknown. Proposed mechanisms include classic inflammation, neurogenic inflammation, and maladaptive changes in pain perception at the level of the central nervous system. Precipitating factors • injury and surgery (fractures and soft tissue injuries.): most common • CRPS seldom occurs in the absence of an identifiable trigger. Features • Severe pain out of proportion to the original injury • Sensory changes, motor impairments, autonomic symptoms, and trophic changes in the affected limb. Allodynia (perception of pain from a nonpainful stimulus) Hyperalgesia (an exaggerated sense of pain) A repeat X-ray is the most appropriate next investigation looking for patchy osteoporosis in patient developed clinical features consistent with complex regional pain syndrome type 1 (CRPS1) Cryoglobulinaemia consumption of C4 + strongly positive rheumatoid factor →cryoglobulinaemia. Overview • Cryoglobulins are abnormal immunoglobulins which precipitate when cooled below 37°C (maximum precipitate formation takes place at +4°C) and redissolve in plasma when warmed back to 37°C (reversible precipitation at low temperatures) • The precipitated clump can block blood vessels and cause toes and fingers to become gangrenous. • Cryoglobulins usually consist of IgM directed against the Fc region of IgG. • Common causes: hepatitis C, multiple myeloma, SLE, rheumatoid arthritis, Idiopathic (one third of cases) Pathophysiology • Immune deposition on the wall of small vessels result in generalized vasculitis, which presents with a reticulated skin pattern of micro-thrombosis and areas of gangrene. • cryoglobulins → form an immune complexes → activate the complement system, resulting in ↓complement levels (Hypocomplementemia) Three types • Type I (25%): monoclonal ( IgG or IgM) associated with haematological diseases such as myeloma and Waldenstrom's. • Type II (25%): Mixed monoclonal and polyclonal: usually with RF Composed of a monoclonal IgM rheumatoid factor plus polyclonal IgG Associations: hepatitis C, RA, Sjogren's, lymphoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology  most importantly, hepatitis C infection which should always be excluded. If serological testing is negative, then the cryoprecipitate should be checked for HCV RNA by PCR. Membranoproliferative glomerulonephritis (also known as mesangiocapillary glomerulonephritis) is the characteristic histological finding on biopsy where there is renal involvement. For hepatitis C associated mixed cryoglobulinaemia, interferon alpha is the treatment of choice, although rapidly progressive disease may require immunosuppressive therapy. • Type III (50%): polyclonal: usually with RF composed of a polyclonal IgM rheumatoid factor plus polyclonal IgG. associations: RA, Sjogren's Mixed cryoglobulinemia • Types II and III cryoglobulinemia • both type II and III cryoglobulinaemia have rheumatoid factor reactivity • represent 80% of all cryoglobulins. • contain rheumatoid factors (RFs) which are usually IgM • closely associated with hepatitis C virus (HCV) Symptoms (if present in high concentrations) Meltzer's triad (seen in cryoglobulinaemia (types II/III)palpable purpura, arthralgia and myalgia • Raynaud's only seen in type I • Cutaneous: vascular purpura, distal ulceration skin is most commonly involved organ (over 90%), with purpura, leg ulcers and acrocyanosis. • Arthralgia (seen in 70%). • Renal involvement (diffuse glomerulonephritis) Glomerular disease is common in types 2 and 3 (mixed types) and occurs in around 50–55% of cases. • Axonal peripheral neuropathy cryoglobulins small-vessel vasculitis axonal peripheral neuropathy may be sensorimotor, or purely sensory. Neurological involvement (polyneuropathy) is seen in 40% of patients. • Pulmonary embolism, arterial and venous thrombosis are common. • The gastrointestinal tract is affected in 30%. A vasculitic rash and neuropathy in a patient with hepatitis C is suggestive of cryoglobulinaemia. Tests • low complement (esp. C4): occurs in about 90% of patients with mixed cryoglobulinaemia (Type II) as a result of classic pathway activation. • Since they precipitate at low temperatures, cryoglobulins should always be transported to the lab at 37°C. Failure to do this will result in a false negative result as the cryos will precipitate and be removed with the clot. • High ESR Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • immunosuppression (high dose steroids and cyclophosphamide). • Plasmapheresis Hypocomplementemia is seen in many conditions, including: • Lupus, • Mixed cryoglobulinemia, • Membranoproliferative glomerulonephritis, and • Hereditary angioedema. Dactylitis • Dactylitis describes the inflammation of a digit (finger or toe). • A 'sausage-shaped' digit is a classical description of dactylitis • Causes include: spondyloarthritis: e.g. Psoriatic and reactive arthritis sickle-cell disease other rare causes include tuberculosis, sarcoidosis and syphilis De Quervain's tenosynovitis • De Quervain's tenosynovitis is a common condition in which the sheath containing the extensor pollicis brevis and abductor pollicis longus tendons is inflamed. • It is a common pathology which consists of a stenosing tenosynovitis of the first dorsal compartment of the wrist. • It typically affects females aged 30 - 50 years old Causes • commonly caused by occupational or avocational repetitive movement of the thumb • also associated with RA, psoriatic arthritis, direct trauma, pregnancy, and the post-partum period. Features • pain on the radial side of the wrist • tenderness over the radial styloid process • abduction of the thumb against resistance is painful • Finkelstein's test: Used to confirm the diagnosis the patient is asked to bring the thumb across the palm and clasp the fingers around it. The examiner then pulls it in the ulnar direction, which elicits a sharp pain. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Management • analgesia • steroid injection • immobilisation with a thumb splint (spica) may be effective • surgical treatment is sometimes required Scaphoid fractures • are relatively common, • typically occurring following a fall onto outstretched hand. • The proximal portion lacks its own blood supply, so avascular necrosis can occur if a fracture leaves it isolated from the remainder of the scaphoid. • produces pain and tenderness of the radial side of the wrist, classically in the anatomical snuffbox, exacerbated by wrist movement. • Preiser's disease is avascular necrosis of scaphoid Gout Definition • An inflammatory crystal arthropathy that is caused by the precipitation and deposition of uric acid crystals in synovial fluid and tissues. It is typically associated with hyperuricemia, but can also occur if uric acid levels are normal. Epidemiology • Gout is the most prevalent form of inflammatory arthropathy. • Sex: ♂ > ♀ (3:1) • Age of onset: 2 peaks of incidence (at 30–39 years and at 60 years of age) Pathophysiology • Uric acid is an end-product of purine metabolism that is excreted by the kidneys, predisposes to gout • Chronic hyperuricaemia (uric acid > 0.45 mmol/l) → intraarticular uric crystal precipitation (deposition of monosodium urate monohydrate in the synovium) → release of inflammatory mediators and enzymes → aggregations of urate crystals and giant cells (tophi) → local joint inflammation (microcrystal synovitis), arthritis and deformities Causes • Decreased uric acid excretion via the kidney → most common cause (90%) Medications (e.g., pyrazinamide, aspirin, loop diuretics, thiazides, niacin, cytotoxic agents)  Aspirin in a dose of 75-150mg is not thought to have a significant effect on plasma urate levels  If diuretics are being used to treat hypertension an alternative antihypertensive should be considered, but they should not be stopped in the presence of heart failure. Chronic renal insufficiency Ketoacidosis; due to, e.g., starvation → ↑lactic acid → impairs the kidneys' ability to excrete uric acid →↑ risk of gout) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Postmenopause • Increased uric acid production (10%) High cell turnover, e.g.:  Tumor lysis syndrome  Hemolytic anemia  Psoriasis  Myeloproliferative neoplasms Enzyme defects, e.g.:  Lesch-Nyhan syndrome  Phosphoribosyl pyrophosphate synthetase overactivity  von Gierke disease Diet rich in protein and especially purine (e.g., red meat, seafood) Obesity Hypercholesterolemia, hypertriglyceridemia Hypertension • Combined decreased excretion and overproduction: high alcohol consumption Organic acids from alcohol metabolism compete with uric acid to be excreted by the kidneys. • Can be idiopathic (primary hyperuricemia): Primary hyperuricemia can be aggravated by poor dietary habits. Lesch-Nyhan syndrome • hypoxanthine-guanine phosphoribosyl transferase (HGPRTase) deficiency • x-linked recessive therefore only seen in boys • features: gout, renal failure, neurological deficits, learning difficulties, aggressiveness, self-mutilation (for example, biting of finger tips and/or lips). What is the most common cause of acute gout in association with G-6PD deficiency? Increased production of pentose sugars Glucose-6-phosphate dehydrogenase (G6PD) →converts (G6P) to glucose. (G6PD) Deficiency →accumulation of G6P →enters the hexose monophosphate shunt →↑production of pentose sugars. (These act as a substrate for phosphoribosyl pyrophosphate (PRPP) synthetase) →↑production of purines → uric acid. Hypoglycaemia in G6PD deficiency →↑catecholamine levels →↑glycogenolysis in muscles →↑lactic acidosis →↓urate excretion (competes with uric acid for excretion) Features • Acute gouty arthritis Acute severe pain with overlying erythema, decreased range of motion, swelling, warmth  Symptoms are more likely to occur at night, typically waking the patient.  peak after 12–24 hours Desquamation of the skin Location: Usually monoarthritis during first attacks  Asymmetrical distribution is common if more than one joint is affected  Metatarsophalangeal joint (MTP joint) inflammation of the big toe (the most common site)  Knee, finger, ankle; wrist Drugs associated with gout: aspirin, thiazides, niacin, pyrazinamide, loop diuretics. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • Chronic gouty arthritis Progressive joint destruction Tophi formation: Multiple painless hard nodules with possible joint deformities, appear yellow or white. Ulceration and discharge (chalky white substance) may occur  Bone tophi: urate crystal deposition in bones (e.g., elbows, knees, extensor surfaces of forearms)  Soft tissue tophi: urate crystal deposition in the pinna of the external ear, subcutis, tendon sheaths (e.g., at the Achilles tendon), or synovial bursae (e.g., olecranon bursa) Uric acid nephrolithiasis and uric acid nephropathy Investigations • WBC and ESR are typically elevated • Serum urate often elevated (hyperuricemia); may also be normal or low; (normal urate concentration does not rule out a diagnosis of gout). Hyperuricaemia may be found in asymptomatic patients who have not experienced attacks of gout • X-ray: the bony erosions are typically punched out with sclerotic margins and overhanging edges, sometimes termed rat bite erosions. • Joint aspiration → Presence of long needle-shaped Crystals (uric acid crystal) gold standard for diagnosing gout Findings  Needle-shaped monosodium urate crystals that are negatively birefringent  Synovial fluid cell count: WBC > 2000/μL with > 50% neutrophils There is well defined punched-out juxtaarticular erosions related to both sides of the first metatarsal bone. This is a classical site for gout. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • Lifestyle modifications may help reduce the risk of flares. Limit alcohol consumption Limit intake of purines (e.g., red meat and shellfish) Weight loss if patient is overweight • Acute gout flare → First-line agents: NSAIDs, colchicine or glucocorticoids NSAIDs (Naproxen: indomethacin, ibuprofen)  Add a proton pump inhibitor to reduce the risk of gastrointestinal ulcers.  Should be avoided in elderly patients taking warfarin due to the risk of a life-threatening gastrointestinal haemorrhage.  Contraindicated in renal impairment (use colchicine in mild to moderate CKD and prednisolone in severe CKD)  Relatively contraindicated in congestive cardiac failure Colchicine  Mechanism of action: binds and stabilizes tubulin subunits → inhibits microtubule polymerization → inhibits phagocytosis of urate crystals, neutrophil activation, migration, and degranulation  Useful in patients taking warfarin as combined NSAID is harmful to GIT.  Can be used in mild and moderate CKD (not severe CKD). The BNF advises to reduce the dose by up to 50% if creatinine clearance is less than 50 ml/min and to avoid if creatinine clearance is less than 10 ml/min.  May be increased up to a dose of 3mg, divided in 600mcg portions to cope with the acute attack.  The most appropriate management for patient on colchicine 600mcg daily presented with acute gout and mild renal impairment Increase his colchicine to cope with the exacerbation  Side effects Diarrhea (the main side-effect) Myopathy, rhabdomyolysis Polyneuropathy CNS symptoms (e.g., fatigue, headache) Myelosuppression Cardiac toxicity, arrhythmias  Contraindications: Severe CKD  Drug interactions Statins: Consider reducing dose of pravastatin, atorvastatin, or simvastatin when prescribed concomitantly. Potent cytochrome P450 3A4 substrates or inhibitors Reduce colchicine dose when prescribed concomitantly. Avoid in patients with CKD or hepatic impairment. Glucocorticoids (prednisolone, methylprednisolone, or intraarticular administration)  Glucocorticoids are preferable if there are contraindications (e.g., CKD), intolerance, or inadequate response to NSAIDs or colchicine.  A recent trials found that oral prednisolone (30 mg/day for 5 days) had analgesic effectiveness equivalent to that of indomethacin and naproxen.  Avoided in diabetics because it would adversely affect diabetic control.  intraarticular steroid are preferred for NPO patients Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology IL-1 blockers  European Medicines Agency approved anti-IL-1β monoclonal antibody canakinumab (150 mg subcutaneously, one dose) for patients with contraindication to colchicine, NSAIDs and steroids  Current infection is a contraindication to the use of IL-1 blockers. Rest the affected joints Low-dose aspirin can decrease uric acid excretion and trigger recurrent gout flares but it should not be stopped in patients taking it for specific indications (e.g., coronary artery disease, cerebrovascular disease), regardless of the severity of gout. • Chronic gout → Urate-lowering therapy (ULT) First-line: xanthine-oxidase inhibitors (allopurinol) Second-line: uricosurics (probenecid) Third-line: recombinant uricase (pegloticase) Absolute indications  Damage due to chronic gout seen on imaging  Tophi development  Frequent gout attacks (≥ 2 per year) Relative indications  < 2 gout attacks per year  First episode of acute gout flare in patients with any of the following risk factors:  CKD ≥ stage 3  Serum uric acid > 9 mg/dL  History of urolithiasis Contraindications to all ULT agents  Acute gout flare (in the absence of the above-mentioned risk factors). If the patient is already taking allopurinol it should be continued.  Asymptomatic hyperuricemia Timing of initiating ULT: at least one week after initiating anti-inflammatory prophylaxis as ULT may trigger, prolong, or worsen an acute gout flare. Target of serum uric acid: < 6 mg/dL (360 µmol/L). Urate-lowering therapy (ULT) • Xanthine oxidase inhibitors (XOIs): Allopurinol and Febuxostat (the preferred firstline agent) Action:  Allopurinol is a competitive inhibitor.  Febuxostat is a non-purine, selective inhibitor of xanthine oxidase that is metabolized in the liver. Recommended by NICE guidance as secondchoice to prevent gout when allopurinol has not been tolerated or is contraindicated. Contraindications  Allopurinol: Presence of the HLA-B*5801 allele  Febuxostat: History of cardiovascular disease Side effects  Allopurinol: Stevens-Johnson syndrome/toxic epidermal necrolysis  Febuxostat: Nausea, diarrhea, transaminitis Monitor for myotoxicity when prescribing colchicine with statins. Reduce dose of pravastatin, atorvastatin, and simvastatin when prescribed concomitantly. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Interactions  Purine analogs (e.g., azathioprine, 6-mercaptopurine) combined with XOIs can cause bone marrow toxicity  Probenecid and thiazides decrease the efficacy of allopurinol  Allopurinol increase INR by inhibiting the metabolism of warfarin. • Uricosurics: Probenecid (the second line) Action: Inhibition of uric acid reabsorption along renal proximal convoluted tubules → increased renal elimination Contraindications  Nephrolithiasis  Moderate to severe CKD Side effects: Urolithiasis (uric acid stones) Interactions: Inhibits penicillin secretion in the proximal convoluted tubule • Recombinant uricase: Pegloticase (the third line) Action: breakdown of uric acid to allantoin (allantoin is water-soluble and therefore can be renally excreted) Contraindications: G6PD deficiency, Congestive heart failure Rasburicase • recombinant urate oxidase • may be given during the acute attack of gout, to allow allopurinol therapy to be commenced without the initial worsening of symptoms. • But it is not currently licensed for the treatment of acute gout associated with other conditions. • The best choice for warfarinsed patient Acute gout pain with congestive cardiac failure and renal impairment, developed severe diarrhoea with colchicine. The treatment of choice → Prednisolone Most patients with hyperuricaemia never develop gout or stones. Treatment of these patients is not recommended. Allopurinol • Allopurinol therefore • Inhibit xanthine oxidase • Reduces both purine breakdown and synthesis. • Can be used even in moderate–severe renal failure with dose reduction • NSAID or colchicine cover should be used when starting allopurinol Allopurinol, Azathioprine interaction • Azathioprine metabolised to active compound 6-mercaptopurine • xanthine oxidase is responsible for the oxidation of 6-mercaptopurine to 6-thiouric acid • Allopurinol can therefore lead to high levels of 6-mercaptopurine • A much-reduced dose (e.g. 25%) must therefore be used if the combination cannot be avoided • Allopurinol Increases toxicity and effects of azathioprine and 6-mercaptopurine. So reduce dose of azathioprine and 6-mercaptopurine to one quarter of usual dose. The combination of allopurinol and azathioprine leads to increased bone marrow toxicity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Antihypertensive drugs and gout • Antihypertensive either increase serum uric acid levels (e.g., diuretics, β-blockers) or decrease serum uric acid levels (e.g., calcium-channel blockers, losartan). • Losartan has a specific uricosuric action (↑excretion of uric acid in the urine, thus reducing the serum uric acid) and may be particularly suitable for the many patients who have coexistant hypertension Prognosis • Gout appears to be an independent risk factor for cardiovascular mortality and morbidity • Hyperuricaemia may be associated with both hyperlipidaemia and hypertension. It may also be seen in conjunction with the metabolic syndrome Hip pain in adults The table below provides a brief summary of the potential causes of hip pain in adults Condition Features Osteoarthritis Pain exacerbated by exercise and relieved by rest Reduction in internal rotation is often the first sign Age, obesity and previous joint problems are risk factors Inflammatory arthritis Pain in the morning Systemic features Raised inflammatory markers Referred lumbar spine pain Femoral nerve compression may cause referred pain in the hip Femoral nerve stretch test may be positive - lie the patient prone. Extend the hip joint with a straight leg then bend the knee. This stretches the femoral nerve and will cause pain if it is trapped Greater trochanteric pain syndrome (Trochanteric bursitis) Due to repeated movement of the fibroelastic iliotibial band Pain and tenderness over the lateral side of thigh Most common in women aged 50-70 years Meralgia paraesthetica Caused by compression of lateral cutaneous nerve of thigh Typically burning sensation over antero-lateral aspect of thigh Avascular necrosis Symptoms may be of gradual or sudden onset May follow high dose steroid therapy or previous hip fracture of dislocation Pubic symphysis dysfunction Common in pregnancy Ligament laxity increases in response to hormonal changes of pregnancy Pain over the pubic symphysis with radiation to the groins and the medial aspects of the thighs. A waddling gait may be seen Transient idiopathic osteoporosis An uncommon condition sometimes seen in the third trimester of pregnancy Groin pain associated with a limited range of movement in the hip Patients may be unable to weight bear ESR may be elevated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hip problems in children The table below provides a brief summary of the potential causes of hip problems in children Condition Notes Development dysplasia of the hip Often picked up on newborn examination Barlow's test, Ortolani's test are positive Unequal skin folds/leg length Transient synovitis (irritable hip) Typical age group = 2-10 years Acute hip pain associated with viral infection Commonest cause of hip pain in children Perthes disease Perthes disease is a degenerative condition affecting the hip joints of children, typically between the ages of 4-8 years. It is due to avascular necrosis of the femoral head Perthes disease is 5 times more common in boys. Around 10% of cases are bilateral Features • hip pain: develops progressively over a few weeks • limp • stiffness and reduced range of hip movement • x-ray: early changes include widening of joint space, later changes include decreased femoral head size/flattening Slipped upper femoral epiphysis Typical age group = 10-15 years More common in obese children and boys Displacement of the femoral head epiphysis postero-inferiorly Bilateral slip in 20% of cases May present acutely following trauma or more commonly with chronic, persistent symptoms Features • knee or distal thigh pain is common • loss of internal rotation of the leg in flexion Juvenile idiopathic arthritis (JIA) Preferred to the older term juvenile chronic arthritis, describes arthritis occurring in someone who is less than 16 years old that lasts for more than three months. Pauciarticular JIA refers to cases where 4 or less joints are affected. It accounts for around 60% of cases of JIA Features of pauciarticular JIA • joint pain and swelling: usually medium sized joints e.g. knees, ankles, elbows • limp • ANA may be positive in JIA - associated with anterior uveitis Septic arthritis Acute hip pain associated with systemic upset e.g. pyrexia. Inability/severe limitation of affected joint Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Lateral epicondylitis Lateral epicondylitis typically follows unaccustomed activity such as house painting or playing tennis ('tennis elbow'). It is most common in people aged 45-55 years and typically affects the dominant arm. Features • pain and tenderness localised to the lateral epicondyle • pain worse on wrist extension against resistance with the elbow extended or supination of the forearm with the elbow extended • episodes typically last between 6 months and 2 years. Patients tend to have acute pain for 6-12 weeks Management options • advice on avoiding muscle overload • simple analgesia • steroid injection • physiotherapy Lower back pain • Lower back pain (LBP) is one of the most common presentations seen in practice. • Whilst the majority of presentations will be of a non-specific muscular nature it is worth keeping in mind possible causes which may need specific treatment. musculogenic (strain) etiology is the most common cause of low back pain. Red flags for lower back pain • age < 20 years or > 50 years • history of previous malignancy • night pain • history of trauma • systemically unwell e.g. weight loss, fever Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The table below indicates some specific causes of LBP: Facet joint • May be acute or chronic • Pain worse in the morning and on standing • On examination there may be pain over the facets. • The pain is typically worse on extension of the back Spinal stenosis • Usually gradual onset • Unilateral or bilateral leg pain (with or without back pain), numbness, and weakness which is worse on walking. Resolves when sits down. • Pain may be described as 'aching', 'crawling'. • Relieved by sitting down, leaning forwards and crouching down • Clinical examination is often normal • Requires MRI to confirm diagnosis Ankylosing spondylitis • Typically a young man who presents with lower back pain and stiffness • Stiffness is usually worse in morning and improves with activity • Peripheral arthritis (25%, more common if female) Peripheral arterial disease • Pain on walking, relieved by rest • Absent or weak foot pulses and other signs of limb ischaemia • Past history may include smoking and other vascular diseases • (also known as zygapophyseal, apophyseal, or Z-joint) • are synovial joints between the spinal vertebrae • Function: guide and limit movement of the spinal motion segment. Assessment • Do risk stratification for new cases such as the STarT Back risk assessment tool • do not request imaging unless serious underlying pathology is suspected. STarT Back Screening Tool My back pain has spread down my leg(s) at some time in the last 2 weeks I have had pain in the shoulder or neck at some time in the last 2 weeks I have only walked short distances because of my back pain In the last 2 weeks, I have dressed more slowly than usual because of back pain It’s not really safe for a person with a condition like mine to be physically active Worrying thoughts have been going through my mind a lot of the time I feel that my back pain is terrible and it’s never going to get any better In general I have not enjoyed all the things I used to enjoy Overall, how bothersome has your back pain been in the last 2 weeks? Not at all (0), Slightly, (0), Moderately (0), Very much (1), Extremely (1) • STarT Back scoring: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology For questions 1-8, score 1 for agreement, 0 for disagreement  Low risk = total score 0-3;  high risk = score 4-5 of questions 5-9 only;  the rest are medium risk. Management (NICE: November 2016) • Non-pharmacological Self-management  encouragement to continue with normal activities. Exercise Manual therapies (spinal manipulation, mobilisation or soft tissue techniques such as massage)  Traction is NOT recommended Psychological therapy (cognitive behavioural) Acupuncture and Electrotherapies are NOT recommended • Pharmacological NSAIDs Do not offer paracetamol alone for managing low back pain. Consider weak opioids (with or without paracetamol) for managing acute low back pain only if an NSAID is contraindicated, not tolerated or has been ineffective. Do not offer opioids for managing chronic low back pain. Antidepressants and anticonvulsants are not recommended • Invasive non-surgical treatments Spinal injections are not recommended for treatment.  except for 'radiofrequency denervation'. To determine whether these people will benefit from this procedure, they may be offered a diagnostic block of the nerves that supply the joints between the vertebrae. If they experience significant pain relief they may then be offered radiofrequency denervation in an attempt to achieve longer-term relief. Radiofrequency denervation  for chronic low back pain if: non-surgical treatment has not worked and the main source of pain is thought to come from structures supplied by the medial branch nerve and they have moderate or severe pain  Only performed after a positive response to a diagnostic medial branch block. epidural injections of local anaesthetic and steroid in people with acute and severe sciatica. • Invasive surgical treatments:  spinal decompression  for sciatica when non-surgical treatment has not improved pain Spinal fusion and disc replacement are NOT recommended in treatment of low back pain. 052 - Pages 1276-1300 052 Pages 1276-1300 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Mixed connective tissue disease (MCTD) Definition • MCTD is an overlap syndrome characterised by combinations of clinical features of SLE, systemic scleroderma and polymyositis (e.g. arthralgia, myositis and Raynaud's). Feature • The presenting symptoms of MCTD are most often: Raynaud's phenomenon puffy hands arthralgias myalgias fatigue. Diagnosis • Anti-RNP positive A defining feature of MCTD is the presence of antibodies against the U1 ribonucleoprotein (U1 RNP) complex, and hence the presence of high titre antiU1 RNP will confirm the clinical diagnosis of MCTD. Prognosis • Most deaths are due to heart failure caused by pulmonary arterial hypertension. Osteoarthritis The trapezio-metacarpal joint (base of thumb) is the most common site of hand osteoarthritis • Pathogenesis involves the localised loss of cartilage, with remodelling of adjacent bone. • Osteoarthritis characteristically affects the distal interphalangeal as well as the proximal interphalangeal and first metacarpophalangeal joints. • The carpometacarpal (CMC) joint is classically involved • Joint swelling is bony in nature, unlike the boggy swelling which occurs in inflammatory arthritis. • Thenar wasting occurs in OA of the first CMC joint due to disuse. • pain is exacerbated by exercise and relieved by rest, although in advanced disease rest and night pain can develop. • Obesity is one of the commonest causes for the early appearance of osteoarthritis • Osteoarthritis may be secondary to haemochromatosis do Ferritin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Osteoarthritis: x-ray changes X-ray changes of osteoarthritis • decrease of joint space • subchondral sclerosis • subchondral cysts • osteophytes forming at joint margins Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Osteoarthritis: management • all patients should be offered help with weight loss, given advice about local muscle strengthening exercises and general aerobic fitness • paracetamol and topical NSAIDs are first-line analgesics. Topical NSAIDs are indicated only for OA of the knee or hand • second-line treatment is oral NSAIDs/COX-2 inhibitors, opioids, capsaicin cream and intraarticular corticosteroids. A proton pump inhibitor should be co-prescribed with NSAIDs and COX-2 inhibitors. These drugs should be avoided if the patient takes aspirin • non-pharmacological treatment options include supports and braces, Transcutaneous Electrical Nerve Stimulation (TENS) and shock absorbing insoles or shoes • if conservative methods fail then refer for consideration of joint replacement What is the role of glucosamine? • normal constituent of glycosaminoglycans in cartilage and synovial fluid • a systematic review of several double blind RCTs of glucosamine in knee osteoarthritis reported significant short-term symptomatic benefits including significantly reduced joint space narrowing and improved pain scores • more recent studies have however been mixed • the 2008 NICE guidelines suggest it is not recommended • a 2008 Drug and Therapeutics Bulletin review advised that whilst glucosamine provides modest pain relief in knee osteoarthritis it should not be prescribed on the NHS due to limited evidence of cost-effectiveness Studies have shown that paracetamol 1 g combined with codeine at dose of 60 mg have the best analgesic outcomes. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Osteomyelitis Patients with sickle cell disease have a predisposition to develop osteomyelitis due to Salmonella species. Definition • Osteomyelitis: infection of bone marrow and bone • Acute form: develops within days or weeks • Chronic form: develops slowly (over months or years) and is associated with avascular bone necrosis and sequestrum formation within the bone Causes • Staph. aureus is the most common cause followed by Pseudomonas • Pseudomonas aeruginosa is more common in intravenous drug users. • Salmonella species is the commonest cause in patients with sickle-cell anaemia. • Pasteurella multocida seen in cases caused by cat and dog bites • Haematogenous osteomyelitis: most commonly involves the vertebrae, but infection may also occur in the metaphysis of the long bones, pelvis, and clavicle.  The lumbar spine is most commonly affected, followed by the thoracic and cervical regions. the location is usually metaphyseal  The metaphysis is commonest site of osteomyelitis, because: If no other information is available about a patient with osteomyelitis, the causative bacteria is Staphylococcus aureus until proven otherwise. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Is highly vascular Has a hair pin like arrangement of capillaries Has sluggish blood flow has relatively fewer phagocytic cells than the physis or diaphysis, allowing infection to occur more easily in this area thin cortex • Posttraumatic osteomyelitis typically found in the tibia. • Contiguous-focus osteomyelitis  direct inoculation of bacteria via trauma Infection usually results approximately one month after inoculation. Predisposing conditions • diabetes mellitus • sickle cell anaemia • intravenous drug user • immunosuppression due to either medication or HIV • alcohol excess Investigations • MRI is the imaging modality of choice, with a sensitivity of 90-100% show cortical destruction, bone marrow inflammation, soft tissue involvement • Bone scintigraphy (Gallium bone scan) if MRI is contraindicated (metal foreign body implants) → detects sites of infection • X-ray shows: still provide the best initial screening test for acute and chronic osteomyelitis. Early stages (< 2 weeks of symptoms onset): typically no pathological findings Later stages: bone destruction, sequestrum formation, periosteal reactions lytic lesion with sclerotic margins (Brodie’s abscess)  a form of chronic osteomyelitis  thickened bone with irregular and patchy sclerosis that gives a honeycombed appearance.  Sequestra are seen as dense loose fragments lying within a cavity in the bone.  insidious onset (eg: 6-month history of gradually progressive swelling and pain)  often near the site of the metaphysis,  Deep ‘boring’ pain is often the predominant symptom. Osteomyelitis can cause a raised periosteum which is part of the radiographic sign known as the Codman triangle. • Bone biopsy confirmatory test Detects both osteonecrosis and the pathogen → confirms the diagnosis and helps guide more specific therapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology The x ray shows lucent defects in the head of the humerus with loss of the normally well-corticated surface. This is consistent with osteomyelitis. Differential diagnosis • Septic arthritis Infection of the joint; in contrast to osteomyelitis, involvement of the metaphysis is rare • Ewing sarcoma x-ray: lytic bone lesions, onion skin appearance of the periosteum Management • flucloxacillin for 6 weeks • clindamycin if penicillin-allergic • Beta-lactams and vancomycin are commonly used as initial empiric therapy. • Osteomyelitis from contiguous spread of infection  Piperacillin-tazobactam Patients with penicillin allergy Clindamycin or metronidazole plus ciprofloxacin If MRSA is suspected: Add vancomycin (or linezolid if allergic to vancomycin) Skull base osteomyelitis • Risk factors Usually osteomyelitis of the skull is preceded by a local infection, for example:  Sinusitis extending to the sphenoid sinuses and involving frontal bone may have serious complications such as cavernous sinus thrombosis  Mastoid cell infection and occipital bone osteomyelitis  Necrotising otitis externa, complicated by petrous bone osteomyelitis with cranial nerve involvement (most common site of skull base osteomyelitis). people with compromised immunity (eg: diabetic patient with otitis externa) • Causative pathogens Typically, Pseudomonas aeruginosa is the causative pathogen. Less common pathogens are Proteus mirabilis, Staphylococcus aureus, Staphylococcus epidermidis. • Features The clinical scenario depends on the affected part of the skull base in its most common form, that is, petrous bone involvement. Patients suffer from chronic otitis externa with otalgia and otorrhoea, which, if untreated, progress and cause unilateral headache, cranial nerve palsies, most Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad commonly IX, X, XI (jugular foramen content) and include also XII nerve form, Villaret's syndrome. • Investigations The usual biochemical picture is raised erythrocyte sedimentation rate (ESR) and normal white cell count (WCC) and C reactive protein (CRP). The typical imaging finding are signs of bone destruction especially clivus, shown as hypointensity of bone marrow in the clivus and preclival soft tissue infiltration on MRI T1 weighted images. Diagnosis is confirmed by fine needle aspiration (FNA) of tissue and cultures. • Treatment with antibiotics. Discitis • Staphylococcus aureus is the commonest cause of bacterial discitis in adults. • infection should be considered for patients with a history of fever, weight loss, and nonmechanical back pain (i.e., pain that occurs even without motion, particularly at rest and at night); hx of intravenous drug use, immunosuppression, or diabetes • localised tenderness present particularly with percussion; • neurological findings absent Differential diagnosis • epidural abscess Unlike discitis, epidural abscess presents with neurological signs in the lower limbs. • Osteoporotic spinal fracture Osteoporotic spinal fractures present with acute pain, however in these patients the plain x ray film demonstrates vertebral collapse. • Acutely painful spinal metastases are unlikely in the absence of plain film x ray changes. Osteomalacia The symptoms of proximal bone pain with hypocalcaemia and low phosphate suggest a diagnosis of osteomalacia ↓↓ Ca ↓↓ P ↓↓vit D + ↑↑ALP osteomalacia Basics • normal bony tissue but decreased mineral content • rickets if when growing • osteomalacia if after epiphysis fusion • occurs more commonly in patients of South Asian origin, particularly those who have a cultural tendency to spend more time inside. • more common in ethnic groups who are dark-skinned, or cover themselves up so that cholesterol cannot be converted to vitamin D in the skin. • Asians who eat chapattis are also at risk, as the phytic acid in the chapattis chelates vitamin D and calcium • Europid ethnic origin is associated with a reduced risk of osteomalacia versus populations with increased skin pigmentation. Causes • vitamin D deficiency e.g. malabsorption, lack of sunlight, diet • vitamin D resistant; inherited • renal failure • liver disease, e.g. cirrhosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • drug induced e.g. anticonvulsants • Mercury poisoning or any heavy metal poisoning causes an acquired Fanconi syndrome with proximal (type 2) renal tubular acidosis. Features • rickets: knock-knee, bow leg, features of hypocalcaemia • osteomalacia: bone pain, particularly around the hips and lower back, fractures, muscle tenderness, proximal myopathy Investigation • low calcium, phosphate, 25(OH) vitamin D • raised alkaline phosphatase as it is released from bone reflecting osteoblastic activity. • Serum PTH is also usually elevated and normalises gradually on response to treatment. • There is also acidosis which is caused by the inhibition of phosphate, bicarbonate, and sodium reabsorption by PTH. • x-ray: children - cupped, ragged metaphyseal surfaces; adults - translucent bands (Looser's zones (Linear areas of low density) (pseudofractures)  Looser’s zones characterised by low-density bands extending from the cortex inwards in the shafts of long bones. Treatment • calcium with vitamin D tablets May 2013 exam: A 58-year-old woman C/O aches and pains in her bones. Generally weak and lethargic. low calcium, phosphate and vitamin D levels combined with a raised alkaline phosphatase and parathyroid hormone level. What is the most appropriate management? Start vitamin D3 supplementation (∆ osteomalacia) Osteopetrosis Overview • also known as marble bone disease • rare disorder of defective osteoclast function resulting in failure of normal bone resorption • results in dense, thick bones that are prone to fracture • bone pains and neuropathies are common. • calcium, phosphate and ALP are normal • stem cell transplant and interferon-gamma have been used for treatment Osteoporosis In osteoporosis, there is decreased bone mass, but mineralization is normal. Causes • unknown (95%) • Advancing age and female sex. Prevalence increases from 2% at 50 years to more than 25% at 80 years in women. Risk factors: the most 'important' ones are risk factors that are used by major risk assessment tools such as FRAX: • history of glucocorticoid use • rheumatoid arthritis • alcohol excess • history of parental hip fracture (family history of osteoporotic fracture) • low body mass index • current smoking Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Other risk factors • sedentary lifestyle • premature menopause Early menarche and late menopause are associated with reduced risk of fracture. • Caucasians and Asians • endocrine disorders: hyperthyroidism, hypogonadism (e.g. Turner's, testosterone deficiency), growth hormone deficiency, hyperparathyroidism, diabetes mellitus • multiple myeloma, lymphoma • gastrointestinal disorders: inflammatory bowel disease, malabsorption (e.g. Coeliac's), gastrectomy, liver disease • chronic kidney disease • osteogenesis imperfecta, homocystinuria Risk factors for post-menopausal osteoporosis, include • Early onset (<45 years) menopause • Absence of hormone replacement therapy, calcium and vitamin D supplemention and • Low body weight. Medications that may worsen osteoporosis (other than glucocorticoids): • SSRIs • antiepileptics • proton pump inhibitors • glitazones • long term heparin therapy • aromatase inhibitors e.g. anastrozole (used for breast cancer in postmenopausal women and gynecomastia in men. aromatase, which converts androgens into estrogens by a process called aromatization.) feature • Classically, osteoporosis in the absence of fracture, does not cause pain. Many patients with osteoporosis have concomitant disorders such as osteomalacia and osteoarthritis which cause bone pain. • Patients with osteoporosis may have no warning signs until the first fracture occurs. • Gradual height loss and dorsal kyphosis may result from microfractures or complete fractures of vertebral bodies. Investigations for secondary causes If a patient is diagnosed with osteoporosis or has a fragility fracture further investigations may be warranted. NOGG recommend testing for the following reasons: • exclude diseases that mimic osteoporosis (e.g. osteomalacia, myeloma); • identify the cause of osteoporosis and contributory factors; • assess the risk of subsequent fractures; • select the most appropriate form of treatment The following investigations are recommended by NOGG: • History and physical examination • Blood cell count, sedimentation rate or C-reactive protein, serum calcium,albumin, creatinine, phosphate, alkaline phosphatase and liver transaminases • Thyroid function tests • Bone densitometry ( DXA) Other procedures, if indicated • Lateral radiographs of lumbar and thoracic spine/DXA-based vertebral imaging • Protein immunoelectrophoresis and urinary Bence-Jones proteins • 25OHD • PTH • Serum testosterone, SHBG, FSH, LH (in men), • Serum prolactin • 24 hour urinary cortisol/dexamethasone suppression test • Endomysial and/or tissue transglutaminase antibodies (coeliac disease) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • Isotope bone scan • Markers of bone turnover, when available • Urinary calcium excretion So from the first list we should order the following bloods as a minimum for all patients: • full blood count • urea and electrolytes • liver function tests • bone profile • CRP • thyroid function tests DEXA scan Basics • T score: based on bone mass of young reference population (compare the patient's bone mineral density (BMD) with that of a healthy young adult) • T score of -1.0 means bone mass of one standard deviation below that of young reference population • Z score is adjusted for age, gender and ethnic factors (Z-scores compare the individual's BMD with that of a population of peers) The Z-score is not routinely used in the diagnosis of osteoporosis It can be used to investigate the possibility of osteoporosis in premenopausal women, men under the age of 50 and children. It is most useful when the bone mineral density is less than 2 standard deviations below the normal. T score • -1.0 = normal • -1.0 to -2.5 = osteopaenia • < -2.5 = osteoporosis Osteoporosis diagnosis according to the WHO and International Osteoporosis Foundation criteria: diagnosis T score definition normal ( ≥−1) hip BMD greater than the 1 SD below the young adult reference mean osteopaenia (−1 to −2.5) hip BMD between 1 and 2.5 DS below the young adult reference mean osteoporosis (≤−2.5) hip BMD 2.5 SD or more below the young adult reference mean Severe osteoporosis (≤ −2.5 PLUS fracture) hip BMD 2.5 SD or more below the young adult reference mean + one or more fragility fractures May • 5% of young adults lie outside the boundaries of T score – 2.0 to +2.0 • 2.5% of young adults have a T score above + 2.0 & 2.5% of young adults have a T score below -2.0 • 99.7% of young adults have a T score between – 3.0 to +3.0 • 68% of young adults have a T score between – 1.0 to +1.0 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Osteoporosis: glucocorticoid-induced • Steroids cause a decrease in calcium absorption from the gut, increased urinary calcium excretion, and also causes bone resorption, resulting in osteoporosis. • The risk ↑↑ with prednisolone 7.5mg a day for 3 or more months. • patients should be managed in an anticipatory, i.e. if it likely that the patient will have to take steroids for at least 3 months then we should start bone protection straight away, rather than waiting until 3 months has elapsed. • A good example is a patient with newly diagnosed polymyalgia rheumatica. As it is very likely they will be on a significant dose of prednisolone for greater than 3 months bone protection should be commenced immediately. Management of patients at risk of corticosteroid-induced osteoporosis The RCP guidelines divide patients into two groups. age > 65 years or H/O previously fragility fracture give bone protection. Fragility fracture - defined by The WHO as resulting from a mechanical force equivalent to a fall from standing height or less which should not ordinarily cause a fracture. age < 65 years bone density scan T score Management Greater than 0 Reassure Between 0 and -1.5 Repeat bone density scan in 1-3 years Less than -1.5 Offer bone protection The first-line treatment is alendronate. Patients should also be calcium and vitamin D replete. Osteoporosis: Assessing patients following a fragility fracture • The management of patients following a fragility fracture depends on age. Patients ≥75 years of age • Patients ≥75 years + fragility fracture start first-line therapy (an oral bisphosphonate), without DEXA scan. • For example, a 79-year-old woman falls over on to an outstretched hand and sustains a Colles' fracture (fracture of the distal radius). Given her age she is presumed to have osteoporosis and therefore started on oral alendronate 70mg once weekly. No DEXA scan is arranged. • the 2014 NOGG guidelines have a different threshold, suggesting treatment is started in all women > 50 years who've had a fragility fracture - 'although BMD measurement may sometimes be appropriate, particularly in younger postmenopausal women.' Patients < 75 years of age • patient < 75 years + fragility fracture DEXA scan should be arranged. • These results can then be entered into a FRAX tool to assess ongoing fracture risk. Osteoporosis: assessing risk Who should be assessed for fragility fracture? • all women aged ≥65 years and all men aged ≥75 years. • Younger patients + presence of risk factors, such as: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology previous fragility fracture current use or frequent recent use of oral or systemic glucocorticoid history of falls family history of hip fracture other causes of secondary osteoporosis low body mass index (BMI) (< 18.5 kg/m) smoking alcohol (> 14 units/week for women and > 21 units/week for men). Methods of risk assessment • NICE recommend using a clinical prediction tool such as FRAX or Q Fracture to assess a patient's 10-year risk of developing a fracture. This is analogous to the cardiovascular risk tools such as QRISK. FRAX • estimates the 10-year risk of fragility fracture • valid for patients aged 40-90 years • based on international data so use not limited to UK patients • assesses the following factors: age, sex, weight, height, previous fracture, parental fracture, current smoking, glucocorticoids, rheumatoid arthritis, 10.secondary osteoporosis, 11.alcohol intake • bone mineral density (BMD) is optional, but clearly improves the accuracy of the results. • NICE recommend arranging a DEXA scan if FRAX (without BMD) shows an intermediate result Q Fracture • estimates the 10-year risk of fragility fracture • developed in 2009 based on UK primary care dataset • can be used for patients aged 30-99 years (this is stated on the Q Fracture website, but other sources give a figure of 30-85 years) • includes a larger group of risk factors e.g. cardiovascular disease, history of falls, chronic liver disease, rheumatoid arthritis, type 2 diabetes and tricyclic antidepressants DEXA scan • There are some situations where NICE recommend arranging BMD assessment (i.e. a DEXA scan) rather than using one of the clinical prediction tools: before starting treatments that may have a rapid adverse effect on bone density (for example, sex hormone deprivation for treatment for breast or prostate cancer). in people aged under 40 years who have a major risk factor, such as history of multiple fragility fracture, major osteoporotic fracture, or current or recent use of highdose oral or high-dose systemic glucocorticoids (more than 7.5 mg prednisolone or equivalent per day for 3 months or longer). • Indicators of low BMD are:  low body mass index (defined as less than 22 kg/m2), medical conditions such as ankylosing spondylitis, Crohn's disease, conditions that result in prolonged immobility, and untreated premature menopause Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Interpreting the results of FRAX • If the FRAX assessment was done without a bone mineral density (BMD) measurement the results (10-year risk of a fragility fracture) will be given and categorised automatically into one of the following: low risk: reassure and give lifestyle advice intermediate risk: offer BMD test high risk: offer bone protection treatment • If the FRAX assessment was done with a bone mineral density (BMD) measurement the results (10-year risk of a fragility fracture) will be given and categorised automatically into one of the following: reassure consider treatment strongly recommend treatment • If you use Q Fracture instead patients are not automatically categorised into low, intermediate or high risk. Instead the 'raw data' relating to the 10-year risk of any sustaining an osteoporotic fracture. This data then needs to be interpreted alongside either local or national guidelines, considering certain factors such as the patient's age. When should we reassess a patient's risk (i.e. repeat the FRAX/Q Fracture)? • if the original calculated risk was in the region of the intervention threshold for a proposed treatment and only after a minimum of 2 years, or • when there has been a change in the person's risk factors Osteoporosis: management • secondary prevention of osteoporotic fractures in postmenopausal women (NICE guidelines 2008).Key points include osteoporotic fragility fractures in postmenopausal women + confirmed osteoporosis (a T-score of - 2.5 SD or below) treatment. In women aged ≥75 years, a DEXA scan may not be required vitamin D and calcium supplementation should be offered to all women unless the clinician is confident they have adequate calcium intake and are vitamin D replete  If osteoporosis is established, the treatment includes 1500 mg/day of calcium and 400-800 pg /day of vitamin D  Dietary intake of calcium should be: 800-1000 mg/day in childhood through early adulthood 1000-1200 mg/day in the middle years 1500 mg/day in the elderly alendronate is first-line around 25% of patients cannot tolerate alendronate, usually due to upper gastrointestinal problems. These patients should be offered risedronate or etidronate (see treatment criteria below) strontium ranelate and raloxifene are recommended if patients cannot tolerate bisphosphonates (see treatment criteria below) • Treatment criteria for patients not taking alendronate: for patients who do not tolerate alendronate, the most important thing to remember is: the T-score criteria for risedronate or etidronate are less than the others implying that these are the second line drugs if alendronate, risedronate or etidronate cannot be taken then strontium ranelate or raloxifene may be given based on quite strict T-scores (e.g. a 60-year-old woman would need a T-score < -3.5) the strictest criteria are for denosumab Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Supplementary notes on treatment • Bisphosphonates Oral bisphosphonates (alendronic acid, ibandronic acid and risedronate sodium) are recommended for treating osteoporosis only if:  the 10‑ year probability of osteoporotic fragility fracture is at least 1%. Intravenous bisphosphonates (ibandronic acid and zoledronic acid) are recommended for treating osteoporosis only if:  the 10‑ year probability of osteoporotic fragility fracture is at least 10% or  the 10‑ year probability of osteoporotic fragility fracture is at least 1% and the person has difficulty taking oral bisphosphonates (alendronic acid, ibandronic acid or risedronate sodium) or these drugs are contraindicated or not tolerated. alendronate, risedronate and etidronate are all licensed for the prevention and treatment of post-menopausal and glucocorticoid-induced osteoporosis reduce the risk of both vertebral and non-vertebral fractures alendronate, risedronate may be superior to etidronate in preventing hip fractures Alendronic acid  tablets, 10 mg once a day  tablets, 70 mg once a week Risedronate sodium  tablets, 5 mg once a day  tablets, 35 mg once a week Etidronate is an oral bisphosphonate  administered in 90-day cycles, with each cycle consisting of etidronate (400 mg/day) for 14 days followed by calcium carbonate (1.25 g/day) for the remaining 76 days. Zoledronic acid  intravenous infusion, 50 micrograms/ml once a year ibandronate is a once-monthly oral bisphosphonate Ibandronic acid:  tablets, 150 mg once a month  injection, 3 mg/ml once every 3 months  Instructions for administration  Alendronate and risedronate must be taken with 200 ml and 120 ml of water, respectively.  Before and immediately after administration patients should not eat or drink, and must remain upright for stipulated time periods.  Etidronate should be taken with water at the midpoint of a 4-hour fast (that is, 2 hours after and 2 hours before food, vitamins with mineral supplements such as iron, calcium supplements, laxatives containing magnesium, or antacids containing calcium or aluminium). contraindicated in patients with a GFR less than 35 ml/min  Data from randomised controlled trials supports use of bisphosphonates down to GFRs as low as 30-35 ml/min. Below this level RCT evidence is unavailable, and the risk of adynamic bone disease associated with renal impairment is significantly elevated. Bisphosphonate induce osteonecrosis of the jaw (associated with dental extraction surgery and increased with underlying malignancy, especially multiple myeloma)  Most cases have been associated with zoledronic acid and pamidronate given intravenously for metastatic bone disease.  The reported incidence in patients with malignancy treated with these drugs is between 1.3-4.0%.  Dental disease is a recognised predisposing factor. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  The lesions usually heal with minimal surgical debridement, chlorhexidine mouthwashes, antibiotics and analgesia. • Vitamin D and calcium poor evidence base to suggest reduced fracture rates in the general population at risk of osteoporotic fractures - may reduce rates in frail, housebound patients • Raloxifene - selective oestrogen receptor modulator (SERM) (SERMs) are drugs with selective activity in various organ systems, acting as weak oestrogen-receptor agonists in some systems and as oestrogen antagonists in others. prevent bone loss reduce risk of vertebral fractures, but has not yet been shown to reduce the risk of non-vertebral fractures increase bone density in the spine and proximal femur less effective in preventing loss of bone mineral density versus bisphosphonates or denosumab. disadvantages  may worsen menopausal symptoms  increased risk of thromboembolic events contraindicated in:  history of venous thromboembolism (VTE),  hepatic impairment,  cholestasis,  severe renal impairment,  unexplained uterine bleeding or endometrial cancer.  Raloxifene should not be co-administered with systemic oestrogens,  in patients with breast cancer it should not be used for osteoporosis treatment or prevention until treatment of the breast cancer, including adjuvant treatment, has been completed. advantage:  may decrease risk of breast cancer • Strontium ranelate Action  'dual action bone agent' - increases deposition of new bone by osteoblasts (promotes differentiation of pre-osteoblast to osteoblast) and reduces the resorption of bone by inhibiting osteoclasts Indication  secondary prevention of osteoporotic fragility fractures in postmenopausal women who are: unable to take alendronate and risedronate due to contraindication, intolerance or unable comply with the special instructions for the administration. And  have a combination of T-score, age and number of independent clinical risk factors for fracture (see denosumab indications below). Dose and administration  The dose is 2 g once daily in water, preferably at bedtime.  Advice to avoid food for 2 hours before and after taking granules, particularly calcium-containing products e.g. milk; also preferably avoid concomitant antacids containing aluminium and magnesium hydroxides for 2 hours after taking granules.  Treatment with strontium ranelate should be discontinued during treatment with oral tetracycline or quinolone antibiotics.  it is not recommended in patients with severe renal impairment  should be used with caution in patients at increased risk of VTE. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Disadvantages  concerns regarding the safety profile of strontium have been raised recently. It should only be prescribed by a specialist in secondary care  due to these concerns the European Medicines Agency in 2014 said it should only be used by people for whom there are no other treatments for osteoporosis  increased risk of cardiovascular events: any history of cardiovascular disease or significant risk of cardiovascular disease is a contraindication  increased risk of thromboembolic events: a Drug Safety Update in 2012 recommended it is not used in patients with a history of venous thromboembolism  may cause serious skin reactions such as Stevens Johnson syndrome • Denosumab human monoclonal antibody that inhibits RANK ligand, which in turn inhibits the maturation of osteoclasts  RANK occurs on the surface of osteoclast precursors and osteoclasts. Inhibiting it leads to reduced osteoclast formation, function and survival. This leads to reduced bone reabsorption in both cortical and trabecular bone. given as a single subcutaneous injection every 6 months  therefore, tolerated by patients who don’t want a daily subcutaneous injection initial trial data suggests that it is effective and well tolerated (NICE guidelines 2010) state that: it is recommended only in postmenopausal women at increased risk of fractures:  who are unable to comply with alendronate and either risedronate or etidronate, or have an intolerance of, or a contraindication to, those treatments and who have a combination of T-score, age and number of independent clinical risk factors for fracture independent clinical risk factors for fracture are: parental history of hip fracture, alcohol intake of 4 or more units per day, and rheumatoid arthritis. The recommended dosage is 60 mg subcutaneous injection once every 6 months. Side effects:  Like bisphosphonates it is associated with osteonecrosis of the jaw, but not other adverse events such as reflux oesophagitis.  The risk of a dynamic bone disease may be less for denosumab versus bisphosphonates because it does not accumulate in bone. • Teriparatide is a recombinant fragment of human parathyroid hormone and, as an anabolic agent, it stimulates new formation of bone and increases resistance to fracture. Action  Increased osteoblast activity (the main effect )  increased calcium absorption from the gut and  reduced calcium excretion from the kidney. Indications  an alternative treatment option for the secondary prevention of osteoporotic fragility fractures in postmenopausal women who are: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad unable to take alendronate and risedronate, or strontium ranelate due to contraindication, intolerance or unsatisfactory response and age ≥65 years and have a T-score of ≤–4.0 SD, or a T-score of ≤–3.5 SD plus more than two fractures, or age 55–64 years and have a T-score of ≤–4 SD plus more than two fractures. Disadvantage  Although this synthetic parathyroid hormone (PTH) analogue is an effective option for the treatment of severe osteoporosis, it is a daily injectable, and therefore, not considered by many patients, particularly those who don’t likely injectables. Dose  The recommended dose is 20 micrograms administered once daily by subcutaneous injection in the thigh or abdomen.  the maximum total duration of treatment was restricted, by the marketing authorisation, to 18 months. Contraindications include:  pre-existing hypercalcaemia,  severe renal impairment,  metabolic bone diseases other than primary osteoporosis (including hyperparathyroidism and Paget's disease of bone),  unexplained elevations of alkaline phosphatase, and  previous radiation treatment to the skeleton. • Hormone replacement therapy has been shown to reduce the incidence of vertebral fracture and non-vertebral fractures due to concerns about increased rates of cardiovascular disease and breast cancer it is no longer recommended for primary or secondary prevention of osteoporosis unless the woman is suffering from vasomotor symptoms • Hip protectors evidence to suggest significantly reduce hip fractures in nursing home patients compliance is a problem • Falls risk assessment no evidence to suggest reduced fracture rates however, do reduce rate of falls and should be considered in management of high risk patients Raloxifene and teriparatide are second line treatments if bisphosphonates are not tolerated, ineffective or unsuitable for the patient. (Ref: NICE guidelines . Last updated: 09 August 2017) Pathophysiology of bone diseases • Osteoporosis decreased bone mass, but mineralization is normal. • Osteomalacia Decreased bone mineralization (due to vitamin D deficiency) • Paget's disease Disorder of bone remodeling (excessive bone resorption, followed by disorganized bone formation occurs, producing thickened but weak bone.) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Paget's disease of the bone The constellation of bony pain, unilateral hearing loss, and an isolated raised ALP should point you in the direction of Paget's disease of the bone. Disease localization • most commonly involves the axial skeleton, the pelvis being the most common, but it can affect any area. • In the majority of patients, the disease affects at least two bones, but in one third of patients only one bone is affected. Epidemiology • Second most prevalent skeletal disease after osteoporosis • (UK prevalence 5%) but symptomatic in only 1 in 20 patients • more common in men (sex ratio 3:2 men: women). • Age of onset: > 55 years Pathophysiology • increased but uncontrolled bone turnover • It is thought to be primarily a disorder of osteoclasts, with excessive osteoclastic resorption followed by increased osteoblastic activity. • it is a focal disorder of bone remodelling characterized by an increase in the number and size of osteoclasts in affected skeletal sites while the rest of the skeleton is spared. • ↑↑osteoclasts ↑↑bone resorption subsequent increase in new bone formation and altered bone architecture. • The structure of the new bone is disorganised and mechanically weaker and therefore liable to pathological fracture and deformity. Predisposing factors • increasing age • male sex • northern latitude • family history Clinical features - only 5% of patients are symptomatic • most commonly no symptoms. The diagnosis is typically found incidentally on radiographs and laboratory investigations. Paget disease should be considered in an asymptomatic patient who presents with isolated ALP elevation that cannot be explained by any other means (e.g., cholestasis or bone metastases) • bone pain (e.g. pelvis, lumbar spine, femur) Bone pain is typically increased with rest and on weight bearing. Unlike osteoarthritis, pagetic bone pain usually increases with rest, on weight bearing, when the limbs are warmed, and at night. • classical, untreated features: bowing of tibia, bossing of skull Complications • deafness (cranial nerve entrapment) In the skull, the 8th nerve can be compressed, resulting in hearing loss. This is one of the more common complaints, being present in 37% of respondents in a recent survey of 2000 patients with Paget's disease . Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • bone sarcoma (1% if affected for > 10 years) Although the risk of osteogenic sarcoma is 30 times that of patients without Paget’s, the risk of sarcoma development is still small Less than 1% Symptoms of osteogenic sarcoma include increased pain localised to one particular area and pathological fracture. tumor arising from mesenchymal stem cells (osteoblasts) Most common primary bone malignancy x-ray  Sunburst appearance of lytic bone lesions and/or codman triangles (a ridge of sub-periosteal new bone is raised by an underlying tumor) Treatment  Surgery (definitive resection) with adjuvant polychemotherapy  usually resistant to radiation therapy • Pathological fractures • Spinal cord compression • skull thickening (A classic symptom: a hat which no longer fits) • high-output cardiac failure  (due to AV shunts in bone) Diagnosis • Raised alkaline phosphatase (ALP) - calcium* and phosphate are typically normal the Best initial test * calcium is usually normal but hypercalcaemia may occur with prolonged immobilisation • X-ray: eg: (skull x-ray) thickened vault, osteoporosis circumscripta Osteolysis and new bone formation typical of the disease. Radiographic features in the mixed lytic and sclerotic phase of Paget's disease include:  bone expansion,  cortical thickening and  trabecular bone thickening. • the best investigation to confirm the diagnosis Skeletal survey Recent evidence has suggested that limited skeletal survey is superior to bone scan for the assessment of the disease because, when there is significant osteoclastic resorption of bone, bone scanning underestimates the extent of disease activity and still requires plain radiography for confirmation. • Bone biopsy abnormal "mosaic" pattern in woven and lamellar bone. Treatment • Indications for treatment include: bone pain, skull or long bone deformity, fracture, periarticular Paget's • The mainstay of treatment for Paget’s disease is bisphosphonate therapy, which is proven to relieve symptoms of pain and has been shown to reduce the risk of pathological fracture in long bones and complications of Paget’s such as deafness. bisphosphonate (either oral risedronate or IV zoledronate)  Unless contraindicated, all patients on bisphosphonates should be given supplements of calcium and Vitamin D to avoid symptomatic hypocalcaemia. In patients who cannot tolerate these, calcitonin is second-line therapy.  calcitonin is less commonly used now Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • the most appropriate way to monitor disease activity is 6-monthly alkaline phosphatase levels The radiograph demonstrates marked thickening of the calvarium. There are also ill-defined sclerotic and lucent areas throughout. These features are consistent with Paget's disease. Penicillamine Mechanism of action • largely unknown • thought to reduce IL-1 synthesis and prevent the maturation of newly synthesized collagen Uses • rheumatoid arthritis Adverse effects • rashes • disturbance of taste • proteinuria Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pseudogout Chondrocalcinosis in a question is most likely to indicate Pseudogout Definition • Pseudogout is a form of microcrystal synovitis caused by the deposition of calcium pyrophosphate dihydrate in the synovium Risk factors • hyperparathyroidism • hypothyroidism • haemochromatosis • acromegaly • low magnesium, low phosphate • Wilson's disease Features • knee, wrist and shoulders most commonly affected • joint aspiration: Polar light microscopy: weakly-positively birefringent rhomboid shaped crystals Synovial fluid findings: 10,000-50,000 WBCs/μL with > 90% neutrophils • x-ray: chondrocalcinosis (cartilage called due to deposition of calcium pyrophosphate dihydrate crystals in the large joints, particularly the knees.) Management • aspiration of joint fluid, to exclude septic arthritis • NSAIDs or intra-articular, intra-muscular or oral steroids as for gout Psoriatic arthropathy If first-degree relatives of patients with psoriasis have joint problems, psoriatic arthritis should be considered • Chronic progressive seronegative inflammatory arthritis occurring in patients with underlying psoriasis. • most commonly a seronegative oligoarthritis found in patients with psoriasis Oligoarthritis (most common, accounting for 70% of cases) • autoimmune disease , associated with an increased frequency of HLA-B7 and HLA-B27. Epidemiology • affects men and women equally • the range of age of onset between 35–55 years. • Around 10-20% percent of patients with skin lesions develop an arthropathy Types • Five subsets of psoriatic arthritis have been described based on the pattern of joint involvement, with an increased prevalence of the spondylitic form in males and the rheumatoid form in females. 1. asymmetric oligoarthritis (most common) (43%). 2. symmetric polyarthritis (33%)  proximal interphalyngeal joint involvement. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology sacroilitis DIP joint disease  associated with nail pitting, and onycholysis (separation of nail from nail bed) arthritis mutilans (severe deformity fingers/hand, 'telescoping fingers') (rare) The relation between skin lesion and Psoariatic arthritis • Psoriatic arthropathy correlates poorly with cutaneous psoriasis and often precedes the development of skin lesions. Psoriasis precede psoriatic arthritis in 60-80% of patients (usually by less than 10 years) In 15-20% of patients, arthritis appears before the psoriasis  Small plaques should be looked for on the elbows and scalp. Feature • Psoariatic arthritis tends to affect the distal interphalangeal joints (DIP). • can present with or without associated psoriatic skin lesions or only with nail malformations. • If no obvious skin lesions are visible, the clinician must look for psoriasis in hidden sites such as the scalp, intergluteal cleft and umbilicus. • Nail involvement includes onycholysis, transverse ridging and nail pitting. • vertebrae may be asymmetrically affected and there may be involvement of the atlantoaxial joint with erosion of the odontoid and consequent subluxation. • Dactylitis with sausage digits is seen in 35% of patients • Extra-articular features include: Ocular involvement may occur in 30% of patients, including:  conjunctivitis (in 20%)  acute anterior uveitis (in 7%); in patients with uveitis, 43% have sacroiliitis Synovitis affecting flexor tendon sheaths, (with sparing of the extensor tendon sheath) Investigations • ↑ (ESR) and C-reactive protein level • Negative rheumatoid factor • Low levels of circulating immune complexes ( in 56% of patients) • High Serum immunoglobulin A levels ( in two thirds of patients) • Radiography asymmetric “pencil-in-cup” deformity in the distal interphalangeal joints of the fingers. Diagnostic criteria • established inflammatory articular disease with at least 3 points from the following features: Current psoriasis (assigned a score of 2) history of psoriasis (in the absence of current psoriasis; assigned a score of 1) family history of psoriasis (in the absence of current psoriasis and history of psoriasis; assigned a score of 1) Dactylitis (assigned a score of 1) Juxta-articular new-bone formation (assigned a score of 1) RF negativity (assigned a score of 1) Nail dystrophy (assigned a score of 1) Differential diagnosis • The condition can be distinguished from the sacroilitis seen in ankylosing spondylitis by the presence of the other clinical signs in the nails and the skin and by differences in the patterns of vertebral involvement. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Polyarticular psoriatic arthritis distinguished from rheumatoid arthritis by: presence of dactylitis and absence of anticyclic citrullinated peptide antibodies. Management • treat as rheumatoid arthritis but better prognosis • limited disease NSAIDs usually sufficient do not prevent progressive joint damage • Patients with progressive peripheral arthritis (polyarthritis, joint erosions) or oligoarthritis refractory to NSAIDs and/or intra-articular corticosteroids require disease-modifying antirheumatic disease therapy (e.g., methotrexate) early in the disease course. methotrexate will improve both the joint and skin problems • Sulfasalazine is safe to use in pregnancy and there is no need to stop it. Sulphasalazine tends to only improve joint symptoms and not improve the psoriasis. • Tumour necrosis factor (TNF)-alpha inhibitors may be considered as second-line therapy for most disease manifestations. If not respond to an adequate trial of two DMARDs (for example, leflunomide, methotrexate, sulfasalazine) anti-TNF agents • Apremilast (Nice guidelines February 2017) phosphodiesterase 4 (PDE4) inhibitor. ↓anti-inflammatory cytokines and mediators associated with psoriatic arthritis (including [TNF]-alpha and interleukin [IL]-23). Apremilast, alone or in combination with (DMARDs), is recommended for psoriatic arthritis only if:  they have peripheral arthritis with 3 or more tender joints and 3 or more swollen joints and  not responded to adequate trials of at least 2 standard DMARDs. Adverse effects  (GI) disorders (most commonly diarrhoea and nausea);  upper respiratory tract infections;  headache; and tension headache. Stop apremilast at 16 weeks if the psoriatic arthritis has not shown an adequate response • Hydroxychloroquine exacerbate psoriatic skin lesions • In patients with cutaneous psoriasis, systemic corticosteroids predispose to pustular psoriasis, and may result in a flare of skin psoriasis when they are stopped. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Notice the nail changes on this image as well X-ray showing some of changes in seen in psoriatic arthropathy. Note that the DIPs are predominately affected, rather than the MCPs and PIPs as would be seen with rheumatoid. Extensive juxtaarticular periostitis is seen in the DIPs but the changes have not yet progressed to the classic 'pencil-in-cup' changes that are often seen. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad This x-ray shows changes affecting both the PIPs and DIPs. The close-up images show extensive changes including large eccentric erosions, tuft resorption and progresion towards a 'pencil-in-cup' changes. 053 - Chapter 8 053 Chapter 8 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Reactive arthritis (Reiter syndrome) • Reactive arthritis is defined as an arthritis that develops following an infection where the organism cannot be recovered from the joint. the presence of bacterial infection on joint aspiration would count against it. • Reactive arthritis is one of the HLA-B27 associated seronegative spondyloarthropathies. • It encompasses Reiter's syndrome, a term which described a classic triad of urethritis, conjunctivitis and arthritis following a dysenteric illness during the Second World War. • Later studies identified patients who developed symptoms following a sexually transmitted infection (post-STI, now sometimes referred to as sexually acquired reactive arthritis, SARA). Eye diseases in Reiter's syndrome: • Most common conjunctivitis (50%) • Less common iritis (12%) Epidemiology • post-STI form much more common in men (e.g. 10:1) • post-dysenteric form equal sex incidence The table below shows the organisms that are most commonly associated with reactive arthritis: Post-dysenteric form Post-STI form Shigella flexneri Salmonella typhimurium Salmonella enteritidis Yersinia enterocolitica Campylobacter Chlamydia trachomatis Features • typically develops within 4 weeks of initial infection symptoms generally last around 4-6 months • arthritis is typically an asymmetrical oligoarthritis of lower limbs mainly affecting the large weight-bearing joints (usually knee and ankle). • dactylitis • symptoms of urethritis • eye: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad conjunctivitis (seen in 50%), anterior uveitis • skin: circinate balanitis (painless vesicles on the coronal margin of the prepuce), keratoderma blenorrhagica (waxy yellow/brown papules on palms and soles) Management • usually self-limiting • symptomatic: analgesia, NSAIDS, intra-articular steroids • sulfasalazine and methotrexate are sometimes used for persistent disease Prevention • Antibiotics given at the time of the non-gonococcal venereal infection will reduce the likelihood of that person developing reactive arthritis. Appropriate treatment during the acute stage would be doxycycline 100 mg bd if Chlamydia infection is confirmed. Prognosis • Prognosis with respect to long-term complications is better when dysenteric infection is the precipitant factor rather than Chlamydial infection. • arthritis usually resolves in 3 months • In general, symptoms last from a few weeks to around 6 months in total. symptoms rarely last more than 12 months • Around 25% of patients have recurrent episodes • 10% of patients develop chronic disease • In HLA-B27-positive patients, ankylosing spondylitis may develop in up to 50% of patients who have suffered an episode of reactive arthritis. • HIV infection is associated with a higher risk of reactive arthritis HLA-B27 is found in 80–90 % of Caucasians with HIV-associated reactive arthritis, while studies of Africans with HIV-associated reactive arthritis have found nearly all to be HLA-B27-negative • Rarer long-term complications include: urethral stricture, cataracts, and aortic root necrosis. Keratoderma blenorrhagica Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Amyloidosis Amyloidosis should always be considered in a patient with a long-standing inflammatory and/or infectious disease who presents with kidney, liver, or GI involvement. Overview • amyloidosis is describes the extracellular deposition of an insoluble fibrillar protein termed amyloid • amyloid also contains a non-fibrillary protein called:  amyloid-P component, derived from the acute phase protein serum amyloid P apolipoprotein E heparan sulphate proteoglycans • the accumulation of amyloid fibrils leads to tissue/organ dysfunction Causes • Amyloidosis may be inherited or acquired; acquired form is associated with long standing chronic illnesses (DM, Rheumatoid Arthritis). Feature • unexplained weight loss, • fatigue, • oedema resistant to diuretic therapy. • joint pains and stiffness, usually upper limbs more than lower limbs. Types • Light-chain amyloidosis (AL-amyloidosis) Most common form of amyloidosis in developed nations Aetiology:  primary disease caused by plasma cell dyscrasias e.g., : multiple myeloma, Waldenström's macroglobulinemia, non-Hodgkin lymphoma Pathophysiology:  increased production of the light chains of immunoglobulins → deposition of AL (amyloid light chain) protein in various organs Features: rapidly progressive clinical course  Heart: restrictive cardiomyopathy, atrioventricular block An ECG is required in all patients to look for conduction abnormalities.  Kidney: nephrotic syndrome, type II renal tubular acidosis, nephrogenic diabetes insipidus  Tongue: macroglossia → obstructive sleep apnea  Nervous system: Amyloid peripheral neuropathy carpal tunnel syndrome only seen in AL, never seen in AA autonomic neuropathy  Gastrointestinal tract: malabsorption  periorbital ecchymoses  Enlargement of the submandibular salivary glands Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  shoulder pad sign due to periarticular infiltration with amyloid and pseudohypertrophy is specific for AL  Bleeding disorders • Reactive amyloidosis (AA-amyloidosis) Etiology: secondary disease  Chronic inflammatory conditions (e.g., IBD, rheumatoid arthritis, SLE, vasculitis)  Chronic infectious diseases (e.g., tuberculosis, bronchiectasis, leprosy, osteomyelitis)  Certain tumors (e.g., renal cell carcinoma, lymphomas) Pathophysiology:  chronic inflammatory process → increased production of acute phase reactant SAA (serum amyloid-associated protein) → deposition of AA (amyloidassociated) protein in various organs Clinical features  Kidney: most common feature renal involvement nephrotic syndrome, type II renal tubular acidosis, nephrogenic diabetes insipidus  Adrenal glands: primary adrenal insufficiency  Liver and spleen: hepatomegaly, splenomegaly  Gastrointestinal tract: malabsorption • β-2 microglobulin amyloidosis Precursor protein is β-2 microglobulin, part of the major histocompatibility complex Associated with patients on renal dialysis neurological impairment in patients on longstanding dialysis. Diagnosis • Biopsy Biopsy of abdominal wall fat, the rectum or a salivary gland can be examined The tissue is treated with Congo red stain the amyloid proteins appear applegreen birefringence on Light microscopy. • Tests to diagnose the underlying disease Light chain amyloidosis  Serum electrophoresis: monoclonal gammopathy  Urine test for Bence-Jones proteins multiple myeloma Reactive amyloidosis: ESR, CRP, chest x-ray Renal amyloid with congo red staining - apple-green birefringence Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Renal amyloid with congo red staining - apple-green birefringence Congo red staining. Amyloid deposits are seen in both the arteries/arterioles and within the glomerulus. The deposit of amyloid within the mesangium is not dissimilar to the nodular lesions seen in diabetic nephropathy Pathological feature of amyloidosis Electron micrography - fibrillar appearance x Ray diffraction pattern - beta pleated sheet structure Haematoxylin and eosin staining - amorphous eosinophilic appearance Congo red histological staining - apple-green birefringence Solubility in water and buffers of low ionic strength. Treatment • The only treatment is renal transplantation. • It can be reduced by using high flux dialysis membranes in patients who are likely to be on dialysis for a prolonged period. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Amyloidosis: cardiac • Cardiac amyloidosis most commonly presents as restrictive cardiomyopathy, associated with AL Amyloidosis • Presentation: Typical presentation of right heart failure: Jugular venous distension Peripheral oedema Orthopnoea and paroxysmal nocturnal dyspnea are typically absent • Diagnosis Combination of low-voltage ECG and thickened ventricular walls is one of the characteristic features of cardiac amyloidosis. Echocardiographic abnormalities include:  dilatation of atria, thickened interatrial septum, diastolic dysfunction and smallvolume ventricles.  The most distinctive feature of cardiac amyloidosis is a sparkling, granular appearance of myocardium, but this is a relatively insensitive feature occurring only in about 25% of cases.  Cardiac amyloidosis is associated with a 'global speckled' pattern on echo. The ECG typically shows low-voltage complexes with poor R wave progression in the chest leads (a pseudoinfarction pattern). Management of AL • The most effective treatment is autologous bone marrow transplants with stem cell rescues. However, many patients are too weak to tolerate this approach • Other treatments can involve application of chemotherapy similar to that used in multiple myeloma. A combination of bortezomib and dexamethasone has been proposed, as has melphalan and dexamethasone. • Digoxin is contraindicated in cardiac amyloidosis (restrictive cardiomyopathy) Septic arthritis Causes • most common organism overall is Staphylococcus aureus The most likely organisms are staphlococci (70%) and beta-haemolytic streptococci (20%). • in young adults who are sexually active Neisseria gonorrhoeae should also be considered • The most likely organism to have been aspirated from the infected hip joint replacement prosthesis Propionibacterium acnes (PA): Gram positive bacilli, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology it is poorly virulent, symptoms of PA infection may occur many years after original arthropathy, it is sensitive to penicillins, clindamycin and carbapenems. Feature • Fifty percent of cases will have an associated bacteraemia. • Early x-rays are almost always normal. Management • synovial fluid should be obtained before starting treatment • intravenous antibiotics which cover Gram-positive cocci are indicated. The BNF currently recommends flucloxacillin or clindamycin if penicillin allergic • antibiotic treatment is normally be given for several weeks (BNF states 6-12 weeks) ideally these should be intravenous for 2 weeks and then oral for 4 weeks. • needle aspiration should be used to decompress the joint • surgical drainage may be needed if frequent needle aspiration is required • if patient on warfarin, what is the most appropriate management of anticoagulation before joint aspiration and injection? If INR is within the therapeutic range no need to stop the warfarin or change the dose. The risk of a thrombotic episode if anticoagulation is changed outweighs any risk associated with injecting joint while taking anticoagulation. Sjogren's syndrome • Sjogren's syndrome is an autoimmune disorder affecting exocrine glands resulting in dry mucosal surfaces. • It may be primary (PSS) or secondary to rheumatoid arthritis or other connective tissue disorders, where it usually develops around 10 years after the initial onset. • primary Sjögren's syndrome occurs alone and more likely to have positive anti Ro SSA antibodies than secondary Sjögren's). • Hypergammaglobulinaemia is present in 80% of individuals. • Typically secondary Sjögren's has pre-existent rheumatoid or systemic lupus erythematosus before the development of Sjögren's symptoms. • more common in females (ratio 9:1). • There is a marked increased risk of lymphoid malignancy (40-60 fold) Features • dry eyes: keratoconjunctivitis sicca • dry mouth • vaginal dryness • arthralgia • Raynaud's, • myalgia • sensory polyneuropathy • renal tubular acidosis (usually subclinical) • Plasma cell infiltration of salivary and lacrimal glands: Parotid swelling. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Complication • higher risk of developing lymphoma These lymphomas are primarily of B cell origin. High risk factors for lymphoma development in Sjogren's syndrome patients include:  persistent unilateral or bilateral parotid gland enlargement,  splenomegaly and lymphadenopathy,  low C4 complement levels,  type 2 mixed cryoglobulinaemia Investigation • rheumatoid factor (RF) positive in nearly 100% of patients • ANA positive in 70% • anti-Ro (SSA) antibodies in 70% of patients with PSS  Anti-Ro antibody is associated with:  congenital complete heart block  neonatal lupus The mother is usually positive for anti-Ro or anti-La antibodies but may not have overt lupus erythematosus. • anti-La (SSB) antibodies in 30% of patients with PSS • Hypergammaglobulinaemia (↑ IgG) in 80% • low C4 • Schirmer's test: filter paper near conjunctival sac to measure tear formation placement of a standard strip of filter paper on the inside of the lower eyelid. Wetting of less than 5 mm in 5 min indicates defective tear production. • Rose Bengal staining of the eyes commonly shows punctuate or filamentary keratitis. • histology: focal lymphocytic infiltration • the most definitive test for Sjögren’s syndrome Labial gland biopsy Management • artificial saliva and tears • pilocarpine may stimulate saliva production Other causes of dry eyes, and/or dry mouth include: • past head and neck radiation • hepatitis C infection • acquired immunodeficiency disease • pre-existing lymphoma • sarcoidosis • graft versus host disease, or • the use of an anticholinergic drugs. Systemic lupus erythematosus (SLE) • Systemic lupus erythematosus (SLE) is a multisystem, autoimmune disorder. Epidemiology • much more common in females (F:M = 9:1) • more common in Afro-Caribbeans* and Asian communities Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology *It is said the incidence in black Africans is much lower than in black Americans - the reasons for this are unclear • onset is usually 20-40 years Pathophysiology • autoimmune disease • associated with HLA B8, DR2, DR3 • thought to be caused by immune system dysregulation leading to immune complex formation • the most likely immunopathological process: Activation of the classical complement pathway complement consumption is common in active SLE (indicated by the low C3 and C4). Activation of the classical complement pathway occurs in (SLE) owing to the large number of double-stranded DNA (dsDNA) and other immune complexes that form and fix complement. These immune complexes deposit in the kidneys and other organs, where they attract other components of the immune system that cause tissue damage. • immune complex deposition can affect any organ including the skin, joints, kidneys and brain • SLE can also be described as a type III hypersensitivity reaction Features The triad of fever, arthralgia and rash in a woman of childbearing age should suggest the diagnosis of systemic lupus erythematosus (SLE). General features The multisystem presentation of fever, arthralgia, pericarditis and nephritis associated with the epidemiological clues (a young black female) suggest a diagnosis of (SLE). • fatigue • fever • mouth ulcers • lymphadenopathy Skin • malar (butterfly) rash: spares nasolabial folds • discoid rash: scaly, erythematous, well demarcated rash in sun-exposed areas. Lesions may progress to become pigmented and hyperkeratotic before becoming atrophic • photosensitivity • Raynaud's phenomenon • livedo reticularis • non-scarring alopecia Musculoskeletal • arthralgia typically affecting the small joints of the hands, wrists and knees. • non-erosive arthritis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Jaccoud's arthropathy gross deformities of the hands without joint damage or erosions • caused by recurrent episodes of synovitis that damage tendon sheaths and slings resulting in joint deformity • seen in: SLE Rheumatic fever Parkinson's disease, and Hypocomplementaemic urticarial vasculitis. Cardiovascular • myocarditis Respiratory • pleurisy • fibrosing alveolitis • Direct pulmonary involvement in (SLE) occurs in 30% (pleuropericarditis, atelectasis, pneumonitis, raised hemidiaphragms and pulmonary fibrosis). Renal • proteinuria • glomerulonephritis (diffuse proliferative glomerulonephritis is the most common type) Neuropsychiatric • anxiety and depression • psychosis • seizures Investigations Immunology SLE - antibodies associated with congenital heart block = anti-Ro • 99% are ANA positive ( the best screening test for SLE) Almost all patients with SLE have a positive ANA test result. ANA test is sensitive but not specific for SLE. A negative result argues strongly against a diagnosis of active SLE, but does not exclude the possibility of other autoimmune diseases. Negative ANA has the highest negative predicted value (The highest negative predicted value implies the test with the greatest sensitivity.) • 20% are rheumatoid factor positive • anti-dsDNA: highly specific (> 99%), but less sensitive (70%) • anti-Smith: most specific (> 99%), sensitivity (30%) Therefore, absence of anti-DNA or anti-Sm antibodies should not exclude SLE as a diagnosis • also: anti-U1 RNP, SS-A (anti-Ro) and SS-B (anti-La) Anti-Rho and -La antibodies are associated with the development of neonatal lupus. Anti-Ro/SS-A antibodies are found in 30% of patients with SLE. Anti-Ro antibodies can cross the placenta to cause transient cutaneous lupus in the neonate (5-25% of babies) or permanent congenital heart block (1-3% of babies). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Markers of SLE disease activity • Early markers of SLE disease activity include:  falling C4 levels,  although congenital C4 deficiency is itself a predisposing factor for SLE development, so these tests must be interpreted with caution. rising immunoglobulins, falling haemoglobin (Hb), white cell count (WCC), platelets and albumin. Monitoring • ESR: during active disease the CRP is characteristically normal - a raised CRP may indicate underlying infection • complement levels (C3, C4) are low during active disease (formation of complexes leads to consumption of complement) • anti-dsDNA titres can be used for disease monitoring (but note not present in all patients) Management • Basics NSAIDs sun-block • Hydroxychloroquine useful for skin disease • If internal organ involvement e.g. renal, neuro, eye then consider prednisolone, cyclophosphamide Complication • Lupus patients are more prone to infection. Up to two-thirds of lupus patients will have some lung involvement during the course of their disease. The most common manifestations are pleuritis and pleural effusions. SLE: pregnancy Overview • Unlike many autoimmune diseases (SLE) often becomes worse during pregnancy and the puerperium • risk of maternal autoantibodies crossing placenta • leads to condition termed neonatal lupus erythematous • neonatal complications include congenital heart block • strongly associated with anti-Ro (SSA) antibodies Treatment • azathioprine A large body of evidence from the use of azathioprine in pregnancy for the treatment of both rheumatological conditions and inflammatory bowel disease, supports it's use. Although it is less effective in the management of SLE with renal disease versus other options, balance of benefit risk makes it the preferred intervention. • Ciclosporin appears to be associated with premature delivery and low birth weight, although it does not seem to be associated with malformations, this drives it's use as an alternative to azathioprine in patients who fail to gain control of their disease. • Cyclophosphamide, methotrexate and mycophenolate are all contraindicated for use in pregnancy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Drug-induced lupus erythematosus Overview • The pathogenesis of drug-induced lupus is unclear. • Factors that influence drug metabolism, such as acetylator status, have been implicated. • In addition, lupus-inducing drugs have been shown to generate a variety of cytotoxic products on exposure to MPO released from activated neutrophils. Epidemiology • Caucasians are affected by drug-induced lupus more commonly than Afro-Caribbeans, whereas the inverse is true of idiopathic SLE. • affect the 50-70-year age group most commonly, • has a male: female ratio of 1:1 Causes The most commonly associated drugs • procainamide • hydralazine 2, • quinidine. • Isoniazid (INH) - low risk • Sulfasalazine - low risk. • Carbamazepine • Phenytoin • Lamotrigine • anti-TNF alpha agents, • Interferons • Statins • minocycline. Minocycline associated with the development of long term immunological memory, and therefore exacerbation of symptoms within 12-24 hours of rechallenge. Risk factors • strongly positive ANA • HLA-DR4 phenotype (hydralazine-induced disease) • slow acetylator status Slow acetylators have increased risk of isoniazid-induced peripheral neuropathy, and hydralazine or procainamide-induced systemic lupus erythematosus (SLE). • large total daily doses of precipitating drugs Features • symptoms are said to appear some 3 weeks to 2 years after the onset of therapy • In drug-induced lupus not all the typical features of SLE are seen, with renal and nervous system involvement being unusual. • Lack of cutaneous involvement  presents with purpuric, erythematous, papular rash. They do not have a malar or discoid rash. skin (e.g. malar rash) (seen in 25%) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology However, drug induced lupus due to interferon and due to anti-TNF α agents, may present with malar or discoid rash, and may be anti-dsDNA antibody positive. • joint pains, myalgia and malaise are more common • pulmonary involvement (e.g. pleurisy) are common • Raynaud’s is seen in around 25% Laboratory features • ESR and C reactive protein (CRP) are both markedly elevated, • ANA is strongly positive (in 100%,) • hypergammaglobulinaemia. • Anti-dsDNA antibodies are usually negative; positive for anti-ssDNA antibody and typically negative for anti-dsDNA antibody. • antihistone antibodies are positive in 95% of drug-induced lupus (but also 50-80% of idiopathic SLE3). • anti-Ro, anti-Smith positive in around 5% • C3/C4 levels are usually normal. There are several features which distinguish drug-induced lupus from idiopathic SLE: • Males and females are equally affected in drug-induced lupus, whereas idiopathic SLE affects females nine times more frequently. • Caucasians are affected by drug-induced lupus more commonly than AfroCaribbeans, whereas the inverse is true of idiopathic SLE. • the age of onset is typically older in drug-induced lupus, but this depends on the age at drug exposure. • Fever, arthralgia, serositis and ANA occur at least as frequently in drug-induced lupus as idiopathic SLE. • Haematological, renal and central nervous system (CNS) involvement, and double-stranded DNA autoantibodies are rare. Treatment • Typically, no further treatment is required after Withdrawal of the precipitating drug • However, there are situations where corticosteroids or disease modifying antirheumatic drugs (DMARDs) are required to aid resolution. • The time taken for symptoms to resolve after stopping minocycline is highly variable, from a few days to two years. Prognosis • Spontaneous recovery usually occurs promptly Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad A woman with drug-induced lupus drugs that induce lupus do not need to be avoided in the idiopathic type of lupus. MRCPUK-part-2-march-2018: A female diagnosed with epilepsy, suffering from an erythematous rash over sun-exposed areas of her skin. Antihistone antibodies are positive. Which medication is the most likely cause of her rash? Phenytoin, carbamazepine and lamotrigine are associated with drug-induced lupus erythematosus Antiphospholipid syndrome • Antiphospholipid syndrome is an acquired disorder characterised by a predisposition to both venous and arterial thromboses, recurrent fetal loss and thrombocytopenia. • It may occur as a primary disorder or secondary to other conditions, most commonly systemic lupus erythematosus (SLE) • A key point for the exam is to appreciate that antiphospholipid syndrome causes a paradoxical rise in the APTT. This is due to an ex-vivo reaction of the lupus anticoagulant autoantibodies with phospholipids involved in the coagulation cascade Features • venous/arterial thrombosis • recurrent fetal loss • livedo reticularis • thrombocytopenia • prolonged APTT (raised aPTT which fails to correct after the addition of normal human plasma). • other features: pre-eclampsia, pulmonary hypertension False positive VDRL testing Associations other than SLE • other autoimmune disorders • lymphoproliferative disorders • phenothiazines (rare) Risk factor for thrombosis • Lupus anticoagulant is the greatest predictor of future thrombosis in patients with anti-phospholipid syndrome Diagnosis • antiphospholipid antibody syndrome (APAS) can be diagnosed if: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology the patient has anticardiolipin antibodies, or lupus anticoagulant on two occasions, over a period of 12 weeks, and either:  has had a thrombus, or  a history of recurrent < 10-week pregnancy loss, or one pregnancy loss > 10 weeks in gestation when other causes of pregnancy loss have been excluded. • Antibodies • the most clinically important autoantibodies directed against phospholipid binding plasma proteins are: The lupus anticoagulant Anti-beta-2 glycoproetin I antibodies, and The anticardiolipin antibodies. Management - based on BCSH guidelines • initial venous thromboembolic events: evidence currently supports use of warfarin with a target INR of 2-3 for 6 months Other opinion: The occurrence of even a single thrombotic event in a patient with antiphospholipid syndrome warrants lifelong anticoagulation, as the risk of recurrence is 20-70%. • recurrent venous thromboembolic events: lifelong warfarin; if occurred whilst taking warfarin then increase target INR to 3-4 • arterial thrombosis should be treated with lifelong warfarin with target INR 2-3. DD of a significantly prolonged APTT): Factor deficiency (factor VIII deficiency, factor IX deficiency and von Willebrand) factor VIII inhibitor factor VIII inhibitors are usually time dependent. As a result, when the initial 50:50 mix is done there is correction of the APTT; but if you repeat the APTT after allowing the 50:50 mix to incubate for two hours, there will be no correction. presence of lupus anticoagulant (LAC ) Coagulation tests to demonstrate the presence of the LAC are as follows:  Prolongation of a phospholipid-dependent coagulation test, for example, APTT, kaolin clotting time or others.  Demonstration of inhibitor by failing to correct the above coagulation test on 50:50 mixing studies by more than 50%. prolonged (APTT), which does not correct by a significant amount when patient's plasma is mixed with normal plasma.  Demonstrate phospholipid dependence-correction of the coagulation test used in (1) with phospholipid. Antiphospholipid syndrome: pregnancy Antiphospholipid syndrome: arterial/venous thrombosis, miscarriage, livedo reticularis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Antiphospholipid syndrome is an acquired disorder characterised by a predisposition to both venous and arterial thromboses, recurrent fetal loss and thrombocytopenia. • It may occur as a primary disorder or secondary to other conditions, most commonly systemic lupus erythematosus (SLE) In pregnancy the following complications may occur: • recurrent miscarriage • IUGR • pre-eclampsia • placental abruption • pre-term delivery • venous thromboembolism Management • low-dose aspirin should be commenced once the pregnancy is confirmed on urine testing • low molecular weight heparin once a fetal heart is seen on ultrasound. This is usually discontinued at 34 weeks gestation • these interventions increase the live birth rate seven-fold Juvenile idiopathic arthritis (JIA) (Still’s disease) Definition • The ACR criteria define juvenile rheumatoid arthritis (JRA) by age limit (< 16 y) and the duration of disease (> 6 weeks). Epidemiology • the most common form of arthritis in children and adolescents. • Prevalence: 1/1000 children • Sex: ♀ > ♂ Types • Oligoarticular JIA Most common form (accounts for 50% of all JIA cases) affects four joints or fewer during the first 6 months, has the highest risk of developing Chronic anterior uveitis (up to 25%)  Bilateral eye involvement is common RF negative ANA positive (∼70% of cases) Treatment  NSAIDs  Possibly intra-articular steroid injections  Possibly methotrexate • Polyarticular JIA 40% of cases characterised by inflammatory arthritis affecting five or more joints during the first 6 months of the disease. RF negative ANA positive (∼40% of cases) Treatment: Standard therapy with methotrexate and NSAID • Systemic-onset JIA (Still's disease) < 10% of cases presents with fever, arthritis and at least one of the following:  erythematous rash,  generalised lymphadenopathy,  Hepatosplenomegaly  serositis (including pleural and pericardial effusions) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology RF negative ↑ Acute phase reactants (e.g., CRP, ferritin) Treatment: Poor response to methotrexate and TNF inhibitors (etanercept, adalimumab) Risk factors • Exposure to antibiotics during childhood may increase the risk of JIA. Features Joint pain, daily spiking fevers, and a 'salmon-pink' rash are classic symptoms. • persistent non-tender joint swelling (The cardinal feature) The first manifestation of JIA is often limping, especially in young children.  The persistent swelling most often occurs in the large joints. Damage to joints is associated with a TH1 response. • Up to 25% of patients have a positive anti-nuclear antibody. • microcytic anaemia which tends to be resistant to iron replacement • pericarditis is often found. • hepatosplenomegaly, • JIA can decrease bone mass and increase the risk of osteoporosis. • ↑ESR (usually seen with all forms of JIA). • Rheumatoid nodules and rheumatoid factor are usually absent Rheumatoid factor (RF) is absent in most cases of JIA except seropositive polyarticular JIA. • anterior uveitis What eye condition is most commonly associated with this presentation? anterior uveitis.  about 30–50% of children with JIA have uveitis at diagnosis, especially those who are antinuclear antibody (ANA) positive.  The uveitis is typically asymptomatic at onset and must be screened for with an ophthalmologic slit lamp examination.  Untreated uveitis can be associated with cataracts, glaucoma and macular oedema  about 50–70% of people with severe uveitis develop visual impairment.  If a patient with (JIA) developed new-onset anterior uveitis despite treatment with subcutaneous methotrexate adalimumab (as adalimumab is more effective in treating uveitis than etanercept) Treatment • Options for pharmacotherapy include NSAIDs, corticosteroids, methotrexate, and anti-TNF biologicals. • Treatment with IL-6 receptor antibody has proved to be successful. • As per NICE guidance, if patient had not responded to methotrexate and should be considered for biologic therapy with either adalimumab, etanercept or tocilizumab. Prognosis • Anti-CCP antibodies indicate a poor prognosis. • Early disease onset is associated with a greater degree of growth impairment and deformity. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Adult onset Still's disease (AOSD) (Adult Still's disease) Adult-onset Still's disease →triad of persistent high spiking fevers, joint pain, and a distinctive salmon-colored bumpy rash. • typically affects 16-35-year olds Features • arthralgia • rash: salmon-pink, maculopapular ( most prominent with fever)  occurs in approximately 90% of patients often seen only when the patient is febrile and is easily missed. • pyrexia (> 39oC) especially in the afternoon and evening described as quotidian or diquotidian returning to 37°C or below between episodes. • lymphadenopathy • Hepatosplenomegaly, • There is often an accompanying sore throat and myalgia. Rarely there may be: • Aseptic meningitis • Cranial nerve palsies • Iritis, and • Peripheral neuropathy. Investigation • neutrophilic leukocytosis, thrombocytosis, • ↑ serum ferritin High serum ferritin, with low glycosylated fraction, are characteristic and can be used as disease activity markers. • ↑ESR and C-reactive protein. • Interleukin (IL)-1, IL-6, IL-18, macrophage colony stimulating factor, interferon gamma and TNF-alpha are all elevated. • rheumatoid factor (RF) and anti-nuclear antibody (ANA) negative Diagnosis • Diagnosis is clinical, and should include exclusion of infectious disease, neoplasms and other autoimmune disease. Treatment • non-steroidal anti-inflammatory drugs (NSAIDs), • corticosteroids, • disease-modifying anti-rheumatic drugs • biological agents. • Intravenous immunoglobulin may have a role. Prognosis • tends to be better when systemic symptoms predominate. Adult onset Still's disease is typically rheumatoid factor negative Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Raynaud's Definition • Raynaud phenomenon manifests as recurrent vasospasm of the fingers and toes and usually occurs in response to stress or cold exposure. Types • Primary Raynaud phenomenon (Raynaud disease). Raynaud disease is characterized by the occurrence of the vasospasm alone, with no association with another illness. Raynaud's disease typically presents in young women (e.g. 30 years old) with symmetrical attacks Around 2% of women and 6% of men with Raynaud's phenomenon develop systemic sclerosis. Diagnosis: Primary Raynaud's can be diagnosed if all the following are present:  Attacks triggered by exposure to cold and/or stress  No suspicion of underlying disease  Symmetrical episodes affecting both hands, but not necessarily all fingers  No tissue necrosis, ulceration, gangrene or severe ischaemia  Normal nail-fold capillaries (Normal capillaroscopy findings)  Normal ESR and negative anti-nuclear antibodies. • Secondary Raynaud phenomenon Secondary causes  connective tissue disorders: scleroderma (most common) (90%) mixed connective-tissue disease (85%) rheumatoid arthritis SLE  leukaemia  Hyperviscosity: polycythemia, paraproteinemias (plasmacytoma, Waldenstrom's disease), cryoglobulinemia, cold agglutinin disease  use of vibrating tools  Vasculitides: e.g., Buerger's disease  cervical rib  drugs: oral contraceptive pill, ergot methysergide (for intermittent migraine) beta-blockers vinblastine bleomycin Factors suggesting underlying connective tissue disease  onset after 40 years  Episodes lasting in excess of one hour episodes of secondary Raynaud's are longer Episodes of primary disease typically terminate within 15 minutes following warming in, but can often be prolonged in secondary disease.  unilateral symptoms  rashes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  presence of autoantibodies  features which may suggest rheumatoid arthritis or SLE, for example arthritis or recurrent miscarriages  digital ulcers,  calcinosis  very rarely: chilblains Investigations Which investigation would be most useful in determining whether the Raynaud’s is related to vasculitis? Nail fold capillaroscopy • The most useful initial assessment must include nail fold capillary loop examination, ideally by capillaroscope or, if not available, by ophthalmoscope using magnification.  method Nailfold capillaroscopy is performed by applying a drop of oil onto the periungual region of the nail and using an ophthalmoscope set to 40 diopter to examine.  interpretation Patients with connective tissue disorder such as systemic sclerosis most often will show dilated, distorted, paucity or missed nail fold capillary loops. Management • For primary Raynaud phenomenon: First line lifestyle measures.  The best initial line  Advise on lifestyle changes to reduce the frequency of the attacks, such as heated gloves, stopping smoking and avoiding the cold environments Second line pharmacologic treatment.  First pharmacologic line: calcium channel blockers e.g. nifedipine  IV prostacyclin infusions: effects may last several weeks/months indications if the patient does not respond to nifedipine Retard or Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology has developed digital ulceration or ischaemia  iloprost is a synthetic analogue of prostacyclin The urgent treatment of severe Raynaud’s with threatened or established gangrene is with intravenous iloprost. Third line non-pharmacologic treatment.  Digital sympathectomy should be considered as a last resort when drug therapy has failed or has not been tolerated. • For secondary Raynaud phenomenon:  Treatment of underlying disorder ACE inhibitors also have the best evidence for reno-protection where there is underlying autoimmune pathology.  If there is NO underlying autoimmune pathology ACEi has NO benefit ACE inhibitors and anti-platelet agents have been trialled in small case series, although no definitive benefit has yet been shown. Systemic sclerosis (SSc) • Systemic sclerosis is a chronic autoimmune disease characterised by increased fibroblast activity and fibrosis in a number of different organ systems. • characterised by hardened, sclerotic skin and other connective tissues. Epidemiology • It is four times more common in females (♀> ♂) • Higher incidence in African Americans • Peak incidence: 30–50 years Types: There are three patterns of disease: Limited cutaneous systemic sclerosis • The more common type of SSc. • Raynaud's may be first sign seen in 90-95% of patients with systemic sclerosis. • scleroderma affects face and distal limbs predominately Areas of skin affected include only the face, forearms and lower legs up to the knee. It does not affect the upper arms, upper legs, or trunk. • associated with anti-centromere antibodies • Previously known as CREST syndrome (Calcinosis, Raynaud's phenomenon, Esophageal dysmotility, Sclerodactyly, Telangiectasia) the most likely cause of this patient's dysphagia? Esophageal smooth muscle atrophy and fibrosis • Pulmonary hypertension is one of the more common late complications seen in CREST syndrome The most common cause of death • Malabsorption is most likely to develop as a further complication Involvement of GIT can occur from mouth to anus  can present with both diffuse and limited cutaneous forms.  Most GIT manifestations result from dysmotility secondary to infiltration of the intestinal wall with fibrous tissue,  can cause life-threatening malabsorption and malnutrition.  Gastric emptying is delayed in 10-75% of patients and causes symptoms of early satiety, bloating and emesis. Treatments include metoclopramide and erythromycin. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  small bowel is also involved in 20-60% of patients, due to reduced or absent migrating motor complexes predisposing to bacterial overgrowth. initial attempts at eradication of bacterial overgrowth with metronidazole, ciprofloxacin or co-amoxiclav is appropriate.  The contributes to malabsorption, as does associated pancreatic insufficiency.  In the colon there is often development of diverticuli involving all layers of the intestinal wall, or constipation due to reduced motility. 2. Diffuse cutaneous systemic sclerosis • less common. • scleroderma affects trunk and proximal limbs predominately (although face may be involved in either type) Skin areas involved include also the upper arms, thighs or trunk. • associated with scl-70 antibodies • hypertension, lung fibrosis and renal involvement seen Pulmonary involvement is the second commonest organ involvement after oesophageal disease and is the leading cause of death. Pulmonary fibrosis is associated with anti-Scl-70 antibodies in up to 70% of cases. scl-70 antibodies associated with a higher risk of severe interstitial lung disease Reduced DLCO is the earliest sign of pulmonary disease in systemic sclerosis, often before fibrotic changes manifest clinically. • Diffuse cutaneous systemic sclerosis may lead to scleroderma renal crisis (SRC) in up to 10% cases. The underlying pathology of SRC is vasospasm, Features  SRC may present with rapid onset renal failure,  malignant hypertension,  micro-angiopathic haemolytic anaemia with schistocytes.  Patients may develop symptoms of fluid overload. Other risk factors for SRC include:  corticosteroid use (prednisolone more than 15 mg/day),  recent onset scleroderma (less than three years), and  involvement of other systems. Treatment involves starting ACE inhibitors. • poor prognosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Scleroderma (without internal organ involvement) • tightening and fibrosis of skin • may be manifest as plaques (morphoea) or linear Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Antibodies • ANA positive in 90% therefore, in a negative test consider an alternative diagnosis • RF positive in 30% • Anti-centromere antibodies associated with limited cutaneous systemic sclerosis • Anti-scl-70 antibodies associated with diffuse cutaneous systemic sclerosis  (anti-Scl-70) also known as Anti-topoisomerase I antibodies associated with a higher risk of severe interstitial lung disease • Anti-RNA polymerase III antibodies found in patients with diffuse disease associated with:  rapidly progressive skin involvement  increased risk for scleroderma renal crisis.  increased risk for cancer Other investigations • Serum protein electrophoresis: ↑ γ-globulins Treatment • Immunosuppressive therapy: e.g., methotrexate • Organ-specific therapy: gastroesophageal reflux disease PPIs Renal crisis ACE inhibitors  Renal crises result from an acute renal vasculopathy with associated hyperreninaemia, not glomerulonephritis.  ACE inhibitors in the acute setting improves long term survival, end organ damage due to hypertension, and can lead to an improvement in renal function even up to 2 years after crisis. Interstitial lung disease secondary to underlying diffuse systemic sclerosis:  The most appropriate treatment is cyclophosphamide  Azathioprine is normally used as maintenance therapy following cyclophosphamide. Prognosis • U&Es have a crucial role with respect to determining prognosis and appropriate therapeutic intervention. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • the most important initial investigation with respect to determining patient outlook ? Urea and electrolytes Sclerodema renal crisis • A major complication of systemic sclerosis • Severe and life threatening renal disease develops in approximately 10-15% of patients. • Features severe hypertension, with diastolic BP over 100 mmHg, usually with grade III or IV hypertension retinopathy, together with rapid deterioration of renal function and heart failure; symptoms of malignant hypertension, with headaches, blurred vision, fits and heart failure. haematological tests often demonstrate a thrombocytopenia and/or microangiopathic haemolysis. • Treatment Hypertension ACE inhibitor (calcium channel blockers can be added).  While ACE inhibitors are generally avoided in most patients with acute renal failure, scleroderma renal crisis is an exception to the rule as long as renal function is closely monitored. Renal dialysis may be required. An excessive reduction in BP or hypovolemia (should be avoided) ↓renal perfusion acute tubular necrosis. Thus, parenteral antihypertensive agents (such as intravenous nitroprusside or labetalol) should be avoided. Morphea (localised scleroderma) Definition • idiopathic inflammatory skin condition which causes excessive collagen deposition and fibrosis. Types • Morphea is classified into subtypes according to the clinical presentation and depth of tissue involvement: circumscribed morphea,  the commonest form, "circumscribed/plaque" morphea. 054 - Pages 1326-1350 054 Pages 1326-1350 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  This is a well-defined oval to round plaque that fails to meet the criteria for generalised morphea. generalized morphea, linear morphea pansclerotic morphea Pathophysiology • autoimmune component is suggested by enhanced T helper 2 (Th2) dependent interleukin 4 (IL-4) activity, which in turn upregulates transforming growth factor beta (TGF -beta). • TGF-beta stimulates fibroblast production of collagen and other extracellular matrix proteins. Features • Unlike systemic sclerosis, morphea lacks features such as sclerodactyly, Raynaud phenomenon, nailfold capillary changes, telangiectasias, and progressive internal organ involvement. • Morphea can present with extracutaneous manifestations, including fever, lymphadenopathy, arthralgias, fatigue, central nervous system involvement, Investigations • Hypergammaglobulinaemia (↑↑IgM , IgG) • peripheral eosinophilia • ↑↑ESR and CRP • Anti-Cu/Zn superoxide dismutase antibodies have been found in up to 90% Treatment • Superficial circumscribed morphea Tacrolimus 0.1% ointment applied twice daily for 12 weeks may be a useful firstline • Generalized, linear, or deep morphea combination therapy with oral prednisone and methotrexate To minimize the risk of relapse, the recommended treatment duration of MTX is at least 2 years. Systemic corticosteroids can be helpful in the inflammatory phases of morphea, but they are not recommended for long-term monotherapy Mycophenolate mofetil is a second-line Prognosis • generally resolves within 3–5 years, although sometimes a patch may persist for over 25 years. Polymyalgia rheumatica (PMR) Pathophysiology • overlaps with temporal arteritis 30% of patients also have giant cell arteritis. • histology shows vasculitis with giant cells, characteristically 'skips' certain sections of affected artery whilst damaging others • muscle bed arteries affected most in polymyalgia rheumatica Epidemiology • occurring in patients age 50 years or older. • More common in women Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Features • typically patient > 60 years old very rarely seen in the under 50s. • usually rapid onset (e.g. < 1 month) • typically presents with pain and stiffness of the shoulder and pelvic girdle muscles. • aching, morning stiffness in proximal limb muscles (not weakness) Pain and muscle stiffness worst in the mornings • mild polyarthralgia, lethargy, • depression, • low-grade fever, anorexia, night sweats • Weight loss Investigations • ESR > 40 mm/hr the next best investigation a high ESR would prompt immediate treatment with steroids. • Raised C reactive protein (CRP) • Alkaline phosphatase is an acute-phase reactant and is raised in approximately a third of patients with polymyalgia rheumatica. • note CK and EMG normal • reduced CD8+ T cells • Normochromic / normocytic anaemia Differential diagnosis • Giant cell arteritis (GCA) GCA and PMR frequently co-exist, cranial symptoms including headache, jaw claudication, and vision symptoms are typically absent in patients with PMR. PMR typically has less prominent symptoms than GCA. Treatment • prednisolone e.g. 15mg/od - dramatic response Response to a moderate dose of steroids can be useful in confirming the diagnosis of PMR. The maximum dose of prednisolone should not exceed 20 mg once daily. Patients should report 70% improvement in symptoms within three to four weeks, and inflammatory markers should have normalised by this point. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Calcium and vitamin D supplementation should be initiated for all patients with PMR who are starting corticosteroid therapy. Bisphosphonates should be added for long term steroid therapy. The usual starting dose is 15 mg prednisolone per day. Patients should expect relief of symptoms within 24-72 hours.  One of the best ‘tests’ for Polymyalgia Rheumatica (PMR) is how patients respond to corticosteroid therapy. Tapering  Tapering should be guided by clinical response.  The dose should be increased if symptoms are not well controlled within one week.  The effective starting dose should be maintained for two to four weeks after the patient becomes asymptomatic.  Generally, the daily dose can be lowered by 1.0-2.5 mg every two to four weeks to find the minimum dose needed to maintain symptom suppression. Once the patient is reduced to 10 mg per day, the daily dose can be tapered by 1 mg every four weeks.  Approximately 50-75% of patients can discontinue corticosteroid therapy after two years of treatment. Methotrexate and azathioprine  If symptoms relapsed when the dose of prednisolone has been reduced below the current dose, Continue the current dose of prednisolone and start methotrexate  used in patients with corticosteroid intolerance or as corticosteroid-sparing agents.  These are generally reserved for patients in whom it has been difficult to reduce the prednisolone after prolonged high dosages (for example, 10 mg or more per day for more than a year).  These agents should be added to the prednisolone initially, but with a view to slowly reduce and withdraw prednisolone.  As with steroid therapy, azathioprine or methotrexate can be discontinued if there has been sufficient response. Prognosis • Rapid improvement often occurs within 24 to 72 hours with low-dose prednisolone. Temporal arteritis (Giant cell arteritis (GCA) Overview • also known as giant cell arteritis (GCA). • Temporal arteritis is large vessel vasculitis • overlaps with polymyalgia rheumatica (PMR). • Histology shows changes which characteristically 'skips' certain sections of affected artery whilst damaging others. • It is a clinical emergency. GCA should always be considered in elderly patients with headaches, ocular symptoms (e.g. acute monocular visual loss), systemic symptoms and high ESR. Suspected GCA glucocorticoids immediately, even before diagnostic evaluation by temporal artery biopsy is complete. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Epidemiology • Sex: ♀ > ♂ • Peak incidence: 70–79 years; rarely seen in patients < 50 years Features • typically, patient > 60 years old The greatest risk factor for (GCA) is aging. almost never occurs before age 50 • usually rapid onset (e.g. < 1 month) • headache (found in 85%) • jaw claudication (65%) is a very specific sign for temporal arteritis. • visual disturbances ( 50% )  secondary to anterior ischemic optic neuropathy 15-20% of patients develop permanent visual loss. • tender, palpable temporal artery • features of PMR: aching, morning stiffness in proximal limb muscles (not weakness) • also, lethargy, depression, low-grade fever, anorexia, night sweats • Large vessel GCA : Subclinical involvement of the aorta and large arteries is frequent, a clinical consequence of which can be aortic aneurysm (in 10 to 20 % of cases ). Investigations • Raised inflammatory markers: ESR > 50 mm/hr (note ESR < 30 in 10% of patients). CRP may also be elevated ESR can be within normal range in 5-10% of GCA cases. • Temporal artery biopsy: the definitive diagnostic test skip lesions may be present (certain sections of affected artery whilst damaging others) An adequate length of temporal artery (3 to 5 cm) should be obtained because inflammatory lesions may be present in a segmental fashion. A negative temporal artery biopsy can occur in up to 50% of patients, often because the sampled region was not involved in the pathologic process. Therefore, it is not sensitive enough to rule out temporal arteritis. Treatment should not be delayed while waiting for the biopsy to be performed. • Note: creatine kinase and EMG normal Diagnosis • The American College of Rheumatology 1990 criteria requires 3 of the following for GCA diagnosis: Age >50 y/o New onset localised headache Temporal artery tenderness or decreased pulsation ESR >50mm/hr Temporal artery biopsy positive Treatment • High-dose prednisolone there should be a dramatic response, if not the diagnosis should be reconsidered Current BSR guidelines recommend:  Uncomplicated GCA (no jaw or tongue claudication, or visual symptoms) prednisolone 40-60 mg daily  Complicated GCA: (with visual involvement and/or jaw/tongue claudication) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Evolving visual loss or history of amaurosis fugax: IV methylprednisolone 500 mg-1 g daily for three days, followed by oral corticosteroids Established visual loss: at least 60 mg prednisolone daily • Urgent ophthalmology review. Patients with visual symptoms should be seen the same-day by an ophthalmologist. Visual damage is often irreversible • As GCA requires long-term steroid therapy bone sparing agents (a bisphosphonate and vitamin D) and a gastroprotective drug (e.g omeprazole) should be prescribed. • Also, low dose aspirin should be considered as it has been shown to reduce the rate of visual loss and cerebrovascular accidents in GCA. Polyarthritis Differential diagnosis • rheumatoid arthritis • SLE • seronegative spondyloarthropathies • Henoch-Schonlein purpura • sarcoidosis • tuberculosis • pseudogout • viral infection: EBV, HIV, hepatitis, mumps, rubella Polyarteritis nodosa (PAN) Definition • systemic vasculitis of the medium-sized vessels, with necrotizing inflammation leading to aneurysm formation and tissue ischemia; • most commonly involving skin, peripheral nerves, muscles, joints, gastrointestinal tract, and kidneys . • any organ with the exception of the lung can be affected, Epidemiology • Peak incidence: ∼45–65 years • Sex: ♂ > ♀ • more common in middle-aged men Pathophysiology • diffuse vascular inflammation and ischaemia of the affected organs. • PAN is a medium-vessel vasculitis that is a type III hypersensitivity reaction. Association • hepatitis B infection Features • Nonspecific symptoms: (found in 65% to 80% of patients) fever, malaise, arthralgia, weight loss • Neurological involvement: (in 55% of patients) polyneuropathy (mononeuritis multiplex), cerebral ischemia (stroke) • Skin involvement: (in 44%) skin rash, Skin ulcers, nodules livedo reticularis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • Renal involvement : (in 11%) hypertension,  Hypertension is a manifestation of renal ischaemia via activation of the reninangiotensin system. haematuria  but red cell casts are absent because glomerular inflammation is not a feature. renal impairment • Coronary artery involvement ; increased risk of myocardial infarction • GI involvement: abdominal pain, nausea, vomiting can present with abdominal pain and melena due to involvement of the mesenteric arteries. • Testicular pain testicular pain from ischaemic orchitis is a characteristic feature uncommon presentation • Usually spares the lungs PAN should be considered in young adults presenting with stroke or myocardial infarction The diagnosis may be confirmed with a biopsy of involved tissue Livedo reticularis Diagnosis • The American College of Rheumatology (ACR) 1990 criteria Three of the following 10 criteria are required: Weight loss ≥4 kg Livedo reticularis Testicular pain or tenderness Myalgias, weakness, or leg tenderness Mononeuropathy or polyneuropathy Diastolic blood pressure >90 mmHg Elevated urea or creatinine Positivity for hepatitis B virus (HBV) infection Arteriographic abnormality Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 10.Biopsy of small- or medium-sized artery containing polymorphonuclear leukocytes. Investigations • Hepatitis B surface antigen is positive in 30%, • p-ANCA is positive only in 20%. ANCA is classically negative in PAN. • Angiography: Conventional angiography is the imaging modality of choice, and should be performed if there is a clinical suspicion of PAN. typically demonstrates:  microaneurysms and  focal narrowing in medium-sized blood vessels. • Biopsy should be performed if angiography is not available or does not conclusively show a medium-vessel vasculitis.  Shows:  focal and segmental transmural necrotising inflammation with fibrinoid necrosis in medium-sized vessels.  pleomorphic cellular infiltrate of lymphocytes, neutrophils, macrophages, and eosinophils.  granulomas are absent. Differential diagnosis • PAN are differentiated from the other small- and medium-vessel vasculitides by:  absence of anti-neutrophil cytoplasmic antibodies, Glomerulonephritis is not a feature of PAN, but it is common in anti-neutrophil cytoplasmic antibodies (ANCA) vasculitis. Making this distinction early by way of urinalysis for protein, blood, and casts is a simple first-line test that can guide further investigation and treatment.  Red cell casts are absent in PAN  If there is evidence of glomerular inflammation such as urinary casts, then an alternative diagnosis such as microscopic polyangiitis (MPA) or granulomatosis with polyangiitis (Wegener's) (GPA),must be considered. lung involvement is not seen in PAN, and abnormal respiratory findings should suggest an alternative diagnosis and by confirmation that small vessels (i.e., arterioles, capillaries, venules) are not involved. Treatment • idiopathic PAN corticosteroids and cyclophosphamide • hepatitis B related disease plasmapheresis and antiviral agents. • Azathioprine can be used as maintenance therapy, and typically has fewer side effects than cyclophosphamide. Cyclophosphamide causes premature ovarian failure and infertility in both men and women. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Granulomatosis with polyangiitis (Wegener's granulomatosis) Overview • Granulomatosis with polyangiitis is now the preferred term for Wegener's granulomatosis. • It is an autoimmune condition associated with a necrotizing granulomatous vasculitis, affecting both the upper and lower respiratory tract as well as the kidneys. • the classical triad consists of necrotising granulomatous inflammation of the respiratory tract, glomerulonephritis small-vessel vasculitis. Features • upper respiratory tract: epistaxis, sinusitis, nasal crusting • saddle-shape nose deformity • lower respiratory tract: dyspnoea, haemoptysis migrating alveolar shadowing • rapidly progressive glomerulonephritis ('pauci-immune', 80% of patients) It usually presents with rapidly progressing renal failure (within three months), proteinuria and microscopic haematuria. • also: vasculitis (causing carotid artery tenderness) vasculitic rash, eye involvement (e.g. proptosis), cranial nerve lesions Investigations • c-ANCA (PR3-ANCA (targeting peroxidise-3) positive in > 90%, p-ANCA (MPO-ANCA (targeting myeloperoxidase) positive in 25% cANCA directed against proteinase-3 cANCA is highly specific, but is found in only 50% of patients with disease localised to the respiratory tract and 95% with generalised Wegener's. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  In active Wegener’s disease with renal involvement cANCA is highly sensitive and specific. After disease remission cANCA may remain elevated for years, and is not useful in evaluating patients for relapse. • chest x-ray: wide variety of presentations, including cavitating lesions • tissue biopsy renal biopsy:  epithelial crescents in Bowman's capsule  Kidneys show vasculitis and glomerulonephritis and occasional (NOT always ) granulomata Lung biopsy has a high diagnostic yield  show vasculitis and granulomas Biopsy of the upper respiratory tract shows granulomas but not vasculitis. Management • steroids Prednisolone is given in doses of around 1 mg/kg per day initially, after which the dose is reduced rapidly, typically at weekly intervals. In case of renal failure with indications for dialysis, the initial management Methylprednisolone  Methylprednisolone should be given immediately, followed by haemodialysis and then cyclophosphamide. • cyclophosphamide (90% response) The combination of prednisolone and cyclophosphamide is now established as the standard therapy and the treatment of choice for induction of remission in Wegener's granulomatosis Cyclophosphamide: Traditionally, oral dose (2 mg/kg per day), but latterly intravenous boluses have proved increasingly popular, given in doses of 0.5-0.75 g/m2 body surface area at intervals of 2 weeks (at least for short periods) to 2 months. If a patient had a vasculitic neuropathy. Current practice is to use cyclophosphamide for induction therapy. • Both rituximab and methotrexate have also been used for induction therapy in ANCAassociated vasculitis, although they would not be first-line treatment. • Azathioprine is used as maintenance treatment following cyclophosphamide • ciclosporin is rarely used in the management of ANCA-associated vasculitis. • Evidence from controlled trials suggests that once remission is achieved azathioprine or methotrexate may be reasonable alternatives to cyclophosphamide. • In refractory Wegener's, both infliximab and rituximab have shown some degree of promise. • plasma exchange • in case of decreased conscious level with acute renal failure (with indication for dialysis) and respiratory function is failing. The first immediate step Endotracheal intubation and positive pressure ventilation, transfer the patient to a critical care setting (especially to protect airway with a GCS 8/15). Prognosis • median survival = 8-9 years Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Microscopic Polyangiitis • Microscopic polyangiitis is similar to wegener’s granulomatosis except in 3 things: it only affects small blood vessels in the lungs or kidneys.  No nasopharyngeal damage like wegener's Associated with p-ANCA antibodies.  anti-MPO (pANCA, 45%) antibody is strongly positive than anti-PR3 (cANCA, 30%) No granuloma on biopsy Churg-Strauss syndrome • Churg-Strauss syndrome is an ANCA associated small-medium vessel vasculitis. • also known as Eosinophilic granulomatosis with polyangiitis Features • asthma • paranasal sinusitis • mononeuritis multiplex • blood eosinophilia (e.g. > 10%) • Serum IgE is very commonly elevated and correlates with disease severity. • pANCA positive in 60% • Commonly associated with antimyeloperoxidase antibodies. • Non-fixed pulmonary infiltrates visible on chest radiographs • Rarely, it can cause ischaemic optic neuropathy, which presents with visual loss. Leukotriene receptor antagonists may precipitate the disease Diagnosis • It is diagnosed clinically, although a biopsy should be sought for pathological confirmation. • Skin biopsy reveals small-vessel arteriopathy with granuloma formation and is the diagnostic investigation of choice. Blood vessels with extravascular eosinophils on biopsy. PR3 antibody is associated with Wegener's granulomatosis, MPO antibody is associated with microscopic polyangiitis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • High-dose methylprednisolone, with or without cyclophosphamide is the treatment of choice Prognosis • Without treatment, the 5-year survival rate for Churg-Strauss syndrome is around 25%; with appropriate therapy this rises to over 60%. Idiopathic pulmonary haemosiderosis Definition • recurrent episodes of diffuse alveolar hemorrhage of unknown aetiology Prevalence • rare • tends to occur in younger people Features • pallor, • weakness, lethargy, • dry cough and occasional haemoptysis • no extrapulmonary features. • After recurrent episodes of hemorrhage, pulmonary fibrosis may develop due to iron accumulation. Investigations • no abnormal immunological features, which differentiates it from Goodpasture syndrome and wegener’s • Gas transfer is elevated as blood is already in the alveolar space. • chest radiograph and high resolution computed tomography demonstrate ground glass alveolar opacities that are often bilateral. • final diagnosis requires lung biopsy documentation of large numbers of hemosiderinladen macrophages in the alveoli, without evidence of vasculitis, capillaritis, inflammation, granulomas, or deposition of immunoglobulins in any specific pattern. Treatment • glucocorticoids +/- another immunosuppressive agent (eg, azathioprine, or cyclophosphamide) pulmonary hemorrhage without immunological features  Idiopathic pulmonary haemosiderosis pulmonary hemorrhage + immunological features Goodpasture or wegener’s Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Henoch-Schonlein purpura Overview • Henoch-Schonlein purpura (HSP) is an IgA mediated small vessel vasculitis • involving mainly the blood vessels of the skin, GI tract, the kidneys and the joints. • 90% of cases of HSP occur in children aged 2-10 years but can occur in any age group. • In children, (HSP) is the most common cause of vasculitis affecting the kidneys. • typically commoner in males, • may follow an infectious agent. • It can present one to three days following infection of an IgA secreting mucous membrane (commonly following pharyngitis, but can occur following infection of the gastrointestinal tract, bladder or breast). • An important risk factor in adults chronic alcohol intake. • associated with: Helicobacter pylori, hepatitis B and malignancy. Features HSP is characterised by the tetrad of: • purpura • abdominal pain • arthritis, and • renal involvement (haematuria and proteinuria). Patients with proteinuria have a worse prognosis than patients with haematuria alone. • palpable purpuric rash (with localized oedema) over buttocks and extensor surfaces of arms and legs (due to a cutaneous vasculitis) • abdominal pain (due to gut vasculitis, which may be severe in some cases, leading to bloody diarrhoea) • polyarthritis (common symptom) • features of IgA nephropathy may occur e.g. haematuria, renal failure HSP nephritis becomes clinically manifest in only 20-30%. It usually presents as macroscopic haematuria and proteinuria Of those patients with renal involvement, as many as 10% may develop chronic renal failure and end-stage renal disease. However, fewer than 1% of all patients with HSP suffer this poor prognosis. Diagnosis • Skin biopsy and immunofluorescence demonstrate leukocytoclastic vasculitis with IgA deposition,( meaning lots of white blood cells in the skin around small blood vessels) which is pathognomonic for HSP. Immunofluorescence studies will reveal IgA deposits within blood vessel walls Treatment • analgesia for arthralgia • treatment of nephropathy is generally supportive. All patients with hypertension and proteinuria (greater than 1 g/day) should be started on an angiotensin-converting enzyme (ACE) inhibitor, which may control the BP and proteinuria. Once the BP has been controlled, patient should have a renal biopsy, and if this showed changes of a crescentic glomerulonephritis (GN), then an immunosuppression regime similar to that used in renal vasculitis should be started (probably with high dose steroids in the first instance +/- cyclophosphamide). There is inconsistent evidence for the use of steroids and immunosuppressants Management of HSP in adults often involves the use of immunomodulatory or immune-suppressive regiments (in contrast to children where the majority of cases resolve spontaneously). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prognosis • usually excellent, HSP is a self-limiting condition, especially in children without renal involvement • There is often a more complicated course in adults, and 50% of patients who present with renal involvement develop renal insufficiency. • around 1/3rd of patients have a relapse MRCPUK-part-1-September 2019 exam: What is the most likely renal outcome in HenochSchonlein purpura? Full renal recovery Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Kawasaki disease Overview • Kawasaki disease is a type of vasculitis which is predominately seen in children. • Whilst Kawasaki disease is uncommon it is important to recognise as it may cause potentially serious complications, including coronary artery aneurysms Features • high-grade fever which lasts for > 5 days. Fever is characteristically resistant to antipyretics • conjunctival injection • bright red, cracked lips • strawberry tongue • cervical lymphadenopathy • red palms of the hands and the soles of the feet which later peel Diagnosis • Kawasaki disease is a clinical diagnosis as there is no specific diagnostic test Management • high-dose aspirin Kawasaki disease is one of the few indications for the use of aspirin in children. Due to the risk of Reye's syndrome aspirin is normally contraindicated in children. • intravenous immunoglobulin Combination therapy with intravenous immunoglobulin (IVIG) and aspirin during the acute phase of Kawasaki disease produces a more marked antiinflammatory effect and reduction in coronary artery abnormalities than does aspirin alone. • echocardiogram (rather than angiography) is used as the initial screening test for coronary artery aneurysms Complications • coronary artery aneurysm (25% of cases) • lakayasu1s arter1 t1s Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Takayasu’s arteritis Definition • Chronic inflammatory granulomatous pan-arteritis of the major arteries It typically causes occlusion of the aorta (the ascending arch of the aorta) The subclavian artery is commonly affected, and subclavian steal syndrome may occur The brachial, radial and ulnar arteries can also be involved. Pathology • continuous or patchy granulomatous inflammatory process involving macrophages, lymphocytes, and multinucleated giant cells which causes progressive occlusive disease of the aorta and its branches. Epidemiology • most commonly affects women (the ratio of women to men is 8:1). • typical age onset of 25-30 years. • most common in Asia. Features • questions commonly refer to an absent limb pulse. • systemic features of a vasculitis e.g. malaise, headache • unequal blood pressure in the upper limbs • carotid bruit • vascular symptoms such as claudication. (intermittent claudication) • systemic symptoms of fever, arthralgia and weight loss. • neurological symptoms such as transient ischaemic attacks. • Cardiac features include angina, heart failure, and aortic regurgitation. • Renal manifestations may include mesangial proliferative glomerulonephritis. • aortic regurgitation (around 20%) • ESR and CRP are usually elevated, • levels of pentraxin 3 may be a useful marker of disease activity. Associations • renal artery stenosis Treatment • Corticosteroids with the addition of steroid sparing second agents such as methotrexate or azathioprine are the mainstay of therapy. Prognosis • With good care, 15-year survival rates approach 90%. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Subclavian steal syndrome (SSS) The proximal part of left subclavian is blocked on left side so no flow in vertebral and to left arm. Blood from right vertebral enters left vertebral and flows back to supply left arm Etiology • Atherosclerosis • Cervical rib • Takayasu's arteritis Features • Presyncope (sensation that one is about to faint) • Syncope (fainting) • Neurologic deficits • Blood pressure differential between the arms • severe memory problems • hands showing circulation problems (hands can have blotchy patches of red and white) (associated with other stigma to vascular disease (e.g. vascular insufficiency ulcers of the foot). Buerger’s disease Overview • Thromboangiitis obliterans (Buerger’s disease) is a disease of small and medium-sized arteries and veins resulting in inflammation and ulceration, in which the distal vessels become blocked in the hands and feet. • There is no excessive atheroma and it does not involve the coronary arteries like atherosclerosis. • The disease occurs mainly in cigarette smokers; it has not been documented in nonsmokers. • Although there is florid histological inflammation within vessels, the disease is not a systemic vasculitis, is not accompanied by any elevation in acute phase markers and does not respond to immune suppression. Epidemiology • Prevalence is higher in men and people of Far Eastern origin. • seen in young (usually < 40 years) male smokers. Feature • symptoms of arterial ischaemia resulting in gangrene of the digits. claudication with diminished or absent pulses. The feet or legs may be cyanosed or dusky; the skin is thin and without hair. Ulcerations occur, and necrosis follows • Migratory phlebitis in the superficial vein is present in 40% of cases. Diagnosis • usually clinical. • Arteriogram will show occlusion of distal arteries of the hands and feet. • Histopathology examination of affected arteries reveals fresh inflammatory thrombus within both small and medium-sized arteries and veins, with giant cells surrounding the thrombus. Treatment • Supportive • stop smoking. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prognosis • can be excellent (i.e. complete resolution of symptoms) with smoking cessation • in some cases, however, amputation is unavoidable IBD-associated arthropathy • The history of weight loss, diarrhoea and a mono/oligo-arthropathy suggests a diagnosis of inflammatory bowel disease (IBD). • IBD-associated arthropathy is considered a subtype of seronegative spondyloarthropathy. • A variety of joint involvement has been described, from large joint pauciarticular arthropathy to a rheumatoid pattern polyarthropathy. • Peripheral arthritis is generally non-erosive and the oligoarticular variant particularly may correlate with intestinal disease activity. • Axial arthritis may include inflammatory back pain, sacroilitis, or ankylosing spondylitis and is less likely to correlate with gastrointestinal symptoms. • mechanisms remain unclear. • Treatment of the gastrointestinal disease is not always sufficient for control of arthritis, and biologic agents may be indicated. The description of weight loss, diarrhoea and a mono/oligo-arthropathy suggests a diagnosis of inflammatory bowel disease. (IBD). Differential diagnoses of arthropathies associated with iron deposition in the joints →brown-stained synovial fluid. • Haemophilia • Haemosiderosis from recurrent haemarthrosis • Haemochromatosis, and • Pigmented villonodular synovitis (PVNS). SAPHO syndrome SAPHO is an acronym for synovitis, acne, pustulosis, hyperostosis, and osteitis. It is characterised by osteosclerotic bone lesions, sterile osteomyelitis, and a variety of skin lesions. • Synovitis - may be present rarely, and associates with erosions. • Acne - may be severe (conglobate or fulminans) and recur with new bony involvement. • Pustulosis - palmo-plantar pustulosis occurs in approximately 50% of patients, other skin lesions may include psoriasis, hidradenitis suppurativa, acne, and rarely Sweet's syndrome. • Hyperostosis (increase in bone substance) and osteitis (inflammation of the bones) - the bony lesions typically involve the acromioclavicular, and sternoclavicular joints. Other sites include anterior chest wall, sternum, clavicle, pubic symphysis, spine, and mandible. These lesions are visualised on 99m technetium bone scan or MRI. The cause of the SAPHO syndrome is unknown. Investigation • skin lesions are characterised by neutrophilic pseudoabscesses. • Bone biopsy can reveal sterile osteomyelitis. Diagnosis should be suspected when there is an association of rheumatic pain with a pustular skin disease. treatment • no specific treatment, • some cases remit spontaneously Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • Typical treatment can be used for the arthritic symptoms (i.e. non-steroidal antiinflammatories and disease modifying anti-rheumatic agents). • Isotretinoin and aciretin can be used to treat the skin disease. • In the more severe cases corticosteroids, calcitonin, bisphosphonates and TNF-inhibitors can be used. Elbow pain The table below details some of the characteristic features of conditions causing elbow pain: Lateral epicondylitis (tennis elbow) Features • pain and tenderness localised to the lateral epicondyle • pain worse on resisted wrist extension with the elbow extended or supination of the forearm with the elbow extended • episodes typically last between 6 months and 2 years. Patients tend to have acute pain for 6-12 weeks • most appropriate to gain short term relief for the patient?  Local steroid/anaesthetic injection Medial epicondylitis (golfer's elbow) Features • pain and tenderness localised to the medial epicondyle • pain is aggravated by wrist flexion and pronation • symptoms may be accompanied by numbness / tingling in the 4th and 5th finger due to ulnar nerve involvement Radial tunnel syndrome • Most commonly due to compression of the posterior interosseous branch of the radial nerve. • It is thought to be a result of overuse. Features • symptoms are similar to lateral epicondylitis making it difficult to diagnose • however, the pain tends to be around 4-5 cm distal to the lateral epicondyle • symptoms may be worsened by extending the elbow and pronating the forearm Cubital tunnel syndrome Due to the compression of the ulnar nerve. Features • initially intermittent tingling in the 4th and 5th finger • may be worse when the elbow is resting on a firm surface or flexed for extended periods • later numbness in the 4th and 5th finger with associated weakness Olecranon bursitis Swelling over the posterior aspect of the elbow. There may be associated pain, warmth and erythema. It typically affects middle-aged male patients. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Shoulder problems The table below summarises the key features of common shoulder problems: Condition Notes Adhesive capsulitis (frozen shoulder) Common in middle-age and diabetics Characterised by painful, stiff movement Limited movement in all directions, with loss of external rotation and abduction in about 50% of patients Supraspinatus tendonitis (Subacromial impingement, painful arc) Rotator cuff injury Painful arc of abduction between 60 and 120 degrees Tenderness over anterior acromion Prepatellar bursitis  The most useful in initial diagnosis of prepatellar bursitis  Crepitation of the knee Polymyositis Polymyositis is the commonest cause of inflammatory muscle disease in people under 50years-old (inclusion body myositis is the commonest in those over 50-years-old). Definition • Inflammatory disorder causing symmetrical, proximal, painless muscle weakness Pathophysiology • thought to be a T-cell mediated cytotoxic process directed against muscle fibres Epidemiology • Typically affects middle-aged • Female: male 3:1 Associated conditions • Connective tissue disorders • Interstitial lung disease → evaluate with chest x-ray and pulmonary function tests. • Malignancy , commonly Adenocarcinomas , stronger for dermatomyositis, than for polymyositis. The most appropriate next investigation CT chest, abdomen and pelvis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Features • Proximal muscle weakness +/- tenderness • Raynaud's • Mechanics hands found in a subtype of polymyositis called anti-synthetase syndrome or Jo-1 syndrome →fissuring and cracking on the distal digital pads of several fingers. • Respiratory muscle weakness • Interstitial lung disease: e.g. fibrosing alveolitis or organising pneumonia • Dysphagia, dysphonia Investigations • Elevated creatine kinase (the initial investigation) • Electromyography (EMG): abnormal in almost all patients (90%). Triad of: Short, small polyphasia motor units Fibrillation and sharp waves Bizarre, repetitive discharges • Muscle biopsy the definitive investigation to establish the diagnosis Histopathology endomysial mononuclear inflammatory infiltrate with CD8 T cells (MHC class I) and muscle fiber necrosis. • Anti-Jo-1 antibodies seen in pattern of disease associated with lung involvement, Raynaud's and fever • Antinuclear antibody - Positive in one third Treatment • Prednisolone is the mainstay of treatment, at an initial dose of 1 mg/kg/d. • In patients who fail to show improvement, disease-modifying steroid-sparing agents may be added. • A high-protein diet and supervised exercise may further improve symptoms. Prognosis • Most patients have a favourable response to corticosteroid therapy, and 5-year survival rates approach 80%. Dermatomyositis Proximal weakness with normal reflexes and sensation and absence of fasciculations: without skin lesion →polymyositis with skin lesion → dermatomyositis Definition • Dermatomyositis is a variant of an inflammatory myositis causing symmetrical, proximal muscle weakness and characteristic skin lesions, for example a purple Heliotrope rash on the cheeks and eyelids or Gottron's papules: roughened red papules over extensor surfaces of fingers Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pathophysiology • Autoantibodies binding to the vasculature, muscle atrophy, and lymphocytic inflammation • caused by CD4 T cells that cause perimysial inflammation and atrophy. Features • Features of polymyositis (proximal muscle weakness, Raynaud's, respiratory muscle weakness, interstitial lung disease, dysphagia, dysphonia) • Pathognomonic skin features Heliotrope rash in the periorbital region  a violaceous or erythematous rash in a symmetrical distribution involving periorbital skin.  its presence is highly suggestive of dermatomyositis . Gottron's papules: roughened red papules over extensor surfaces of fingers • Other skin lesions Photodistributed erythema, poikiloderma, nailfold changes Mechanic's hands: (rough, cracked skin) Fingers telangiectasia: Nail fold capillary dilatation. Shawl sign: macular rash over back and shoulder V-neck sig : Violaceous erythema or poikiloderma involving the anterior chest • ↑↑↑risk of malignancy Associated features • Malignancies (dermatomycotic increases the risk of malignancy more than polymyositis ). typically lung cancer, found in 20-25% • Interstitial lung disease (ILD) occurs in at least 10% Image shows: Gottron’s papules Image shows: Heliotrope rash Investigations • Elevated creatine kinase → the most helpful initial test • EMG • Muscle biopsy high levels of the complement component C5b-9 around the capillary vessels. Perimysial inflammation with lymphocytic infiltrate • ANA positive in 60% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology • Anti-Mi-2 antibodies are highly specific for dermatomyositis, but are only seen in around 25% of patients • Screen for malignancy Management • Prednisolone • Glucocorticoid-sparing agents: azathioprine or methotrexate. Prognosis • Relatively good, with most patients reaching remission after 2–3 years, except of course where there is an associated underlying malignancy. Inclusion body myositis (IBM) Definition • a syndrome of diffuse, progressive, asymmetric, proximal, and distal weakness that is generally refractory to immunosuppressive treatment. • The aetiology of IBM is largely unknown. Epidemiology • IBM occurs more frequently in men than women. • More common in older Caucasian males. • the most common acquired myopathy in patients older than 50 years Features • Muscle weakness can affect both proximal and distal muscles unlike polymyositis and dermatomyositis, asymmetry is common. characteristically early affects quadriceps and finger/wrist flexors are usually more severely The onset of muscle weakness in IBM is generally gradual (over months or years). • Dysphagia is common, occurring in 40-66% of patients • Difficulties with breathing →the most common cause of death is respiratory system disorders. Diagnosis • creatine kinase (CK) levels: no striking elevation (less than 10 times normal) • anti-cN1A autoantibodies • Muscle biopsy shows intranuclear or cytoplasmic tubofilaments on electron microscopy.  The specific finding is the presence of sarcoplasmic “rimmed” vacuoles Treatment • Optimal treatment for IBM is not known • In contrast to dermatomyositis and polymyositis, IBM is relatively resistant to standard immunomodulatory therapies. Polymyositis Dermatomyositis IBM Onset Subacute Subacute Slow Commonest < 50 years commonest > 50 years age Commonest < 50 years Affected muscles Proximal Proximal Proximal and distal symmetry symmetrical symmetrical Asymmetrical Common incidence Female Female Male Skin lesion NO Characteristic rash NO CK Highly elevated (up to 50 fold) Highly elevated (up to 50 fold) antibodies anti-Jo-1 are more common anti-Mi-2 are highly specific anti-cN1A autoantibodies Muscle biopsy endomysial mononuclear inflammatory infiltrate and muscle fiber necrosis. perivascular and interfascicular inflammatory infiltrates with adjoining groups of muscle fiber degeneration/regeneration T cell CD8 T cell CD4 T cell good Good Poor Response to steroids Painless weakness and wasting with selective involvement of long finger flexors and quadriceps is characteristic of inclusion body myositis. Inclusion body myositis occurs in older people, has an insidious onset, and does not associate with striking elevations in CK. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Mild elevated (up to 10 fold) or normal intranuclear or cytoplasmic tubofilaments Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Fibromyalgia (FM) Definition • Fibromyalgia is a syndrome characterised by widespread pain throughout the body with tender points at specific anatomical sites. Epidemiology • Prevalence: occur in 1 - 2% of the general population • Gender: women are 10 times more likely to be affected • Age: typically presents between 30-50 years old Features • general symptoms: lethargy • musculoskeletal symptoms: chronic pain: at multiple site, sometimes 'pain all over' allodynia: (pain in response to non-painful stimuli) Morning fatigue morning stiffness tissue swelling, • neurological and psychiatric symptoms: sleep disturbance, headaches, dizziness are common patients often look unwell and may appear depressed and anxious. • GIT symptoms: 50% of patients with fibromyalgia complain of diarrhoea and constipation, often associated with abdominal bloating. Diagnosis • The diagnosis of FM should be considered in any patient with ˃three months of widespread, multisite pain without apparent causative found. • is clinical pain in all four quadrants of the body, as well as tenderness in 11 of 18 anatomically defined trigger areas. • The normal ESR in patients with FM contrasts with the high ESR in elderly patients with polymyalgia rheumatica. • Other causes of fatigue should be excluded e.g. hypothyroidism, anaemia and other rheumatological diseases Management • explanation • aerobic exercise: has the strongest evidence base • cognitive behavioural therapy • medication: pregabalin, duloxetine, amitriptyline Key facts: • How to diagnose? A female, presented with a feature of pain and tenderness over multiple area + normal ESR and CRP. • What is the best management? aerobic exercise Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Dupuytren’s contracture Definition • progressive painless contracture of the palmar facial bands, causing flexion deformities of the fingers. • autosomal-dominant condition with variable penetrance. Prevalence • has a male: female predominance of 10:1. • prevalence rates approaching 25% in elderly Scandinavians. • most commonly observed in persons of Northern European descent and affects 4-6% of Caucasians worldwide. Pathophysiology • fibroblast proliferation, and collagen deposition leading to contractures of the palmar fascia. • Interleukin 1 (IL-1) is the most abundant cytokine • Normal palmar fascia is primarily composed of type I collagen; Dupuytren disease is associated with an increase in type III collagen. Risk factor • Alcoholism (10%), • diabetes mellitus (8%). • previous myocardial infarction, • hand trauma, • HIV infection, • cigarette smoking. Features • bilateral in 45%; • in unilateral cases, the right side is more often affected. • The ring finger is most commonly involved, followed by the fifth digit and then the middle finger. The index finger and the thumb are typically spared. • Penile fibromatosis (Peyronie's disease) is seen in about 7-10% of patients. Rheumatoid arthritis seems to protect against the development of Dupuytren disease. Management • Surgery followed by physiotherapy to improve finger function is the recommended course of action. • Collagenase therapy may be an alternative to surgery in some cases. 055 - Chapter 8 055 Chapter 8 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 8 Rheumatology Ledderhose disease is involvement of the plantar fascia by a similar process of nodule and cord formation leading to contraction of the toes. Baker cyst Look for a patient with osteoarthritis or rheumatoid arthritis with a swollen calf. A ruptured Baker’s cyst is a “pseudophlebitis.” Unruptured cysts can be palpated. Overview • A Baker’s cyst (popliteal cyst) is a posterior herniation of the synovium of the knee. • A Baker cyst is the most common mass in the popliteal fossa. • Since the cyst is an extension from the knee joint, it is lined by synovium. Causes • the most common cause osteoarthritis Investigations • Ultrasonography is the imaging technique of choice in the evaluation of a popliteal mass, but using this technique it may be difficult to show a true connection with the joint space to establish a definitive diagnosis of popliteal cyst. Third edition Notes & Notes For MRCP part 1 & 2 By Dr. Yousif Abdallah Hamad Infectious diseases Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Classification of bacteria cocci • Remember: Gram positive cocci = staphylococci + streptococci (including enterococci) Gram negative cocci = Neisseria meningitidis + Neisseria gonorrhoeae, also Moraxella Rods (bacilli) • only a small list of Gram positive rods (bacilli) need to be memorised to categorise all bacteria - mnemonic = ABCD L Actinomyces Bacillus anthracis (anthrax) Clostridium Diphtheria: Corynebacterium diphtheria Listeria monocytogenes • Remaining organisms are Gram negative rods Bacterial shapes • Staphylococcus aureus appears as large Gram-positive cocci in clusters. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Identifying gram-positive bacteria Gram positive bacteria will turn purple/blue following the gram staining. Microscopy will then reveal the shape, either cocci or rods. Rods (bacilli) • Actinomyces • Bacillus antracis • Clostridium • Corynebacterium diphtheriae • Listeria monocytogenes Cocci • makes catalase: Staphylococci • does not make catalase: Streptococci Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Staphylococci • makes coagulase: S. aureus • does not make coagulase: S. epidermidis (novobiocin sensitive), S. saprophyticus (novobiocin resistant) Streptococci • partial haemolysis (green colour on blood agar): α-haemolytic optochin sensitive: S. pneumoniae optochin resistant: Viridans streptococci • complete haemolysis (clear): β-haemolytic bacitracin sensitive: Group A: S. pyogenes bacitracin resistant: Group B: S. agalactiae • no haemolysis: γ-haemolytic Staphylococci • Staphylococci are a common type of bacteria which are often found normal commensal organisms but may also cause invasive disease. • Staphylococci are skin organisms most commonly introduced during pacemaker insertion and such a discitis would present with back pain. Basic facts : • Gram-positive cocci • facultative anaerobes • produce catalase Coagulase test: • used to differentiate between different Staphylococcus species Coagulase-Positive Staph species:  Staph aureus is the most important of the coagulase positive Staphylococcus species and is highly pathogenic. Coagulase-negative Staph species:  most likely to be skin commensal organisms of relatively low pathogenicity, such as Staph epidermidis or Staph saprophyticus, although some may still cause deeper infection or sepsis. Types • The two main types of Staphylococci you need to know about are Staphylococcus aureus and Staphylococcus epidermidis. Staphylococcus aureus Staphylococcus epidermidis • Coagulase-positive • Causes skin infections (e.g. cellulitis), abscesses, osteomyelitis, toxic shock syndrome • Coagulase-negative • Cause of central line infections and infective endocarditis Staph aureus is a coagulase positive Staph Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Nasal swabs should be routinely checked in patients with recurrent staphylococcal abscesses • Recurrent skin infections caused by staphylococcus often reflect colonisation that will require use of clearance procedures (body wash and topical nasal treatment) in order to prevent ongoing recurrences. • This is particularly important in younger athletes in whom colonisation with resistant staphylococcal strains can occur. Staphylococcus aureus • catalase and coagulase positive, beta hemolytic organism. • produces a yellow pigment ('Aureus' is Latin for 'gold'.) • stained purple by gram staining. • Staphylococcus aureus produce exotoxins that lead to three syndromes: food poisoning, caused by ingestion of S. aureus enterotoxin;  S. aureus is the most common cause of food poisoning.  The enterotoxin produced by Staphylococcus aureus (heat stable toxin) causes rapid-onset food poisoning. Staph bacteria are killed by cooking, but the toxins are not destroyed scalded skin syndrome, caused by exfoliative toxin; (Exfoliatin A and B) toxic shock syndrome (TSS), caused by toxic shock syndrome toxin-1 (TSST-1) • What is the mechanism by which methicillin-resistant Staphylococcus aureus gains resistance to penicillins?  Alterations in penicillin-binding proteins Effective antibiotics: • Staphylococcal and streptococcalorganisms are effectively treated by semisynthetic penicillins, including oxacillin, nafcillin, dicloxacillin, and cloxacillin. Also, first- and second-generation cephalosporin • Penicillin G, ampicillin, and amoxicillin: These agents are effective against streptococci, such as S. pyogenes, viridans group streptococci, and S. pneumonia, but not against staphylococci • Ampicillin and amoxicillin are onlyeffective against staph when ampicillin is combined with the beta-lactamase inhibitor sulbactam or when amoxicillin is combined with clavulanate. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • The Gram stain shows Gram positive cocci growing in clusters, typical of Staphylococcus aureus. • This is the most likely organism to cause post-operative infection of prosthetic joints within the first one to four weeks following surgery. Streptococci • Streptococci are gram-positive cocci. • divided into alpha and beta haemolytic types Alpha haemolytic streptococci (partial haemolysis) • The most important alpha haemolytic Streptococcus is Streptococcus pneumoniae (pneumococcus).  carried asymptomatically in approximately 50% of people.  It can cause both non-invasive and invasive disease.  Non-invasive: includes otitis media, sinusitis, pneumonia and bronchitis.  Invasive pneumococcal disease (IPD) refers to disease in which the bacterium enters a sterile site such as blood, cerebrospinal fluid, pleural fluid or pericardial fluid. If grow in blood cultures IPD by definition. more common in HIV-infected patients (20-30 times) compared to nonHIV infected patients. offer HIV testing to all patients with IPD presenting to hospital. Other immunodeficiency syndromes are associated with an increased risk of IPD, include: X-linked (Bruton's) agammaglobulinaemia, common variable immunodeficiency, asplenia (anatomical or functional) and sickle cell disease. the mechanism of resistance for penicillin resistant Streptococcus pneumoniae Alteration of penicillin binding proteins (PBPs)  Penicillin is a bactericidal antibiotic which acts by inhibiting cell wall synthesis.  Mutations in PBPs (enzymes required for cell wall synthesis) result in penicillin resistance. • Another clinical example is Streptococcus viridans Beta haemolytic streptococci (complete haemolysis) These can be subdivided into groups A-H. Only groups A, B & D are important in humans. • Group A most important organism is Streptococcus pyogenes responsible for erysipelas, impetigo, cellulitis, type 2 necrotizing fasciitis and pharyngitis/tonsillitis immunological reactions can cause rheumatic fever or post-streptococcal glomerulonephritis erythrogenic toxins cause scarlet fever Penicillin is the antibiotic of choice for group A streptococcal infections. The BNF suggests stopping flucloxacillin if streptococcal infection is confirmed in patients with cellulitis, due to the high sensitivity. • Group B Streptococcus (GBS) agalactiae  Maternal vaginal colonization with GBS, primarily Streptococcus agalactiae, is associated with serious and highly fatal neonatal infections, such as sepsis and meningitis.  Lipoteichoic acid is the primary virulence factor of this organism  A prerequisite to mucosal colonization or infection is bacterial adherence to the epithelium. Lipoteichoic acid, a cell wall glycolipid polymer, mediates attachment of GBS to the vaginal epithelial cells. Lipoteichoic acid is also involved in host cell adherence of other Gram-positive bacteria as well. Without this adhesion, it would not be possible to have infection. • Group D Enterococcus Bacteria and growing media Bacteria Type Growth media Staphylococci Gram-positive cocci in clusters Streptococcal species (hemolytic Streptococcal species such as Streptococcus pyogenes). Gram-positive cocci in chains Trypticase Soy Agar (TSA) supplemented with 5% Sheep Blood Streptococcus pneumoniae Gram-positive bulletshaped diplococci E. coli, Klebsiella, or Enterobacter. Gram-negative lactose fermenting bacilli Neisseria meningitidis gram-negative diplococcus Enterococcus Classification • Previously classified as group D streptococci • In the 1980s, based on genetic differences, enterococci were removed from the genus Streptococcus and placed in their own genus, Enterococcus Enterococcus species • E. faecalis: the predominant enterococcal species, 80 to 90% of all clinical isolates, • E. faecium : 5 to 15% • Others: (E. gallinarum, E. casseliflavus, E. durans, E. avium, and E. raffinosis) less than 5% Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad LB broth agar Todd Hewitt Broth Super Optimal Broth (SOB) chocolate agar Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Importance • Enterococci are currently ascendant nosocomial (ﻋﺪﻭﻯ ﺍﻟﻤﺴﺘﺸﻔﻴﺎﺕ)pathogens, due to their intrinsic resistance to several commonly used antibiotics the second most common organisms recovered from nosocomial urinary tract and wound infections the third most common cause of nosocomial bacteremia in the United States Treatment • Until recently, vancomycin was virtually the only drug that could be consistently relied on for the treatment of infections caused by multidrug-resistant enterococci. Oral vancomycin, which is poorly absorbed, has been used extensively for the treatment of Clostridium difficile enterocolitis. • Teicoplanin is another glycopeptide antibiotic; Because of their activity against methicillinresistant staphylococci and other gram-positive bacteria, these drugs have been widely used for therapy and prophylaxis against infections due to these organisms Vancomycin-resistant enterococci • Risk Factors patients in ICUs prolonged hospitalization patients with chronic renal failure, cancer, or organ transplant recipients, Vancomycin use has been reported consistently as a risk factor for colonization and infection with VRE and may increase the possibility of the emergence of vancomycin-resistant S. aureus or S. epidermidis. • Modes of Transmission Transmission of VRE by health care workers whose hands become transiently contaminated with the organism while caring for affected patients is probably the most common mode of nosocomial transmission. • Clinical problems When they cause clinical problems, they are usually urinary tract infections (UTI), bacteraemia, wound infections, neonatal infections, endocarditis, etc. • Sources May be found in healthy community volunteers not recently hospitalised Community reservoir in meat, poultry and perhaps cheese. • Mechanism of resistance Vancomycin-resistant enterococci alter peptidoglycan precursors used to build cell walls. Vancomycin binds to D-ala-D-ala but the resistant enterococci have D-ala-D-lac or D-ala terminating precursors. They acquire genes that produce enzymes to change the precursors. Anthrax Overview • Anthrax is caused by Bacillus anthracis, a Gram-positive rod. aerobic, non-motile • It is spread by infected carcasses • It produces serious disease in the herbivore host and carnivores acquire the disease from either consuming the spores from the dead animal or by contact. • It is also known as Wool-sorters' disease. • Cutaneous disease is the commonest form of the infection in humans and is usually due to contact with infected animals or animal products. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Toxins • Bacillus anthracis produces a tripartite (composed of 3 parts) protein toxin protective antigen oedema factor: a bacterial adenylate cyclase which increases cAMP lethal factor: toxic to macrophages Features • painless non-tender black eschar (cutaneous 'malignant pustule', but no pus) Following exposure, the skin lesion evolves over a period of ~2 weeks into a papule, pustule, vesicle and eventually forms an ulcer with a central black eschar. The surrounding skin is usually boggy and oedematous. Lesions are usually painless with tender regional lymph nodes. • may cause marked oedema Edema factor toxin from Bacillus anthracis acts to mimic adenylate cyclase, thus increasing cAMP levels. • anthrax can cause gastrointestinal bleeding Investigations • Inhalational anthrax is associated with a poor yield from sputum culture with the greatest yield from blood culture. Management • Lesions heal spontaneously in 80-90% of cases; • 10-20% of patients progress and become bacteraemic - associated with a high mortality. • Penicillin is effective in treating the infection. • the current Health Protection Agency advice for the initial management of cutaneous anthrax is ciprofloxacin • further treatment is based on microbiological investigations and expert advice Prognosis • Mortality from cutaneous disease is 20% if untreated whereas inhalational anthrax may have a mortality of 90% if untreated. Cutaneous anthrax Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Diphtheria Overview • caused by Corynebacterium diphtheriae, • Corynebacterium diphtheriae is a Gram positive, non-spore-forming, pleomorphic bacteria that is also a facultative anaerobe. • There are three recognised strains of C.diphtheria: gravis, intermedius, and mitis. Intermedius is thought to be the one most associated with the exotoxin and is more virulent than the mitis strain. • Incubation period: 2 - 5 days, • patients may be infectious for 4 weeks. • Diphtheria is spread by droplets, through contact with soiled articles (fomites), and, in areas of poor hygiene, from cutaneous spread. Pathophysiology • The inflammatory exudate forms a greyish membrane on the tonsils and respiratory tract which may cause respiratory obstruction. • Diphtheria toxin inhibits elogation factor (EF-2) • Diphtheria toxin commonly causes a 'diphtheric membrane' on tonsils caused by necrotic mucosal cells. Attempts to remove the pseudomembrane result in bleeding. Systemic distribution may produce necrosis of myocardial, neural and renal tissue. • Exotoxins produced by the organism may cause myocarditis or neurological defects. • secretion of an exotoxin that interferes with cellular protein synthesis, resulting in tissue necrosis. • The exotoxin is composed of two chains: chain B is responsible for entry into host cells, chain A inhibits protein synthesis and causes cell death Feature history of severe exudative pharyngitis in a person who has recently travelled to eastern Europe is highly suggestive of diphtheria. • Typically, diphtheria attacks the respiratory system, but may also affect the skin, conjunctiva, and external genitalia. Cutaneous diphtheria presents with non-healing ulcers covered with a grey membrane, which can develop bacterial co-infection.  If isolated, the disease is indolent, but the ulcers can act as a reservoir which can subsequently lead to pharyngeal infection. • Pharyngeal diphtheria presents with: fever sore throat cervical lymphadenopathy,  'bulls neck' which results from cervical lymphadenopathy and mucosal swelling. adherent, grayish pharyngeal membrane. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Neurological: cranial neuropathies, predominantly motor peripheral neuropathy (occasionally sensory neuropathy). • Cardiac involvement is usually in the form of a cardiomyopathy and myositis, which is evident from the 10-14th day and may lead to arrhythmias. This accounts for 50% of deaths Treatment • isolation, securing a definitive airway, cardiac monitoring, • antibiotic therapy and diphtheria antitoxin. benzylpenicillin: children: 2.4 to 4.8 g/day intravenously/intramuscularly given in divided doses every 6 hours for 14 days OR procaine benzylpenicillin 600,000 units intramuscularly once daily for 14 days OR Erythromycin 250-500 mg orally four times daily for 14 days • Early administration of antitoxin is necessary to enable it to bind to and de-activate the free toxin in serum. Antitoxin cannot de-activate toxin once it has entered cells, which is signalled by the presence of mucocutaneous symptoms. • Patients with respiratory diphtheria are placed in respiratory isolation (masks and standard measures such as hand-washing), and those with cutaneous diphtheria are placed in contact isolation (gloves and gowns), until cultures taken after cessation of therapy are negative. • close contacts of respiratory and cutaneous cases: cultures taken immediately  prophylactic antibiotic (Erythromycin 250 mg orally four times daily for 7-10 days Or benzathine benzylpenicillin 1.2 million units intramuscularly as a single dose. diphtheria toxoid immunisation Complications • The toxin affects the myocardium, nervous and adrenal tissues. Listeria Listeria meningitis should always be considered in patients with meningitis associated with brain stem involvement, in elderly and in immunosuppressed patients. The treatment of choice is gentamicin and ampicillin. • Listeria monocytogenes is a Gram positive bacillus • has the unusual ability to multiply at low temperatures. • It is typically spread via contaminated food, typically unpasteurised dairy products. • infection is particularly dangerous to the unborn child where it can lead to miscarriage. • Listeriosis is associated with the consumption of soft cheese. Features - can present in a variety of ways • diarrhoea, • flu-like illness • pneumonia , • meningoencephalitis • ataxia and seizures Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Investigations • Suspected Listeria infection should be investigated by taking blood cultures. • CSF may reveal a pleocytosis, with 'tumbling motility' on wet mounts Management • Listeria is sensitive to amoxicillin/ampicillin (cephalosporins usually inadequate) • Listeria meningitis should be treated with IV amoxicillin/ampicillin and gentamicin In pregnant women • pregnant women are almost 20 times more likely to develop listeriosis compared with the rest of the population due to changes in the immune system • fetal/neonatal infection can occur both transplacentally and vertically during child birth • complications include miscarriage, premature labour, stillbirth and chorioamnionitis • diagnosis can only be made from blood cultures • treatment is with amoxicillin Campylobacter Overview • Campylobacter is the commonest bacterial cause of infectious intestinal disease in the UK. • The majority of cases are caused by the Gram-negative bacillus Campylobacter jejuni. • It is spread by the faecal-oral route • has an incubation period of 1-6 days. Features • prodrome: headache malaise • diarrhoea: often bloody • abdominal pain Management • usually self-limiting • the most appropriate therapy is IV fluids. appropriate fluid replacement and anti-emetics are initially indicated - most units advocate no antibiotic treatment. • the BNF advises treatment if severe or the patient is immunocompromised. Clinical Knowledge summaries also recommend antibiotics if severe symptoms (high fever, bloody diarrhoea, or more than eight stools per day) or symptoms have last more than one week • the first-line antibiotic is clarithromycin Complications • Guillain-Barre syndrome may follow Campylobacter jejuni infections • Reiter's syndrome • septicaemia, • endocarditis, • arthritis Shigella Overview • Shigella dysenteriae is a gram negative bacillus. • Shigellosis is the bacillary dysentery caused by Shigella dysenteriae. • causes bloody diarrhoea, abdo pain • The most common signs of Shigella dysentery include colitis, malnutrition, reactive arthritis, and central nervous system problems. • severity depends on type: S sonnei (e.g. from UK) may be mild, S flexneri or S dysenteriae from abroad may cause severe disease • treat with ciprofloxacin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Escherichia coli • Escherichia coli is a facultative anaerobic, lactose-fermenting, Gram negative rod which is a normal gut commensal. • E. coli infections lead to a variety of diseases in humans including: diarrhoeal illnesses UTIs neonatal meningitis Serotypes E. coli may be classified according to the antigens which may trigger an immune response: Antigen Origin Notes O Lipopolysaccharide layer K Capsule Neonatal meningitis secondary to E. coli is usually caused by a serotype that contains the capsular antigen K-1 H Flagellin E. coli O157:H7 (enterohemorrhagic E. coli, EHEC): • is a particular strain associated with severe, haemorrhagic, watery diarrhoea. • It has a high mortality rate and can be complicated by haemolytic uraemic syndrome. • It is often spread by contaminated ground beef. • the diagnostic test is: Stool culture on sorbitol-MacConkey medium multiple drug resistant Escherichia coli : • mechanism of resistance Extended spectrum beta-lactamase (ESBL) production Some E. coli isolates produce an Extended spectrum beta-lactamase (ESBL) that inactivates second and third generation cephalosporins. • The class of drugs that will most reliably treat these infections are the carbapenems. • Extended spectrum B-lactamase (ESBL) producing organisms are typically resistant to penicillins and cephalosporins and as such the carbapenem class of antibiotics are typically first line although nitrofurantoin or fosfomycin are also frequently effective. • ESBL producers are most commonly Escherichia coli (E. coli) and Klebsiella species. Which virulence factor contributes to the pathophysiology of the (E. coli) causing UTI? P pilus  Uropathogenic E. coli utilize a P pilus to bind to uroepithelial cells and colonize the urethra. Chapter 9 Infectious diseases Incubation periods Questions may either ask directly about incubation periods or they may be used to provide a clue in a differential diagnosis. Less than 1 week 1 - 2 weeks 2 - 3 weeks Longer than 3 weeks • meningococcus • malaria • dengue fever • typhoid • measles • diphtheria • influenza • scarlet fever Virulence factors • Bacteria employ a large number of virulence factors which enable them to colonize the host and evade/suppress the immune response. • The table below shows a select number of virulence factors which are important for the exam. Virulence factor Example organisms IgA protease Streptococcus pneumoniae Haemophilus influenzae Neisseria gonorrhoeae M Protein Streptococcus pyogenes Polyribosyl ribitol phosphate capsule Haemophilus influenzae Bacteriophage Corynebacterium diphtheriae Spore formation Bacillus anthracis Clostridium perfringens Clostridium tetani Lecithinase alpha toxin Clostridium perfringens D-glutamate polypeptide capsule Bacillus anthracis Actin rockets Listeria monocytogenes • New Delhi metallo-beta-lactamase 1 is the mutation that leads to carbapenem resistance. Typically found in Klebsiella pneumoniae, Escherichia Coli (E. Coli), Enterobacter cloacae and others. First line of management is the old antibiotic colistin and second line may be tigecycline. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • mumps • infectious mononucleosis • rubella • chickenpox • cytomegalovirus • viral hepatitis • HIV Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • D-alanyl-D-lactate D-alanyl-D-lactate variation leading to loss of affinity to antibiotics is the mechanism of VRE (vancomycin resistant enterococci). Vancomycin binds to D-ala-D-ala. • MexAB-OprM efflux pumps The presence of MexAB-OprM efflux pumps is one of the mechanisms by which pseudomonas aeruginosa is resistant to -lactams, chloramphenicol, fluoroquinolones, macrolides, novobiocin, sulfonamides, tetracycline, and trimethoprim. • penicillin binding protein 2 Alteration to the penicillin binding protein 2 is the mechanism behind methicillinresistant staphylococcus aureus. Mutations in the MEC gene which codes the penicillin binding proteins give staphylococcus aureus its resistance. Plasmids • Plasmid is a small DNA molecule within a cell , separated from a chromosomal DNA and can replicate independently. • Plasmids carry genes that may benefit the survival of the organism, for example antibiotic resistance. • Bacteria develop resistance to antibiotics by gaining genes that encode for particular proteins that offer protection to the organism. • Sometimes this is by mutation and at other times the gene may be acquired from another bacterial species. • The genes are usually found in plasmids - circular segments of DNA separate from the bacterial chromosome. • Plasmids can be used to clone genes by splicing a particular gene into a plasmid and then allowing the bacteria to multiply - this is then called recombinant plasmid DNA. • Plasmids can easily spread from one bacteria to another - a sort of resistance package that bacteria can share. • Which best explains the loss of antibiotic resistance in bacterial strain? Loss of a plasmid containing the resistance gene Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Antibiotic resistance mechanism Antibiotic Resistance mechanism fluoroquinolones (eg: ciprofloxacin ) Change in the bacterial DNA gyrase due to genetic mutation Macrolides (eg: Erythromycin) Bacterial ribosomal methylation Tetracycline Bacterial efflux of antibiotic chloramphenicol Antibiotic inactivation by acetyltransferase Penicillin Production of penicillinase by the bacteria is the most common mechanism of bacterial resistance to penicillin. However, penicillin resistance in streptococcus pneumonia is due to alteration in the penicillin-binding protein, not production of penicillinase. Vancomycin D-ala-D-ala mutates to D-ala-D-lac Tetanus Definition • Tetanus is a life-threatening neurological syndrome characterised by tonic muscle spasms and hyperreflexia, caused by the exotoxin of Clostridium tetani, a gram-positive sporeforming obligate anaerobe. Incubation period: 3 - 21 days. Pathophysiology • C. tetani spores contaminate a wound (especially with animal feces and soil) → production of the neurotoxins tetanospasmin and tetanolysin • Tetanospasmin: reaches the CNS through retrograde axonal transport → cleaves a synaptobrevin protein → prevention of inhibitory neurotransmitters (i.e., GABA and glycine) → tetanic spasms. • Tetanolysin: causes hemolysis and has cardiotoxic effects • The wound is often unnoticed (the absence of a wound does not exclude tetanus). Features • Generalized tetanus: painful muscle spasms and rigidity Trismus: lockjaw due to spasms of jaw musculature Risus sardonicus: sustained facial muscle spasm that causes a characteristic, apparently sardonic grin and raised eyebrows Opisthotonus: backward arching of spine, neck, and head caused by spasms of the back muscles Dysphagia • Life-threatening complications Laryngospasm and/or respiratory muscles spasms → respiratory failure Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Autonomic dysfunction: manifest early as irritability, restlessness, sweating, and tachycardia. Diagnosis • clinical diagnosis based on muscle spasms and rigidity associated with an entry point for bacteria and an inadequate vaccination history. Management • Supportive therapy: e.g. ventilatory support, benzodiazepines and muscle relaxants • Immunization Passive immunization → Human tetanus immunoglobulin (HTIG)  Should be given to: patients with contaminated wounds who did not completed 3 doses of tetanus vaccine or unknown. patient with High-risk tetanus-prone wounds who did completed 3 doses of tetanus vaccine, but last dose ˃ 10 years ago.  Clean and minor wounds do not require HTIG. Active immunization →Tetanus toxoid-containing vaccine (TT)  For ANY wound if vaccination history is incomplete or unknown  For contaminated wounds ONLY if completed 3 doses of TT, but last dose ˃ 10 years ago. • Wound cleaning and debridement • Antibiotics : Metronidazole is now preferred to benzylpenicillin as the antibiotic of choice (500 mg intravenously every six to eight hours for 7 to 10 days). Post-exposure tetanus prophylaxis Post-exposure tetanus prophylaxis Vaccination history & wound status Clean wounds Tetanus-prone wounds High-risk tetanus-prone wounds Clean cuts  Contaminated puncture-type injuries  wounds containing foreign bodies  compound fractures  wounds or burns with systemic sepsis  certain animal bites and scratches  heavy contamination with materials likely to contain tetanus spores e.g. soil, manure.  wounds or burns that show extensive devitalised tissue  wounds or burns that require surgery that is delayed ˃ 6 hours. Unknown or < 3 TT doses TT vaccine TT vaccine + HTIG TT vaccine + HTIG ≥ 3 TT doses and last dose within 10 years None required None required None required ≥ 3 TT doses, but last dose ˃ 10 years ago None required TT vaccine TT vaccine + HTIG TT: Tetanus toxoid. HTIG: Human Tetanus Immuno-Globulin Reference: The green book, Guidance, From UK Health Security Agency January 2020 https://www.gov.uk/government/publications/tetanus-the-green-book-chapter-30 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Tetanus vaccination • Tetanus vaccine is currently given in the UK as 5 doses at: 2 months, 3 months, 4 months, 3-5 years and 13-18 years. • Tetanus toxoid is only available in combination with other antigens such as diphtheria and pertussis. For age ˂ 7, the DTaP (Diphtheria/Tetanus/acellular Pertussis vaccine) vaccine is given. After age 7, all tetanus vaccines are paired with a lower concentration of diphtheria as signified by the lower-case “d” in the vaccination names, Tdap (Tetanus/low-dose diphtheria/acellular pertussis vaccine) or Td (Tetanus/diphtheria) may be used for booster. Td is used when the pertussis vaccine component is contraindicated. For pregnant women, one dose of the TdaP vaccine should be administered during each pregnancy between 27 weeks and 36 weeks of gestation, regardless of when the last dose of Td or Tdap was given. If a tetanus booster is indicated for wound management during pregnancy, Tdap should be administered instead of Td if the woman has not received Tdap previously. Patients with large or dirty wounds and an uncertain vaccination history should be offered tetanus toxoid containing vaccination as well as Human tetanus-specific immune globulin (HTIG). If the patient with a clean non-tetanus-prone wound has a complete vaccination history and is less than 10 years since the last dose, no prophylaxis should be given. MRCP-1- exam - January 2015: H/O 4 cm laceration to the dorsum of left hand after cutting using a Stanley knife. no sign of a foreign body. He has 'no idea' about his tetanus vaccination. What is the most appropriate action with respect to tetanus? Requires tetanus vaccine + complete vaccine course at a later date  (This wound is not high risk for tetanus) Salmonella & Typhoid fever Humans are the main reservoir for Salmonella typhi Bacteriology • Gram negative rods • grow under both an aerobic and anaerobic conditions. • not normally present as commensals in the gut. • Incubation period 5–30 days (most commonly 7–14 days) • Transmission: fecal-oral Types • Salmonella typhi causes Typhoid • Salmonella paratyphi (types A, B & C) causes paratyphoid They are often termed enteric fevers. Blood and bone infections caused by non-typhi salmonella (NTS) are typically associated with malaria and homozygous sickle cell disease, especially in Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad children. The reason for this perceived susceptibility is not fully understood - but it may be in part due to the haemolysis and subsequent iron availability to the bacteria, which is 'siderophilic' in nature. Pathophysiology • Lifecycle Oral uptake of pathogen Distal ileum: migration into the Peyer patches Infection of macrophages and reticuloendothelial system → nonspecific symptoms Spread from macrophages to the bloodstream: septicemia → systemic disease Migrates back to intestine → excretion in feces Typhoid vaccines • typhoid vaccines are currently available (Typhoid vaccine does not protect from paratyphoid infection) • There are 3 types of typhoid vaccine: parenteral (Typh-I),inactivated vaccine (i.e. killed) parenteral combined with hepatitis A (HA-Typh-I), and oral (Typh-O) Live-attenuated vaccine • These vaccines provide approximately 50% protection against clinical disease. • No vaccine is available against paratyphoid fever. • Vaccinated individuals who develop the disease will have a higher threshold but the same disease. Features • initially systemic upset (headache, fever, arthralgia) • relative bradycardia • abdominal pain, distension • diarrhoeal disease Yellow-green diarrhea, comparable to pea soup (caused by purulent, bloody necrosis of the Peyer patches) • constipation: although Salmonella is a recognised cause of diarrhoea, constipation is more common in typhoid obstipation and ileus (as a result of swollen Peyer patches in the ileum) • Rose spots: present on the trunk in 40% of patients,  (most commonly around the navel) ﺣﻮﻝ ﺍﻟﺴﺮﺓ more common in paratyphoid • Neurological symptoms (delirium, coma) • Rarely causes sepsis, meningitis, myocarditis, and renal failure Complication • Chronic Salmonella carrier Definition:  positive stool cultures 12 months after overcoming the disease Incidence:  up to 6% of the patients become chronic carriers Presentation:  typically asymptomatic Treatment:  fluoroquinolones (e.g., ciprofloxacin) administered for at least 1 month Chronic carriers are not allowed to work in the food industry. Increased risk for cholangiocarcinoma (bile duct cancer) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Investigations • normal or low leukocyte count with eosinopenia • Blood culture, the most effective investigation for diagnosis  (should be done prior to starting antibiotic) • Bone marrow culture  highly sensitive diagnostic test even in later stages of infection after antibiotic therapy has begun. indicated for all patients with prolonged pyrexia if routine investigations have not provided a diagnosis. • in chronic carriers Blood cultures will be negative in chronic carriers because the organism resides mainly in the gallbladder. Salmonella typhi can be cultured from intestinal secretions, faeces or urine • Widal's test Serological test poor sensitivity negative in early infection.  indicated only after 5 to 7 days of fever. not useful for detecting chronic carriage. • Faecal culture positive in only 50% of cases during the first week of illness. Complications • osteomyelitis (especially in sickle cell disease where Salmonella is one of the most common pathogens) • GI bleed/perforation • meningitis • cholecystitis • chronic carriage (1%) more likely if adult females) Treatment • best treated with quinolones, chloramphenicol or cotrimoxazole. • However, with breast feeding chloramphenicol is relatively contraindicated as are quinolones due to potential risk even if small. • Also, cotrimoxazole is safe in breast feeding except with infants less than 2 months due to possible risk of increased bilirubin. • In pregnancy or children, the drug of choice is parenteral ceftriaxone. • The gallbladder may act as a reservoir of infection and cause relapse in individuals treated with antibiotics. Cholecystectomy may be indicated. • According to the NICE guidelines, anyone above the age of 50, immunocompromised or has cardiac valve disease/endovascular abnormalities should be treating empirically with ciprofloxacin 500mg BD when they have been diagnosed with nontyphoidal Salmonella gastroenteritis. Meningitis Causes The most common cause of bacterial meningitis is Streptococcus pneumoniae (Gram positive diplococci), accounting for >50% cases. Listeria is a less common Gram positive cause of meningitis. 0 - 3 months 3 months - 6 years 6 years - 60 years Group B Streptococcus (most common cause in neonates) Neisseria meningitides Neisseria meningitides E. coli Streptococcus pneumoniae Streptococcus pneumoniae Listeria monocytogenes Haemophilus influenzae Coxsackie virus is the most common viral cause of meningitis. Pneumococcal meningitis • caused by the Gram positive coccus Strep. pneumoniae. • the second commonest cause of bacterial meningitis (commonest in the elderly) • associated with the highest mortality (20%) and highest morbidity, such as deafness which may occur in 50% (Nerve deafness is a common complication) • Chronic adhesive arachnoiditis is a complication of pneumococcal meningitis characterized by fibrosis of the arachnoid granulations. • Contacts do not require treatment • there is no rash associated with pneumococcal meningitis. In the context of septic meningitis, the petechial rash is diagnostic for infection with Neisseria meningitidis Listeria meningitis • Risk factors for listeria meningitis include neonates Older age immunosuppression. • It is typically associated with brainstem signs. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 60 years Immunosuppres sed Streptococcus pneumoniae Listeria monocytogenes Neisseria meningitides Listeria monocytogenes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • Beta-hemolysis is the type of hemolysis exhibited by Listeria monocytogenes, an organism showing tumbling motility that causes meningitis in newborns. • Cerebrospinal fluid shows: Neutrophilic pleocytosis Low glucose, and High protein. Fungal meningitis • Patients at risk for fungal meningitis include: those who are significantly immunocompromised, those who have received intrathecal injections in the past. • Cerebrospinal fluid analysis elevated opening pressure  detectable b-D-glucan • Testing for b-D-glucan has been an approved blood test to detect systemic fungal infection. Partially treated bacterial meningitis Partial treatment of bacterial meningitis can result in false negative CSF culture and Gram stain, but the CSF white cell count should be unaffected. • The assessment of children with suspected bacterial meningitis who have already received antibiotic therapy from their GP is a common diagnostic problem. • Partial treatment may reduce the incidence of positive CSF Gram stains to less than 60%, and it also reduces the ability to grow the bacteria, particularly meningococcus. Partial treatment may induce:  negative CSF culture  negative Gram stain • CSF glucose, protein, neutrophils and bacterial antigen testing or polymerase chain reaction (PCR) should be completely unaffected. • A normal white cell count would make the diagnosis very unlikely. • In normal CSF the glucose is usually > 65% of blood glucose. Meningitis: Investigations • Investigations suggested by NICE full blood count CRP coagulation screen blood culture whole-blood PCR blood glucose blood gas Lumbar puncture if no signs of raised intracranial pressure Meningitis: CSF analysis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The table below summarises the characteristic cerebrospinal fluid (CSF) findings in meningitis: Bacterial Viral Tuberculous Appearance Cloudy Clear/cloudy Slight cloudy, fibrin web Glucose Low (< 1/2 plasma) 60-80% of plasma glucose* Low (< 1/2 plasma) Protein High (> 1 g/l) Normal/raised High (> 1 g/l) White cells 10 - 5,000 polymorphs/mm³ 15 - 1,000 lymphocytes/mm³ 10 - 1,000 lymphocytes/mm³ *mumps is unusual in being associated with a low glucose level in a proportion of cases. A low glucose may also be seen in herpes encephalitis • The Ziehl-Neelsen stain is only 20% sensitive in the detection of tuberculous meningitis and therefore PCR is sometimes used (sensitivity = 75%) • Bacterial culture of cerebrospinal fluid is the gold-standard test for determining if a case of meningitis is bacterial in etiology The CSF lymphocytosis combined with a glucose greater than half the serum level points towards a viral meningitis. Management In patients presenting with symptoms and signs of meningitis, treat empirically for bacterial meningitis while awaiting test results from the lumbar puncture. • All patients should be transferred to hospital urgently. • If patients are in a pre-hospital setting (for example a GP surgery) and meningococcal disease is suspected then intramuscular benzylpenicillin may be given, as long as this doesn't delay transit to hospital. • In bacterial meningitis, dexamethasone should also be given with the first dose of antibiotics. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases BNF recommendations on antibiotics Scenario BNF recommendation Initial empirical therapy aged < 3 months Intravenous cefotaxime + amoxicillin Initial empirical therapy aged 3 months - 50 years Intravenous cefotaxime Initial empirical therapy aged > 50 years Intravenous cefotaxime + amoxicillin Meningococcal meningitis Intravenous benzylpenicillin or cefotaxime Pneuomococcal meningitis Intravenous cefotaxime Meningitis caused by Haemophilus influenzae Intravenous cefotaxime Meningitis caused by Listeria Intravenous amoxicillin + gentamicin • If the patient has a history of immediate hypersensitivity reaction to penicillin or to cephalosporins the BNF recommends using chloramphenicol. • Ceftriaxone does not cover Listeria well, and in the over 60s or immunosuppressed, amoxicillin should be added in to empirical meningitis management to cover this. Management of contacts • prophylaxis needs to be offered to household and close contacts of patients affected with meningococcal meningitis • oral ciprofloxacin or rifampicin may be used. The BNF recommends a twice a day dose of rifampicin for two days, based on the patients weight. The Health Protection Agency (HPA) guidelines now state that whilst either may be used ciprofloxacin is the drug of choice as it is widely available and only requires one dose Rifampicin may reduce the efficacy of the oral contraceptive through liver enzyme induction. So not preferred in sexually active. Therefore ciprofloxacin would be the most appropriate agent as it does not induce cytochrome p450. • the risk is highest in the first 7 days but persists for at least 4 weeks • meningococcal vaccination should be offered to close contacts when serotype results are available, including booster doses to those who had the vaccine in infancy • for pneumococcal meningitis no prophylaxis is generally needed. There are however exceptions to this. If a cluster of cases of pneumococcal meningitis occur the HPA have a protocol for offering close contacts antibiotic prophylaxis. 056 - Pages 1376-1400 056 Pages 1376-1400 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad September 2010 exam. A 57-year-old female presents with headache, fever, neck stiffness with a positive Kernig's sign. CSF culture: Gram positive bacilli. What is the most likely causative organism? Listeria monocytogenes MRCPUK-parat-1-January 2013 exam: A 47-year-old lady with Feature of fever, headache and nuchal rigidity. Lumbar puncture reveals: Appearance: Cloudy. Glucose:1.7 mmol/l. Protein:1.9 g/l. White cells: 900 / mm³ (90% polymorphs). What is the most likely infective agent? Streptococcus pneumoniae  (CSF results bacterial meningitis (low glucose, high protein, high polymorphs).  In this age group Streptococcus pneumoniae and Neisseria meningitidis are the most common causes of bacterial meningitis) MRCPUK-parat-1-May 2014 exam: A diagnosis of pneumococcal meningitis is made. There are no other reports of meningitis in the local area over the past 4 weeks. How should the close contacts of this boy be managed? No action is needed (unless cluster of cases develop) MRCPUK-parat-1-May 2009 exam: A 23-year-old man is admitted with purpuric rash, pyrexia and confusion. His GP had given him intramuscular benzylpenicillin. Which one of the following investigations is most likely to reveal the diagnosis? Blood PCR for meningococcus  (The blood cultures are likely to be negative as antibiotics have already been given. PCR has a sensitivity of over 90%) Encephalitis Encephalitis usually presents with altered mental status, erratic behavior, etc (brain parenchyma involved). Aetiology • The most common cause is herpes simplex, usually type I (HSV-1). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Clinical Presentation • Altered mental status with fever and headache is the primary clue to the diagnosis. • Neck stiffness similar to that found in meningitis can occur, making it difficult to distinguish encephalitis from meningitis. • Seizures may also occur. Diagnosis • Although CT or MRI scan of the head should be performed, it cannot give a specific diagnosis. HSV has a predilection for involvement of the temporal lobes, which can sometimes be seen on CT. • A lumbar puncture is the key to the diagnosis. • PCR (polymerase chain reaction) for HSV has a 98% sensitivity and >95% specificity, making it at least equal to the biopsy. Treatment • HSV encephalitis is best treated with IV acyclovir. • Acyclovir-resistant herpes is treated with foscarnet Meningococcal septicaemia Overview • It is associated with a high morbidity and mortality unless treated early • meningococcal disease is the leading infectious cause of death in early childhood. • A high index of suspicion is therefore needed. Presentation of meningococcal disease: • 15% - meningitis • 25% - septicaemia • 60% - a combination of meningitis and septicaemia Investigations • blood cultures • blood PCR • lumbar puncture is usually contraindicated • full blood count and clotting to assess for disseminated intravascular coagulation Management • the most important initial step administration of intravenous antibiotics (cefotaxime) is the greatest priority, regardless of whether cultures have been sent. Sepsis Overview • Sepsis is a life-threatening organ dysfunction due to a dysregulated host response to infection. • Sepsis with shock is a life-threatening condition that is characterised by low blood pressure despite adequate fluid replacement, and organ dysfunction or failure. Definition • The new definition attempts to draw upon up-to-date pathobiology and distinguish between sepsis and uncomplicated infection. A new tool has been developed for this purpose - the SOFA or qSOFA. The qSOFA (Quick SOFA) criteria are: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Respiratory rate > or equal to 22/min  Altered GCS  Systolic blood pressure < or equal to 100mmHg • Septic shock is defined as "a subset of sepsis in which underlying circulatory and cellular metabolism abnormalities are profound enough to substantially increase mortality. This changes from the previous definition to recognise the importance of cellular abnormalities. • Septic shock is defined by persisting hypotension requiring vasopressors to maintain a mean arterial pressure of 65 mm Hg or higher and a serum lactate level greater than 2 mmol/L (18 mg/dL) despite adequate volume resuscitation. Risk factors for sepsis • Age (< 1 year and > 75 years) • very frail people • Immunocompromised impaired immune function (eg, DM, splenectomy, sickle cell disease) drugs( long-term steroids, chemotherapy, immunosuppressant) • surgery, or other invasive procedures, in the past 6 weeks • any breach of skin integrity (eg, cuts, burns, blisters or skin infections) • misuse drugs intravenously • indwelling lines or catheters Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Risk stratification tool for adults, children and young people aged 12 years and over with suspected sepsis High risk criteria Moderate to high risk criteria Objective evidence of new altered mental state • History from patient or relative of new onset of altered behaviour or mental state • History of acute deterioration of functional ability • Impaired immune system (illness or drugs including oral steroids) • Trauma, surgery or invasive procedures in the last 6 weeks • respiratory rate: ≥25 breaths per minute • New need for oxygen (more than 40% FiO2) to maintain saturation more than 92% (or more than 88% in known chronic obstructive pulmonary disease) Raised respiratory rate: 21–24 breaths per minute Systolic blood pressure ≤90 mmHg or more than 40 mmHg below normal Systolic blood pressure 91–100 mmHg heart rate: > 130 beats per minute heart rate: 91–130 beats per minute (for pregnant women 100–130 beats per minute) or new onset arrhythmia Not passed urine in previous 18 hours. For catheterised patients, passed less than 0.5 ml/kg of urine per hour Not passed urine in the past 12–18 hours For catheterised patients, passed 0.5– 1 ml/kg of urine per hour Tympanic temperature less than 36°C • Mottled or ashen appearance • Cyanosis of skin, lips or tongue • Non-blanching rash of skin Signs of potential infection, including redness, swelling or discharge at surgical site or breakdown of wound. Low risk criteria: • Normal behavior • No high risk or moderate to high risk criteria met Temperature in suspected sepsis • Do not rely on fever or hypothermia to rule sepsis either in or out. • Some people with sepsis may not develop a raised temperature: older or very frail  severely ill people having treatment for cancer young infants or children. • a rise in temperature can be a physiological response (eg: after surgery or trauma). Management • 1 or more high risk criteria: blood test for blood gas including glucose and lactate measurement, blood culture, full blood count, C-reactive protein, urea and electrolytes, creatinine, clotting screen.  Sepsis may be complicated by disseminated intravascular coagulation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad give a broad-spectrum antimicrobial at the maximum recommended dose without delay (within 1 hour) • Any high risk criteria and lactate > 4 mmol/litre, or systolic BP < 90 mmHg: I.V fluid bolus without delay (within 1 hour) refer to critical care for review of management including need for central venous access , inotropes or vasopressors. • Any high risk criteria and lactate between 2 and 4 mmol/litre: I.V fluid bolus without delay (within 1 hour) Any high risk criteria and lactate < 2 mmol/litre: consider I.V fluid bolus • Failure to respond within 1 hour of initial antibiotic and/or intravenous fluid resuscitation Failure to respond is indicated by any of:  systolic blood pressure persistently below 90 mmHg  reduced level of consciousness despite resuscitation  respiratory rate over 25 breaths per minute or a new need for mechanical ventilation  lactate not reduced by more than 20% of initial value within 1 hour. • 2 or more moderate to high risk criteria blood test for blood gas including glucose and lactate measurement, blood culture, full blood count, C-reactive protein, urea and electrolytes, creatinine review the person's condition and venous lactate results within 1 hour • 2 or more moderate to high risk criteria and lactate > 2 mmol/litre or evidence of acute kidney injury: treat as high risk • 2 or more moderate to high risk criteria, have lactate < 2 mmol/litre, no evidence of acute kidney injury and in whom a definitive condition cannot be identified: repeat structured assessment at least hourly review by a senior within 3 hours for consideration of antibiotics. • 2 or more moderate to high risk criteria, have lactate < 2 mmol/litre, no evidence of acute kidney injury and in whom a definitive condition or infection can be identified and treated: manage the definitive condition if appropriate, discharge • Intravenous fluids in people with suspected sepsis If patients over 16 years need intravenous fluid resuscitation, use crystalloids that contain sodium in the range 130–154 mmol/litre with a bolus of 500 ml over less than 15 minutes. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Sepsis Resuscitation Bundle: Surviving Sepsis Campaign • Should begin immediately, but must be accomplished within the first six hours of presentation. Serum lactate measured. Blood cultures obtained prior to antibiotic administration. From the time of presentation, broad-spectrum antibiotics administered within three hours for ED admissions and one hour for non-ED ICU admissions. In the event of hypotension and/or lactate > 4 mmol/l (36 mg/dl):  Deliver an initial minimum of 30 ml/kg of crystalloid (or colloid equivalent).  Apply vasopressors for hypotension not responding to initial fluid resuscitation to maintain mean arterial pressure (MAP) > 65 mm Hg. In the event of persistent hypotension despite fluid resuscitation (septic shock) and/or lactate > 4 mmol/l (36 mg/dl):  Achieve central venous pressure (CVP) of > 8 mm Hg.  Achieve central venous oxygen saturation (ScvO2) of > 70%. H/O sepsis secondary to pneumonia. treated with 4.5 L sodium chloride 0.9%. blood pressure was 82/40 mmHg. In attempting to restore the blood pressure, what is the most appropriate intravenous therapy? noradrenaline (norepinephrine) Ref: www.mrcpuk.org/ Acute Medicine Specialty Certificate Examination/ sample questions Tuberculosis (TB) Definition • TB is an infection caused by Mycobacterium tuberculosis that most commonly affects the lungs. • Mycobacterium tuberculosis: aerobic non-motile bacillus. classified as a Gram-positive organism Pathophysiology • Primary tuberculosis Bacilli are transported via lymphatics early in the disease process to regional lymph nodes to cause marked lymphadenopathy. Process after exposure to mycobacterium tuberculosis:  90 % of individuals with intact immunity control further replication of the bacilli, by either: Clearance or enter a "latent" phase (asymptomatic, but has the potential to become active at any time)  10% Progression to local pulmonary disease or dissemination occurs more frequently in those with poor immune responses, such as: HIV chronic kidney failure, poorly controlled diabetes mellitus, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad immunosuppressive medications (including transplant recipients), young children (before the age of five), older adults.  non-immune host who is exposed to M. tuberculosis may develop primary infection of the lungs. A small lung lesion known as a Ghon focus develops. The Ghon focus is composed of tubercle-laden macrophages. The combination of a Ghon focus and hilar lymph nodes is known as a Ghon complex  in immunocompetent people the initial lesion usually heals by fibrosis.  immunocompromised peoples may develop disseminated disease (miliary tuberculosis). Mycobacterium avium causes disseminated infection in patients with advanced HIV, typically when the CD4 count is less than 50 cells/mm3.  Pleural and pericardial infections (which can result in effusions) occur at or shortly after primary infection. • Secondary (post-primary) tuberculosis Definition  Reactivation of the initial infection if the host becomes immunocompromised Site of reactivation:  Pulmonary: the most common site for secondary TB. generally, occurs in the apex of the lungs and may spread locally or to more distant sites.  Extra-pulmonary: CNS (tuberculous meningitis - the most serious complication) Vertebral bodies (Pott's disease) Cervical lymph nodes (Scrofuloderma) Scrofuloderma occurs when the skin becomes involved by direct extension from an underlying tuberculous infection (usually lymphadenitis). Renal GIT Causes of immunocompromise:  immunosuppressive drugs (e.g. Steroids)  HIV  malnutrition Features • Primary TB is usually asymptomatic • cough >2 to 3 weeks' duration, lymphadenopathy, fevers, night sweats, weight loss • Pulmonary complications of TB can include hemoptysis, pneumothorax, bronchiectasis, extensive pulmonary destruction, malignancy, and chronic pulmonary aspergillosis. • TB may be associated with an inflammatory polyarthritis that may follow a similar pattern to rheumatoid arthritis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Transmission • Non-sputum producing patients are non-infectious . Only untreated smearpositive pulmonary TB is likely to be infectious. Screening • Mantoux test • Interferon-gamma blood test It is used in several specific situations such as:  the Mantoux test is positive or equivocal  people where a tuberculin test may be falsely negative (see below) Patients should be routinely screened for TB exposure before treatment with Etanercept with the tuberculin skin test Mantoux test (tuberculin test) (purified protein derivative (PPD) test) • Mechanism:  It is a type IV, (delayed) hypersensitivity reaction. It is a cell mediated immune response (measures the T cell-mediated immune response to TB antigen) mediated by interferon-γ secreted by Th1 cells which in turn stimulates macrophage activity. Memory TH1 cells previously formed against M. tuberculosis recognize peptide: MHC class II complexes on the surface of antigen presenting cells Positive tuberculin test occurs between three weeks and three months after primary infection. • Indication: the main technique used to screen for latent tuberculosis. The most commonly used screening test for contacts of a patient with recently diagnosed TB • Method 0.1 ml of 1: 1,000 purified protein derivative (PPD) injected intradermally result read 2-3 days later The left forearm is typically used. • Interpretation Only the induration, not surrounding erythema, is used in the measurement and the longest diameter is measured in millimeters: Diameter of induration Positivity Interpretation < 6mm Negative - no significant hypersensitivity to tuberculin protein 6 - 15mm Positive - hypersensitive to tuberculin protein 15mm Strongly positive - strongly hypersensitive to tuberculin protein False negative tests may be caused by: ( ↓reaction to tuberculin protein)  miliary TB  sarcoidosis  immunosuppression (HIV, corticosteroids)  lymphoma  very young age (e.g. < 6 months)  Viral infections,  live viral vaccines  poor nutrition. Active disease may be indicated by grade III/IV response to tuberculin. 8% of individuals with history of BCG vaccination have grade I/II response. Which cytokines is most involved in the response of a Mantoux test? Interferon-γ BCG • Definition a live attenuated vaccine derived from a strain of Mycobacterium. bovis. • Benefits BCG is 70-80% effective against severe TB infection. Protection is thought to last for 10-15 years, with greater efficacy in the under 16 years population. it also has effects against leprosy ( Mycobacterium (M. leprae)) (up to 80% protection) BCG is currently used as a form of immunotherapy for treating bladder cancer; which can lead to disseminated M. bovis infection (systemic 'BCG-it is') • Indications should be given to neonates in high risk groups. Previously unvaccinated individuals  A Mantoux should be documented before administration. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Previously unvaccinated individuals may be given the BCG Should not be given BCG. May be due to previous TB infection or BCG or atypical mycobacteria. However, in other contexts (e.g. immigrant screening and contact tracing), further investigation and follow-up may be indicated. Suggests tuberculosis infection do chest x-ray Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases  It should not be given to children who have a strongly positive tuberculin test  new entrants from high‑ incidence countries and are previously unvaccinated (that is, without adequate documentation or a BCG scar) and are aged: younger than 16 years or 16–35 years from sub‑ Saharan Africa or a country with a TB incidence of 500 per 100,000 or more. healthcare workers Mantoux‑ negative contacts of people with pulmonary and laryngeal TB if they:  have not been vaccinated previously and are aged 35 years or younger or are aged 36 years and older and a healthcare or laboratory worker who has contact with patients or clinical materials. • Contraindications BCG is a life attenuated vaccine containing M bovis, it should therefore be avoided in the immunosuppressed population.  In case of increased risk of HIV, NICE advises that an HIV test should be done prior to vaccination. Diagnosis • definitive diagnosis isolation of Mycobacterium tuberculosis from a bodily secretion (eg, culture of sputum, bronchoalveolar lavage, or pleural fluid) or tissue (pleural biopsy or lung biopsy). Send multiple respiratory samples (3 deep cough sputum samples, preferably including 1 early morning sample) for TB microscopy and culture. If spontaneous sputum (by coughing) is difficult:  Sputum may be induced by inhalation of hypertonic saline generated by a nebulizer.  If patient is unable to produce sputum, bronchoscopy with bronchial washings for microscopy staining and culture is the investigation of choice.  In children who are unable to cough up sputum, the gold standard is gastric washings for M tuberculosis culture Tissue biopsy may establish a definitive diagnosis of TB when other diagnostic techniques are not diagnostic. • probable diagnosis: can be based on: Typical clinical and chest X-ray findings, together with either  sputum (or other specimens) positive for acid-fast bacilli,  stains very weakly on testing. When using the Ziehl-Neelsen test it stains bright red against a blue background. typical histopathological findings on biopsy material • Smear-positive tuberculosis highly infectious (Patient needs treatment and isolation from casual contacts, his close contacts need screening) • Culture-positive tuberculosis means the immediate smear is negative, but prolonged culture has shown tuberculosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management (NICE guidelines 2016) • If there are clinical signs and symptoms consistent with a diagnosis of TB, start treatment without waiting for culture results. Consider completing the standard recommended regimen even if subsequent culture results are negative. • Should only be carried out in hospitals with appropriate isolation facilities. Smear-positive tuberculosis means the patient is highly infectious to both close contacts (more than 8 hours spent together per day) and casual contacts, such as other patients on the ward and healthcare workers. He therefore needs to be isolated in a negative-pressure room, contacts should wear particulate masks until he has received anti-tuberculous therapy for 2 weeks. The sputum might remain positive after this time, but the organisms will be dead. • Length of treatment: All forms of pulmonary TB may be treated equally except tuberculous pleural effusion which may require drainage (with large effusions causing breathlessness) and adjunct corticosteroids to delay reaccumulation.  A 6-month course of treatment is adequate for all non-CNS disease. Length of treatment for other forms are:  bone TB – 6 months Treatment for bone and joint tuberculosis is recommended to continue for 2 months with the initial phase consisting of quadruple therapy and the remaining 4 months of dual therapy. It is recommended not to extend treatment for residual complications such as collapsed discs or bending of the spine, although there is some debate about this.  meningitis - 1 year Antituberculous treatment for 12 months is recommended for TB meningitis.  drug resistance - 2 years. Treatment must be continued for a minimum of 18 months, with at least 9 months of treatment after the patient becomes culture-negative. • TB with strider: If patient of TB presents with worsening breathlessness and stridor due to mediastinal lymph nodes compressing the carina, the next step - after commencing steroid - is urgent (CT) scan, first to confirm the degree of airway compression and second to assess the response to chemotherapy. • Patients on long term steroids with TB: Patients on long term steroids should have their dose of steroids increased when starting antituberculous therapy.  The metabolism of corticosteroids is increased by rifampicin. (P450 inducer) • Failing regimen in the treatment of TB: reactivation of (TB) infection during treatment course. Evidence of failing treatment:  worsening symptoms,  elevated C-reactive protein,  progression of chest X-ray changes what is the most appropriate next treatment step?  Most guidelines recommend progression to five agents – rifampicin, pyrazinamide, isoniazid, ethambutol and streptomycin. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases TB Drug therapy Treatment for active tuberculosis is: • Initial phase - first 2 months (RIPE) Rifampicin Isoniazid Pyrazinamide Ethambutol  (the 2006 NICE guidelines now recommend giving a 'fourth drug' such as ethambutol routinely - previously this was only added if drug-resistant tuberculosis was suspected)  either ethambutol or streptomycin. • Continuation phase - next 4 months Rifampicin Isoniazid  After 2 months of therapy (for a fully susceptible isolate), pyrazinamide can be stopped. Isoniazid plus rifampicin are continued as daily or intermittent therapy for 4-or-more months.  Therapy must be extended if the patient has cavitary disease or remains culture positive after 2 months of treatment. Treatment for latent tuberculosis • isoniazid alone for 6 months Treatment for meningeal tuberculosis • treated for a prolonged period (at least 12 months) • 4 drugs for the first 2 months, followed by isoniazid and rifampicin 10 months. • addition of steroids (equivalent to prednisolone 20-40 mg) is recommended for the first 2-3 weeks, then with gradual reduction. (use of steroids is recommended to ensure adequate brain penetration and to prevent cranial nerve compression by meningeal scarring. Directly observed therapy • with a three times a week dosing regimen may be indicated in certain groups, including: homeless people with active tuberculosis patients who are likely to have poor concordance all prisoners with active or latent tuberculosis Tuberculosis: drug side-effects and mechanism of action • Rifampicin mechanism of action:  inhibits bacterial DNA dependent RNA polymerase preventing transcription of DNA into mRNA mechanism of resistance for rifampicin resistant Mycobacterium tuberculosis  Mutations in rpoB gene cause alterations in the bacterial DNA dependent RNA transcriptase, which prevents the binding of rifampicin.  In patients with HIV/TB co-infection:  Rifampicin is a potent inducer of liver enzymes (cytochrome P450). Furthermore, it up-regulates the expression of P-glycoprotein in the gastrointestinal tract.  Co-administration of a protease inhibitor with rifampicin therefore will often lead to sub-therapeutic levels of the protease inhibitor. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  the British HIV Association suggest the substitution of rifampicin for an alternative rifamycin agent (rifabutin or rifapentine), which has less inducing action of cytochrome P450 Side effects  potent liver enzyme inducer  hepatitis,  orange secretions (Red or orange discoloration of the urine and other body fluids)  flu-like symptoms  Rifampicin and isoniazid can cause a relative vitamin D deficiency • Isoniazid mechanism of action:  Prevents cell wall synthesis by inhibiting the synthesis of mycolic acid  Bactericidal Side effects  Hepatotoxicity INH is the most common drug associated with toxicity. INH metabolites are responsible for INH hepatotoxicity N-acetyltransferase 2 (NAT2) is the primary enzyme that contributes to INH metabolism. NAT2 deficiency increases the risk of INH-induced liver injury. slow acetylators are prone to develop more severe hepatotoxicity than rapid acetylators.  Peripheral neuropathy: Isoniazid-related demyelinating peripheral neuropathy relatively acute onset typically presents with reduced sensation +/- absent reflexes in lower limbs. prevented with low dose pyridoxine (Vitamin B6) treated with high-dose Pyridoxine  agranulocytosis  Drug-induced lupus erythematosus  liver enzyme inhibitor isoniazid toxicity  Risk factors alcoholism diabetes malnutrition, HIV, renal failure, neurotoxic medications, and pregnancy.  Treatment high-dose pyridoxine, (low dose pyridoxine is used for prophylaxis). stopping or reducing the dose of isoniazid control of other risk factors (e.g. reduced alcohol intake, improved glycaemic control etc) INH Injures Neurons and Hepatocytes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • Pyrazinamide mechanism of action:  converted by pyrazinamidase into pyrazinoic acid which in turn inhibits fatty acid synthase (FAS)  Bactericidal  Streptomycin has high activity against extracellular organisms whilst pyrazinamide have high activity against intracellular organisms. side effects  hyperuricaemia causing gout  arthralgia, myalgia the most common cause of arthralgia after starting antituberculous  Hepatotoxicity • Ethambutol mechanism of action:  Prevents cell wall synthesis by inhibiting arabinosyltransferase (which polymerizes arabinose into arabinan)  Bacteriostatic side effects  optic neuritis: check visual acuity before and during treatment  Ocular side-effects of ethambutol Loss of acuity Colour blindness Restriction of visual fields dose needs adjusting in patients with renal impairment  Ethambutol is renally excreted and therefore dose adjustment is necessary to minimise the risk of toxic effects (optic neuropathy). The remaining drugs are mainly metabolised in the liver and can be given in normal doses in renal failure. • Anti-tuberculosis drug and LFTs : All tuberculosis patients should have pre-treatment LFTs. rifampicin/isoniazid/pyrazinamide all are associated with liver toxicity, but isoniazid are most commonly implicated (this fact are tested in MRCPI website -part 1, sample question) Up to 20% of the patients receiving isoniazid either in single or combination therapy develop transient asymptomatic elevation in liver enzymes, which settle with continued use of the drug.  while some patients (less than 1%–3%) develop severe liver injury and even liver failure If there is no pre-existing liver disease, LFTs are only repeated (and treatment stopped) if fever, malaise, vomiting , jaundice or unexplained deterioration occurs during treatment. Regular LFTs should be performed in patients with previously known chronic liver disease.  define hepatotoxicity rifampicin/isoniazid/pyrazinamide should be stopped  If AST/ALT levels rise by 5 times upper limit of normal range without symptoms Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  If ALT/AST levels rise by 3 times upper limit of normal range with symptoms (abdominal pain, nausea, vomiting, unexplained fatigue or jaundice) If the patient is not unwell and/or has non-infectious TB, no treatment until LFT returns to normal. If clinically unwell or sputum smear is positive within two weeks of starting treatment, consider streptomycin and ethambutol until LFT returns to normal. Once LFT is back to normal, challenge dosages can be reintroduced sequentially in order of isoniazid, rifampicin and pyrazinamide with daily monitoring of patient's condition and LFT. If there is a further reaction , the offending drug should be excluded and a suitable alternative regimen used. • Immune reconstitution disease Immune reconstitution inflammatory syndrome (IRIS) (also known as immune recovery syndrome) is a condition seen in some cases of AIDS or immunosuppression, in which the immune system begins to recover, but then responds to a previously acquired opportunistic infection with an overwhelming inflammatory response that paradoxically makes the symptoms of infection worse occurs typically 3-6 weeks after starting treatment often presents with enlarging lymph nodes Latent tuberculosis infection (LTBI) Definition • screening tests indicating previous infection with M. tuberculosis are positive without any pathological findings on radiological imaging. Epidemiology • Approximately 30% of persons exposed to Mycobacterium tuberculosis will develop LTBI and, if untreated, approximately 5% to 10% of these persons will progress to active tuberculosis disease or reactivation of tuberculosis. Risk for developing active tuberculosis • The lifetime risk of reactivation TB for a person with LTBI is about 5–10%. • Risk factors for developing active tuberculosis include: silicosis chronic renal failure HIV positive solid organ transplantation with immunosuppression intravenous drug use haematological malignancy anti-TNF treatment previous gastrectomy Diagnosis • Mantoux tuberculin skin test (TST) can be positive with both active and latent TB but can also by a previous BCG vaccination. Recommended for close contacts of a person with TB. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases If positive (induration ≥ 5 mm, regardless of BCG history) assess for active TB • Interferon gamma release assay (IGRA) Indications  Quantaferon testing (interferon gamma testing) is recommended as a secondline test for people whose Mantoux testing may be less reliable - for example, BCG-vaccinated people.  If the Mantoux test is positive + active TB is excluded, and evidence of infection is needed to decide on treatment. for example: if the person needs enhanced case management or if there could be adverse events from treatment.  For immunocompromised, ( HIV and CD4 < 200 cells/mm3, or after transplant),Interferon‑ gamma release assay and a concurrent Mantoux test: If either test is positive assess for active TB. If assess for active TB is negative, treatment for latent TB infection. Advantage  Quantaferon testing is not influenced by BCG vaccination status  A positive test would, therefore, indicate prior exposure to M. tuberculosis (active or latent TB) Disadvantage  The main disadvantage of the IGRA is its inability to distinguish between active and latent TB. • Chest x-ray NO TB-related findings on chest x-ray (e.g., hilar lymphadenopathy, upper lobe opacification, or cavitation), Treatment (NICE guidelines 2016) • Treatment of LTBI can reduce the risk of development of disease by 90% • For adults between the ages of 35 and 65 years, offer drug treatments only if hepatotoxicity is not a concern. • test for hepatitis B, C and HIV before starting treatment for latent TB. • NICE now give two choices for treating latent tuberculosis: 3 months of isoniazid (with pyridoxine) and rifampicin  For people younger than 35 years if hepatotoxicity is a concern after an assessment of both liver function (including transaminase levels) and risk factors. 6 months of isoniazid (with pyridoxine)  if interactions with rifampicin are a concern, for example, in people with HIV or who have had a transplant. NICE advises that once a diagnosis of pulmonary TB has been made then close contacts should be managed as follow: • If asymptomatic and younger than 65 years, then:  test for latent TB.  If Mantoux-negative and unvaccinated then offer vaccination. If at risk of HIV then test for HIV first (HIV testing and if negative, then BCG vaccination). • If asymptomatic and older than 65 years then assess with a chest X-ray. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Miliary TB Overview • miliary TB most likely occur in young children. Features • presents with a gradual onset of vague ill health, loss of weight and then fever. • TB meningitis 15 - 20% of patients who have miliary TB also have TB meningitis at the time of presentation. 33% of patient with TB meningitis have concomitant miliary TB. • Hepatosplenomegaly is seen in advanced disease. • Choroidal tubercles can be seen in the eyes. Investigations • tuberculin test is often negative. negative in up to half of patients with severe disease • chest x ray may be normal in up to one third of patients. The classic millet seed nodules are small measuring about 1-2 mm. • Not all patients will be sputum positive and with evidence supporting a diagnosis of tuberculosis treatment should be commenced swiftly. • Transbronchial biopsy – positive at an early stage. • Biopsy of liver and bone marrow might be required. Milliay TB Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Non-tuberculous mycobacterial infections Opportunistic mycobacteria • Mycobacterium kansasii • Mycobacterium malmoense • Mycobacterium xenopi • Mycobacterium avium intracellular(The presence of acid fast bacilli (AFB) and absence of TB (Mycobacterium tuberculosis negative on culture.) suggests an atypical AFB such as M. avium.) The presence of AFB yet absence of TB suggests an atypical AFB such as M. avium. Mycobacterium avium causes disseminated infection in patients with advanced HIV, typically when the CD4 count is less than 50 cells/mm3. Mycobacterium malmoense • is a non-tuberculous mycobacterium • most commonly causes pulmonary infection in middle-aged and older adults with pre-existing lung disease or immunodeficiency and can also cause local invasion from a skin lesion. • It causes nonspecific symptoms, such as malaise and weight loss, or chest symptoms that take an atypical course. Pathophysiology • they can colonise structurally abnormal lung, for example in patients with: Cavitary disease Bronchiectasis Chronic obstructive pulmonary disease Such patients might not always require treatment. However, if treatment is required, then it is usually for longer than the standard 6 months needed to treat pulmonary tuberculosis • 'atypical' mycobacteria differ from M. tuberculosis in that they are ubiquitous organisms and have no person-to-person spread. • Mycobacterium marinum infection It is an uncommon atypical mycobacterium infection The skin is the most common site of infection, where it usually produces a solitary indolent granulomatous lesion - the 'fish tank granuloma'. usually seen in patients who handle fish or swim in freshwater or saltwater. occurs when contaminated water is exposed to skin that has experienced open trauma. fish tank granuloma' caused by Mycobacterium marinum Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnosis • A single isolate from a non-sterile site might not be significant and can just represent contamination. More than two isolates from a non-sterile site are required to establish disease. • Chest X-ray => (like other mycobacterium) upper-zone fibrosis and cavitation. Treatment • No need to isolate patients or notify public health authorities. Multidrug-resistant tuberculosis (MDR-TB). Definition • Defined as resistance to rifampicin and isoniazid, with or without resistance to other anti-TB drugs. • defined as positive cultures after 4 months of therapy. Epidemiology • Rare in previously untreated white patients born in the UK(< 2%). • Higher levels of resistance occur in Indian subcontinent and black, with isoniazid resistance occurring in 4-6% of such patients. Risk factors • Poor compliance (the most common reason) • Previous anti-TB treatment • Contact with a known case of drug-resistant TB • Birth in a foreign country, particularly high-incidence countries • HIV infection • Residence in London • Age profile, with highest rates between ages 25 and 44 • Male gender • Homelessness • Intravenous drug use • Infection acquired in institutions (eg prison) Treatment • Directly observed therapy is recommended • should be treated with an injectable agent such as amikacin, kanamycin or capreomycin, in combination with a fluoroquinolone and at least three other agents. At least 5 drugs, one of which is a quinolone, is the recommended • Ideally the injectable agent is administered daily for the first 6-8 months, forming an intensive phase of treatment, with other drugs then continued for a total of 18-24 months. • In practice, unwanted effects may lead to intravenous therapy being discontinued early. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Leprosy Definition • Leprosy is a granulomatous disease primarily affecting the peripheral nerves and skin. It is caused by Mycobacterium leprae. Features • patches of hypopigmented skin typically affecting the buttocks, face, and extensor surfaces of limbs • sensory loss Types • The degree of cell mediated immunity determines the type of leprosy a patient will develop: Low degree of cell mediated immunity → lepromatous leprosy ('multibacillary')  extensive skin involvement  symmetrical nerve involvement High degree of cell mediated immunity → tuberculoid leprosy ('paucibacillary')  limited skin disease  asymmetric nerve involvement Management • WHO-recommended triple therapy: rifampicin, dapsone and clofazimine • BNF advice: multibacillary leprosy (>6 lesions) rifampicin, dapsone and clofazimine for 12 months. paucibacillary leprosy (5 or less lesions) rifampicin and dapsone for 6 months. Vaccinations Live attenuated vaccines • BCG • measles, mumps, rubella (MMR) • oral polio • oral rotavirus • oral typhoid • influenza (intranasal) • yellow fever • Varicella Live attenuated vaccines are contraindicated in all HIV positive and immunocompromised patients. Inactivated preparations • rabies • influenza (intramuscular) Detoxified exotoxins • tetanus Extracts of the organism/virus (sometimes termed fragment) (may also be produced using recombinant DNA technology) • diphtheria • pertussis ('acellular' vaccine) • hepatitis B • meningococcus, pneumococcus, haemophilus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Notes • influenza: different types are available, including whole inactivated virus, split virion (virus particles disrupted by detergent treatment) and sub-unit (mainly haemagglutinin and neuraminidase) • cholera: contains inactivated Inaba and Ogawa strains of Vibrio cholerae together with recombinant B-subunit of the cholera toxin • hepatitis B: contains HBsAg adsorbed onto aluminium hydroxide adjuvant and is prepared from yeast cells using recombinant DNA technology Contraindications to pertussis immunisation • Acute illness - until recovered • Previous reaction to pertussis: Local: an extensive area of redness and swelling which becomes indurated, involving most of the anterolateral surface of the thigh or a major part of the circumference of the upper arm General: fever equal to or more than 39.5°C within 48 hours of vaccine, anaphylaxis, bronchospasm, laryngeal oedema, generalised collapse, prolonged hyporesponsiveness, prolonged inconsolable or high-pitched screaming of more than four hours, convulsions or encephalopathy occurring within 72 hours. Splenectomised patients • Splenectomised patients are at increased risk of infection with: encapsulated bacteria  A popular mnemonic to remember most of the encapsulated bacteria is the SHiNE SKiS bacteria (S. pneumo, Hib, N. meningitidis, E. Coli, Salmonella, Klebsiella, Group B Strep). infections that are filtered by the spleen (for example, malaria). • When elective splenectomy is planned, vaccines to pneumococcus and meningiococcus should be given two weeks pre-surgery to allow an antibody response to evolve. • Patients who have emergency splenectomies should be vaccinated post-operatively (most effective if performed at least 14 days after surgery) Prophylaxis in splenectomy • Following a splenectomy patients are particularly at risk from pneumococcus, Haemophilus, meningococcus and (Capnocytophaga canimorsus infections usually from dog bites) • Vaccination if elective, should be done 2 weeks prior to operation Hib, meningitis A & C annual influenza vaccination pneumococcal vaccine every 5 years • Antibiotic prophylaxis penicillin V: unfortunately clear guidelines do not exist of how long antibiotic prophylaxis should be continued. It is generally accepted though that penicillin should be continued for at least 2 years and at least until the patient is 16 years of age, although the majority of patients are usually put on antibiotic prophylaxis for life Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases MRCPUK-part-1-January 2018 exam: H/O emergency splenectomy. Following this he takes penicillin V on a daily basis. He is unsure of his vaccination history. Which organism is he particularly suscepitble to? Haemophilus influenza (Penicillin V would protect him against Streptococcus pneumoniae but notHaemophilus influenzae due to the production of beta-lactamases by the organism) MRCPUK-part-1-September 2019 exam: A 12-year-old boy who had a splenectomy following RTA , he had his full immunisation course as a child and was given a repeat pneumococcal vaccination 5 days following surgery. What is the most appropriate ongoing management? Booster dose of Hib and MenC vaccine + annual influenza vaccination + lifelong penicillin V Post-exposure prophylaxis Hepatitis A • Human Normal Immunoglobulin (HNIG) or hepatitis A vaccine may be used depending on the clinical situation Hepatitis B • HBsAg positive source: if the person exposed is a known responder to HBV vaccine then a booster dose should be given. If they are in the process of being vaccinated or are a non-responder they need to have hepatitis B immune globulin (HBIG) and the vaccine • unknown source: for known responders the green book advises considering a booster dose of HBV vaccine. For known non-responders HBIG + vaccine should be given those in the process of being vaccinated should have an accelerated course of HBV vaccine. accelerated course of HBV vaccine given at zero, one and two months. For those who are at continued risk, a fourth dose is recommended at 12 months. Source person Exposed person HBsAg positive unknown responder to HBV vaccine booster HBV vaccine booster HBV vaccine non-responder (HBIG) + vaccine HBIG + vaccine in the process of vaccination (HBIG) + vaccine accelerated course of HBV vaccine (given at zero, one and two months) Hepatitis C • Monthly PCR - if seroconversion then interferon +/- ribavirin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad HIV • Three antiretroviral agents for 1 month New guidelines in 2014 recommend three-agent PEP with Truvada® (tenofovir and emtricitabine) and raltegravir, which should both be taken for 1 month. (i.e. Within 1-2 hours, but may be started up to 72 hours following exposure) for 4 weeks • Serological testing at 12 weeks following completion of post-exposure prophylaxis • Reduces risk of transmission by 80% Varicella zoster • VZIG for IgG negative pregnant women/immunosuppressed Estimates of transmission risk for single needle stick injury Hepatitis B 20-30% Hepatitis C 0.5-2% HIV 0.3% First line management of needle stick injuries includes immediate washing of the affected area under running water. UK Guideline for the use of HIV Post-Exposure Prophylaxis Following Sexual Exposure (PEPSE) • If the source is of unknown status: → establish the HIV status of the source. • Source individual known to be HIV-positive: →determine the HIV viral load, resistance profile and treatment history. • if the source is on antiretroviral therapy (ART) with a confirmed and sustained (>6 months) undetectable plasma HIV viral load →PEPSE is no longer recommended Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases However, if there are any doubts about the HIV viral load history or the source’s adherence to ART →PEP should be given following unprotected receptive anal intercourse. Initiation of PEPSE is recommended as soon as possible after exposure, preferably within 24 hours of exposure but can be offered up to 72 hours. The first-line regimen is Truvada and raltegravir  Truvada → fixed-dose combination of two antiretroviral medications: tenofovir disoproxil and emtricitabine (both are Nucleoside analog reverse-transcriptase inhibitors (NRTIs)  Raltegravir (integrase inhibitors, a new class of HIV drugs ) targets integrase, an HIV enzyme that integrates the viral genetic material into human chromosomes, a critical step in the pathogenesis of HIV. PEPSE beyond 72 hours are not recommend duration of PEPSE should be 28 days follow-up HIV testing at 8-12 weeks after exposure pregnancy should not alter the decision to start PEPSE. Women must be counselled that antiretroviral agents used for PEPSE are unlicensed in pregnancy and risks / benefits must be carefully discussed In the event of a further high-risk sexual exposure in the last two days of the PEPSE course the PEP should be continued for 48 hours after the last high-risk exposure If the recipient has missed more than 48 hours of PEPSE then the course should be discontinued. Brucellosis Overview • Brucellosis is a zoonosis more common in the Middle East and in farmers. • Gram negative bacilli • It is considered a class B bioterrorist agent, is easily spread by aerosol, and is a significant hazard in microbiology laboratories. • Four major species cause infection in humans: B melitensis (sheep), B abortus (cattle), B canis and B suis (pigs). • incubation period 2 - 6 weeks • Most cases of brucellosis in Northern Europe and North America are acquired overseas and/or from consuming unpasteurised milk products, including cheese. Features • non-specific: fever, (prolonged fever of unknown origin) malaise • hepatosplenomegaly • sacroilitis: spinal tenderness may be seen. Brucellosis is a recognised cause of spondylitis associated rheumatic features in about 50% of cases. • complications: osteomyelitis, infective endocarditis, meningoencephalitis, orchitis • leukopenia is common Diagnosis • the Rose Bengal plate test can be used for screening but other tests are required to confirm the diagnosis • Brucella serology is the best test for diagnosis • blood and bone marrow cultures may be suitable in certain patients, but these tests are often negative Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 75% have a positive blood culture (90% of bone marrow cultures will be positive). Management • doxycycline and streptomycin Cat scratch disease (CSD) Definition: a benign, self-limiting infectious disease that is transmitted mainly by cats (via scratching, biting, or licking) Pathogen: Gram negative rod Bartonella henselae Features • fever, headache, malaise • history of a cat scratch • regional lymphadenopathy • In immunocompromised individuals (e.g., patients with HIV) → Bacillary angiomatosis (vascular proliferation, which leads to the development of solitary or multiple, red-purple papules that bleed easily). Treatment • Mild or moderate cases: azithromycin (5-day course) to decrease lymphadenopathy and the duration of illness • In the case of persistent and/or disseminated disease (e.g., bacillary angiomatosis): erythromycin OR doxycycline • In the case of CNS involvement or endocarditis: rifampicin PLUS either erythromycin OR doxycycline Whooping cough (pertussis) Bacteria • caused by the bacterium Bordetella pertussis. • gram-negative aerobic coccobacillus The virulence factors of Bordetella pertussis include its eponymous toxin and tracheal cytotoxin, • grows best on Bordet-Gengou agar and Regan-Lowe medium (Bordet for Bordetella) Epidemiology • now more common in adolescents and adults than in children. Mechanism • The tracheal cytotoxin from Bordetella pertussis kills ciliated cells along the respiratory epithelium. • Pertussis toxin inactivates Gi, an inhibitory protein. Gi normally inhibits activation of adenylate cyclase. Therefore, the pertussis toxin inhibits an inhibitor leading to increased activity of adenylate cyclase. Pertussis toxin ↓ Gi ↑adenylate cyclase Features • Pertussis has three major phases: the catarrhal phase (like the common cold), the paroxysmal phase (bouts of coughing), and the convalescent phase (resolution). • Lymphocytosis is typically found. it causes a profound leucocytosis by inhibiting chemokines that normally remove white cells from the blood stream. 057 - Chapter 9 057 Chapter 9 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Complications • pneumonia, seizures, and encephalopathy • A rare complication is a hemiseizure-hemiplegia syndrome, which is thought to be related to post-immunisation hyperthermia rather than direct neurological toxicity. Treatment • Treatment is largely supportive, but antibiotics can reduce the duration of symptoms. • Erythromycin, clarithromycin and azithromycin are first choice Prevention • The pertussis vaccine is estimated to be 63% to 94% effective in the diphtheria-pertussistetanus (DPT) shot Acute epiglottitis Overview • Acute epiglottitis is rare but serious infection caused by Haemophilus influenzae type B. • Prompt recognition and treatment is essential as airway obstruction may develop. • Epiglottitis was generally considered a disease of childhood but in the UK it is now more common in adults due to the immunisation programme. • The incidence of epiglottitis has decreased since the introduction of the Hib vaccine Features • Rapid onset • High temperature, generally unwell • Stridor • Drooling of saliva (the most specific sign) Diagnosis • the preferred method of diagnosis →direct visualization of the epiglottis using nasopharyngoscopy/laryngoscopy →cherry-red epiglottis No attempt should be made to visualise the epiglottis until an anaesthetist is present as there is a high risk of causing acute airway obstruction by touching the inflamed tissue. • Lateral neck soft-tissue radiography useful screening tool in suspected stable patient. Only 79% of epiglottis cases are diagnosed by neck soft-tissue radiographs The classic findings are:  swollen epiglottis (ie, a thumb sign),  thickened aryepiglottic folds, and  obliteration of the vallecula (pre-epiglottic space). (vallecula sign). The vallecula is the air pocket found at the level of the hyoid bone just anterior to the epiglottis. • blood culture Differential • cough is specific for croup • drooling is specific for epiglottitis • laryngomalacia improves in the prone position Treatment • Unstable patients →immediate airway management. Early intubation is essential, especially in cases where there is respiratory distress. • Third generation cephalosporin is the treatment of choice. • Close contacts of patients in whom Haemophilus influenzae type b is isolated should receive rifampin prophylaxis (20 mg/kg; not to exceed 600 mg/d for 4 d). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Recurrent episodes of acute epiglottitis in adults is unusual and, when present, warrants immune system investigation. Haemophilus influenzae requires hemin (factor X) and NAD+ (factor V) for growth. Other Haemophilus species require only NAD+ and therefore grow on blood agar. Haemophilus influenzae: culture requirements: Read Hemophilus as "HemoFive": · Needs Heme with Factors Five and Ten. Cellulitis Cellulitis • Staphylococcus aureus and Streptococci are the commonest causative organisms. • Group B Streptococcus has a predilection for diabetic patients Definition • inflammation of the skin and subcutaneous tissues, Causes • Staphylococcus aureus and Streptococci are the commonest causative organisms. • Group B Streptococcus has a predilection for diabetic patients and is the likeliest causative organism in diabetics Features • commonly occurs on the shins • erythema, pain, swelling • systemic upset such as fever • Cellulitis does not have sharp, well-defined borders, unlike an erysipelas infection. Eron classification NICE Clinical Knowledge Summaries recommend we use the Eron classification to guide how we manage patients with cellulitis: Class Features I There are no signs of systemic toxicity and the person has no uncontrolled co-morbidities II The person is either systemically unwell or systemically well but with a co-morbidity (for example peripheral arterial disease, chronic venous insufficiency, or morbid obesity) which may complicate or delay resolution of infection III The person has significant systemic upset such as acute confusion, tachycardia, tachypnoea, hypotension, or unstable co-morbidities that may interfere with a response to treatment, or a limb-threatening infection due to vascular compromise IV The person has sepsis syndrome or a severe life-threatening infection such as necrotizing fasciitis Management • Criteria for admission for intravenous antibiotics Eron Class III or Class IV cellulitis. severe or rapidly deteriorating cellulitis (for example extensive areas of skin). very young (under 1 year of age) or frail. immunocompromised. significant lymphoedema. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases facial cellulitis (unless very mild) or periorbital cellulitis. • Management Eron Class II cellulitis: • Admission may not be necessary if the facilities and expertise are available in the community to give intravenous antibiotics and monitor the person. • Other patients can be treated with oral antibiotics. • Antibiotics mild/moderate cellulitis  First line flucloxacillin (BNF recommendation) first choice to treat sensitive staphylococcal infections MRSA is resistant to flucloxacillin  in patients allergic to penicillin Clarithromycin or clindamycin.  in patients who have failed to respond to flucloxacillin oral clindamycin The most appropriate treatment is clindamycin and flucloxacillin, which covers the majority of organisms responsible for cellulitis. Flucloxacillin is bactericidal for both Staphylococcus and Streptococcus, whereas clindamycin has an anti-toxin effect for both these groups of organisms (in addition to Clostridium perfringen). Their effect is therefore synergistic, and they should be used together where rapid control is required (e.g. in finger cellulitis) or in severe cases Although clindamycin is a bacteriostatic antibiotic, it acts by switching off protein synthesis within bacteria; this in turn will lead to decreased exotoxin expression, thereby removing the mediators of toxic shock syndrome (TSS).  If no significant improvement within 48 hours, the patient should be readmitted for intravenous antibiotics. Severe cellulitis  should be treated with intravenous benzylpenicillin + flucloxacillin.  If there is any suspicion of tendon involvement (Intact joint movements make this less likely) the plastics or orthopaedics team should be asked to review and intravenous antibiotics initiated. Methicillin-resistant Staphylococcus aureus (MRSA) Epidemiology • In many hospitals, 40%-50% of the S. aureus isolates are resistant to methicillin Mechanism of resistance • Penicillin binding proteins are the characteristic mutated proteins in methicillinresistant Staphylococcus aureus. • The resistant organisms produce penicillin-binding proteins (PBPs) that have a low affinity for binding beta-lactamase antibiotics (Modification of target penicillin-binding proteins). Other organisms which do the same are Pneumococci and Enterococci. Who should be screened for MRSA? • all patients awaiting elective admissions exceptions include:  terminations of pregnancy  ophthalmic surgery  Patients admitted to mental health trusts. • all emergency admissions. Where is the site of most concern for staff carriage of MRSA? Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • The nose is the area of carriage for MRSA which gives most area for concern with respect to carriage by staff. How should a patient be screened for MRSA? • nasal swab and skin lesions or wounds the swab should be wiped around the inside rim of a patient's nose for 5 seconds the microbiology form must be labelled 'MRSA screen' Suppression of MRSA from a carrier once identified • nose: mupirocin 2% in white soft paraffin, TDS for 5 days • skin: chlorhexidine gluconate, OD for 5 days.  Apply all over but particularly to the axilla, groin and perineum Treatment of MRSA infections • Vancomycin → the first line • Teicoplanin • Linezolid Linezolid is the only oral medication available against MRSA. • Ceftaroline fifth generation cephalosporin Ceftaroline is the only cephalosporin to cover MRSA. • Some strains may be sensitive to the antibiotics listed below but they should not generally be used alone because resistance may develop: rifampicin macrolides tetracyclines aminoglycosides clindamycin • Relatively new antibiotics such as linezolid, quinupristin /dalfopristin combinations and tigecycline have activity against MRSA but should be reserved for resistant cases MRCPUK-part-1-January-2009: What is the most effective single step to reduce the incidence of MRSA? Hand hygiene MRCPI-part-1-jan-2017: What is the most appropriate antibiotic regimen for possible line sepsis from an indwelling permacath? Vancomycin + Gentamicin The antibiotic chosen should have both gram-positive and gram-negative cover, including MRSA. vancomycin and doxycycline are able to treat MRSA, but doxycycline has limited gram-negative cover, unlike gentamicin. Necrotising fasciitis Overview • Necrotising fasciitis is a medical emergency that is difficult to recognise in the early stages. Classification (according to the causative organism): • Type 1 is caused by mixed anaerobes and aerobes (often occurs post-surgery in diabetics) • Type 2 is caused by Streptococcus pyogenes commonly caused by group A Streptococci Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Features • acute onset • painful, erythematous lesions • extremely tender over infected tissue Management • urgent surgical referral debridement • intravenous antibiotics Clindamycin and Tazocin  Clindamycin bacteriostatic inhibits formation of peptides bonds at 50S ribosomal subunit It is also a potent suppressor of bacterial toxin synthesis.  Group A Streptocooci are usually very sensitive to benzylpenicillin so this is frequently added though this does not neutralises the toxin. Toxic shock syndrome (TSS) Causes • Staphylococcus aureus, which releases enterotoxin type B (i.e. toxic shock syndrome toxin1), • Streptococcus pyogenes, which releases pyogenic exotoxins. Risk factors • Recent menstruation Although the earliest described cases involved mostly menstruating women using highly absorbent tampons, only 55% of current cases are associated with menstruation. • Recent use of barrier contraceptives such as diaphragms and vaginal sponges • Vaginal tampon use (especially prolonged) • Recent childbirth • Recent surgery, • Current S. aureus infection. Features • non-specific (e.g., fever, chills, myalgias, headache), • toxicity occurs early, resulting in serious life-threatening disease • Staphylococcal scalded skin syndrome Diffuse erythema that desquamates as the patient recovers Occur 10% of patients Exotoxin A is the causative toxin in staphylococcus scalded skin syndrome. most common in children but can be seen in immunocompromised adults. destroys keratinocyte attachments in the stratum granulosum, leading to a very superficial sloughing of the epidermis that heals completely. It is also known as Pemphigus neonatorum or Ritter disease. • multi-organ system failure. Staphylococcus aureus Toxic shock syndrome toxin binds to major histocompatibility complex II and T cell receptor overwhelming release of cytokines  shock. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Types • Streptococcal toxic shock syndrome (TSS) can occur with infection at any site but is more commonly associated with an infected cutaneous site. • Staphylococcal TSS (menstrual or non-menstrual) severe systemic reaction to staphylococcal exotoxins. associated with extended tampon use, postpartum infections, and other sites of infection with the organism. Diagnosis • Centers for Disease Control and Prevention diagnostic criteria fever: temperature > 38.9 C hypotension: systolic blood pressure < 90 mmHg diffuse erythematous rash desquamation of rash, especially of the palms and soles involvement of three or more organ systems: e.g. gastrointestinal (diarrhoea and vomiting), mucous membrane erythema, renal failure, hepatitis, thrombocytopenia, CNS involvement (e.g. confusion) Treatment • supportive care in an ICU, • early empirical antibiotic treatment, and further culture-sensitive antibiotic treatment. Although clindamycin is a bacteriostatic antibiotic, it acts by switching off protein synthesis within bacteria; this in turn will lead to decreased exotoxin expression, thereby removing the mediators of TSS. • Surgical debridement may be needed for deep-seated streptococcal infections. Cholera electron microscope image of Vibrio cholerae bacteria Overview • caused by Vibro cholerae - Gram negative bacteria • Because the organism is not acid-resistant, it depends on its large inoculum size ( infectious dose) to withstand gastric acidity.  If ingested with water, a higher infectious dose is needed. When ingested with food, fewer organisms are required to produce disease. ↓ gastric acidity (anti-acid drugs, gastrectomy) ↑risk of cholera infection and severity Mechanism by which cholera leads to fluid loss: • Cholera toxin has two parts, A and B. Chapter 9 Infectious diseases B subunits are responsible for binding to a ganglioside (monosialosyl ganglioside, GM1 receptor) located on the surface of the cells that line the intestinal mucosa. B binds while A activates G protein activates adenylate cyclase  ↑(cAMP) unrestricted chloride secretion from villous crypts. cholera toxin stimulates the generation of cyclic AMP as the second messenger Features • profuse 'rice water' diarrhoea • dehydration • hypoglycaemia After dehydration, hypoglycemia is the most common lethal complication of cholera in children. Management • oral rehydration therapy • antibiotics: doxycycline, ciprofloxacin Congenital infections The major congenital infections encountered in examinations are rubella, toxoplasmosis and cytomegalovirus Cytomegalovirus is the most common congenital infection in the UK. Maternal infection is usually asymptomatic Rubella Toxoplasmosis Cytomegalovirus Characteristic features Sensorineural deafness Congenital cataracts Congenital heart disease (e.g. patent ductus arteriosus) Glaucoma Other features Growth retardation Hepatosplenomegaly Purpuric skin lesions 'Salt and pepper' chorioretinitis Microphthalmia Cerebral palsy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Cerebral calcification Chorioretinitis Hydrocephalus Growth retardation Purpuric skin lesions Anaemia Hepatosplenomegaly Cerebral palsy Sensorineural deafness Encephalitis/seizures Pneumonitis Hepatosplenomegaly Anaemia Jaundice Cerebral palsy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chickenpox (Varicella-zoster virus) Overview • Chickenpox is caused by primary infection with varicella zoster virus. • Shingles is reactivation of dormant virus in dorsal root ganglion • Chickenpox is highly infectious (infection rate in household contacts of 90%). • spread via the respiratory route • can be caught from someone with shingles • infectivity = 4 days before rash, until 5 days after the rash first appeared* • incubation period = 10-21 days • It is commonest in spring time • Causes congenital limb deformity • HIV HIV-positive patients are more prone to herpes zoster regardless of their CD4 count. In addition to the typical dermatomal distribution of the vesicular rash, HIV patients occasionally have vesicles scattered in adjacent dermatomes. In advanced HIV disease VZV can manifest as severe disseminated disease. Clinical features (tend to be more severe in older children/adults) • fever initially • itchy, rash starting on head/trunk before spreading. Initially macular then papular then vesicular • systemic upset is usually mild Management is supportive • keep cool, trim nails • calamine lotion • school exclusion: current HPA advice is 5 days from start of skin eruption. They also state 'Traditionally children have been excluded until all lesions are crusted. However, transmission has never been reported beyond the fifth day of the rash.' • immunocompromised patients and newborns with peripartum exposure should receive varicella zoster immunoglobulin (VZIG). If chickenpox develops then IV aciclovir should be considered Aciclovir (also famciclovir, and ganciclovir) acts through inhibition of viral (DNA) polymerase but it is a pro-drug and first requires phosphorylation by thymidine kinase.  Resistance arises when the virus lacks thymidine kinase For thymidine kinase-deficient varicella-zoster virus strain:  Cidofovir does not require activation by viral thymidine kinase; therefore, it would be best suited to treat the thymidine kinase-deficient varicella-zoster virus. • adults chicken pox should be treated with acyclovir within 24 hours of the appearance of rash because it can lessen the occurrence of post herpetic neuralgia. Complications • Common complication is secondary bacterial infection of the lesions. • Chicken pox in the first and second trimester can produce a syndrome of skin scarring, hypoplastic limbs, eye and central nervous system impairments. • Rare complications include Varicella pneumonia  Varicella pneumonia occurs in up to 20% of adults with chickenpox,  uncommon in children Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases  The risk is higher in smokers and pregnancy.  Features appearing three to five days into the course of the illness. Symptoms include tachypnoea, cough, dyspnoea, and fever. Cyanosis, pleuritic chest pain and haemoptysis are common.  Treatment → Aciclovir Encephalitis (cerebellar involvement may be seen) Disseminated haemorrhagic chickenpox Arthritis, nephritis and pancreatitis may very rarely be seen mechanism of acyclovir resistance reduced production of viral thymidine kinase Chest x-ray showing miliary opacities secondary to healed varicella pneumonia. Multiple tiny calcific miliary opacities noted throughout both lungs. These are of uniform size and dense suggesting calcification. There is no focal lung parenchymal mass or cavitating lesion seen.The appearances are characteristic for healed varicella pneumonia. *it was traditionally taught that patients were infective until all lesions had scabbed over Chickenpox exposure in pregnancy Chickenpox exposure in pregnancy - first step is to check antibodies • In pregnancy there is a risk to both the mother and also the fetus, a syndrome now termed fetal varicella syndrome Risks to the fetus and neonate relate to the time of infection: • Less than 20 weeks pregnancy: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad congenital varicella (limb hypoplasia, microcephaly, cataracts, growth retardation, skin scarring). High mortality. The incidence of congenital varicella syndrome is about 2% in mothers who develop primary chickenpox in the first half of the pregnancy. • Second to third trimester: herpes zoster in an otherwise healthy infant. • Minus seven days to plus seven days after delivery: severe and even fatal disease (30% mortality). Risks to the mother • 5 times greater risk of pneumonitis Fetal varicella syndrome (FVS) • risk of FVS following maternal varicella exposure is around 1% if occurs before 20 weeks gestation • studies have shown a very small number of cases occurring between 20-28 weeks gestation and none following 28 weeks • features of FVS include skin scarring, eye defects (microphthalmia), limb hypoplasia, microcephaly and learning disabilities Other risks to the fetus • shingles in infancy: 1-2% risk if maternal exposure in the second or third trimester • severe neonatal varicella: if mother develops rash between 5 days before and 2 days after birth there is a risk of neonatal varicella, which may be fatal to the newborn child in around 20% of cases Management of chickenpox exposure • if there is any doubt about the mother previously having chickenpox maternal blood should be urgently checked for varicella antibodies • if the pregnant women is not immune to varicella she should be given varicella zoster immunoglobulin (VZIG) as soon as possible. RCOG and Greenbook guidelines suggest VZIG is effective up to 10 days post exposure • consensus guidelines suggest oral aciclovir should be given if pregnant women with chickenpox present within 24 hours of onset of the rash Varicella zoster immunoglobulin (VZIG) • prepared from pooled plasma of UK blood donors with a history of recent chickenpox or herpes zoster. • Donors are screened for HIV, hepatitis B and hepatitis C. • VZIG prophylaxis is recommended for patients who fulfil all the following criteria: A clinical condition that increases the risk of severe varicella, (for example, immunosuppression, neonates, pregnant women) No antibodies to varicella zoster Significant exposure to chickenpox or herpes. • VZIG prophylaxis is of no benefit if chickenpox has already developed. • Severe or fatal varicella can occur despite VZIG prophylaxis. Active immunisation should therefore be used for susceptible immunosuppressed patients at long term risk. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Cytomegalovirus Overview • Cytomegalovirus (CMV, HHV-5), is one of the herpes viruses. • Herpes viridae is the family of viruses to which cytomegalovirus belongs. • Double stranded DNA virus. • Mononuclear cells are the class of leukocytes in which cytomegalovirus lies dormant. • It is thought that around 50% of people have been exposed to the CMV virus although it only usually causes disease in the immunocompromised, for example people with HIV or those on immunosuppressants following organ transplantation. Diagnosis • infected cells have a 'Owl's eye' appearance due to intranuclear inclusion bodies Patterns of disease • Congenital CMV infection features include growth retardation, pinpoint petechial 'blueberry muffin' skin lesions, microcephaly, sensorineural deafness, encephalitis (seizures) and hepatosplenomegaly • CMV mononucleosis infectious mononucleosis-like illness may develop in immunocompetent individuals • CMV retinitis common in HIV patients with a low CD4 count (< 50) presents with visual impairment e.g. 'blurred vision'. Fundoscopy shows retinal haemorrhages and necrosis, often called 'pizza' retina IV ganciclovir is the treatment of choice  Valganciclovir is an oral pro-drug for ganciclovir, with similar bioavailability but without the need to deliver it IV, making it the preferred option here.  The efficacy of valganciclovir is similar to ganciclovir without the need for IV administration, and this drives ganciclovir as the option where oral therapy isn’t tolerated.  The toxicity profile for valganciclovir is the same as that for ganciclovir, with bone marrow suppression the main concern. Foscarnet is the drug of choice for ganciclovir-resistant cytomegalovirus retinitis. • CMV encephalopathy: seen in patients with HIV who have low CD4 counts • CMV pneumonitis • CMV colitis HIV+ bloody diarrhea+ no abdominal pain +normal stool examination Do Colonoscopy to diagnose CMV colitis Patients with inflammatory bowel disease are at increased risk of CMV colitis particularly those on immunosuppression. COLONOSCOPY finding multiple ulcer and mucosal erosion The most appropriate investigation is Flexible sigmoidoscopy and biopsy  in severe colitis endoscopy should be limited to flexible sigmoidoscopy only due to an increased risk of perforation.  Biopsy shows: cytomegalic cell+ intranuclear inclusion body Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Dengue fever Definition • Dengue fever is a viral infection which can progress to viral haemorrhagic fever (also yellow fever, Lassa fever, Ebola) Pathogen • caused by Dengue virus , RNA virus of the genus Flavivirus • Transmitted by the Aedes aegyti mosquito • Incubation period 4-10 days. If symptoms appear more than 2 weeks after returning from a dengue-endemic region, it is very unlikely that dengue is the cause. Epidemiology • Distribution: tropical regions worldwide, particularly Asia (e.g., Thailand) • Most common viral disease affecting tourists in tropical regions Features • headache (often retro-orbital) • fever • myalgia (severe musculoskeletal pain is a prominent feature) hence the name breakbone fever. • pleuritic pain • facial flushing (dengue) • maculopapular rash (confluent erythematous rash over the precordium)  When the patient is near recovery there may develop a maculopapular rash beginning on the trunk and spreading to the extremities and the face. • There is often adenopathy, palatal vesicles and sclera injection on the first day. • Epistaxis and scattered petechiae may be observed. Complication • a form of disseminated intravascular coagulation (DIC) known as dengue haemorrhagic fever (DHF) may develop. Around 20-30% of these patients go on to develop dengue shock syndrome (DSS) Laboratory tests • Leukopenia • Neutropenia • Thrombocytopenia • ↑ AST • Hct significantly increased or decreased in DHF (due to plasma leakage) Diagnosis • diagnosed by dengue fever serology. Treatment • symptomatic e.g. fluid resuscitation, blood transfusion etc Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Herpes simplex virus Pathogen • Herpes simplex virus is a DNA virus. • There are two strains of the herpes simplex virus (HSV) in humans: HSV-1 → most commonly cause orofacial disease HSV-2 → most commonly cause genital disease. • Whilst it was previously thought HSV-1 accounted for oral lesions (cold sores) and HSV-2 for genital herpes it is now known there is considerable overlap • Worldwide seroprevalence is high, with antibodies detectable in over 90% of the population. Of these cases, approx. 60% are caused by HSV-1. • Incubation period →2 days to 2 weeks. Pathophysiology • Inoculation: The virus enters the body through mucosal surfaces or small dermal lesions. • Neurovirulence: The virus invades, spreads, and replicates in nerve cells. • Latency: After primary infection, the virus remains dormant in the ganglion neurons. Trigeminal ganglion: HSV-1 Sacral ganglion: HSV-2 • Reactivation: triggered by various factors (e.g., immunodeficiency, stress, trauma) → clinical manifestations • Dissemination Infection spreads to unusual sites (e.g., lungs, gastrointestinal tract, eyes) May occur in pregnant patients or patients with severe immunodeficiency • Recurrent attacks tend to be shorter and less severe. Transmission • Only from direct contact with mucosal tissue or secretions of another infected person • Because the virus dies quickly outside of the body, it's nearly impossible to get the infection through contact with toilets, towels or other objects used by an infected person • Infection with HSV-1 usually is acquired in childhood via saliva. • HSV-2 is mostly spread through genital contact Features Herpes zoster usually has a prodrome pain before the vesicles appear. It usually follows a particular dermatome but in immune suppression the disease may affect more than one dermatome. Herpes simplex II is the wrong answer. Herpes simplex II vesicles may appear, but they never follow a particular dermatome. • Up to 80% of herpes simplex infections are asymptomatic. • Labial herpes (herpes labialis) Pathogen →Mostly HSV-1 Recurring, erythematous vesicles that turn into painful ulcerations, also known as cold sores; oral mucosa and lip borders In orofacial HSV infections, the trigeminal ganglia are most commonly involved • Herpetic gingivostomatitis Mainly in children (∼1–6 years), but also immunocompromised patients Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Erythema and painful ulcerations on perioral skin and oral mucosa • Genital herpes (herpes genitalis) → painful genital ulceration Pathogen → HSV-2 Blistering and ulceration of the external genitalia or perianal region (cervix/rectum) → “punched-out” ulcer Painful lymphadenopathy in the groin area (tender inguinal lymphadenitis, usually bilateral.) In genital HSV infection, the sacral nerve root ganglia (S2-S5) are involved. • Eczema herpeticum associated with preexisting skin conditions, most often atopic dermatitis Fever, malaise, lymphadenopathy Extensive disseminated and painful eruptions on the head and upper body; erythematous skin with multiple, round, umbilicated vesicles • Herpetic whitlow Pathogen → HSV-1 in 60% of cases; HSV-2 in 40% of cases (in the adult population) Aetiology → Direct contact with infected secretions Risk factors  Children (via sucking of thumb/fingers (may have a history of labial herpes)  Health care workers exposed to oral secretions (e.g., dentists) Incubation period: 2–20 days Infection of the dermal and subcutaneous tissue Grouped, non-purulent vesicles on an erythematous base, may rupture or ulcerate, involved one or more fingers (especially the thumb and index fingers); mostly found on terminal phalanx. Axillary and epitrochlear lymphadenopathy Management → oral acyclovir Investigations • Nucleic acid amplification test (NAAT) are recommended as the preferred diagnostic method for genital herpes. now regarded as the test of choice. PCR (a type of NAAT) : detects HSV RNA; identification of virus genotype • Western blot the gold standard for the detection of antibodies to HSV, but it is not commercially available. expensive, time consuming and requires skilled interpretation. high sensitivity have ability to discriminate between HSV-1 and HSV-2 antibodies. • Viral culture gold standard for definitive diagnosis; 100% specificity for HSV-1 or HSV-2 The culture should be taken from a fresh vesicle, either from skin or genitals. • Light microscopy findings on a Tzanck smear Detects multinucleated giant cells (nonspecific) Eosinophilic intranuclear Cowdry A inclusion bodies Unable to differentiate between HSV-1 and HSV-2, also commonly positive in VZV rarely used now for diagnosis. can be performed when an urgent result is needed and no alternative test is immediately available Management • Antiviral treatment reduces the severity of episodes but is not curative. • gingivostomatitis: oral aciclovir, chlorhexidine mouthwash • cold sores: topical aciclovir although the evidence base for this is modest Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • genital herpes: oral aciclovir. Topical anaesthetic agents, e.g. 5% lidocaine (lignocaine) ointment Recommended regimens : Aciclovir 400 mg three times daily OR Valaciclovir 500 mg twice daily (for 5 days) Some patients with frequent exacerbations may benefit from longer term aciclovir  more than six herpes episodes over the past 12 months →trial of suppressive therapy (aciclovir 400 mg BD for 12 months). Genital herpes in pregnant lady:  Aciclovir is considered safe and well tolerated.  If genital herpes is not recurrent and healed after a course of aciclovir: There is no need to continue suppressive therapy throughout the pregnancy. Restart acyclovir 400 mg TDS suppressive dose from week 36 to prevent active lesions being present at the time of delivery, where caesarean would definitely be needed.  If there is a history of recurrent genital herpes → she should continue taking acyclovir 400 mg TDS until the end of the pregnancy  If there are active lesions or prodromal symptoms at the time of delivery → A caesarean section should be considered Early treatment of herpes infections is essential to prevent complications because antiviral drugs only inhibit the virus during its replication phase Yellow fever • Type of viral haemorrhagic fever (also dengue fever, Lassa fever, Ebola). Aetiology • Pathogen: yellow fever virus (genus Flavivirus) • linear RNA virus • spread by Aedes mosquitos (primarily Aedes aegypti) • incubation period = 2 - 14 days Epidemiology • endemic in large parts of South America and Africa but not in Asia. Features • Most patients remain asymptomatic • In symptomatic patients: classic progression in three stages Period of infection (3–4 days) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Sudden onset of fever (up to 41°C)  Headaches, chills  Nausea, vomiting  Bradycardia may develop 2. Period of remission (up to 2 days)  Easing of symptoms and decline in fever 3. Period of intoxication (only in ∼15% of symptomatic patients)  Hemorrhage  Multiorgan dysfunction (e.g., acute kidney and liver failure) Nausea, (bloody) vomiting, abdominal pain, severe jaundice Zone 2 of the liver is most affected in Yellow fever. Yellow fever is suggested by: Travel to endemic area (West Africa and Central America) Fever, with initial resolution Progression to jaundice and renal failure Investigations • Leukopenia • Thrombocytopenia, ↑ PTT • Signs of organ failure (acute liver failure, acute renal failure) • Virus detection PCR: the best test to rule out yellow fever infection is PCR ELISA • Liver biopsy Used for definitive diagnosis (e.g., postmortem) Must not be done while the patient has an active yellow fever infection May show Councilman bodies  Councilman bodies (inclusion bodies) may be seen in the hepatocytes For exam purposes Councilman bodies (eosinophilic inclusion in the liver on post mortem) are diagnostic of yellow fever, although they can occasionally be seen in other Viral Haemorrhagic Fevers such as Crimean Congo Haemorrhagic Fever, (but this is nosocomially spread) Treatment • Symptomatic treatment • No specific antiviral treatment is available Prevention • Yellow fever vaccine the vaccination is the only intervention which could prevent death . a live, attenuated vaccine that consists of the 17D strain of the virus, grown in hens’ eggs. Administration  A single dose is provides life-long protection  administer at least 10 days before traveling to endemic area. Its use is contraindicated in:  Under six months  With previous confirmed anaphylactic reaction to the vaccine  previous confirmed anaphylactic reaction to egg  thymus disorder  immunocompromised due to a congenital condition, disease process or treatment. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Human immunodeficiency virus (HIV) Aetiology • Consists of the two species : HIV-1: most common species worldwide HIV-2: restricted almost completely to West Africa Pathophysiology • HIV attaches to the CD4 receptor on host cells with its gp120 glycoprotein (binding) • For fusion, CD4 receptor and a coreceptor (CCR5 in macrophages, and CCR5 or CXCR4 in T-cells) must be present. Viral entry into macrophages via CCR5 mainly occurs during the early stages of infection, while entry via CXCR4 occurs in later stages. Individuals without CCR5 receptors appear to be resistant to HIV, those patients either have a homozygous CCR5 mutation (substantial resistance) or a heterozygous CCR5 mutation (slower course). • gp120 is the HIV glycoprotein that can cross the placenta and infect the fetus. • The lymph nodes are the organs in which HIV replicates during the latent phase. Associations • Epstein-Barr virus reactivation, leading to B-cell lymphoma, typically occurs in AIDS patients with a CD4+ cell count less than 100/mm3. Routes of transmission • Sexual: responsible for ∼80% of infections worldwide • Parenteral transmission • Needle sharing: → 0.67% • Vertical transmission: from mother to child during childbirth (∼5–15%) • Features • In early HIV infection, patients are often asymptomatic. • Acute HIV infection (acute retroviral syndrome) (ARS) Typically occurs 2-12 weeks after infection Fever, Fatigue, Myalgia and arthralgia Generalized nontender lymphadenopathy Generalized rash Gastrointestinal symptoms (nausea, diarrhea, weight loss) Oropharyngeal symptoms (sore throat, ulcerations, painful swallowing) • Clinical latency and AIDS Clinical latency: Infected individuals may still be asymptomatic. Non-AIDS-defining conditions (common when CD4+ count is below 500 cells/mm3)  Generalized lymphadenopathy  Chronic diarrhea (> 1 month)  Localized opportunistic infections Oral candidiasis: creamy, white patches on the mucous membranes of the mouth that can be scraped off Oral hairy leukoplakia: lesions that cannot be scraped off located mainly on the lateral borders of the tongue; triggered by Epstein-Barr virus HPV-related: squamous cell carcinoma of the anus (common in men who have sex with men) or cervix molluscum contagiosum, warts; shingles AIDS-defining conditions  Kaposi sarcoma (typically occurs at CD4 count < 500) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Mycobacterial infections ( e.g, TB)  Progressive multifocal leukoencephalopathy (typically occurs at CD4 count < 200)  Disseminated or extrapulmonary coccidioidomycosis (occurs at CD4 count < 250)  Pneumocystis pneumonia (occurs at CD4 count < 200)  Disseminated or extrapulmonary histoplasmosis (occurs at CD4 count < 150)  Conditions occurs at CD4 count < 100 Cerebral toxoplasmosis Extrapulmonary cryptococcosis (especially cryptococcal meningitis) Esophageal candidiasis or pulmonary candidiasis Herpes simplex Esophagitis Primary CNS lymphoma  Conditions occurs at CD4 count < 50 Disseminated and/or extrapulmonary Mycobacterium avium complex Cytomegalovirus infection WHO (World Health Organization) classification • Primary HIV infection: acute retroviral syndrome or asymptomatic • Clinical stage 1: persistent generalized lymphadenopathy (PGL) or asymptomatic • Clinical stage 2: e.g., unexplained moderate weight loss (< 10%), recurrent fungal/viral/bacterial infections • Clinical stage 3: e.g., unexplained severe weight loss (> 10%), unexplained chronic diarrhea (> 1 month), unexplained persistent fever (≥ 37.6°C intermittent or constant > 1 month), persistent/severe fungal/viral/bacterial infections , unexplained anemia (< 8 g/dL) and/or neutropenia (< 500 cells/mm3) and/or chronic thrombocytopenia (< 50,000/μL) for more than 1 month • Clinical stage 4: AIDS-defining conditions (e.g., Kaposi sarcoma, Pneumocystis pneumonia) Diagnosis • HIV-1/2 antigen/antibody combination immunoassay (Ag/Ab immunoassay) (ELISA) Target of detection: IgM and IgG antibody and p24 antigen Approximate time to positivity: 15 to 20 days after event If a very early infection is suspected (less than 2 weeks), advice for:  Serial testing at 1 month and again at 3 months from the date of the possible exposure OR  HIV RNA viral load test p24 is the capsid protein of HIV, coded for by the gag gene. If negative → No further testing is required (exclude HIV) If positive → confirm by HIV-1/2 differentiation immunoassay (differentiates HIV-1 antibodies from HIV-2 antibodies) Unlike oral candidiasis, esophageal candidiasis is an AIDS-defining condition. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • HIV viral load test Made by PCR of peripheral blood for HIV RNA Target of detection: RNA Approximate time to positivity: 5 – 15 days In acute HIV the viral load is very high. • HIV-1/2 differentiation immunoassay Confirmatory test , indicated following a positive HIV-1/2 Ag/Ab immunoassay The differentiation assay is now the standard confirmatory test Determines whether it is HIV-1 or HIV-2 infection If both Ag/Ab immunoassay and differentiation immunoassay are positive → confirm diagnosis of HIV and determine as positive for HIV-1 antibodies, HIV-2 antibodies, or HIV antibodies, undifferentiated. If Ag/Ab immunoassay differentiation was positive but differentiation immunoassay is negative ( non-reactive) → test for HIV-1 nucleic acid test (NAT). • HIV-1 nucleic acid test (NAT) A reactive HIV-1 NAT result and nonreactive HIV-1/HIV-2 antibody differentiation immunoassay result indicates laboratory evidence for acute HIV-1 infection. A negative HIV-1 NAT and nonreactive or indeterminate HIV-1/HIV-2 antibody differentiation immunoassay indicates a false-positive result on the initial immunoassay • Flow cytometry is the lab technique used to measure CD4 cell count Used to determine the level of immune suppression once an infection is confirmed. The most useful investigation in estimating the risk of developing an opportunistic infection A count lower than 200/mm3 generally indicates progression to AIDS. • The Centers for Disease Control (CDC) no longer recommends Western blot confirmatory testing for HIV. Treatment • Since late 2015, the World Health Organization (WHO) has recommended starting ART in every HIV-positive individual, regardless of CD4 count. • In hepatitis B co-infection Antiretrovirals that also have anti-HBV activity should be included in the regimen used to treat HIV. These include:  Emtricitabine  Lamivudine  Tenofovir Discontinuation of drugs that have anti-HBV activity can lead to reactivation of HBV and cause serious hepatocellular damage. • In patients with renal impairment → avoid tenofovir and consider avoiding atazanavir. Initiation of ART should be delayed in the setting of TB meningitis and cryptococcal meningitis because of the high risk of immune reconstitution syndrome Stopping NRTIs in patients with hepatitis B co-infection can lead to an acute worsening of their hepatitis! Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad HIV and pregnancy Efavirenz is the only antiretroviral medication that is contraindicated in pregnancy (teratogenic) Epidemiology • In London the incidence may be as high as 0.4% of pregnant women. Factors which reduce vertical transmission (from 25-30% to 2%) • maternal antiretroviral therapy • mode of delivery (caesarean section) • neonatal antiretroviral therapy • infant feeding (bottle feeding) Screening • NICE guidelines recommend offering HIV screening to all pregnant women Treatment • The aim of treating HIV positive women during pregnancy is to minimise harm to both the mother and fetus, and to reduce the chance of vertical transmission. • Antiretroviral therapy all pregnant women should be offered antiretroviral therapy regardless of whether they were taking it previously if women are not currently taking antiretroviral therapy the RCOG recommend that it is commenced between 28 and 32 weeks of gestation and should be continued intrapartum. BHIVA recommend that antiretroviral therapy may be started at an earlier gestation depending upon the individual situation No routine dose alterations are recommended for ARVs during pregnancy if used at adult licensed doses. It is recommended that women conceiving on an effective anti-retroviral (ART) regimen should continue this even if it contains efavirenz or does not contain zidovudine. Exceptions are:  (1) Protease inhibitor (PI) monotherapy should be intensified to include (depending on tolerability, resistance and prior antiretroviral history) one or more agents that cross the placenta.  (2) The combination of stavudine and didanosine should not be prescribed in pregnancy. • Mode of delivery vaginal delivery is recommended if viral load is less than 50 copies/ml at 36 weeks, otherwise caesarian section is recommended zidovudine infusion should be started four hours before beginning the caesarean section • Neonatal antiretroviral therapy zidovudine is usually administered orally to the neonate if maternal viral load is <50 copies/ml. Otherwise triple ART should be used. Therapy should be continued for 46 weeks. • Infant feeding: in the UK all women should be advised not to breast feed Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases HIV: anti-retrovirals Overview • Start HAART as soon as possible after diagnosis regardless CD4 count. • Highly active anti-retroviral therapy (HAART) involves a combination of at least three drugs, typically two nucleoside reverse transcriptase inhibitors (NRTI) and either a protease inhibitor (PI) or a non-nucleoside reverse transcriptase inhibitor (NNRTI). This combination both decreases viral replication but also reduces the risk of viral resistance emerging Atripla® (efavirenz, tenofovir, emtricitabine) is an acceptable choice. Nucleoside analogue reverse transcriptase inhibitors (NRTI) (ine at the end) Emtricitabine causes hyperpigmentation of skin including palmar creases in 8% of black patients. • examples: zidovudine (AZT), lamivudine, stavudine, didanosine, zalcitabine • general NRTI side-effects: Peripheral neuropathy Mitochondrial toxicity →dilated cardiomyopathy  NRTI →reduce vascular responsiveness to acetylcholine → endothelial dysfunction.  Mitochondrial dysfunction induced by HAART →decreased myocardial contractility. This is because cardiac myocytes can utilise energy less well, leading to decreased ejection fraction and dilative cardiomyopathy.  myocardial biopsy usually reveals mitochondria full of myelin, a sign of mitochondrial dysfunction.  Withdrawal of zidovudine and substitution with an agent associated with less mitochondrial toxicity, coupled with appropriate treatment for heart failure with diuretics and ACE inhibition, usually resolves the problem, although HIV itself is decreasingly recognised as a cause of cardiomyopathy. • zidovudine: anaemia, myopathy, black nails most frequently causes anaemia, usually by bone marrow suppression and patients can become transfusion-dependent in severe cases. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Macrocytosis is a typical finding in patients on zidovudine and can be used as a parameter to monitor adherence to therapy. Other side-effects of zidovudine include:  Myalgia, Myopathy, Myositis Elevated CK → a picture of rhabdomyolysis  Pancytopenia,  Lactic acidosis.  Blue or black discolouration of the nails is a rare side-effect. May be misdiagnosed as cyanosis and melanoma. • Didanosine: pancreatitis (Didanosine and stavudine cause mitochondrial toxicity, hence peripheral neuropathy, pancreatitis and hyperlactataemia.) • NRTIs - in particular stavudine, didanosine and zidovudine - classically cause mitochondrial toxicity as an unwanted side effect. This can result in nausea, pancreatitis, lactic acidosis and lipoatrophy • Truvada →combination of two (Nucleoside analog reverse-transcriptase inhibitors (NRTIs) : tenofovir disoproxil and emtricitabine tenofovir may cause: life-threatening liver damage lactic acidosis sudden worsen of hepatitis B after stopping tenofovir →lab tests regularly for several months after stop. • Abacavir: (the only NARTI which is not ended by (ine) ) is a nucleoside reverse transcriptase inhibitor (NRTI). It is recommended by the British HIV Association (BHIVA) in association with lamivudine as an alternative to Truvada as part of a HAART regime. Abacavir causes a hypersensitivity reaction in patients who are HLA-B5701 positive.  However, this would occur within 1–2 months of starting treatment  in the UK all patients would be tested prior to initiation.  It is typified by nausea, vomiting, malaise and fever, with or without a rash. Non-nucleoside reverse transcriptase inhibitors (NNRTI) (vir in the middle) • Examples: nevirapine, delavirdine, efavirenz and etravirine. • Side-effects: P450 enzyme interaction (nevirapine induces), Skin rashes  Rashes are common on starting treatment with nevirapine, occurring in ~15% of patients.  Nevirapine can cause acute hepatitis and skin rash as a part of hypersensitive reaction this is the rationale for starting low-dose therapy with nevirapine in the first 2 weeks  Serious side effects are more common in patients with relatively well preserved immune function. Acute hepatitis Efavirenz side effects  more common →neuropsychiatry side effects.  less common →Gynaecomastia Efavirenz is the most common HAART drug associated with gynecomastia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Protease inhibitors (PI) (vir at the end) • Examples: indinavir, nelfinavir, ritonavir, saquinavir • Side-effects: diabetes, hyperlipidaemia, Hypertriglyceridaemia Buffalo hump, central obesity, P450 enzyme inhibition Lipodystrophy Indinavir: → renal stones, asymptomatic hyperbilirubinaemia Ritonavir:  Potent inhibitor of the P450 system (3A4 inhibitor)  Produces very significant elevations in plasma fluticasone (even an inhaled preparation). so, it increases the levels of rifampin. These levels are sufficient to suppress endogenous cortisol levels and produce Cushing's syndrome. Co-trimoxazole prophylaxis for Pneumocystis (PCP) is not necessary unless the CD4 count is below 200 Patient who have high viral load despite treatment: • Causes of treatment failure: poor adherence drug interactions or absorption issues primary resistance or superinfection with a new resistant strain. • All patients should have had a resistance test at baseline The most appropriate course of action is to arrange an urgent resistance test and manage the antiretrovirals accordingly with this result. Patient who have TB associated with HIV: • Efavirenz is used in combination with an NRTIs because it has little effect on the plasma levels of rifampin which is being used to treat the pulmonary tuberculosis. Preventing Opportunistic Infections in Patients With HIV • Initiation of Prophylaxis and Treatment Patients not taking ART who present with disseminated Mycobacterium avium complex (MAC) infection should be treated for the infection without ART for 2 weeks, and then started as soon as possible on ART while monitored closely for symptoms of the immune reconstitution inflammatory syndrome (IRIS). Severe IRIS has also been reported after early ART in the management of cryptococcal and tuberculous meningitis, and it has been suggested that such patients delay ART until 4-6 weeks after control of the opportunistic infection. Patients with CD4 counts of less than 50 cells/μL at presentation should be considered for cryptococcal antigen testing, among those diagnosed with cryptococcal meningitis, initial ART should be delayed at least 2 weeks into cryptococcal therapy and as long as 10 weeks.  which must be treated initially with amphotericin and flucytosine. • CD4 counts are useful landmarks for initiation of antimicrobial prophylaxis: Less than 250 cells/μL - Coccidioidomycosis prophylaxis if seropositive in high-risk area Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Patients with a new positive immunoglobulin M (IgM) or IgG serologic test result who live in endemic areas and have a CD4 count of less than 250 cells/μL should receive fluconazole 400 mg PO daily Less than 200 cells/μL - PCP prophylaxis  The preferred regimen is trimethoprim-sulfamethoxazole 1 double-strength tablet orally daily or 1 double-strength tablet orally 3 times weekly. Less than 150 cells/μL - Histoplasmosis prophylaxis if high-risk exposure  Patients with a CD4 count of less than 150 cells/μL at high risk for exposure or who live in a hyperendemic area should receive itraconazole 200 mg PO daily Less than 100 cells/μL - Toxoplasmosis prophylaxis (if seropositive)  Trimethoprim-sulfamethoxazole, one double-strength tablet orally once daily is preferred Less than 100 cells/μL - Penicilliosis prophylaxis if living in high-risk area Less than 50 cells/μL - MAC infection prophylaxis  Patients with CD4 count of fewer than 50 cells/μL should be given azithromycin 1200 mg orally weekly after ruling out disseminated MAC infection on clinical assessment  Alternatives include clarithromycin 500 mg orally twice daily or rifabutin 300 mg orally daily • Clinical Landmarks for Terminating Primary Prophylaxis Mycobacterium avium-intracellulare (MAI) infection prophylaxis:  should be continued with antiretroviral therapy (ART) until the CD4 count exceeds 100 cells/μL for 3 months. P carinii pneumonia (PCP) and toxoplasmosis prophylaxis:  should be continued until the CD4 count exceeds 200 cells/μL for 3 months. Histoplasmosis prophylaxis:  can be discontinued when the CD4 count has exceeded 150 cells/μL for 6 months, coccidioidomycosis prophylaxis:  can be discontinued when CD4 counts exceed 250 cells/μL for 6 months, penicilliosis prophylaxis:  can be discontinued when CD4 counts exceed 100 cells/μL for 6 months. HIV lipodystrophy (Antiretroviral-related lipodystrophy) • Lipodystrophy (loss of adipose tissue), lipoatrophy and alterations in serum lipid values have been observed in patients with human immunodeficiency virus (HIV) disease taking highly active antiretroviral therapy (HAART). • Consequences ↑serum lipid levels → premature coronary artery disease. Hypertriglyceridaemia → central fat deposition and insulin resistance (Antiretroviral insulin-resistance syndrome)  there is some evidence that the insulin sensitisers (glitazones) may be effective in some patients Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • Causes Abnormalities of serum lipid levels are likely to be multifactorial in patients with HIV disease but appear much commoner in patients taking protease inhibitors. Isolated hypertriglyceridaemia can occur in HIV disease in the absence of protease inhibitors but extremely high serum triglycerides have been documented in some patients treated with these drugs. • Treatment Mild to moderate hyperlipidaemia → 1st line dietary modification and exercise  Predominant hypercholesterolaemia or with a mixed picture →statin  Caution must be exercised since some protease inhibitors interact with some statins due to metabolism by CYP3A4 pathway.  Simvastatin is contraindicated in patients on protease inhibitors and plasma levels of atorvastatin are also greatly elevated in these patients.  For this reason, pravastatin is usually the drug of choice. Pravastatin is preferred because its metabolism is not as dependent on the CP450s as other agents in this group. Hypertriglyceridaemia →fenofibrate Switching therapy might be an option, to non-nucleoside reverse transcriptase inhibitors (NNRTIs) In women with lipoatrophy syndromes, oral estrogens should be avoided as they can exacerbate the hypertriglyceridemia and result in acute pancreatitis. Immune reconstitution syndrome • Due to activation of the immune system following HIV therapy against persisting antigen. • Typically occurs a few weeks after commencing anti-retroviral therapy in a patient with underlying tuberculosis. HIV: biliary and pancreatic disease • The most common cause of biliary disease in patients with HIV is sclerosing cholangitis due to infections such as CMV, Cryptosporidium and Microsporidia • Pancreatitis in the context of HIV infection may be secondary to anti-retroviral treatment (especially didanosine) or by opportunistic infections e.g. CMV 058 - Pages 1426-1450 058 Pages 1426-1450 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad HIV: diarrhoea Supportive therapy is the mainstay of treatment in Cryptosporidium diarrhoea • Diarrhoea is common in patients with HIV. Causes • Infection, may be due to the effects of the virus itself (HIV enteritis) or opportunistic infections (usually there are fever and wasting) • Malignancy ( infiltrative diseases, such as lymphoma or Kaposi's sarcoma.), • Medications (e.g. antiretroviral therapy, particularly when diarrhea is the sole presenting symptom and there is a temporal association.)  Ritonavir-containing protease inhibitors (PIs) are the drugs most commonly associated with diarrhoea. Infectious causes • Cryptosporidium (the most common cause of diarrhoea in HIV patients who their CD4+ > 50 ) It is an intracellular protozoa and has an incubation period of 7 days. Presents as watery diarrhoea, often with severe abdominal pain, commonly lasting 7 days. Diagnosis: usually by detection of Cryptosporidium oocysts, antigens, or DNA in stools. Treatment:  Supportive therapy is the mainstay of treatment  If patient is not on antiretroviral therapy (ART) : initiation of ART is the primary intervention  Nitazoxanide may be used for treatment (Antiprotozoal) • Mycobacterium avium intracellulare is an atypical mycobacteria seen with the CD4 count is below 50. Presentation: fever, sweats, abdominal pain and diarrhoea. There may be hepatomegaly and deranged LFTs. Diagnosis is made by blood cultures and bone marrow examination. Management is with combination of clarithromycin, ethambutol and rifabutin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases HIV nephropathy Overview • Accounts for up to 10% of end-stage renal failure cases in the United States. • Renal involvement in HIV patients may occur as a consequence of treatment or the virus itself. • Protease inhibitors such as indinavir can precipitate intra-tubular crystal obstruction Features • Raised creatinine • Nephrotic range proteinuria • Normal sized kidneys on ultrasound scan, • Focal segmental glomerulosclerosis on renal biopsy. • Raised immunoglobulins • Raised cholesterol • Normotension Cryptococcal disease in AIDS (Cryptococcosis) Epidemiology • The most common fungal infection of the CNS • The most common fungal disease in HIV Features • May present as: space-occupying lesion, meningitis, or meningoencephalitis. • Symptoms are typically of gradual onset over one to two weeks. Risk factors • usually develops only when CD4+ lymphocyte counts fall below 100 cells/mL. Diagnosis • MRI, with and without contrast, is the preferred diagnostic imaging modality. • The India ink test is used to diagnose cryptococcal meningitis, • the raised opening pressure, turbid appearance to the CSF, raised protein and mixed lymphocytic/neutrophil picture are relatively typical of the diagnosis. Treatment • Treatment is with amphotericin B and flucytosine (5FC); • patients then require lifetime suppression with fluconazole. Cryptococcus neoformans skin lesions • Most often seen in T cell deficiency states and HIV-infected patients with CD4 counts of <100/mm3. • Gomori's methanamine silver stain shows budding yeasts. • Serum cryptococcal antigen can also be used in diagnosis. • Treatment is with an eight-week course of fluconazole 400 mg /day followed by 200 mg/day. HIV: immunisation The Department of Health 'Greenbook' on immunisation defers to the British HIV Association for guidelines relating to immunisation of HIV-infected adults Vaccines that can be used in all HIVinfected adults Vaccines that can be used if CD4 > 200 • Measles, Mumps, • Hepatitis A • Hepatitis B • Haemophilus influenzae B (Hib) • Influenza-parenteral • Japanese encephalitis • Meningococcus-MenC • Meningococcus-ACWY I • Pneumococcus-PPV23 • Poliomyelitis-parenteral (IPV) • Rabies • Tetanus-Diphtheria (Td) Rubella (MMR) • Varicella • Yellow Fever Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Contraindicated in HIVinfected adults • Cholera CVD103-HgR • Influenza-intranasal • Poliomyelitis-oral (OPV) • Tuberculosis (BCG) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Routine vaccines • People with HIV are at risk of Hep B, invasive pneumococcal disease and severe morbidity from influenza. These are all inactivated vaccines and can be given at any CD4 count. • Should be vaccinated against Hepatitis B, pneumococcus, and yearly against influenza  Hepatitis B is given as a course of three injections at double dose and booster as required.  pneumococcal vaccine PPV23 is a single dose but could be boosted 510 years later.  influenza vaccine should be administered yearly. Other vaccines • Men C vaccine → only recommended in people under 25. • polio vaccine the oral polio vaccine is not recommended in HIV as it is a live vaccine. However, the parenteral polio vaccine is acceptable. • MMR vaccine It is a live vaccine that is contraindicated in patients with a CD4 count of less than 200 cells/μL but could be safely administered in patient with CD4 count above 200 cells/μL. • Haemophilus influenzae B vaccine  is an inactivated vaccine that can be given to patients at any CD4 count. Although Haemophilus influenzae is an issue in people with HIV it is the pneumococcal vaccine that is recommended for all HIV patients. it is only recommended for those who have:  splenic dysfunction,  recurrent pulmonary infections  previous Haemophilus influenzae disease with risk of recurrence. • shingles vaccine thought to be safe and immunogenic even in those who have recently had shingles. However, it must be used with caution in any immunocompromised state should not be used in patients with a CD4 count of less than 200 cells/μL. HIV: Kaposi's sarcoma Overview • Kaposi sarcoma is a neoplasm of endothelial cells (vascular tumor) that is caused by human herpes virus 8 (HHV-8) • most commonly seen in patients with HIV and transplant patients. can be seen in HIV patients with a CD4+ cell count of less than 500/mm3. • Human herpes virus 8, which causes Kaposi sarcoma in HIV patients, is transmitted by sexual contact. • Aside from affecting the skin, Kaposi sarcoma can also affect the gastrointestinal tract and lungs. Feature • presents as purple papules or plaques on the skin or mucosa (e.g. gastrointestinal and respiratory tract) • lesions occur most commonly on the face Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • skin lesions may later ulcerate • respiratory involvement may cause massive haemoptysis and pleural effusion, Chest x ray may show pulmonary nodules. • Histopathology classically show lymphocytic inflammation. proliferation of endothelial cells (spindle cells) Treatment • Radiotherapy + resection Radiotherapy may be used to treat painful or highly visible lesions. • AIDS-related Kaposi's sarcoma becomes smaller as immune function improves such as with treatment with highly active antiretroviral therapy (HAART). • In some circumstances chemotherapy may be added to HAART. • Human herpes virus 8 is also associated with: primary effusion lymphoma (a rare lymphoma of serous cavities) Castleman's disease. Kaposi's sarcoma in a patient with HIV HIV: Dermatologic conditions (Eosinophilic folliculitis) (EF) Overview • Dermatologic conditions are very common in HIV/AIDS infection; knowing the common infections and their treatment is important. Types • There are three main variants of Eosinophilic folliculitis (EF): • Classic EF immunosuppression-related EF (mostly HIV-associated) and Infancy-associated EF. • The most common type of EF is the immunosuppression-related (HIV-associated) form. • The clinical presentations of EF vary slightly, but histologically the forms are identical. • Classic EF also known as Ofuji disease (eosinophilic pustular folliculitis) more common in individuals of Japanese descent, although anyone can be affected. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • Immunosuppression-EF Differs from the classical form in that the eruption is exquisitely pruritic. It also tends to present with erythematous, almost oedematous, papules with few pustules (whereas the classic form tends to have clusters of pustules). Because the eruption is so pruritic the lesions are often excoriated on presentation, making identification of a primary lesion difficult. The lesions are found primarily on the face and upper trunk (from the waist up). Histologic examination of a papule shows an acute and chronic infiltrate of eosinophils and lymphocytes focused at the level of the follicular isthmus that can rarely progress to complete follicular destruction. Men more commonly affected than women. may worsen 3 - 6 months after initiation of antiretroviral therapy as part of the immune restoration syndrome and even after the CD4+ cell count rises above 200/µL. HIV: abnormal vaginal bleeding • Abnormal bleeding can be a sign of cervical dyskaryosis. • Advanced HIV with HPV co-infection is a very strong risk factor for developing cervical dyskaryosis and currently the British HIV association recommend that patients with HIV should have yearly smears. • The US guidelines recommend that HIV positive females under the age of 26 and MSM should be immunised as the HPV vaccine is safe and immunogenic at all CD4 counts. • The risk of HPV infection already present is too great in patients older than 26 for cost effectiveness. • In Britain the national programme now immunises all females aged 12-13 years. • If cervical dyskaryosis is detected it is treated in the same way as in HIV negative patients. • HIV patients should have a yearly smear as per the current BHIVA guidelines. This may change as more information is gathered about cervical disease in patients who are stable on ARVs. • Cervical dyskaryosis is invisible to the naked eye and so a normal speculum examination does not rule out cervical disease. CMV retinitis in a patient with HIV • AIDS retinitis is typically caused by cytomegalovirus. The slide shows the typical 'cottage cheese and tomato ketchup' or 'pizza' appearance of CMV retinitis in a patient with HIV disease. Vaginal discharge Vaginal discharge is a common presenting symptom and is not always pathological Common causes Less common causes • physiological • Candida • Trichomonas vaginalis • bacterial vaginosis • cervical cancer • Black women report higher incidence of candidiasis infections compared with white women. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Gonorrhoea • Chlamydia can cause a vaginal discharge although this is rarely the presenting symptoms • ectropion • foreign body Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Key features of the common causes are listed below Condition Key features Candida • 'Cottage cheese' discharge • Vulvitis • Itch Trichomonas vaginalis • Offensive, yellow/green, frothy discharge • Vulvovaginitis • Strawberry cervix Bacterial vaginosis • Offensive, thin, white/grey, 'fishy' discharge Bacterial vaginosis (BV) Bacterial vaginosis - overgrowth of predominately Gardnerella vaginalis Pathogen • Bacterial vaginosis (BV) describes an overgrowth of predominately anaerobic organisms such as Gardnerella vaginalis. Epidemiology • BV is the commonest cause of abnormal vaginal discharge in women of childbearing age. It is twice as common as vaginal candidiasis. Risk factors • intrauterine coil device, • vaginal douching • number of sexual partners. • Whilst BV is not a sexually transmitted infection it is seen almost exclusively in sexually active women. Features • vaginal discharge: 'fishy', offensive , Gray, thin, and homogeneous • asymptomatic in 50% • This leads to a consequent fall in lactic acid producing aerobic lactobacilli resulting in a raised vaginal pH. Diagnosis Epithelial cells with a stippled border (Clue cells) are the hallmark microscopic findings of bacterial vaginosis • Amsel's criteria for diagnosis of BV - 3 of the following 4 points should be present thin, white homogenous discharge clue cells on microscopy: stippled vaginal epithelial cells vaginal pH > 4.5 positive whiff test (addition of potassium hydroxide results in fishy odour) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management Bacterial vaginosis treatment oral metronidazole • Infection resolves spontaneously in one-third of cases • oral metronidazole (400 mg twice daily given for 5-7 days) initial cure rate 70-80% relapse rate > 50% within 3 months • the BNF suggests topical metronidazole or topical clindamycin as alternatives Bacterial vaginosis in pregnancy • complications results in an increased risk of preterm labour, low birth weight and chorioamnionitis, late miscarriage • treatment it was previously taught that oral metronidazole should be avoided in the first trimester and topical clindamycin used instead. Recent guidelines however recommend that oral metronidazole is used throughout pregnancy. The BNF still advises against the use of high dose metronidazole regimes Comparison of bacterial vaginosis and Trichomonas vaginalis MRCPUK-part-1-January 2020 exam: H/O offensive vaginal discharge. Diagnosed as bacterial vaginosis. What is the most appropriate initial management? Oral metronidazole Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Trichomonas vaginalis Overview • anaerobic flagellated protozoan, which thrive in more alkaline conditions. • incubation period is 5 to 28 days. • transmitted directly, for example, through sexual transmission. Feature • asymptomatic (in most men and 50% of women) • yellow-green, frothy vaginal discharge • vulvar pruritus • dysuria, dyspareunia, and lower abdominal pain. • Punctuate hemorrhages on the cervix, i.e. "strawberry cervix", or along the vaginal wall are less common signs, but are highly suggestive of infection with Trichomonas vaginalis. • The PH of the discharge is greater than 4.5 Diagnosis • The most rapid and practical method for detection is the use of a wet mount in clinic, which demonstrates motile flagellated protozoans. Differential diagnosis • Whilst bacterial vaginosis is also associated with a discharge with a fishy odour, classically there is no soreness or irritation associated with it. Treatment • A large dose of metronidazole (2 g as a single course), or a seven day course at lower dose is the treatment of choice. Single-dose therapy increases drug adherence. If standard treatment with either single-dose or multidose therapy fails, a regimen of 2 g of oral metronidazole or tinidazole for 5 days may be considered Patients should not consume alcohol during the course of treatment or during the 24 hours after the completion of the medication. Patients on tinidazole therapy should not consume alcohol during therapy or for 72 hours after completion of the medication. Drinking alcohol while taking tinidazole causes disulfiram-like reaction, which includes (nausea, vomiting, headache, ↑BP, flushing, and shortness of breath). Tinidazole has a longer half-life (12-14 h) than metronidazole (6-7 h). metronidazole and tinidazole are equally effective  • Partner Partners should be identified and also screened for infection as men rarely exhibit symptoms of a T. vaginalis infection. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The epithelial damage caused by T. vaginalis increases susceptibility to HIV virus infection and transmission. Both patient and partner should abstain from sex until pharmacological treatment has been completed and they have no symptoms. • HIV-positive women with Trichomoniasis. the CDC recommends considering the multidose treatment in HIV-positive women with Trichomoniasis.  (metronidazole 500 mg twice daily for 7 days) are more effective in treating T vaginalis in HIV-positive women than a single-dose treatment (metronidazole 2 g single dose). • In pregnant women The CDC recommends that infected symptomatic pregnant women be considered for treatment, as metronidazole has not been definitively shown to be harmful during pregnancy and may prevent transmission to the newborn. Infected asymptomatic pregnant women may wish to defer treatment to after 37 weeks’ gestation. Pregnant women should be treated with 2 g metronidazole in a single dose, according to the CDC. The safety of tinidazole in pregnancy is not known. Tinidazole is a pregnancy class C agent; animal studies have demonstrated adverse effects on fetal development. Its use is not recommended in pregnant women. • In breastfeeding women In breastfeeding women, the CDC recommends stopping breastfeeding during the course of metronidazole treatment and for 12-24 hours after the last day. For treatment with tinidazole, the CDC recommends stopping breastfeeding for the course of treatment and for 3 days after the last dose. • Screening and Rescreening Patients should be screened for other sexually transmitted infections. the CDC recommends rescreening at 3 months post therapy for sexually active women, as they have a high rate of reinfection. Genital ulcers (STI) Other causes of genital ulcers • Behcet's disease • carcinoma • granuloma inguinale: Klebsiella granulomatis (previously called Calymmatobacterium granulomatis) Genital ulcers: • Painful: herpes much more common than chancroid • Painless: syphilis more common than lymphogranuloma venereum + granuloma inguinale Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Genital herpes • Causes: most often caused by the herpes simplex virus (HSV) type 2 (cold sores are usually due to HSV type 1). • Features: Multiple painful penile vesicles and ulcers are characteristic. Primary attacks are often severe and associated with fever whilst subsequent attacks are generally less severe and localised to one site. • Diagnosis: Tzanck smear for lesions suspicious of HSV • Treatment: Oral Acyclovir is the treatment of choice. • Prognosis: The lesions generally heal within 2 weeks. Recurrence of painful genital lesions is a characteristic. Chancroid • Causes: Haemophilus ducreyi. • Features: (Remember the saying: “You do cry with ducreyi”.) painful genital ulcers  The ulcers typically have a sharply defined, ragged, undermined border, which readily bleeds on contact. unilateral, painful inguinal lymph node enlargement. • Diagnosis definitive diagnosis based on isolation of H ducreyi on special media polymerase chain reaction (PCR) = rapid detection of H ducreyi test for the other common STDs (syphilis, HSV, gonorrhea, chlamydia) and HIV. • Treatment: Antibiotic treatment: single dose oral azithromycin or IM ceftriaxone Examine and treat sexual partner(s). Lymphogranuloma venereum (LGV) • Causes: (L1, L2 or L3 serovars of ) Chlamydia trachomatis. • Spread: The bacterium gains entry through breaches in the epithelial/mucous membranes, travelling through the lymphatics via macrophages to local nodes. • Stages: three stages: stage 1: small painless pustule which later forms an ulcer at the site of inoculation 3-12 days later. stage 2: painful inguinal lymphadenopathy (Presents 1-6 months later).  Enlarged lymph nodes are known as buboes, they are often painful and can lead to thinning of the overlying skin causing abscesses. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Groove sign is separation inguinal nodes by the inguinal ligament and is characteristic of the disease. stage 3: proctocolitis (if rectally, then tenesmus, proctocolitis, strictures and fistulas can ensue. Cervicitis and urethritis are also common features.) • Diagnosis: enzyme linked immunoassays or polymerase chain reaction of infected sample areas/pus.  Acute and convalescent sera can be used, but requires two samples 2 weeks apart. Inclusion bodies in the cytoplasm of scraped tissue cells are identified by iodine staining. • Treatment: Antibiotics either doxycycline or macrolides (azithromycin or erythromycin)  the most appropriate intervention Doxycycline for 21 days  In patients where this is unsuitable, azithromycin is also thought to be effective. surgical drainage/aspiration of the buboes or abscesses. • Complications: genital elephantiasis, hepatitis, infertility, pelvic inflammatory disease, arthritis fitz hugh curtis syndrome (Perihepatic adhesions). Syphilis Aetiology • Syphilis is a sexually transmitted infection caused by the spirochaete Treponema pallidum. • Risk and chance of infection after sexual contact: Approximately one-third of sexual contacts of infectious syphilis will develop the disease. • The incubation period is between 9-90 days Stages • Primary syphilis occurs 14 days to three months post exposure chancre - painless ulcer at the site of sexual contact local non-tender lymphadenopathy often not seen in women (the lesion may be on the cervix) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases primary chancre associated with syphilis • Secondary syphilis occurs one to six months following the primary infection. caused by dissemination of the bacteria from the chancre, leading to systemic symptoms systemic symptoms: fevers, malaise, lymphadenopathy rash on trunk, palms and soles buccal 'snail track' ulcers (30%) condylomata lata Iritis Hepatitis Early neurosyphilis:  Meningovascular syphilis is a form of early neurosyphilis involving the small and medium sized intracranial vessels, most commonly presents as a stroke involving the middle cerebral artery. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Classical palm lesions of secondary syphilis More generalised rash of secondary syphilis • Tertiary syphilis occurs in one-third of untreated patients around 15–30 years after initial infection. It is divided into:  Gummatous syphilis (granulomatous lesions of the skin and bones) most common (15% of patients)  Cardiovascular syphilis, ascending aortic aneurysms  Late neurosyphilis. general paralysis of the insane Gradual onset confusion Hallucinations Tremors Fits Cognitive impairment Hyperreflexia, Argyll-Robertson pupils tabes dorsalis Features of congenital syphilis • blunted upper incisor teeth (Hutchinson's teeth), 'mulberry' molars • rhagades (linear scars at the angle of the mouth) • keratitis • saber shins • saddle nose • deafness Investigation • The diagnosis usually based on clinical features, serology and microscopic examination of infected tissue • Both VDRL and TPHA are often positive in gummatous syphilis. However, in cardiovascular and neurosyphilis, TPHA is positive and VDRL is often negative. • Serological tests can be divided into cardiolipin tests (not treponeme specific) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases  syphilis infection leads to the production of non-specific antibodies that react to cardiolipin  examples include VDRL (Venereal Disease Research Laboratory) & RPR (rapid plasma reagin)  insensitive in late syphilis  not specific  becomes negative after treatment  Causes of false positive cardiolipin tests pregnancy SLE, anti-phospholipid syndrome TB leprosy malaria HIV Treponemal specific antibody tests  example: TPHA (Treponema pallidum Haem Agglutination test)  more specific  remains positive after treatment Management • Benzylpenicillin First line treatment benzathine penicillin 2.4 million units given intramuscularly. This is administered either as a single dose or two doses given one week apart. • Alternatives: doxycycline or erythromycin may be given in patients with allergies to penicillins. In case of severe penicillin allergy, a single dose of (2 g) azithromycin is the preferred option because it is effective and doesn’t raise compliance issues. • Jarisch-Herxheimer reaction This is an acute febrile illness with headache, myalgia, chills and rigors starting within 12 hours of the first dose of treatment and resolving within 24 hours It is thought to be due to the release of endotoxins following bacterial death  It is usually not important in early syphilis unless there is neurological or ophthalmic involvement or in pregnancy when it may cause fetal distress and premature labour. It occurs in ~50% of patients with primary syphilis, 90% with secondary syphilis and 25% with early latent syphilis. also occurs in Lyme disease and Q fever. Patients should be counselled about the reaction prior to receiving therapy for syphilis. the appropriate management → reassurance and paracetamol for symptom control UK national guidelines on the management of syphilis 2015 • General advice Infected patient should be advised to abstain from sex until any lesions (if any) have resolved or until two weeks after treatment completion • First-line: Benzathine penicillin dose: 2.4 Mega units IM weekly for up to 3 weeks alternative : Procaine dose: 1.8–2.4 mega units IM daily for 14 days.  Only if benzathine penicillin is not available (due to the pain and multiple injections associated) • second-line →oral azithromycin single dose. • Treatment during pregnancy: first and second trimesters →give single dose benzathine penicillin; Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad third trimester →two doses of benzathine penicillin one week apart. • Neurosyphilis: Procaine penicillin 1.8-2.4 units once daily (IM, for 14 days) with oral probenecid 500 mg four times a day. Tests for monitoring the effect of treatment →RPR/VDRL test Treponemal enzyme immunoassay (EIA)/chemiluminescent assay (CLIA), preferably detecting both IgM and IgG is the screening test of choice. Genital warts Overview • Genital warts (also known as condylomata accuminata) are a common cause of attendance at genitourinary clinics. • They are caused by the many varieties of the human papilloma virus HPV, especially types 6 & 11. • It is now well established that HPV (primarily types 16,18 & 33) predisposes to cervical cancer. • HPV 16 is an oncogenic virus and causes squamous cell carcinomas in the oral cavity, cervix, anus and penis. Features • small (2 - 5 mm) fleshy protuberances which are slightly pigmented • may bleed or itch Management • first-line →topical podophyllum or cryotherapy, depending on the location and type of lesion. Multiple, non-keratinised warts →best treated with topical agents solitary, keratinised warts →respond better to cryotherapy • second line →topical imiquimod • genital warts are often resistant to treatment and recurrence is common although the majority of anogenital infections with HPV clear without intervention within 1-2 years Chlamydia genitourinary infections Pathogenesis: Chlamydia trachomatis, is an obligate intracellular pathogen. Incubation period: 7-21 days Epidemiology • Chlamydia is the most prevalent sexually transmitted infection in the UK. Approximately 1 in 10 young women in the UK have Chlamydia. Features • Asymptomatic in the majority of the patient Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • Women: cervicitis (Muco-purulent discharge, postcoital bleeding), dysuria, dyspareunia → pelvic inflammatory disease, increased incidence of ectopic pregnancies, infertility and perihepatitis (Fitz-Hugh-Curtis syndrome) • Men: urethral discharge, dysuria Diagnosis • Nuclear acid amplification tests (NAATs) is the investigation of choice Management (2018 UK national guideline for the management of infection with Chlamydia trachomatis, published by: British Association for Sexual Health and HIV). • 1st line: Doxycycline 100mg bd for 7 days is now recommended as first line treatment for uncomplicated urogenital, pharyngeal and rectal chlamydia infections. • 2nd line: Azithromycin (1 g as a single dose), for those who cannot take doxycycline. It is also the preferred option for pregnant individuals. • Patients are advised to avoid sexual contact for 7 from starting medication • partner notification all individuals who had sexual contact with the patient within the 60 days prior to infection or the most recent sex partner if the last contact was more than 60 days prior. Contacts of confirmed Chlamydia cases should be offered treatment prior to the results of their investigations being known (treat then test) Chlamydia – Doxycycline is the first line of treatment. September 2008 exam: A swab taken in the clinic showed a Gram-negative diplococcus and treatment with IM ceftriaxone was given. his symptoms have not resolved. What is the most likely explanation? Co-existent Chlamydia infection (Co-existent infection with Chlamydia is extremely common in patients with gonorrhoea). Gonorrhoea Epidemiology • Gonorrhoea is the second most common bacterial STI in the UK after chlamydia. Pathogen • Neisseria gonorrhoeae (N. gonorrhoeae, gonococcus) • Gram-negative, intracellular, aerobic, diplococci Transmission • Sexual (oral, genital, or anal) • Perinatal Incubation period: 2-5 days Risk factors: multiple sexual partners in recent months, known partner with gonorrhoea, drug use, prior STI, and men who have sex with men. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Primary infection is symptomatic in 90-95% of men, but only 50% of women. • Urogenital features males: urethral discharge, dysuria females: cervicitis e.g. leading to vaginal discharge rectal and pharyngeal infection is usually asymptomatic • Gonorrhoeae can cause invasive infections such as pelvic inflammatory disease and Fitz-Hugh-Curtis syndrome in women and epididymitis and prostatitis in men. Fitz-Hugh-Curtis syndrome or perihepatitis. This inflammation of the Glisson capsule surrounding the liver can cause sharp pleuritic right upper quadrant pain with nausea, vomiting, and fever. • Disseminated gonococcal infection (DGI) (haematogenous spread from mucosal infection) Arthritis-dermatitis syndrome: a triad of: Polyarthralgias: migratory, asymmetric arthritis that may become purulent Tenosynovitis: simultaneous inflammation of several tendons Dermatitis: vesicular, pustular, or maculopapular lesions Purulent gonococcal arthritis (without skin lesions )  Abrupt inflammation in up to 4 joints (commonly knees, ankles, and wrists) Not to be confused with reactive arthritis Diagnosis • Test of choice: nucleic acid amplification testing (NAAT) • Culture: All individuals with gonorrhoea diagnosed by NAAT should have cultures taken for susceptibility testing prior to treatment. Complications • Increased risk of acquiring HIV infection. Individuals diagnosed with gonorrhoea should be tested for all sexually transmitted infections including HIV • local complications: urethral strictures, epididymitis and salpingitis (hence may lead to infertility). Gonococcal infection being the most common cause of septic arthritis in young adults. • Disseminated gonococcal infection (DGI), septic arthritis, endocarditis and perihepatitis (Fitz-Hugh-Curtis syndrome). Management (British Society for Sexual Health and HIV (BASHH) guidelines- 2018) • First line empirical treatment is now monotherapy with ceftriaxone 1 g intramuscularly Use Ciprofloxacin 500 mg orally as a single dose as a first line when infection is known to be susceptible in penicillin-allergic patients ceftriaxone and cefixime are suitable treatment options, unless there is a history of severe hypersensitivity (e.g. anaphylactic reaction) to any beta-lactam antibacterial agent (penicillins, cephalosporins, monobactams and carbapenems)  Cefixime 400 mg orally as a single dose plus azithromycin 2 g orally. • A test of cure (TOC) is recommended in all cases. if symptomatic → Culture, performed at least 72 hours after completion of therapy if asymptomatic → NAAT, performed 14 days after completion of therapy followed by culture if NAAT-positive. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • Sexual partners must be treated simultaneously to avoid reinfections. Who partners should be notified?  Male patients with symptomatic urethral infection: All partners within the preceding two weeks, or the last partner if longer than two weeks ago.  Patients with infection at other sites or asymptomatic infection: All partners within the preceding three months Who should be treated?  For those presenting after 14 days of exposure → treat only following a positive test for gonorrhoea  For those presenting within 14 days of exposure: epidemiological treatment based on a clinical risk assessment In asymptomatic individuals, it may be appropriate to not give epidemiological treatment, and to repeat testing 2 weeks after exposure. • DGI →IV ceftriaxone 1 g OD for 7 days.(May be switched to oral 2 days → Cefixime 400 mg or Ciprofloxacin 500 mg twice daily) Acute monoarthritis, a pustular rash and synovial fluid analysis suggestive of joint sepsis in a young woman make gonococcal arthritis the most likely diagnosis. More commonly patients present with co-infection with Chlamydia trachomatis. May 2014 exam: H/O a purulent urethral discharge. A sample of the discharge is shown to be a Gram-negative diplococcus. What is the most appropriate antimicrobial therapy? Intramuscular ceftriaxone stat dose + oral azithromycin stat dose 0BJanuary 2016 exam: What is the most likely complication from repeated Neisseria gonorrhoea infection?  1BInfertility  2B(Infertility secondary to pelvic inflammatory disease (PID) is the most common complication of gonorrhoea) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Toxoplasmosis Overview • Toxoplasma gondii is an obligate intracellular protozoa which infects the body via the GI tract, lung or broken skin. • It's oocysts release trophozoites which migrate widely around the body including to the eye, brain and muscle. Transmission (fecal-oral route) • Toxoplasmosis can be contracted through: cysts in meat, (from undercooked meat)  The usual animal reservoir is the cat, although other animals such as rats carry the disease.  Kittens are the primary host (mature cats are less likely to secrete toxoplasma)  sheep and cattle eat food contaminated with soil contaminated by kitten faeces; and humans ingest the organisms in poorly cooked meat.  Oocysts excreted with cat faeces can remain in soil for months. oocysts in cat feces,  ingestion of fresh food contaminated by toxoplasma excreted in cats' faeces. transplacental →Congenital toxoplasmosis . Epidemiology • 30% risk of reactivation in immunocompromised (especially CD4+ count < 100 cells/μL) in those not receiving prophylaxis or antiretroviral therapy • ~ 30% of the worldwide population is infected Risk factors • HIV patients when the CD4+ count is less than 100cells/microL Toxoplasmosis is the most common central nervous system protozoal infection that presents with brain abscesses in patients with HIV. Pathophysiology • HIV is associated with reactivation of the disease. Feature • Most infections are asymptomatic. • often features resembling infectious mononucleosis (fever, malaise, lymphadenopathy). Highly characteristic of toxoplasmosis is asymmetrical lymphadenopathy limited to an isolated lymph node group. • Other less common manifestations include meningio-encephalitis and myocarditis. • Can present with fits in patients with AIDS Most common infection of the central nervous system in patients with AIDS  ring-enhancing lesion on head imaging MRI is more sensitive and preferred  CD4+ count < 100 cells/μL • Eye manifestations include: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Focal choroido-retinitis Granulomatous uveitis Optic atrophy Retinal detachment Cataract Posterior uveitis Glaucoma. • Congenital toxoplasmosis presents with a classic triad of: chorioretinitis, hydrocephalus and intracranial calcifications. Investigation • antibody test: Serology testing for anti-toxoplasma IgM and IgG antibodies via ELISA The serologic diagnosis of toxoplasmosis in immunocompromised patients is based on the presence of IgG antibodies. • Sabin-Feldman dye test • Congenital toxoplasmosis is associated with elevated platelet count. • HIV patients usually presents with multiple ring-enhancing lesions on brain MRI. Treatment • Symptomatic patients usually have a self-limiting infection, • Treatment usually reserved for those with severe infections or patients who are immunosuppressed pyrimethamine plus sulphadiazine for at least 6 weeks  Folinic acid, (also known as leucovorin), should be added to prevent pyrimethamine- associated hematologic toxicity Prevention • Trimethoprim-sulfamethoxazole is the therapy of choice for prophylaxis against toxoplasmosis reactivation. • pregnant women Since the protozoal infection is commonly contracted through the handling of cat feces, pregnant women should be advised to avoid contact with cat litter to reduce their fetus's risk for congenital infection. • for infected pregnant to prevent maternal-fetal transmission spiramycin, Risk of fetopathy is reduced by more than 50% if spiramycin, which can prevent maternal-fetal transmission, is given to mothers Pyrimethamine • MOA →Dihydrofolate Reductase (DHFR) Inhibitor (competitive inhibitor) DHFR is a key enzyme for production of tetrahydrofolate, a cofactor that is required for the synthesis of DNA and proteins. • Indications: used as an antimalarial or with a sulfonamide to treat toxoplasmosis. Sulfadiazine • Bacteriostatic, inhibits bacterial folic acid synthesis by competing with para amino benzoic acid. Spiramycin • Macrolide antibiotics inhibit bacterial growth by targeting the 50S ribosomal subunit • Resistance to spiramycin is commonly attributed to mutations in 50S rRNA Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad January 2018 exam: HIV positive man is admitted with right-sided hemiplegia. CT scan shows multiple ring enhancing lesions. A diagnosis of cerebral toxoplasmosis is suspected. What is the most suitable management? Pyrimethamine and sulphadiazine At which CD4 count should prophylaxis against toxoplasmosis begin? <100 cells/μL (with trimethoprim-sulfamethoxazole). although prophylaxis for toxoplasmosis is not required until the CD4 count is <100 cells/microL, the patient will be covered at a CD4 count <200 cells/microL when prophylaxis against P. jiroveci is instituted. What is risk of transmission of HIV to a health care worker after percutaneous exposure? 0.3% with no prophylaxis.  the risk is reduced by ~80% when post exposure prophylaxis is administered. HIV- white lesion in oral mucosa • Oral hairy leukoplakia are white oral lesions caused by the Epstein-Barr virus. • a condition seen in HIV-infected patients with a CD4 count between 200 and 500/mm3. • Unlike oral candidiasis (thrush), these lesions cannot be scraped off the tongue and buccal mucosa. H1N1 influenza pandemic Overview • The H1N1 virus is a subtype of the influenza A virus • the most common cause of flu in humans. • Only influenza type A viruses are known to have caused pandemics. • Influenza A and B viruses circulate and cause outbreaks and epidemics. • The 2009 pandemic was caused by a new strain of the H1N1 virus. • incubation period is about 2 days. • In temperate climates, seasonal epidemics occur mainly during winter, while in tropical regions, influenza may occur throughout the year, causing outbreaks more irregularly. The following groups are particularly at risk: • patients with chronic illnesses and those on immunosuppressants • pregnant women • young children under 5 years old Features: The majority of symptoms are typical of those seen in a flu-like illness: • fever greater than 38ºC • myalgia • lethargy • headache • rhinitis • sore throat • cough • diarrhoea and vomiting A minority of patients may go on to develop an acute respiratory distress syndrome which may require ventilatory support. Treatment There is evidence to support the use of oseltamivir as a prophylactic agent against influenza There are two main treatments currently available: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Oseltamivir (Tamiflu) • action neuraminidase inhibitor which prevents new viral particles from being released by infected cells. thus, slowing viral replication down rather than directly killing the virus particle.  This slowing down of replication is important in permitting time for the body's own immune system to deal with the virus. • Administration oral medication • Indications For critically ill patients with confirmed or suspected H1N1,  oseltamivir 150 mg bd for ten days is the recommended treatment. 1st line for influenza B prophylaxis against influenza.  NICE guidance recommends prophylaxis with oseltamivir within 48 hours of close contact with a patient infected with influenza for high risk patients. Zanamivir can be used within 36 hours of contact with an infected individual. zanamivir is associated with idiopathic bronchial hypersensitivity, as such it is largely considered a second line agent for treatment of influenza.  may be used in the prophylactic treatment of healthcare workers during flu epidemics.  However, viral replication is rapid and to be effective the drug must be given as early as possible after the development of symptoms of flu and preferably within 48 hours. • side-effects common side-effects include nausea, vomiting, diarrhoea and headaches. Gastrointestinal symptoms are the most common side-effects of oseltamivir (Tamiflu). Zanamivir (Relenza) • action also, a neuraminidase inhibitor • administration inhaled medication intravenous preparations are available for patients who are acutely unwell  The only parenteral alternative is zanamivir (300 mg IV for 10 days ).  can be safely given using peripheral venous access.  For hospitalized influenza patients with suspected or known gastric statis, gastric malabsorption, gastrointestinal bleeding, or for patients suspected or confirmed with oseltamivir-resistant influenza virus infection, intravenous zanamivir should be considered. • Indications Zanamivir is a second line therapy for Influenza B, but first line for Influenza A. • Side effects may induce bronchospasm in asthmatics Intensive Care Management of Pandemic (H1N1) Influenza • Ideally patients should be nursed in a negative pressure room. • NIV Whilst there is no evidence that NIV prevents invasive ventilation in H1N1 patients, it is commonly used as bridging therapy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad It is important to remember that these are open circuits and still require personal protection for staff. NIV should be started after the mask is secured to the face  Ensuring that a well-fitting mask is in place before airflow starts can reduce the amount of aerosol production. Experience with helmet devices is limited but increasing, and it has been successful in patients who are unable to tolerate the nasal or orofacial devices. The advantage is that it may provide a tighter seal than nasal or orofacial devices. • avoiding water humidification and use of a closed hood is also advised. Influenza treatment • Oseltamivir (tamiflu) is the first line treatment recommended for patients with suspected or confirmed Influenza A. • Zanamivir is useful in patients with poor swallow or in those with suspected or confirmed exposure to oseltamivir-resistant influenza. Infectious mononucleosis & (Epstein-Barr virus) Aetiology • Infectious mononucleosis (glandular fever) is caused by the Epstein-Barr virus (also known as human herpesvirus 4, HHV-4). • The incubation period of EBV infectious mononucleosis is 1-2 months. Epidemiology • most common in adolescents and young adults. Pathophysiology • The CD8+ T-cell response caused by infectious mononucleosis, leads to generalized lymphadenopathy, splenomegaly, and high WBC count with atypical lymphocytes. Features EBV infectious mononucleosis → triad of fever, pharyngitis, and lymphadenopathy. • sore throat • lymphadenopathy Bilateral posterior cervical adenopathy is most highly suggestive of EBV infectious mononucleosis. • Pyrexia, malaise, anorexia, headache • palatal petechiae Palatal petechiae of the posterior oropharynx distinguish infectious mononucleosis from other causes of viral pharyngitis but do not distinguish it from group A streptococcal pharyngitis, in which palatal petechiae may occur. • Uvular edema is an uncommon, but, if present, it is a helpful sign in distinguishing EBV infectious mononucleosis from other causes of viral pharyngitis or from group A streptococcal pharyngitis. • splenomegaly - occurs in around 50% of patients and may rarely predispose to splenic rupture • hepatitis 059 - Chapter 9 059 Chapter 9 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • haemolytic anaemia secondary to cold agglutins (IgM) • a maculopapular, pruritic rash develops in around 99% of patients who take ampicillin/amoxicillin whilst they have infectious mononucleosis Drug-induced rash is usually pruritic and is prolonged, in contrast to the viral rash of EBV infectious mononucleosis. Early infectious mononucleosis may present with a maculopapular generalized rash.It is nonpruritic and rapidly disappears. • Because leukocytosis is the rule in infectious mononucleosis, the presence of a normal or decreased WBC count should suggest an alternative diagnosis. • Lymphocytosis Relative lymphocytosis (≥ 60%) plus atypical lymphocytosis (≥ 10%) are the characteristic findings of EBV infectious mononucleosis. • presence of 50% lymphocytes with at least 10% atypical lymphocytes Atypical lymphocytes  most commonly seen in patients who have infectious mononucleosis.  Other causes drug reactions (phenytoin), stress, viral or bacterial infections, allergies, autoimmune diseases, thyroid problems malignancy. • ESR is most useful in differentiating group A streptococcal pharyngitis from EBV infectious mononucleosis. (ESR elevated with EBV infectious mononucleosis, not elevated in group A streptococcal pharyngitis). atypical lymphocytosis point towards a viral illness Diagnosis • heterophile antibody test (Monospot test) (immunoglobulin IgM to EBV) the initial screening test sensitivity 85% and specificity 100%. Cytomegalovirus is a herpesvirus that causes infectious mononucleosis with a negative monospot test. • EBV serological tests Definitive diagnosis should be obtained in patients with a mononucleosis-like illness and a negative finding on the Monospot test. Management is supportive and includes: • rest during the early stages, drink plenty of fluid, avoid alcohol • simple analgesia for any aches or pains • consensus guidance in the UK is to avoid playing contact sports for 8 weeks after having glandular fever to reduce the risk of splenic rupture • unfortunately on clinical appearances it is not possible to distinguish bacterial from viral or throat infections with any degree of reliability. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • If the child has EBV infection, then the administration of Amoxicillin will give an erythematous rash. Non-vomiting patients can be treated with oral penicillin-v.' • Patients with EBV infectious mononucleosis who have positive throat cultures for group A streptococci should not be treated because this represents colonization rather than infection • complicated EBV infectious mononucleosis : Short courses of corticosteroids are indicated for EBV infectious mononucleosis with:  hemolytic anemia,  thrombocytopenia,  CNS involvement, or  extreme tonsillar enlargement (impending airway obstruction). In which structure is the immune response most likely localized? Paracortex • immune response to the virus takes place through T-cell mediated immune responses, which take place in the lymphocyte-rich areas of the lymph node, namely the paracortex. • A biopsy of the lymph node of this patient would show reactive hyperplasia due to increased activity of the paracortex. Parvovirus B19 Pathogen: Parvovirus B19 is a single-strand DNA virus. Transmission: particularly via airborne infection Pathology • Primarily infects progenitor cells of erythrocytes in bone marrow and endothelial cells • Attaches to P antigen on RBCs and endothelial cells → cell destruction Diseases • erythema infectiosum The most widely known clinical manifestation of parvovirus B19 is erythema infectiosum ('slapped cheek syndrome'), a mild viral illness of childhood characterised by a classic exanthema in which both cheeks appear bright red as though they had been slapped. • Aplastic crisis in patients with hemolytic anemias (e.g. sickle cell disease, thalassemias) • Parvovirus B19-associated arthritis most commonly in adults, particularly in women affect the small joints of the hands and feet. Knees or elbows are rarely involved. may mimic rheumatoid arthritis. Unlike rheumatoid arthritis, the post-infectious arthritis associated with parvovirus B19 does not cause permanent damage to bones or joints. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases • Pure red blood cell aplasia • The virus has a tropism for rapidly dividing erythrocyte precursors which they infect and destroy. Thus, no reticulocytes (immature erythrocytes) are available to replace aging or damaged erythrocytes as they are cleared by the reticuloendothelial system. This may not have any significant impact on otherwise healthy individuals, but can trigger an aplastic crisis - particularly in patients with haemoglobinopathies. Leishmaniasis • Leishmaniasis is caused by the intracellular protozoa Leishmania, (intramacrophage protozoa) • transmitted to humans by phlebotomine sand flies. • There are four main clinical syndromes: cutaneous, muco-cutaneous, visceral (also known as kala-azar) and post kala-azar dermal leishmaniasis. Cutaneous leishmaniasis • caused by Leishmania tropica or Leishmania mexicana • crusted lesion at site of bite • present with ulcers or nodules. • usually heal spontaneously, but slowly, in immuncompetent individuals with resultant disfiguring scars. Mucocutaneous leishmaniasis • caused by Leishmania braziliensis • skin lesions may spread to involve mucosae of nose, pharynx etc • characterised by progressively destructive ulcerations of the mucosa extending from the nose and mouth to the pharynx and larynx, • are not self-healing. Visceral leishmaniasis (kala-azar) • mostly caused by Leishmania donovani • caused by the Leishmania donovani complex (L. donovani sensu stricto in East Africa and India,  L. infantum in Europe, North Africa and Latin America). • incubation period of 2-6 months • patients present with persistent systemic infection (fever, sweating, rigor, malaise, loss of appetite and weight loss) (*occasionally patients may report increased appetite with paradoxical weight loss) • parasitic infection of the blood and reticulo-endothelial system lymphadenopathy, massive splenomegaly and hepatomegaly • grey skin - 'kala-azar' means black sickness • investigations pancytopaenia secondary to hypersplenism There is also often marked polyclonal hypergammaglobulinaemia. Visualisation of the parasite (amastigote form) from lymph nodes, bone marrow or spleen is used as a confirmatory test. PCR can be used to detect the parasite in the blood. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Anti-leishmanial antibodies can be detected, but they remain positive up to several years after cure and therefore cannot be used to detect relapse. • Treatment First line antimonials are sodium stibogluconate and meglumine antimoniate. Adverse effects influde cardiac arrhythmias and acute pancreatitis. Amphotericin B is increasingly being used. Post kala-azar dermal leishmaniasis • a complication of visceral leishmaniasis • characterised by a macular, maculo-papular or nodular rash • frequently observed after treatment.It can also occur in immunosuppressed individuals. • highly infectious. Leptospirosis (Also known as Weil's disease*) • *the term Weil's disease is sometimes reserved for the most severe form  If the infection causes jaundice, kidney failure and bleeding, it is then known as Weil's disease. If it affects the lung and causes pulmonary haemorrhage, then it is known as severe pulmonary haemorrhage syndrome. • leptospirosis is commonly seen in questions referring to sewage workers, farmers, vets or people who work in abattoir. • It is caused by the spirochaete Leptospira interrogans (serogroup L icterohaemorrhagiae), • classically being spread by contact with infected rat urine. • Weil's disease should always be considered in high-risk patients with hepato-renal failure Features • fever • flu-like symptoms • renal failure (seen in 50% of patients) • jaundice • headache, may herald the onset of meningitis • subconjunctival haemorrhage • Haemorrhagic tendencies with purpura or petechiae • Enlargement of liver and spleen. • Presentation with heart failure is uncommon but has been described in severe leptospirosis. Management • high-dose benzylpenicillin or doxycycline • other options: cefotaxime or ceftriaxone. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Lyme disease Aetiology • Lyme disease is caused by the spirochaete Borrelia burgdorferi and is spread by ticks of the genus Ixodes Ixodes ricinus is predominantly responsible for its transmission in Europe. Ixodes pacificus and Ixodes scapularis are the ticks responsible for transmission of in the USA. Features Early features • erythema chronicum migrans (small papule often at site of the tick bite which develops into a larger annular lesion with central clearing, 'bulls-eye'. Occurs in 70% of patients) Erythema migrans is often the presenting sign of Lyme disease • systemic symptoms: malaise, fever, arthralgia Later features • CVS: heart block, myocarditis • neurological: (Neuroborreliosis): cranial nerve palsies, meningitis • polyarthritis Investigation • serology: antibodies to Borrelia burgdorferi (ELISA test for antibodies to Borrelia burgdorferi) Serological tests are the most appropriate first line investigation for diagnosing Lyme disease. ELISA tests are preferred to Western blots as they are more sensitive. Management • Early disease: doxycycline is the drug of choice for 2 – 3 weeks Amoxicillin is an alternative if doxycycline is contraindicated (e.g. pregnancy) • Disseminated disease: ceftriaxone if disseminated disease • Jarisch-Herxheimer reaction is sometimes seen after initiating therapy: fever, rash, tachycardia after first dose of antibiotic (more commonly seen in syphilis, another spirochaetal disease) MRCPUK-part-1-September 2013 exam: H/O returning from a camping holiday in the New Forest. C/O lethargy, arthralgia, rash consistent with erythema chronicum migrans. What is the most appropriate test to perform given the likely diagnosis? ELISA test for antibodies to Borrelia burgdorferi Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Lymphadenopathy There are many causes of generalised lymphadenopathy Infective • infectious mononucleosis • HIV, including seroconversion illness • eczema with secondary infection • rubella • toxoplasmosis • CMV • tuberculosis • roseola infantum Neoplastic • leukaemia • lymphoma Others • autoimmune conditions: SLE, rheumatoid arthritis • graft versus host disease • sarcoidosis • drugs: phenytoin and to a lesser extent allopurinol, isoniazid Malaria Malaria: Falciparum • P. falciparum typically presents within the first three months of return from an endemic area. In the slide shown, the blood film shows ring forms within erythrocytes; some erythrocytes contain two to three parasites per cell - typical of falciparum; other forms of malaria seldom have more than one parasite per red cell. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Feature of severe malaria • schizonts on a blood film • parasitaemia > 2% • hypoglycaemia • acidosis • temperature > 39 C • severe anaemia • complications as below • Complications cerebral malaria: seizures, coma acute renal failure: blackwater fever, secondary to intravascular haemolysis, mechanism unknown acute respiratory distress syndrome (ARDS) (Respiratory rate 30 per minute) hypoglycaemia disseminated intravascular coagulation (DIC) Uncomplicated falciparum malaria • strains resistant to chloroquine are prevalent in certain areas of Asia and Africa • the 2010 WHO guidelines recommend artemisinin-based combination therapies (ACTs) as first-line therapy • examples include artemether plus lumefantrine, artesunate plus amodiaquine, artesunate plus mefloquine, artesunate plus sulfadoxine-pyrimethamine, dihydroartemisinin plus piperaquine Severe falciparum malaria • a parasite counts of more than 2% will usually need parenteral treatment irrespective of clinical state • Hyperparasitemia, where more than 5% of the red blood cells are infected by malaria parasites In 2010, WHO defined hyperparasitemia as >2%/100 000/µL in low intensity transmission areas or >5% or 250 000/µL in areas of high stable malaria transmission intensity. • intravenous artesunate is now recommended by WHO in preference to intravenous quinine I.V quinine is reserved for severe or cerebral malaria (most deaths from M. falciparum occur in first 96 hours of starting treatment). The initial dose should NOT be reduced in those severely ill with renal/hepatic impairment. High doses of quinine in pregnancy are teratogenic in the first trimester. However in malaria, the benefit of treatment outweighs the risk. WHO Guidelines (2006) recommend artemisinins are first line in the second and third trimester. In the first trimester, both artesunate and quinine are considered treatment options. Hypoglycaemia is an important side effect of quinine  Quinine ↑ insulin secretion and the sensitivity of cells to insulin  hypoglycaemia  Malaria itself can cause hypoglycaemia too, so blood glucose should be monitored every 2 h. • if parasite count > 10% then exchange transfusion should be considered • shock may indicate coexistent bacterial septicaemia - malaria rarely causes haemodynamic collapse Malaria: non-falciparum Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • P. vivax: The most common cause of non-falciparum malaria is Plasmodium vivax, with Plasmodium ovale and Plasmodium malariae accounting for the other cases. The incubation period of P. vivax can go up to six months or more with malaria being caused by hypnozoites.  P. falciparum incubation is normally around six days though it can go till 14 days or more. The Duffy antigen on RBCs acts as a receptor for P. vivax. facilitate the entry of P. vivax in to RBCs.  Duffy negative individuals are therefore resistant to this strain  West Africans lack the Duffy blood group and therefore P. ovale replaces P. vivax in this region. • P. ovale:  it is quite rare The incubation period is similar to that of P. vivax but on the thick film the parasites are more compact and smaller. On the thin film the red blood cells appear oval with ragged ends. • P. malariae: it is rare. Its incubation could go up to14 days like P. falciparum. The thick film will show a few compact rings or small neat schizonts or small round gametocytes with yellow-brown pigment. The thin film will show red blood cells in band forms. • Plasmodium vivax is often found in Central America and the Indian Subcontinent whilst Plasmodium ovale typically comes from Africa • Both P. vivax and P. ovale have a liver hypnozoite stage which can cause repeated relapses. May present six months after return from an endemic area Features • fever, Plasmodium vivax/ovale: cyclical fever every 48 hours. Plasmodium malariae: cyclical fever every 72 hours • headache, • splenomegaly • Plasmodium malariae: is associated with nephrotic syndrome Investigations • Plasmodium ovale, all stages of the parasite and not just trophozoites and gametocytes are visible in the peripheral blood. • In P. falciparum malaria, only trophozoite-ring forms and gametocytes are usually seen. Treatment • non-falciparum malarias are almost always chloroquine sensitive • patients with ovale or vivax malaria should be given primaquine following acute treatment with chloroquine to destroy liver hypnozoites and prevent relapse. all individuals should be screened for glucose-6-phosphate dehydrogenase (G6PD) deficiency, as primaquine may cause haemolysis in those without the enzyme. Chapter 9 Infectious diseases fast-acting intermediate-acting slow-acting high-efficacy blood schizonticides that may be effective as monotherapy low-efficacy schizonticides that normally need to be administered in combination. Artemesinin Mepacrine Pyrimethamine Doxycycline is also a very slow-acting antimalarial. Pyrimethamine Quinine Mefloquine • used in the treatment of uncomplicated malaria, particularly for chloroquine-resistant P. falciparum. • It acts on both the erythrocytic and hepatic phases of infection. • It inhibits dihydrofolate reductase in the parasite thus preventing the biosynthesis of purines and pyrimidines, and thereby halting the processes of DNA replication, cell division and reproduction. • It is normally used alongside a sulfonamide. Malaria: prophylaxis • around 75% of malaria in patients returning from endemic countries are caused by the potentially fatal Plasmodium falciparum protozoa. • The majority of patients who develop malaria did not take prophylaxis. • It should also be remembered that UK citizens who originate from malaria endemic areas quickly lose their innate immunity. Drug Side-effects + notes Atovaquone + proguanil (Malarone) GI upset 1 - 2 days 7 days Chloroquine Headache Contraindicated in epilepsy Taken weekly Doxycycline Photosensitivity Oesophagitis Mefloquine (Lariam) Dizziness Neuropsychiatric disturbance Contraindicated in epilepsy and mental illnesses Taken weekly Proguanil (Paludrine) Proguanil + chloroquine See above 1 week 4 weeks Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Time to begin before travel Time to end after travel 1 week 4 weeks 1 - 2 days 4 weeks 2 - 3 weeks 4 weeks 1 week 4 weeks Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Which drug? In certain parts of South-East Asia there is widespread chloroquine resistance. Chemoprophylaxis using atovaquone + proguanil (Malarone), mefloquine (Lariam) or doxycycline is therefore recommended. Doxycycline prophylaxis is the safest option with less resistance in many parts of the world compared to the other options available.  Atovaquone and proguanil are used for prophylaxis especially where there are high levels of resistance against most of the other drugs. Proguanil should not be used alone as malaria could develop resistance to it. • Pregnant women Pregnant women should be advised to avoid travelling to regions where malaria is endemic. Diagnosis can also be difficult as parasites may not be detectable in the blood film due to placental sequestration. However, if travel cannot be avoided:  chloroquine can be taken  proguanil: folate supplementation (5mg od) should be given  Malarone (atovaquone + proguanil): the BNF advises to avoid these drugs unless essential. If taken then folate supplementation should be given  mefloquine: caution advised  doxycycline is contraindicated • Children It is again advisable to avoid travel to malaria endemic regions with children if avoidable. However, if travel is essential then children should take malarial prophylaxis as they are more at risk of serious complications.  diethyltoluamide (DEET) 20-50% can be used in children over 2 months of age  doxycycline is only licensed in the UK for children over the age of 12 years MRCPUK-part-1-May 2013 exam: H/O vivax malaria treated initially with chloroquine then later given primaquine. What is the benefit of the primaquine? Destroy liver hypnozoites and prevent relapse MRCPUK-part-1-May 2014 exam: A 25-year-old man with a history of epilepsy presents for advice regarding malarial prophylaxis. Next month he plans to travel to Vietnam. What is the most appropriate medication to prevent him developing malaria? Atovaquone + proguanil Measles Overview • RNA paramyxovirus • spread by droplets • infective from prodrome until 4 days after rash starts • incubation period = 10-14 days Features • prodrome: irritable, conjunctivitis, fever Patients present with the three C's: cough, coryza, and conjunctivitis.  Rash usually develops on the head and torso, typically sparing the wrists and hands. • Koplik spots (before rash): white spots ('grain of salt') on buccal mucosa Koplik's spots are small, irregular, bright red spots with blue-white centres, occurring on the inside of the cheek next to the premolars.Seen only in measles, they are diagnostic. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases The spots usually occur briefly after the fever begins and a couple of days before the generalised rash appears. Not infrequently, the spots disappear as the eruption develops. • rash: starts behind ears then to whole body, discrete maculopapular rash becoming blotchy & confluent Koplik spots Complications • encephalitis: typically occurs 1-2 weeks following the onset of the illness) • subacute sclerosing panencephalitis: very rare, may present 5-10 years following the illness • febrile convulsions • giant cell pneumonia • keratoconjunctivitis, corneal ulceration • diarrhoea • increased incidence of appendicitis • myocarditis The rash typically starts behind the ears and then spreads to the whole body Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management of contacts • if a child not immunized against measles comes into contact with measles then MMR should be offered (vaccine-induced measles antibody develops more rapidly than that following natural infection) • this should be given within 72 hours Rubella • also known as german measles. • RNA virus , part of the togavirus family rubella has positive single-stranded RNA. rubeola virus (measles) contains negative single-stranded RNA • affects unimmunized children and presents with a rash that begins at the head and moves down with postauricular lymphadenopathy. • A positive rubella haemagglutination inhibition (HAI) combined with a negative rubella IgM is consistent with: Early acute infection with rubella  The IgM may take several days to rise and the test should be repeated one to two weeks later. Previous vaccination, or Previous rubella infection. Parotitis Causes • Bacterial parotitis Commonly unilateral more common in older patients. The most common bacterial cause of parotitis is Staphylococcus aureus. The risk is increased by agents that have an atropine-like action, including medications prescribed to reduce excess respiratory secretions. A ductal stone, with consequent pooling of infected secretions, should be excluded, and ultrasound is an appropriate investigation to perform for this. Antibiotics should be selected that cover typical mouth flora. • Viral parotitis Mumps parotitis is usually bilateral Parotitis, orchitis, aseptic meningitis, and pancreatitis are symptoms of mumps virus infection. • autoimmune disease, Sjogren's syndrome. • Bulimia nervosa Parotid swelling • causes of bilateral parotid swelling include: Infection with viruses, including mumps, parainfluenza virus type 3, Coxsackie viruses and influenza A virus Metabolic diseases, such as:  diabetes mellitus  uraemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Drugs, such as:  phenylbutazone  thiouracil • Other conditions associated with chronic parotid swelling include: Alcoholic liver disease Sarcoidosis Sjögren syndrome Lymphoma Infection with HIV Orf Orf is generally a condition found in sheep and goats although it can be transmitted to humans. It is caused by the parapox virus. In animals • 'scabby' lesions around the mouth and nose In humans • generally affects the hands and arms • initially small, raised, red-blue papules • later may increase in size to 2-3 cm and become flat-topped and haemorrhagic Pelvic inflammatory disease(PID) Definition • infection and inflammation of the female pelvic organs including the uterus, fallopian tubes, ovaries and the surrounding peritoneum. • It is usually the result of ascending infection from the endocervix Causative organisms • Chlamydia trachomatis - the most common cause • Neisseria gonorrhoeae • Mycoplasma genitalium • Mycoplasma hominis one of the most frequently isolated mycoplasma in the genital tract. It is an opportunistic pathogen which may cause pelvic inflammatory disease in immunocompromised patients. Clindamycin is used in the treatment Features • lower abdominal pain • fever • deep dyspareunia • dysuria and menstrual irregularities may occur • vaginal or cervical discharge • cervical excitation Investigation • screen for Chlamydia and Gonorrhoea Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • due to the difficulty in making an accurate diagnosis, and the potential complications of untreated PID, consensus guidelines recommend having a low threshold for treatment • Consensus guidelines recommend treatment once a diagnosis of pelvic inflammatory disease is suspected, rather than waiting for the results of swabs • oral ofloxacin + oral metronidazole or intramuscular ceftriaxone + oral doxycycline oral metronidazole • RCOG guidelines suggest that in mild cases of PID intrauterine contraceptive devices may be left in. The more recent BASHH guidelines suggest that the evidence is limited but that ' Removal of the IUD should be considered and may be associated with better short term clinical outcomes' Complications • infertility - the risk may be as high as 10-20% after a single episode • chronic pelvic pain • ectopic pregnancy • Fitz-Hugh-Curtis syndrome is a rare complication of pelvic inflammatory disease, resulting in liver capsule inflammation. It is most often caused by untreated sexually transmitted infections including Chlamydia trachomatis and Neisseria gonorrhoeae. a patient may present with septic shock secondary to the untreated liver capsule infection. Psittacosis (ornithosis) • Chlamydia psittaci is endemic in birds including psittacine birds, canaries, finches, pigeons and poultry. • Pet owners, vets and zoo keepers are most at risk. It is rare in children. • Person to person transmission occurs especially in a hospital environment. • Sputum Gram stain reveals a few leucocytes and no predominant bacteria. • There are few signs and few laboratory/x ray findings. • Positive serology is with complement-fixing antibodies. • It is treated with tetracycline. Pyogenic liver abscess • The most common organisms found in pyogenic liver abscesses are Staphylococcus aureus in children and Escherichia coli in adults. Management • amoxicillin + ciprofloxacin + metronidazole • if penicillin allergic: ciprofloxacin + clindamycin January 2018 exam: What is the most appropriate antibiotic therapy to accompany drainage of liver abscess? Amoxicillin + ciprofloxacin + metronidazole Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Pyrexia of unknown origin indium labelled leukocyte study: • useful for detecting occult abscesses in patients with pyrexia of unknown origin where conventional scans have failed to detect a source of infection. Definition • Defined as a prolonged fever of > 3 weeks which resists diagnosis after a week in hospital Neoplasia • lymphoma • hypernephroma • preleukaemia • atrial myxoma Infections • abscess • TB Connective tissue disorders Q fever Q fever - Coxiella burnetti Overview • Q fever is a zoonotic disease caused by Coxiella burnetii an obligate gram-negative intracellular bacterium. • The organism is very resistant to drying. • does not grow on standard culture media. Transmission • The organism is usually inhaled from infected dust (animal products) • acquired through contact with animals. Cattle, sheep and goats are the primary reservoirs of C. burnetii. • drinking unpasteurised milk from infected cows. Risk factors • It is not notifiable, but can occur in outbreaks in farming communities and in abattoirs. and therefore an occupational history is very important. Features: • high fevers, chills, sweats • severe headache, (typically retrobulbar) • general malaise, myalgia, • confusion, • sore throat, , • non-productive cough, • nausea, vomiting, diarrhoea, abdominal pain • chest pain. • Between 30% and 50% of patients with a symptomatic infection will develop pneumonia. • may be complicated by immune complex-mediated glomerulonephritis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Chronic infection can manifest as hepatitis, osteomyelitis or endocarditis. • In Q fever endocarditis: the aortic valve is involved in over 80% of cases. A murmur is not always present, but augmentation of an existing murmur may occur. Low-grade fever (or no fever), signs of heart failure, hepatosplenomegaly, clubbing, arterial emboli, leukocytoclastic vasculitic rash. Diagnosis: • Confirmed by serological testing for C. burnetii. phase I antibody titre to Coxiella burnetti (IgG and/or IgA) greater than 1:200 is virtually diagnostic of Q fever. • chest X-ray might show multilobar consolidation. • Anaemia • Thrombocytopenia • Elevated ESR • Hypergammaglobulinaemia • liver function tests abnormal in the majority of patients and some will develop hepatitis. • Microscopic haematuria may be present. Treatment : • Most patients will recover within a few months with no treatment. • Doxycycline is the treatment of choice for acute Q fever. OR prolonged courses of tetracyclines. Prognosis • Only 1–2% of people with acute Q fever die of the disease. • Chronic Q fever Endocarditis with negative culture findings and seropositivity is the main clinical presentation of chronic Q fever,  usually occurring in patients with preexisting cardiac disease including valve defects, rheumatic heart disease, and prosthetic valves. Rabies Overview • Rabies is a viral disease that causes an acute encephalitis. • The rabies virus is classed as a RNA rhabdovirus and has a bullet shaped capsid. • It is commonly transmitted by bat, raccoon and skunk bites. • Following a bite the virus travels up the nerve axons towards the central nervous system in a retrograde fashion. Features • prodrome: headache, fever, agitation • hydrophobia: water-provoking muscle spasms • hypersalivation • Negri bodies: cytoplasmic inclusion bodies found in infected neurons Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases There is now considered to be 'no risk' of developing rabies following an animal bite in the UK and the majority of developed countries. Following an animal bite in at risk countries: • if an individual is already immunised then 2 further doses of vaccine should be given • if not previously immunised then human rabies immunoglobulin (HRIG) should be given along with a full course of vaccination • Lyssaviruses such as rabies cannot cross intact skin and humans are regarded as an end-host (outside of transplantation-associated transmission). Therefore, only standard infection-prevention precautions such as gloves and gowns are required. Scabies Scabies should be suspected in any sexually active young person who presents with generalised pruritus without any specific signs. Overview • Scabies is caused by the mite Sarcoptes scabiei and is spread by prolonged skin contact. • It typically affects children and young adults. Pathophysiology • The scabies mite burrows into the skin, laying its eggs in the stratum corneum. • The intense pruritus associated with scabies is due to a delayed type IV hypersensitivity reaction to mites/eggs which occurs about 30 days after the initial infection. Features • widespread pruritus • linear burrows on the side of fingers, interdigital webs and flexor aspects of the wrist The tiny erythematous burrows in the web spaces of the fingers are almost pathognomonic • in infants the face and scalp may also be affected • secondary features are seen due to scratching: excoriation, infection Investigation • Skin scrapings demonstrate Sarcoptes scabiei Management • first-line is permethrin 5% • second-line is malathion 0.5% • Application should be repeated seven days after initial treatment to kill any mites hatched from eggs in that time • give appropriate guidance on use (see below) • pruritus persists for up to 4-6 weeks post eradication Patient guidance on treatment (from Clinical Knowledge Summaries) • avoid close physical contact with others until treatment is complete • all household and close physical contacts should be treated at the same time, even if asymptomatic Re-infection most likely means Other household members were not treated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • launder, iron or tumble dry clothing, bedding, towels, etc., on the first day of treatment to kill off mites. Patients should be given the following instructions: • The BNF advises to apply the insecticide to all areas, including the face and scalp, contrary to the manufacturer's recommendation. • apply the insecticide cream or liquid to cool, dry skin • pay close attention to areas between fingers and toes, under nails, armpit area, creases of the skin such as at the wrist and elbow • allow to dry and leave on the skin for 8-12 hours for permethrin, or for 24 hours for malathion, before washing off • reapply if insecticide is removed during the treatment period, e.g. If wash hands, change nappy, etc • repeat treatment 7 days later Crusted (Norwegian) scabies • Crusted scabies is seen in patients with suppressed immunity, especially HIV. • The crusted skin will be teeming with hundreds of thousands of organisms. • Ivermectin is the treatment of choice and isolation is essential Chapter 9 Infectious diseases Helminths Nematodes (roundworms) Worm Notes Treatment Larvae are present in soil and gain access to the body by penetrating the skin Strongyloides stercoralis Features include diarrhoea, abdominal pain, papulovesicular lesions where the skin has been penetrated by infective larvae e.g. soles of feet and buttocks, larva currens: pruritic, linear, urticarial rash, if the larvae migrate to the lungs a pneumonitis similar to Loeffler's syndrome may be triggered Enterobius vermicularis (pinworm) asymptomatic in 90% of cases, possible features include perianal itching, particularly at night; girls may have vulval symptoms Diagnosis may be made by the applying sticky plastic tape to the perianal area and sending it to the laboratory for microscopy to see the eggs Larvae penetrate skin of feet; gastrointestinal infection → anaemia Thin-shelled ova Ancylostoma duodenale, Ne cator americanus(h ookworms) Loa loa Transmission by deer fly and mango fly Causes red itchy swellings below the skin called 'Calabar swellings', may be observed when crossing conjunctivae Typically develops after eating raw pork. Features include fever, periorbital oedema and myositis (larvae encyst in muscle) Trichinella spiralis Causes 'river blindness'. Spread by female blackflies Onchocerca volvulus Features include blindness, hyperpigmented skin and possible allergic reaction to microfilaria Transmission by female mosquito Wuchereria bancrofti Causes blockage of lymphatics → elephantiasis Transmitted through ingestion of infective eggs. Toxocara canis (dog roundworm) Features include visceral larva migrans and retinal granulomas VISCious dogs → blindness Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ivermectin and - bendazoles are used -bendazoles -bendazoles Diethylcarbamazine -bendazoles Ivermectin rIVERblindness = IVERmectin Diethylcarbamazine Diethylcarbamazine Worm Notes Treatment Ascaris lumbricoides( giant roundworm) • the most common nematode parasite of humans. • Eggs are visible in faeces • large roundworm, growing up to 35 cm in length • result of pneumonitis caused by the worm's migration through the lungs • May cause intestinal obstruction and occasional migrate to lung (Loffler's syndrome) • biliary/pancreatic duct obstruction. Cestodes (tapeworms) Worm Notes Treatment • Responsible for hydatid disease • Transmission through ingestion of eggs in dog faeces. • Definite host is dog, which ingests hydatid cysts from sheep, who act as an intermediate host. • Often seen in farmers. • Features include liver cysts and anaphylaxis if cyst ruptures (e.g. during surgical removal) • the most appropriate next step in diagnosis? ELISA testing for Echinococcus Echinococcus granulosus Taenia solium Often transmitted after eating undercooked pork. Causes cysticercosis and neurocysticercosis, mass lesions in the brain 'swiss cheese appearance' May cause biliary obstruction Triclabendazole Fasciola hepatica (the liver fluke) Trematodes (flukes) Worm Notes Treatment Hosted by snails, which release cercariae that penetrate skin. Causes 'swimmer's itch' - frequency, haematuria. Risk factor for squamous cell bladder cancer Schistosoma haematobium Caused by undercooked crabmeat, results in secondary bacterial infection of lungs Paragonimus westermani Clonorchis sinensis Caused by undercooked fish Features include biliary tract inflammation. Known risk factor for cholangiocarcinoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad -bendazoles Piperazine is the treatment of choice in patients presenting with bowel obstruction; mebendazole may be used to treat other infections. • bendazoles alone (For smaller cysts) • albendazole combined with surgical excision. • (for larger cysts) -bendazoles Praziquantel Praziquantel Praziquantel Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Schistosomiasis Schistosoma haematobium causes haematuria Schistosomiasis, or bilharzia, is a parasitic flatworm infection. Types • Schistosoma mansoni and Schistosoma intercalatum: intestinal schistosomiasis • Schistosoma haematobium: urinary schistosomiasis This typically presents as a 'swimmer's itch' in patients who have recently returned from Africa. Schistosoma haematobium is a risk factor for squamous cell bladder cancer Features • frequency • haematuria • bladder calcification Management • single oral dose of praziquantel • Praziquantel is the treatment of choice for all Schistosoma species. • CNS involvement S. japonicum  Praziquantel 60 mg/kg per day for 6 days and prednisolone 1 mg/kg per day  Praziquantel 60 mg/kg per day for six days is recommend for S. japonicum with a maximum dose of 5 grams per day with prednisolone 1 mg/kg. S. mansoni and S. haematobium.  Praziquantel 40 mg/kg per day for three days is recommended for S. mansoni and S. haematobium. Since some of the pathology in neuroschistosomiasis is secondary to hypersensitivity reactions there is need to use a steroid, in this case prednisolone 1 mg/kg per day. There is no consensus about when it should be started or stopped. Complications: • S. mansoni Eggs can migrate to liver through the portal venous system where they can elicit a granulomatous fibrosing reaction venous blockade Portal venous hypertension varicies and upper GIT bleeding. • S. haematobium leads to granulomatous inflammation, ulceration of the vesicle and ureteral walls. Subsequent fibrosis can cause bladder neck obstruction, hydroureter and hydronephrosis. These changes can cause a chronic renal impairment and predispose to secondary bacterial infection as well as squamous cell carcinoma. • all schistosome species can result in immune complex deposition in the kidneys leading to a proteinuria and nephrotic syndrome. • S. japonicum:  is prevalent in China, Indonesia, Thailand and the Philippines mainly. It is the commonest cause of Schistosoma encephalitis. Its eggs are smaller unlike those of S. masoni and S. haematobiumwhich are more likely to cause spinal cord schistosomiasis because of their larger size and spikes which do not enable them get to the brain hence the infection in the spinal cord. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Strongyloides stercoralis • Strongyloides stercoralis is a human parasitic nematode worm. The larvae are present in soil and gain access to the body by penetrating the skin. Infection with Strongyloides stercoralis causes strongyloidiasis. Features • diarrhoea • abdominal pain/bloating • papulovesicular lesions where the skin has been penetrated by infective larvae e.g. soles of feet and buttocks • larva currens: pruritic, linear, urticarial rash • if the larvae migrate to the lungs a pneumonitis similar to Loeffler's syndrome may be triggered Treatment • ivermectin and albendazole are used Tape worms • Tape worms are made up of repeated segments called proglottids. These are often present in faeces and are useful diagnostically Cysticercosis • caused by Taenia solium (from pork) and Taenia saginata (from beef) • These may affect any tissue in the body but are commonest in subcutaneous tissues and (CNS) patient with a palpable nodule who has an epileptic seizure • management: niclosamide Hydatid disease • caused by the dog tapeworm Echinococcus granulosus • life-cycle involves dogs ingesting hydatid cysts from sheep liver • often seen in farmers • may cause liver cysts • management: albendazole Trypanosomiasis • Two main form of this protozoal disease are recognised: 1. African trypanosomiasis (sleeping sickness) and 2. American trypanosomiasis (Chagas' disease) African trypanosomiasis, or sleeping sickness Two forms of African trypanosomiasis, or sleeping sickness, are seen: Trypanosoma brucei gambiense in West Africa  West African trypanosomiasis has a slower course. Symptoms start several weeks or even months after the tsetse fly bite. Trypanosoma brucei rhodesiense in East Africa.  Trypanosoma rhodesiense tends to follow a more acute course.  progression is more rapid - starting within days of infection. Death may occur within weeks or months.  Rash is a more prominent feature and lymphadenopathy is less frequently present. Both types are spread by the tsetse fly. Clinical features include:  Trypanosoma chancre - painless subcutaneous nodule at site of infection Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases  intermittent fever  enlargement of posterior cervical lymph nodes  later: central nervous system involvement e.g. somnolence, headaches, mood changes, meningoencephalitis  The reversal of the sleep wake cycle is typical and can be accompanied by behavioural changes. Stages  The first stage of disease is haematolymphatic spread and is accompanied by fever, and lymphadenopathy (discrete, rubbery, non-tender nodes). A rash sometimes occurs and mild hepatosplenomegaly may develop.  The second stage is the meningoencephalitic stage. This occurs months or years after the acquisition of infection. Manifestations include personality change and progressive indifference with daytime somnolence. Extrapyramidal signs and ataxia are common. Management  early disease: IV pentamidine or suramin  later disease or central nervous system involvement: IV melarsoprol 2. American trypanosomiasis, or Chagas' disease caused by the protozoan Trypanosoma cruzi. Transmitted by triatomine bug bite. Features:  acute phase: asymptomatic (95%) chagoma (an erythematous nodule at site of infection) periorbital oedema  Chronic Chagas' disease mainly affects the heart, gastrointestinal tract and CNS. Cardiac feature myocarditis may lead to dilated cardiomyopathy (with apical atophy) and arrhythmias. Cardiac involvement is the leading cause of death in patients with Chagas' disease GIT feature: Mega-oesophagus (causing dysphagia) Mega-colon (causing constipation) CNS feature meningoencephalitis Management  treatment is most effective in the acute phase using azole or nitroderivatives such as benznidazole or nifurtimox  chronic disease management involves treating the complications e.g., heart failure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Nematodes • most common cause of cutaneous larva migrans Ancylostoma braziliense • commonest cause of visceral larva migrans Toxocara canis Ancylostoma braziliense • most common cause of cutaneous larva migrans • common in Central and Southern America • The infection is acquired by direct contact with dog or cat faeces - often acquired when sunbathing on contaminated sand, etc. The larvae burrow in the dermo-epidermal junction. • Symptoms include pruritus and a raised, serpiginous erythematous rash that migrates at a rate of up to 1 cm/day. • Treatment i The disease is self-limiting but the duration of disease varies considerably  Oral ivermectin in a single dose of 200 µg/kg body weight is the main treatment. Other treatment options include oral albendazole or topical thiabendazole. Strongyloides stercoralis • acquired percutaneously (e.g. walking barefoot) • causes pruritus and larva currens - this has a similar appearance to cutaneous larva migrans but moves through the skin at a far greater rate • abdo pain, diarrhoea, pneumonitis • may cause Gram negative septicaemia due carrying of bacteria into bloodstream • eosinophilia sometimes seen • management: thiabendazole, albendazole. Ivermectin also used, particularly in chronic infections Toxocara canis • commonly acquired by ingesting eggs from soil contaminated by dog faeces • commonest cause of visceral larva migrans • other features: eye granulomas, liver/lung involvement cutaneous larva migrans cutaneous larva migrans Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Filariasis • Manifestations of filariasis Remember 3 L's:  Lymphatic filariasis (caused by Wuchereria bancrofti and Brugia malayi)  Loiasis (caused by Loa loa)  Light (light, sight, blindness - river blindness caused by Onchocerca volvulus) Tropical eosinophilia:  Tropical eosinophilia is an allergic reaction to microfilaria of Wuchereria bancrofti.  Characteristic features include: myalgia; fatigue; weight loss; cough and dyspnoea with wheeze; fever; current or previous residence in an area endemic for filariasis (southern Asia, Africa, India, South America); lymphadenopathy; marked peripheral blood eosinophilia high titres of anti-filarial antibodies.  The chest x ray shows bilateral reticulonodular shadowing.  This condition is commonly accompanied by false positive serological tests for syphilis and high titres of cold agglutinins.  There is typically a rapid response to treatment with diethylcarbamazine. • Diagnosis finger prick test  identifying microfilariae on Giemsa stained, thin and thick blood film smears, "Filariasis fills the blood at night." To remember that Microfilaria can be demonstrated in peripheral smear only at night.  W. bancrofti, whose vector is a mosquito; night is the preferred time for blood collection.  Loa loa's vector is the deer fly; daytime collection is preferred. • Which immune mechanisms does the body employ against the live filarial worms ? Antibody-dependent cell-mediated cytotoxicity 060 - Pages 1476-1500 060 Pages 1476-1500 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Loiasis • Loiasis is a filarial infection caused by Loa Loa. • It is transmitted by the Chrysops deerfly and tends to occur in rainforest regions of Western and Central Africa. • It has less pathological features than other the microfilarial infections Onchocerciasis and Lymphatic Filariasis. Clinical features • pruritus • urticaria • Calabar swellings: transient, non-erythematous, hot swelling of soft-tissue around joints • 'eye worm' - the dramatic presentation of subconjuctival migration of the adult worm. Treatment • Ivermectin is currently the drug of choice for control of both Onchocerciasis and Lymphatic Filariasis in Africa. • high loa loa microfilaraemia is associated with encephalopathy following treatment with either Ivermectin or DEC. This occurs due to the death of vast numbers of blood microfilaria. Both of these drugs are contraindicated if loa loa microfilaraemia exceeds 2500 mf/ml. Adult Loa loa parasite. Loa loa is the filarial nematode (roundworm) species that causes loa loa filariasis. It is commonly known as the 'eye worm.' Its geographic distribution includes Africa and India. Credit: NIAID Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Animal bites • The majority of bites seen in everyday practice involve dogs and cats. • Dog bites become infected in 10% of cases. • the most common isolated organism is Pasteurella multocida. Management • cleanse wound • current BNF recommendation is co-amoxiclav • if penicillin-allergic then doxycycline + metronidazole is recommended Previous exams MRCPUK-part-1-January- 2019: H/O a dog bite to right hand. What is the most appropriate antibiotic therapy? Co-amoxiclav MRCPUK-part-1-January- 2018: A patient has been bitten by his dog that morning. the wound looks clean as he has washed it well. He is penicillin allergic. Which antibiotic therapy is suitable? Metronidazole and doxycycline in combination Rocky Mountain spotted fever • Rocky Mountain spotted fever (RMSF) is a systemic vasculitis caused by infection with Rickettsia rickettsii, a tick-borne, gram-negative, intracellular bacterium, that primarily infects vascular endothelial cells. • It is the most common fatal tick-borne infection in the USA • Transmitted by bites of the dog or wood tick, which predominantly occur in spring and summer throughout much of the United States. Feature • Fever, headache, myalgia, rash, vomiting, and history of tick bite are commonly reported; however, the absence of any of these does not exclude diagnosis. A history of tick bite may not be elicited in up to 45% of cases. • The rash usually sparing the face and may involve palms and soles. • Signs and symptoms may be difficult to distinguish from those of common viral illnesses, leading to delayed diagnosis. • Diagnosis should be considered in any person with a compatible clinical presentation and recent outdoor exposure. • Late-stage manifestations, such as noncardiogenic pulmonary edema (acute respiratory distress syndrome [ARDS]) and cerebral edema, are consequences of microvascular leakage. Investigation • PCR (polymerase chain reaction) is the most appropriate test Treatment • Doxycycline is the drug of choice for adults and children and is almost always curative, especially if given in the first 5 days of illness. Tetracyclines acts on 30S ribosomes to prevent protein synthesis in the infecting organism. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Aluminium hydroxide can complex with this antibiotic in the gastrointestinal tract, preventing absorption. Dairy products ingested at the same time can also cause this. Aluminium hydroxide medication should be stoped till the antibiotic course is finished • Because the risk of death rises if appropriate therapy is not started before the fifth day of illness, doxycycline should be prescribed for suspected Rocky Mountain spotted fever before confirmatory diagnostic test results are available. Typhus (Rickettsial infection) • caused by Rickettsia typhi (endemic typhus) or Rickettsia prowazekii (epidemic typhus). T • Rickettsia prowazekii (epidemic typhus) is transmitted via human-to-human contact through body lice. • Arthropod vectors transmit the etiologic agents to humans. • Presented with fever and rash • Both forms of typhus consist of a rash that classically begins centrally, and spreads outwardly sparing the palms and soles (unlike Rocky Mountain spotted fever) • Rocky Mountain Spotted Fever can be distinguished from typhus because its rash begins peripherally, and spreads centrally to the palms, soles, and trunk. • Doxycycline is the drug of choice for treatment in patients of all ages. Histoplasmosis Overview • Histoplasmosis is one of the most common systemic fungal infections in the United States. It is endemic to the Ohio and Mississippi river valleys • often associated with spelunkers (cave divers) or patients recently exposed to bird and bat droppings. Feature • The majority are asymptomatic. • can closely mimic tuberculosis in symptomatology and imaging.  dry cough, shortness of breath, fatigue, and fever • Disseminated infection causes bilateral adrenal enlargement in 80% of cases and it can result in adrenal insufficiency. Diagnosis: Adrenal biopsy or FNA with Groccott stain (Groccott-stained adrenal biopsy). Investigation • Chest X-ray often reveals a solitary lung lesion. • Disseminated histoplasmosis can cause systemic granulomatous inflammation and cavitation, which may be fatal. • The organisms can be visualized using methenamine silver or periodic acid-Schiff staining. • On histology Macrophages containing yeast Histoplasma capsulatum is a small intracellular yeast that is phagocytosed by alveolar macrophages. Treatment • Itraconazole for 3-6 months Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 9 Infectious diseases Actinomycosis Predisposing conditions include: • tooth extractions, • fractures of the jaw, • periodontal abscesses, • foreign bodies penetrating the mucosal barrier (bone splinters, fish bones) or • suppurating tonsillar crypts. • impaired immunity Features • cervicofacial actinomycosis the most common manifestation of infection with Actinomyces spp. • Initially, cervicofacial actinomycosis presents either as an acute, usually odontogenic, abscess or cellulitis of the floor of the mouth, or as a slowly developing hard, painless, reddish or livid swelling. • Small, acute actinomycotic abscesses may heal after surgical drainage alone. More often, however, the acute initial stage is followed by a subacute to chronic course if no specific antimicrobial treatment is administered. • Chronic disease is characterised by regression of central suppurative foci while the infection progresses peripherally; it can spread to involve other parts of the head and neck, including the meninges. • A quick and comparatively reliable diagnosis is possible microscopically, when sulphur granules are present; this is not conclusive, however, as nocardiosis may present similarly and has a similar appearance on microscopy. • One way to differentiate Actinomyces spp. from Nocardia spp. is through culture: the former grow in anaerobic conditions and the latter do not. Malignant otitis externa Causes • Malignant otitis externa is a necrotizing infection of the ear that is commonly caused by Pseudomonas aeruginosa. Pseudomonas species are often found swimming pools and hot tubs, and can also cause “hot tub folliculitis”. Risk factors • Susceptible individuals include diabetics and other immunosuppressed patients. Feature • Physical exam may reveal discharge from the ear • severe pain, out of proportion to physical findings, on manipulation of the ear. • The disease can affect surrounding bony architecture and cause cranial nerve palsies. Such involvement suggests poor prognosis. Treatment • Treatment for suspected Pseudomonas infections anti-pseudomonal penicillin such as piperacillin-tazobactam, which is a penicillin paired with a beta-lactamase inhibitor. Third edition Notes & Notes For MRCP part 1 & 2 By Dr. Yousif Abdallah Hamad Dermatology Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Epidermis • The epidermis is the outermost layer of the skin and is composed of a stratified squamous epithelium with an underlying basal lamina • It may be divided in to five layers: Layer Description Stratum corneum Flat, dead, scale-like cells filled with keratin Continually shed Stratum lucidum Clear layer - present in thick skin only Stratum granulosum Cells form links with neighbours Stratum spinosum Squamous cells begin keratin synthesis Thickest layer of epidermis Stratum germinativum The basement membrane - single layer of columnar epithelial cells Gives rise to keratinocytes Contains melanocytes Definitions • Plaque is a descriptive term for a skin lesion that is raised and greater than 1 cm in diameter. • Macule is an area of altered skin colour is irrespective of the size. • Papule is a raised lesion less than 1 cm in diameter. • Ulcer is a discontinuity of the skin with complete loss of the epidermis and often portions of the dermis and subcutaneous fat. • Vesicle is a fluid-filled, well-circumscribed raised lesion. • Pustule are small elevation of the skin containing cloudy or purulent material, usually consisting of necrotic inflammatory cells. • Bulla are large vesicle containing serous fluid. • Fissure are cracks in the skin that are narrow but deep. • Telangiectasia are collection of enlarged capillaries visible on the skin or mucous membranes. • Lichenification of the skin is due to epidermal thickening characterised by visible and palpable thickening of the skin with accentuation of skin markings. • Atrophy of the skin may be due to loss of epidermis, dermis or subcutaneous tissue. Thinning of the epidermis presents as skin that appears thin and translucent. Thinning of the dermis and subcutaneous tissue leads to a depression in the skin. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acanthosis nigricans Overview • Describes symmetrical, brown, velvety plaques that are often found on the neck, axilla and groin • presents as a dark thickened area of the skin of the back of the neck or the armpit, • Obesity is the most common cause • Classically acanthosis nigricans associated with malignancy appears abruptly, and it can precede diagnosis of malignancy. • Diabetes causes acanthosis nigricans due to stimulation of insulin-like growth factor receptor-1. Causes • paraneoplastic phenomenon (usually tumours of the GI tract, especially adenocarcinoma of the stomach) and Endometrial carcinoma • diabetes mellitus • obesity • polycystic ovarian syndrome • acromegaly • Cushing's disease • hypothyroidism • familial ( autosomal dominant ) • Prader-Willi syndrome • drugs: oral contraceptive pill, nicotinic acid (Niacin) Management • first line is treatment of the underlying cause. • In persistent acanthosis nigricans despite treatment of the underlying cause, topical retinoids can be tried. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Acne rosacea is a chronic skin disease of unknown aetiology Features • typically affects nose, cheeks and forehead • flushing is often first symptom • telangiectasia are common • later develops into persistent erythema with papules and pustules • rhinophyma • ocular involvement: blepharitis Management • topical metronidazole may be used for mild symptoms (i.e. Limited number of papules and pustules, no plaques) • more severe disease is treated with systemic antibiotics e.g. Oxytetracycline • recommend daily application of a high-factor sunscreen • camouflage creams may help conceal redness • laser therapy may be appropriate for patients with prominent telangiectasia _Acne vulgaris • Acne vulgaris is a common skin disorder which usually occurs in adolescence. • It typically affects the face, neck and upper trunk • characterised by the obstruction of the pilosebaceous follicle with keratin plugs which results in comedones, inflammation and pustules. Epidemiology • Affects around 80-90% of teenagers • Age of onset: typically by 11–12 years, with symptoms usually disappearing around 20–30 years of age Acne presenting at beyond aged 20 years should always prompt investigation of a possible secondary cause. • Sex: more common in males during adolescence, but more common in women during adulthood Aetiology & Pathophysiology • Hormonal factors ↑ Androgens during puberty → increased production of sebum by sebaceous glands In women: menstrual cycle • Follicular hyperkeratosis: Follicular epidermal hyperproliferation →formation of a keratin plug →obstruction of pilosebaceous follicle. Higher keratinocyte activity and decreased keratinocyte shedding in pilosebaceous units leads to the formation of comedones. • Bacterial colonisation with Cutibacterium acnes; inflammatory reactions with formation of papules, nodules, pustules, and/or cysts Features • Localisation: common in areas with sebaceous glands (predilection sites: face, shoulders, upper chest, and back) • Primary lesions Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Non-inflammatory: comedonal acne  Closed comedones (“whiteheads”): closed small round lesions that contain whitish material  Open comedones (“blackheads”): dark, open portion of sebaceous material Inflammatory: affected areas are red and can be painful  papules, pustules that arise from comedones  Nodular acne (> 5 mm in diameter): Commonly the back and neck • Secondary lesions: hyperpigmentation, and scarring Management • A simple step-up management scheme often used in the treatment of acne is as follows: Single topical therapy (topical retinoids, benzyl peroxide) Topical combination therapy (topical antibiotic, benzoyl peroxide, topical retinoid) Oral antibiotics: e.g. Oxytetracycline, doxycycline.  Improvement may not be seen for 3-4 months.  Minocycline is now considered less appropriate due to the possibility of irreversible pigmentation.  Gram negative folliculitis may occur as a complication of long-term antibiotic use . high-dose oral trimethoprim is effective if this occurs Oral erythromycin may be used for acne in pregnancy. The other drugs are contraindicated • Oral isotretinoin: only under specialist supervision • Ethinylestradiol with cyproterone acetate (Dianette) is useful in some female patients with acne unresponsive to standard treatment. • There is no role for dietary modification in patients with acne Weight loss is the most important intervention. Isotretinoin Overview • Isotretinoin is an oral retinoid used in the treatment of severe acne. Two-thirds of patients have a long-term remission or cure following a course of oral isotretinoin Indication • Moderate to severe acne Contraindications • Pregnancy, women of childbearing age without contraception: strong teratogenic effects • Liver disease • Precautions (in all females of childbearing potential) • A serum/urine pregnancy test Side effects • Teratogenicity females should ideally be using two forms of contraception (e.g. Combined oral contraceptive pill and condoms) should be discontinued at the latest one month before • Dry skin, eyes and lips: the most common side-effect of isotretinoin • Low mood • Raised triglycerides • Hair thinning Retinoid (isotretinoin) therapy should be discontinued at the latest one month before Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology • Nose bleeds (caused by dryness of the nasal mucosa) • Benign intracranial hypertension: isotretinoin treatment should not be combined with tetracyclines for this reason • Photosensitivity • Laboratory test abnormalities: ↑ Triglycerides, ↓ HDL, ↑ glucose Alopecia Divided into scarring (destruction of hair follicle) and non-scarring (preservation of hair follicle) Scarring alopecia • trauma, burns • radiotherapy • lichen planus • discoid lupus • tinea capitis (scarring may develop in untreated tinea capitis if a kerion develops) Non-scarring alopecia • male-pattern baldness • drugs: cytotoxic drugs, carbimazole, heparin, oral contraceptive pill, colchicine • nutritional: iron and zinc deficiency • autoimmune: alopecia areata • telogen effluvium (hair loss following stressful period e.g. surgery) • trichotillomania  psychological disorder where patients are compelled to pull their own hair, resulting in alopecia. It is typically encountered in teenage females and children Cicatricial alopecia (also known as scarring alopecia) • inflammation injures hair follicles resulting in permanent bald patches with no visible follicles. inflammation can be seen as redness, scaling and crusting. • Common causes include: discoid lupus erythematosus, and lichen planopilaris (a variant of lichen planus). • Treatment is dependent on the underlying causes but often requires topical corticosteroids. Alopecia areata • Alopecia areata is a presumed autoimmune condition causing localised, well demarcated patches of hair loss. Feature • localised patches of non-scarring hair loss. • Remaining hairs have a characteristic 'exclamation mark' appearance, and are tapered towards the base. small, broken hairs at the edge of the hair loss • More severe involvement may present as alopecia totalis (total loss of scalp hair) or alopecia universalis (total loss of all body hair). Treatment • Hair will regrow in 50% of patients by 1 year, and in 80-90% eventually. Careful explanation is therefore sufficient in many patients. • Other treatment options include: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad topical or intralesional corticosteroids  the most appropriate treatment for area of hair loss Intra-lesional triamcinolone topical minoxidil phototherapy dithranol contact immunotherapy wigs Differential diagnosis • Androgenetic alopecia presents after puberty as a more diffuse slow hair loss with characteristic loss over the temporal regions and vertex in males. • Discoid lupus erythematosus (DLE) presents as scarring alopecia. Areas of alopecia are usually atrophic with visible loss of hair follicles. Patients may have DLE lesions elsewhere. If not treated early, hair loss is usually irreversible. • Telogen effluvium presents with diffuse hair loss and usually presents one to three months after a stressful episode, for example, viral illness, surgery, childbirth, emotional stress. Hair loss is never complete and usually stops after three to five months. Subsequent hair regrowth is usually complete. • Trichotillomania more commonly seen in children compared to adults. Patients also present with localised hair loss but in a bizarre pattern. Hairs of differing lengths are usually seen within and at the edges of the patches. Patients may or may not volunteer a history of hair pulling. Pemphigus vulgaris Overview • Pemphigus vulgaris is an autoimmune disease caused by antibodies (IgG) directed against desmoglein 3, a cadherin-type epithelial cell adhesion molecule. • The binding of autoantibodies results in a loss of cell-to-cell adhesion, a process termed acantholysis. • It is more common in the Ashkenazi Jewish population • seen predominantly in patients ages 50-60, but can affect many ages. Features • mucosal ulceration is common and often the presenting symptom. Oral involvement is seen in 50-70% of patients • skin blistering - flaccid, easily ruptured vesicles and bullae.  Blisters are thin-walled and rupture easily (intact blisters are rarely seen). • Lesions are typically painful but not itchy. These may develop months after the initial mucosal symptoms. • Nikolsky's describes the spread of bullae following application of horizontal, tangential pressure to the skin Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology • Immunofluorescent staining of a biopsy sample shows deposition of immunoglobulin (IgG) directed against to keratinocyte desmosomes and to desmosome-free areas of the keratinocyte cell membrane, resulting in a 'chicken wire' appearance. • acantholysis on biopsy Mucosal ulceration is common with pemphigus Management • steroids • immunosuppressants Bullous pemphigoid Overview • Bullous pemphigoid is an autoimmune condition causing sub-epidermal blistering of the skin. • This is secondary to the development of antibodies against hemidesmosomal proteins BP180 and BP230 caused by (IgG) autoantibodies against components of the basement membrane. Epidemiology • Pemphigoid, erythema multiforme, and herpes are the commonest causes of a blistering rash. • Bullous pemphigoid is more common in elderly patients (over 60 years).  Remember, this is a disease of the elderly (uncommon under the age of 60). Features • Include • itchy, tense blisters typically around flexures • the blisters usually heal without scarring • mouth is usually spared* *in reality around 10-50% of patients have a degree of mucosal involvement. It would however be unusual for an exam question to mention mucosal involvement as it is seen as a classic differentiating feature between pemphigoid and pemphigus. Investigations • Skin biopsy: Perilesional skin biopsy for examination by direct immunofluorescence immunofluorescence shows IgG and C3 at the dermo-epidermal junction Differential diagnosis • Blistering in pemphigoid occurs at the sub-epidermal level - deeper than the blisters of pemphigus vulgaris (which occur at the dermal-epidermal junction); hence the tense blisters seen in pemphigoid. Blisters are thin-walled and fragile in pemphigus - few intact blisters are ever seen. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad In pemphigus vulgaris, mucous membrane involvement is more common, and intact bullae are rare. Skin biopsy for routine and direct immunofluorescence is needed to differentiate from bullous pemphigoid. Management • referral to dermatologist for biopsy and confirmation of diagnosis • oral corticosteroids are the mainstay of treatment • topical corticosteroids, immunosuppressants and antibiotics are also used Topical corticosteroids may be attempted in patients with mild, localised bullous pemphigoid. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Dermatitis herpetiformis (DH) Overview • autoimmune blistering skin disorder associated with coeliac disease and gluten sensitivity. • caused by deposition of IgA in the dermis. • associated with HLA-DR3. • Virtually all patients with DH carry the HLA DQ2 or HLA DQ8 haplotype. Features • itchy, vesicular skin lesions on the extensor surfaces (e.g. elbows, knees, buttocks) Association • increased risk for the development of other autoimmune diseases. Thyroid disease is the most common autoimmune disorder associated with DH. • increased risk for lymphoma. Diagnosis • skin biopsy: direct immunofluorescence (The gold standard test for diagnosis) shows: Subepidermal deposition of IgA  in a granular pattern in the upper dermis ( in the dermal papillae)(Granular IgA deposits at the basement membrane zone) neutrophilic dermal infiltrates in the superficial dermis  Neutrophils are the immune cell that is involved in the blistering skin lesion DH. • Serology blood test showing the presence of IgA antibodies against tissue transglutaminase. Management • gluten-free diet • dapsone Dermatitis herpetiformis Dermatitis herpetiformis is associated with HLA-DR3 Dermatitis herpetiformis - caused by IgA deposition in the dermis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Discoid lupus erythematous Pathology • it is a chronic type of Cutaneous lupus erythematosus (CLE) • characterised by follicular keratin plugs • characterised by a well-demarcated macular rash with erythema, scales, and plaques that often results in scarring and atrophy. Aetiology • thought to be autoimmune in aetiology Association • may occur in the absence or in association with systemic SLE. Approximately 10% of patients may have signs of SLE. Epidemiology • generally seen in younger females. • occurs 2-3 times more frequently in women than in men • more common in African–Caribbean female. Features • erythematous, raised rash, sometimes scaly • may be photosensitive • more common on face, neck, ears and scalp • lesions heal with atrophy, scarring (may cause scarring alopecia), and pigmentation Diagnosis • made by biopsy of the lesion. Management • 1st line: topical potent steroid cream • 2nd line: oral antimalarials e.g. hydroxychloroquine other options  Topical calcineurin inhibitors  Intralesional corticosteroids  Oral corticosteroids. • Avoid sun exposure Prognosis • The risk of progression to SLE in patients with DLE was demonstrated to be higher than previously reported (16.7% progression within 3 years of diagnosis, as compared with previous data indicating that <5-10% of patients with DLE progress to SLE). • children with DLE seem to have a higher early rate of progression to SLE (up to 25%) indicating that the age at onset might influence disease severity According to a recent epidemiologic study, approximately 16% of patients with discoid lupus erythematosus (DLE) may develop systemic involvement within 3 years of diagnosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Discoid lupus erythematous affecting the scalp Discoid lupus erythematous affecting the face Contact dermatitis Types • There are two main types of contact dermatitis Irritant contact dermatitis:  common  non-allergic reaction due to weak acids or alkalis (e.g. detergents).  Often seen on the hands.  Erythema is typical, crusting and vesicles are rare Allergic contact dermatitis:  type IV hypersensitivity reaction.  Uncommon  often seen on the head following hair dyes.  Presents as an acute weeping eczema, which predominately affects the margins of the hairline rather than the hairy scalp itself.  Topical treatment with a potent steroid is indicated The main difference between allergic contact dermatitis and irritant contact dermatitis: The rash caused by allergic contact dermatitis confined to contacted area, whereas in irritant contact dermatitis, the rash is more widespread. In allergic contact dermatitis the rash usually appears after a day or two after exposure to the allergen, unlike irritant contact dermatitis that appears immediately after the contact with the trigger. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pruritus Causes The table below lists the main characteristics of the most important causes of pruritus Liver disease History of alcohol excess Stigmata of chronic liver disease: spider naevi, bruising, palmar erythema, gynaecomastia etc Evidence of decompensation: ascites, jaundice, encephalopathy Iron deficiency anaemia Pallor Other signs: koilonychia, atrophic glossitis, post-cricoid webs, angular stomatitis Polycythaemia Pruritus particularly after warm bath 'Ruddy complexion' Gout Peptic ulcer disease Chronic kidney disease Lethargy & pallor Oedema & weight gain Hypertension Lymphoma Night sweats Lymphadenopathy Splenomegaly, hepatomegaly Fatigue Other causes • hyper- and hypothyroidism • diabetes • pregnancy • 'senile' pruritus • skin disorders: eczema, scabies, psoriasis, pityriasis rosea • Idiopathic urticaria: Up to 50% of cases are idiopathic Eczema herpeticum • Eczema herpeticum describes a severe primary infection of the skin by herpes simplex virus 1 or 2. Features • It is more commonly seen in children with atopic eczema. • Typically, the child has a high fever for seven days, and recurrent attacks can occur. • It may affect any site but is most often seen on face and neck. Treatment • Eczema herpeticum is considered as one of the few dermatological emergencies. • As it is potentially life threatening children should be admitted for IV acyclovir Complications • Death can result from physiological disturbances (loss of fluid electrolytes and protein through the skin) or dissemination of the virus to brain and other organs or from secondary bacterial sepsis. • may be further complicated by secondary staphylococcal infection. This is treated by adding oral antibiotics, for example, flucloxacillin 500 mg q.i.d. Chapter 10 Dermatology Eczema: topical steroids Use weakest steroid cream which controls patients symptoms The table below shows topical steroids by potency Mild Moderate Potent Very potent Hydrocortisone 0.5-2.5% Betamethasone valerate 0.025% (Betnovate RD) Clobetasone butyrate 0.05% (Eumovate) Finger tip rule • 1 finger tip unit (FTU) = 0.5 g, sufficient to treat a skin area about twice that of the flat of an adult hand Topical steroid doses for eczema in adults Area of skin Fingertip units per dose Hand and fingers (front and back) 1.0 A foot (all over) 2.0 Front of chest and abdomen 7.0 Back and buttocks 7.0 Face and neck 2.5 An entire arm and hand 4.0 An entire leg and foot 8.0 The BNF makes recommendation on the quantity of topical steroids that should be prescribed for an adult for a single daily application for 2 weeks: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Clobetasol propionate 0.05% (Dermovate) Fluticasone propionate 0.05% (Cutivate) Betamethasone valerate 0.1% (Betnovate) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Area Amount Face and neck 15 to 30 g Both hands 15 to 30 g Scalp 15 to 30 g Both arms 30 to 60 g Both legs 100 g Trunk 100 g Groin and genitalia 15 to 30 g Pompholyx Pompholyx is a type of eczema which affects both the hands (cheiropompholyx) and the feet (pedopompholyx). It is also known as dyshidrotic eczema Features • small blisters on the palms and soles • pruritic, sometimes burning sensation • once blisters burst skin may become dry and crack Management • cool compresses • emollients • topical steroids Erythema ab igne • Erythema ab igne is a skin disorder caused by over exposure to infrared radiation. • It classically presents on the front of the legs due to the patient sitting too close to a fire or heater. It may also arise as a response to chronic hot water bottle use. • Characteristic features include reticulated, erythematous patches with hyperpigmentation and telangiectasia. • A typical history would be an elderly women who always sits next to an open fire. • Hypothyroidism can make patients feel cold and hence more likely to sit next a heater / fire. • If the cause is not treated then patients may go on to develop squamous cell skin cancer. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Erythema ab igne Erythema ab igne Erythema multiforme Pathophysiology • Type IV hypersensitivity reaction; triggered by the following Infections: herpes simplex virus (HSV - the most common cause), Mycoplasma pneumoniae. Drugs: phenytoin; beta-lactam antibiotics (e.g., penicillins); sulfonamides Classification • Erythema multiforme minor (typical targets or raised oedematous papules, with acral distribution, without involvement of mucosal sites, and involving <10% total body surface area) • Erythema multiforme major (typical targets or raised oedematous papules, with acral distribution, plus involvement of 1 or more mucosal sites, and involving <10% total body surface area) Features • Erythematous , maculopapular rash (many forms), hence the ‘multiforme’ in the name. • Target lesions (also called iris lesion): an inner dark red/brown zone, surrounded by a pale zone, and an outer erythematous ring. • Distribution: Symmetrical and affects backs of hands and feet first → spreads proximally and can affect the entire body. Treatment • Supportive: treat the underlying infection or stop the offending drug . Prognosis • usually mild and self-limiting disease with the lesions healing within 2 to 3 weeks without scarring. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Erythema multiforme Erythema multiforme Differential diagnosis • Stevens-Johnson syndrome (SJS) and toxic epidermal necrolysis (TEN) are the same entity but differ in terms of disease severity (based on surface area of skin involved). < 10% – SJS 10–30% – SJS/TEN overlap 30% – Toxic epidermal necrolysis (severe SJS) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Erythema multiforme VS Stevens-Johnson syndrome Erythema multiforme (EM) Stevens-Johnson syndrome (SJS) Causes usually triggered by infections, most commonly herpes simplex virus (HSV). Medications are uncommon cause (<10%) Most commonly triggered by drugs (∼80% ). Lesions distribution Lesions begin on the extremities Lesions typically begin on the face and trunk. Target lesions Typical target lesions No typical target lesions. Mucosal membranes Mucosal membranes may be involved, but usually not Mucosal membranes almost always involved Swelling No associated swelling of face, hands or feet Associated swelling of face, hands or feet Systemic symptoms Systemic symptoms such as fever and malaise, are absent or mild Systemic symptoms such as fever and malaise, are prominent Histology high density of cell infiltrate rich in Tlymphocytes. (more dermal inflammation and individual keratinocyte necrosis) poor infiltrate of macrophages and dendrocytes with tumor necrosis factor (TNF) (minimal inflammation and sheets of epidermal necrosis.) Severity Usually mild Shock may develop Treatment Treat underline cause need urgent supportive care , fluid resuscitation similar to that of burns and Wound management Prognosis Self-limiting High mortality rate (SJS: ∼25%, TEN: ∼50%) Erythema multiforme (EM): • a type IV hypersensitivity reaction of the skin. • can be triggered by certain infections (e.g., HSV, Mycoplasma pneumonia) and medications (e.g., beta-lactam antibiotics, sulfonamides, phenytoin). Erythema multiforme (EM): • EM is characterized by lesions of varying morphology (e.g., macules, papules, vesicles) that typically progress to target lesions and spread proximally from the backs of the hands and feet. Herpes simplex virus (HSV) infection is the commonest cause of Erythema multiforme Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Stevens-Johnson syndrome (SJS) and toxic epidermal necrolysis (TEN) Definition • Stevens-Johnson syndrome (SJS) and toxic epidermal necrolysis (TEN) are severe mucocutaneous reactions, most commonly triggered by medications, characterized by extensive necrosis and detachment of the epidermis • SJS and TEN are the same entity but differ in terms of disease severity (based on surface area of skin involved). < 10% – SJS 10–30% – SJS/TEN overlap ≥ 30% – Toxic epidermal necrolysis (severe SJS) Pathophysiology • Delayed hypersensitivity reaction (type IV) Causes • Most commonly triggered by medications, ∼80% of cases Antibiotics: sulfonamides (e.g., TMP/SMX), aminopenicillins Antiepileptics: phenytoin, phenobarbital, lamotrigine, valproic acid, carbamazepine, Sulfasalazine Nonsteroidal anti-inflammatory drugs (NSAIDs) Features • Begins with a prodrome of fever and influenza-like symptoms one to three days before the development of mucocutaneous and skin lesions. • Extensive, full-thickness epidermal necrosis and sloughing (resembling large superficial burns) • Mucosal membranes: almost always involved ∼90% of cases • Systemically unwell e.g. pyrexia, tachycardic, shock may develop • Positive Nikolsky's sign (the epidermis separates with mild lateral pressure) • Skin biopsy Keratinocyte necrosis with apparent subepidermal split Eosinophilic infiltration with minimal infiltration of lymphocytes and histiocytes around blood vessels Treatment • Stop precipitating factor is most likely to improve prognosis • Supportive care, often in intensive care unit • Wound management: similar to that of burns Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Stevens-Johnson syndrome (SJS) Erythema nodosum Always do a chest x-ray on a patient with erythema nodosum, to exclude sarcoidosis Overview • inflammation of subcutaneous fat • Histology of these lesions shows a vasculitis of small venules and panniculitis. • typically causes tender, erythematous, nodular lesions • usually occurs over shins, may also occur elsewhere (e.g. forearms, thighs) • usually resolves within 6 weeks • lesions heal without scarring Causes • infection: streptococci, TB, brucellosis The commonest cause is streptococcal infection. • systemic disease: sarcoidosis, inflammatory bowel disease (ulcerative colitis), Behcet's , SLE • malignancy/lymphoma • Drugs (oral contraceptive, sulfonamides, penicillins, antipyretics, montelukast, Hep B vaccination, omeprazole). • pregnancy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Erythema induratum (EI) • EI is a form of panniculitis characterised by chronic, recurrent, tender, subcutaneous, and sometimes ulcerated nodules on the lower legs that may also appear elsewhere. (Erythema nodosum also commonly associated with TB but do not ulcerate) • Females are more frequently affected, with a female: male ratio of 7:1 and it is more frequent in younger females. • It is found in association with tuberculosis. Erythrasma • Erythrasma is a generally asymptomatic, flat, slightly scaly, pink or brown rash usually found in the groin or axillae. • It is caused by an overgrowth of the diphtheroid Corynebacterium minutissimum • Examination with Wood's light reveals a coral-red fluorescence. • Topical miconazole or antibacterial are usually effective. Oral erythromycin may be used for more extensive infection Erythroderma • Erythroderma is a term used when more than 95% of the skin is involved in a rash of any kind • Mechanism The mechanism behind erythroderma is most likely from cutaneous thermal dysregulation.  Increased blood flow to the skin leads to heat and fluid loss, and increased rate of skin cell turnover and skin sloughing. • Causes of erythroderma Eczema (40%) Psoriasis (25%) drugs e.g. gold lymphoma, leukaemia pityriasis rubra pilaris idiopathic • often accompanied with fever, shivering and malaise. • Erythrodermic psoriasis may result from progression of chronic disease to an exfoliative phase with plaques covering most of the body. Associated with mild systemic upset more serious form is an acute deterioration. This may be triggered by a variety of factors such as withdrawal of systemic steroids. Patients need to be admitted to hospital for management 061 - Chapter 10 061 Chapter 10 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology This image shows the generalised erythematous rash seen in patients with erythroderma, sometimes referred to as 'red man syndrome' Note the extensive exfoliation seen in this patient Fungal nail infections Onychomycosis is fungal infection of the nails. This may be caused by • dermatophytes - mainly Trichophyton rubrum, accounts for 90% of cases • yeasts - such as Candida • non-dermatophyte moulds Features • 'unsightly' nails are a common reason for presentation • thickened, rough, opaque nails are the most common finding Investigation • nail clippings • scrapings of the affected nail • Wood’s lamp useful, rapid and easy way to confirm the diagnosis Yellow to yellow-green fluorescence is characteristic of fine scales taken from active fungal lesions the sensitivity of this procedure is reduced when patients have taken a recent shower Management • treatment is successful in around 50-80% of people • diagnosis should be confirmed by microbiology before starting treatment • dermatophyte infection: first-line: oral terbinafine alternative: oral itraconazole. Treatment duration:  for fingernail infections 6 weeks - 3 months  for toenails 3 - 6 months • Candida infection: mild disease should be treated with topical antifungals (e.g. Amorolfine) whilst more severe infections should be treated with oral itraconazole for a period of 12 weeks Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Beau's lines • Beau's lines is a benign nail condition that presents as a jagged transverse groove on the nail plate corresponding to an episode of nail growth arrest, which can occur during an episode of severe medical illness. It usually affects several nails. Beau's lines Nail conditions • Fungal nail infections present with thickening and discolouration of the nail plate with prominent subungual debris. It usually only affects one or several nails. • Nail psoriasis presents with pitting, onycholysis, subungual debris and yellowish nail discolouration. Granuloma annulare Basics • Granuloma annulare is a benign inflammatory condition of unknown aetiology • characterised by dermal papules which can coalesce to form annular plaques. • papular lesions that are often slightly hyperpigmented and depressed centrally • typically occur on the dorsal surfaces of the hands and feet, and on the extensor aspects of the arms and legs • Histology reveals foci of degenerative collagen surrounded by areas of granulomatous inflammation. • A number of associations have been proposed to conditions such as diabetes mellitus but there is only weak evidence for this • Treatment Observation (The eruption should disappear spontaneously.) • Locally delivered steroids are effective in resolving the condition. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Granuloma annulare Herpes simplex virus Overview • There are two strains of the herpes simplex virus (HSV) in humans: HSV-1 and HSV-2. Whilst it was previously thought HSV-1 accounted for oral lesions (cold sores) and HSV-2 for genital herpes it is now known there is considerable overlap Features • primary infection: may present with a severe gingivostomatitis • cold sores • painful genital ulceration Management • gingivostomatitis: oral aciclovir, chlorhexidine mouthwash • cold sores: topical aciclovir although the evidence base for this is modest • genital herpes: oral aciclovir. Some patients with frequent exacerbations may benefit from longer term aciclovir Pregnancy • elective caesarean section at term is advised if a primary attack of herpes occurs during pregnancy at greater than 28 weeks gestation Molluscum contagiosum Definition: A common skin infection caused by molluscum contagiosum virus (MCV), DNA poxvirus Transmission: Direct skin contact (contact sports, sexually transmitted), autoinoculation or indirectly via fomites (contaminated surfaces) such as shared towels and flannels. Risk factors: • Most common in children (often in children with atopic eczema) • Immunosuppression → HIV testing if lesions in adults and/or widespread Presentation • dome-shaped, smooth, pinkish or pearly white papules with a central umbilication, which are up to 5 mm in diameter. commonly seen on the trunk and in flexures. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Usually self-limiting condition →Watchful waiting (especially in children) • Self-care advice: avoid direct contact and sharing towels . Exclusion from school, gym, or swimming is not necessary. • For cosmetic or lesions in the genital area: Cryotherapy is the first-line treatment Topical cantharidin Molluscum contagiosum Impetigo Impetigo is a superficial bacterial skin infection usually caused by either Staphylcoccus aureus or Streptococcus pyogenes. Features • 'golden', crusted skin lesions typically found around the mouth • very contagious Management • Limited, localised disease topical fusidic acid is first-line topical retapamulin is used second-line if fusidic acid has been ineffective or is not tolerated MRSA is not susceptible to either fusidic acid or retapamulin. Topical mupirocin (Bactroban) should therefore be used in this situation • Extensive disease oral flucloxacillin oral erythromycin if penicillin allergic Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Erysipelas • Erysipelas is a Streptococcus pyogenes (a group A streptococcal bacterium) infection of the deep dermis and subcutis. Feature • It is a tender, intensely erythematous, indurated plaque with a sharply demarcated border. • Its well-defined margin can help differentiate it from other skin infections (eg, cellulitis). Treatment • IV antibiotics such as benzylpenicillin and erythromycin. • In a penicillin allergic patient a macrolide is the drug of choice .There is a 10% cross allergy between cephalosporins and penicillins. Complications • sepsis • cerebral abscess • venous sinus thrombosis. Well-demarcated, erythematous plaque of erysipelas. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Koebner phenomenon Describes skin lesions which appear at the site of injury. It is seen in: • psoriasis • vitiligo • warts • lichen planus • lichen sclerosus • molluscum contagiosum Lichen planus Lichen planus is a skin disorder of unknown aetiology, most probably being immune mediated. Features • itchy, papular rash most common on the palms, soles, genitalia and flexor surfaces of arms • rash often polygonal in shape, 'white-lace' pattern on the surface (Wickham's striae) • Koebner phenomenon may be seen (new skin lesions appearing at the site of trauma) • oral involvement in around 50% of patients • nails: thinning of nail plate, longitudinal ridging • Fibrin deposits at the basement membrane zone are found in cases of lichen planus , although immunofluorescence studies are uncommonly done to diagnose it. Lichen planus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Lichenoid drug eruptions - causes: • gold • quinine • thiazides Management • topical steroids are the mainstay of treatment • extensive lichen planus may require oral steroids or immunosuppression Lichen sclerosus • Lichen sclerosus was previously termed lichen sclerosus et atrophicus. • It is an inflammatory condition which usually affects the genitalia and is more common in elderly females. • Lichen sclerosus leads to atrophy of the epidermis with white plaques forming Features • itch is prominent Diagnosis • usually made on clinical grounds but a biopsy may be performed if atypical features are present* Management • topical steroids and emollients Follow-up • increased risk of vulval cancer *the RCOG advise the following • Skin biopsy is not necessary when a diagnosis can be made on clinical examination. Biopsy is required if the woman fails to respond to treatment or there is clinical suspicion of VIN or cancer. and the British Association of Dermatologists state the following: • A confirmatory biopsy, although ideal, is not always practical, particularly in children. It is not always essential when the clinical features are typical. However, histological examination is advisable if there are atypical features or diagnostic uncertainty and is mandatory if there is any suspicion of neoplastic change. • Patients under routine follow-up will need a biopsy if: (i) there is a suspicion of neoplastic change, i.e. a persistent area of hyperkeratosis, erosion or erythema, or new warty or papular lesions; (ii) the disease fails to respond to adequate treatment; (iii) there is extragenital LS, with features suggesting an overlap with morphoea; (iv) there are pigmented areas, in order to exclude an abnormal melanocytic proliferation; (v) second-line therapy is to be used. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Lichen simplex chronicus (LSC) • LSC presents with hyperpigmented, scaly, lichenified plaques. • Patients may volunteer a history of chronic scratching or manipulation, especially during times of stress. • The ankles are common sites for LSC. Lichen amyloidosis • Lichen amyloidosis is a primary, localised cutaneous amyloidosis (amyloid deposition in the skin). • It results in intensely itchy shiny or hyperkeratotic, pigmented macules and occurs most commonly in South East Asia. • It appears that itching drives further amyloid deposition, and treatments are therefore directed at reducing the sensation of itching - for example, with the use of antihistamines and intra-lesional/topical corticosteroids. Lichen amyloidosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Onycholysis Onycholysis describes the separation of the nail plate from the nail bed Causes • idiopathic • trauma e.g. Excessive manicuring • infection: especially fungal • skin disease: psoriasis, eczema, dermatitis • impaired peripheral circulation e.g. Raynaud's • systemic disease: hyper- and hypothyroidism • Tetracycline Parvovirus B19 Parvovirus B19 is a DNA virus which causes a variety of clinical presentations. It was identified in the 1980's as the cause of erythema infectiosum Erythema infectiosum (also known as fifth disease or 'slapped-cheek syndrome') • most common presenting illness • systemic symptoms: lethargy, fever, headache • 'slapped-cheek' rash spreading to proximal arms and extensor surfaces Other presentations • asymptomatic • pancytopaenia in immunosuppressed patients • aplastic crises e.g. in sickle-cell disease (parvovirus B19 suppresses erythropoiesis for about a week so aplastic anaemia is rare unless there is a chronic haemolytic anaemia) Pityriasis rosea • describes an acute, self-limiting rash which tends to affect young adults. occurs most commonly in people between the ages of 10 and 35 years. • The aetiology is not fully understood but is thought that herpes hominis virus 7 (HHV-7) may play a role. does not appear to be contagious; • aetiology is unknown Features • herald patch (usually on trunk) • followed by erythematous, oval, scaly patches which follow a characteristic distribution with the longitudinal diameters of the oval lesions running parallel to the line of Langer. This may produce a 'fir-tree' appearance • can be pruritic or asymptomatic Management • self-limiting, usually disappears after 4-12 weeks • moisturisers can help the pruritus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad On the left a typical herald patch is seen. After a few days a more generalised 'fir-tree' rash appears Pityriasis versicolor also called tinea versicolor, is a superficial cutaneous fungal infection caused by Malassezia furfur (formerly termed Pityrosporum ovale) Features • most commonly affects trunk • patches may be hypopigmented, pink or brown (hence versicolor) • scale is common • mild pruritus Predisposing factors • occurs in healthy individuals • immunosuppression • malnutrition • Cushing's Management • topical antifungal. NICE Clinical Knowledge Summaries advise ketoconazole shampoo as this is more cost effective for large areas • Topical selenium sulphide • if extensive disease or failure to respond to topical treatment then consider oral itraconazole 200 mg once a day for seven days. Psoriasis Definition • Psoriasis is a chronic relapsing inflammatory skin disorder most commonly characterised by erythematous, sharply demarcated papules and rounded plaques covered by silvery scales. Epidemiology • prevalence around 2%. • there are two peaks of incidence at 16-22 years and 57-60 years. • Males and females are equally affected. Pathophysiology • multifactorial and not yet fully understood genetic:  polygenic inheritance Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology  associated HLA-B13, -B17, and -Cw6.  European populations are commonly affected,  Strong concordance (70%) in identical twins immunological:  abnormal T cell activity stimulates keratinocyte proliferation. may be mediated by T helper cells producing IL-17. IL-17 is a pro-inflammatory cytokine which is expressed at high levels in psoriasis lesions. Ixekizumab is an anti-IL-17 antibody which binds to IL-17, it is effective in treating active psoriasis and in reducing the risk of recurrence. environmental:  psoriasis may be worsened (e.g. Skin trauma, stress), triggered (e.g. Streptococcal infection) or improved (e.g. Sunlight) by environmental factors • increase in mitotic activity of the cells in the malpighian layer of the epidermis The Malpighian layer of the skin is generally defined as both the stratum basalis and stratum spinosum as a unit. Recognised subtypes of psoriasis • plaque psoriasis: the most common sub-type resulting in the typical well demarcated red, scaly patches affecting the extensor surfaces, sacrum and scalp • flexural psoriasis: in contrast to plaque psoriasis the skin is smooth • guttate psoriasis: transient psoriatic rash frequently triggered by a streptococcal infection. Multiple red, teardrop lesions appear on the body • pustular psoriasis: commonly occurs on the palms and soles Features • Salmon colored skin plaques with silvery scales • Psoriasis may occur in hidden sites, such as the scalp (where psoriasis frequently is mistaken for dandruff), perineum, intergluteal cleft, and umbilicus The scalp is often involved in psoriasis. Most commonly, it causes a telogen effluvium, that is, the hair follicles are forced into the telogen resting stage. Other features • nail signs: pitting, onycholysis • arthritis • New lesions often appear at sites of injury or trauma (Koebner phenomenon), which typically occurs one to two weeks after the skin has been damaged. • Auspitz sign: small bleeding spots when psoriasis scales are scraped off. • Psoriasis can be associated with an anterior uveitis Complications • psoriatic arthropathy (around 10%) This can range from mild distal interphalangeal joint involvement with nail pitting to severe arthritis mutilans. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • increased incidence of metabolic syndrome • increased incidence of cardiovascular disease • increased incidence of venous thromboembolism • psychological distress Diagnosis • usually clinical • skin biopsy is rarely required to confirm psoriasis. Hyperkeratosis (described as an increased thickness of the stratum corneum), Parakeratosis, defined as hyperkeratosis with retention of nuclei in the stratum corneum, Munro's microabscess ( or neutrophils) in the stratum corneum of the epidermis are a cardinal sign Exacerbating factors • trauma • alcohol • drugs: beta blockers, lithium, antimalarials (chloroquine and hydroxychloroquine), gold salts, NSAIDs, ACE inhibitors, infliximab antibiotics such as tetracycline and penicillin • withdrawal of systemic steroids • Notes Reactions may occur from less than one month to one year after the medication is initiated. the effect of antimalarials on trans-glutaminase activity leads to stimulation of epidermal proliferation beta blockers is more common than ACEi Management Topical potent corticosteroid + vitamin D analogue is first-line for chronic plaque psoriasis Management of chronic plaque psoriasis • regular emollients may help to reduce scale loss and reduce pruritus • First-line: potent corticosteroid applied once daily plus vitamin D analogue applied once daily (applied separately, one in the morning and the other in the evening) for up to 4 weeks as initial treatment • Second-line: if no improvement after 8 weeks then offer a vitamin D analogue twice daily • Third-line: if no improvement after 8-12 weeks then offer either: a potent corticosteroid applied twice daily for up to 4 weeks or a coal tar preparation applied once or twice daily Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology • short-acting dithranol can also be used Using topical steroids in psoriasis • as we know topical corticosteroid therapy may lead to skin atrophy, striae and rebound symptoms • systemic side-effects may be seen when potent corticosteroids are used on large areas e.g. 10% of the body surface area • NICE recommend that we aim for a 4 week break before starting another course of topical corticosteroids • they also recommend using potent corticosteroids for no longer than 8 weeks at a time and very potent corticosteroids for no longer than 4 weeks at a time What should I know about vitamin D analogues? • examples of vitamin D analogues include calcipotriol (Dovonex), calcitriol and tacalcitol • they work by reducing cell division and differentiation • adverse effects are uncommon • unlike corticosteroids they may be used long-term • unlike coal tar and dithranol they do not smell or stain • they tend to reduce the scale and thickness of plaques but not the erythema • they should be avoided in pregnancy • the maximum weekly amount for adults is 100g A 'before and after' image showing the effect of 6 weeks of calcipotriol therapy on a large plaque. Note how the scale has improved but the erythema remains Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Steroids in psoriasis • topical steroids are commonly used in flexural psoriasis and there is also a role for mild steroids in facial psoriasis. If steroids are ineffective for these conditions vitamin D analogues or tacrolimus ointment should be used second line • patients should have 4 week breaks between course of topical steroids • very potent steroids should not be used for longer than 4 weeks at a time. Potent steroids can be used for up to 8 weeks at a time • the scalp, face and flexures are particularly prone to steroid atrophy so topical steroids should not be used for more than 1-2 weeks/month Scalp psoriasis Scalp psoriasis - first-line treatment is topical potent corticosteroids • First line potent topical corticosteroids used once daily for 4 weeks if no improvement after 4 weeks go to second line • Second line use different formulation of the potent corticosteroid (for example, a shampoo or mousse) and/or topical agents to remove adherent scale (for example, agents containing salicylic acid, emollients and oils) before application of the potent corticosteroid Face, flexutal and genital psoriasis • mild or moderate potency corticosteroid applied once or twice daily for a maximum of 2 weeks eg: clobetasone butyrate once a day Secondary care management Phototherapy • narrow band ultraviolet B-light is now the treatment of choice. If possible this should be given 3 times a week • photochemotherapy is also used - psoralen + ultraviolet A light (PUVA) • adverse effects: skin ageing, squamous cell cancer (not melanoma) Systemic therapy • Indications topical are not effective and person is impacted physically, psychologically, or socially by the problem and one or more of the following apply:  extensive psoriasis (eg, > 10% of body surface area affected or a PASI score of > 10) or  localised psoriasis and associated with significant functional impairment and/or high levels of distress (for example severe nail disease or involvement at high-impact sites) or  phototherapy has been ineffective, cannot be used or has resulted in rapid relapse (rapid relapse is defined as greater than 50% of baseline disease severity within 3 months). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology • Methotrexate Oral methotrexate is used first-line. It is particularly useful if there is associated joint disease • Ciclosporin Offer ciclosporin as the first choice in patients who need rapid or short-term disease control (for example a  psoriasis flare  palmoplantar pustulosis  or considering conception (both men and women) and systemic therapy cannot be avoided. Consider changing from methotrexate to ciclosporin (or vice-versa) when response to the first-choice systemic treatment is inadequate. • Systemic retinoids (acitretin) if methotrexate and ciclosporin are not appropriate or have failed or for people with pustular forms of psoriasis. • biological agents: infliximab, etanercept and adalimumab In situation with uncontrolled psoriasis and psoriatic arthritis, early instigation of a biological is recommended. TNF alpha is a pro-inflammatory cytokine closely linked to the severity of psoriasis, and etanercept, a TNF alpha antagonist is the most appropriate intervention. Tuberculosis and viral hepatitis should be ruled out prior to starting therapy. Brodalumab is an anti-IL17 monoclonal antibody which has completed registration trials for psoriasis. It's likely to be reserved however for patients who fail to gain control on other interventions. • ustekinumab (IL-12 and IL-23 blocker) is showing promise in early trials it is not an anti- TNF agent (so did not reactivate TB) side effects:  common dental infection  uncommon depression and injection site reaction Mechanism of action of commonly used drugs: • coal tar: probably inhibit DNA synthesis • calcipotriol: vitamin D analogue which reduces epidermal proliferation and restores a normal horny layer • dithranol: inhibits DNA synthesis, wash off after 30 mins, SE: burning, staining Contra-indication: • Oral steroids are contraindicated in psoriasis and although one may see an initial improvement, a very serious rebound effect may be seen. Question: An elderly man with learning difficulties, is admitted to hospital with an acute exacerbation of congestive cardiac failure and severe raised plaques of psoriasis covering his chest, elbows, knees and scalp. he has been treating it with topical creams for years but has seen no improvement. What treatment would you recommend for his psoriasis? Refer for PUVA  The safest treatment - that which produces the best clinical effect with minimal side effects in this patient - would be psoralen and ultraviolet light (PUVA).  Emollients, baths and use of methotrexate require a fair amount of input from the patient in order to be effective and safe, which may not be the best option in this man. MRCPUK-part-1-sep 2017: Which medication is of most concern with respect to worsening of psoriasis? Atenolol Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Psoriasis: guttate • Guttate psoriasis is more common in children and adolescents. • It may be precipitated by a streptococcal infection 2-4 weeks prior to the lesions appearing Features • tear drop 'drop-like' papules on the trunk and limbs Management • if lesions are not widespread (<10% body surface area) and the person is not impacted physically, psychologically, or socially by the problem: No treatment required  most cases resolve spontaneously within 2-3 months • If the lesions are not widespread (<10% body surface area) and treatment is desired: topical agents as per psoriasis. • If lesions are widespread (>10% body surface area): refer urgently to a dermatologist as phototherapy (UVB phototherapy) can be considered. • with recurrent episodes referral to ENT should be considered tonsillectomy may be necessary • Although guttate psoriasis can be triggered by an acute sore throat, it is not recommended to treat guttate psoriasis with anti-streptococcal antibiotics. Chapter 10 Dermatology Differentiating guttate psoriasis and pityriasis rosea Guttate psoriasis Pityriasis rosea Prodrome Classically preceded by a streptococcal sore throat 2-4 weeks Appearance 'Tear drop', scaly papules on the trunk and limbs Treatment / natural history Most cases resolve spontaneously within 2-3 months Topical agents as per psoriasis UVB phototherapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Many patients report recent respiratory tract infections but this is not common in questions Herald patch followed 1-2 weeks later by multiple erythematous, slightly raised oval lesions with a fine scale confined to the outer aspects of the lesions. May follow a characteristic distribution with the longitudinal diameters of the oval lesions running parallel to the line of Langer. This may produce a 'fir-tree' appearance Self-limiting, resolves after around 6 weeks Guttate psoriasis • A 46-year-old man presents with an extensive pruritic rash shown in picture A. • Two weeks previously he had a sore throat with the appearance shown in picture B. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pyoderma gangrenosum Overview • Pyoderma gangrenosum typically is an expanding ulcer with a polycyclic or serpiginous outline and a characteristic undermined bluish edge. • The pathogenesis is unknown, and is presumed to be immunological. Features • typically on the lower limbs It is most common on the lower limb and in scars or sites of previous trauma. • initially small red papule • later deep, red, necrotic ulcers with a violaceous border • may be accompanied systemic symptoms e.g. Fever, myalgia Causes • idiopathic in 50% • inflammatory bowel disease: ulcerative colitis, Crohn's Estimates of the prevalence in inflammatory bowel disease (IBD) range between 2% and 5%. It tends to be associated with colonic involvement and is perhaps slightly more common in patients with UC. • rheumatoid arthritis, SLE • myeloproliferative disorders • lymphoma, myeloid leukaemias • monoclonal gammopathy (IgA) • primary biliary cirrhosis Management • the potential for rapid progression is high in most patients and most doctors advocate oral steroids as first-line treatment • other immunosuppressive therapy, for example ciclosporin and infliximab, have a role in difficult cases Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Scabies • Scabies is caused by the mite Sarcoptes scabiei and is spread by prolonged skin contact. • It typically affects children and young adults. • The scabies mite burrows into the skin, laying its eggs in the stratum corneum. • The intense pruritus associated with scabies is due to a delayed type IV hypersensitivity reaction to mites/eggs which occurs about 30 days after the initial infection. Features • widespread pruritus Scabies can present with an itchy dermatitic-looking rash on the body, but the clues are at certain sites (soles, genitalia, buttocks) • linear burrows on the side of fingers, interdigital webs and flexor aspects of the wrist Burrows (linear crusted lesions of a few millimetres in length) are pathognomonic  It has a predilection for the web-spaces and around the nipples. • in infants the face and scalp may also be affected • secondary features are seen due to scratching: excoriation, infection Management • permethrin 5% is first-line • malathion 0.5% is second-line • give appropriate guidance on use (see below) • pruritus persists for up to 4-6 weeks post eradication Patient guidance on treatment (from Clinical Knowledge Summaries) • permethrin cream doesn't have any direct effect on the pruritis itself but helps to settle symptoms indirectly by killing the mite, which is the root cause. • You should counsel your patients that it may take longer for the itching to settle as the allergic reaction to the mite abates • the cream should be applied everywhere below the neck, not merely where there is rash present. • avoid close physical contact with others until treatment is complete • all household and close physical contacts should be treated at the same time, even if asymptomatic • launder, iron or tumble dry clothing, bedding, towels, etc., on the first day of treatment to kill off mites. The BNF advises to apply the insecticide to all areas, including the face and scalp, contrary to the manufacturer's recommendation. Patients should be given the following instructions: • apply the insecticide cream or liquid to cool, dry skin • pay close attention to areas between fingers and toes, under nails, armpit area, creases of the skin such as at the wrist and elbow • allow to dry and leave on the skin for 8-12 hours for permethrin, or for 24 hours for malathion, before washing off Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • reapply if insecticide is removed during the treatment period, e.g. If wash hands, change nappy, etc • repeat treatment 7 days later Crusted (Norwegian) scabies • Crusted scabies is seen in patients with suppressed immunity, especially HIV. • The crusted skin will be teeming with hundreds of thousands of organisms. • Ivermectin is the treatment of choice and isolation is essential Seborrhoeic dermatitis • Seborrhoeic dermatitis in adults is a chronic dermatitis thought to be caused by an inflammatory reaction related to a proliferation of a normal skin inhabitant, a fungus called Malassezia furfur (formerly known as Pityrosporum ovale). • It is common, affecting around 2% of the general population Features • eczematous lesions on the sebum-rich areas: scalp (may cause dandruff), periorbital, auricular and nasolabial folds • otitis externa and blepharitis may develop Associated conditions • HIV  in patients with HIV the prevalence of seborrheic dermatitis may be as high as 80%. the most useful next step HIV testing • Parkinson's disease Scalp disease management • Dandruff is an uninflamed form of seborrheic dermatitis and presents as scaly patches scattered within hair-bearing areas of the scalp. • over the counter preparations containing zinc pyrithione ('Head & Shoulders') and tar ('Neutrogena T/Gel') are first-line • the preferred second-line agent is ketoconazole • selenium sulphide and topical corticosteroid may also be useful Face and body management • topical antifungals: e.g. Ketoconazole • topical steroids: best used for short periods • difficult to treat - recurrences are common Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Skin disorder in pregnancy Polymorphic eruption of pregnancy • also known as Pruritic Urticarial Papules and Plaques of Pregnancy (PUPPP) • pruritic condition associated with last trimester • lesions often first appear in abdominal striae • management depends on severity: emollients, mild potency topical steroids and oral steroids may be used Polymorphic eruption of pregnancy Polymorphic eruption of pregnancy Pemphigoid gestationis • Definition bullous disorder that typically develops in the second or third trimester, beginning with urticarial lesions and blisters on the anterior abdominal wall surrounding the umbilicus. • Features pruritic blistering lesions often develop in peri-umbilical region, later spreading to the trunk, back, buttocks and arms usually presents 2nd or 3rd trimester and is rarely seen in the first pregnancy • Diagnosis A perilesional skin biopsy demonstrating linear C3 deposition at the dermoepidermal junction would confirm the diagnosis. • Treatment oral corticosteroids are usually required Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pemphigoid gestationis Pemphigoid gestationis Melasma • Melasma is a benign but relatively common skin condition which can appear in pregnancy. • it may resolve a few months after delivery. Chloasma • Overview Chloasma is a hormonally stimulated increase in melanogenesis that mainly appears on the face. The pigment is augmented by sunlight On testing, levels of melanocyte-stimulating hormone are normal more likely to occur in women with darker skin tones • Causes Pregnancy combined oral contraceptive pill • Treatment The pigmentation may take many months to resolve after parturition or pill discontinuation avoid prolonged sunlight exposure or to use a sunblock Skin disorders associated with tuberculosis Possible skin disorders • lupus vulgaris (accounts for 50% of cases) • erythema nodosum • scarring alopecia • scrofuloderma: breakdown of skin overlying a tuberculous focus • verrucosa cutis • gumma Lupus vulgaris • the most common form of cutaneous TB seen in the Indian subcontinent. • Cutaneous TB usually occurs due to spread from an endogenous source • It generally occurs on the face and is common around the nose and mouth. more than 80% of cases occur on the face and neck. • The initial lesion is an erythematous flat plaque which gradually becomes elevated and may ulcerate later Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology • Diagnosis: On diascopy, it shows characteristic "apple-jelly" color. Biopsy will reveal tuberculoid granuloma with few bacilli. Mantoux test is positive. • Treated with combination of drugs used for tuberculosis, such as Rifampicin, Isoniazid and Pyrazinamide (with either streptomycin or ethambutol) Spider nevi • most common on the face and upper chest. • typically asymptomatic • usually resolve spontaneously. • Causes chronic liver disease  the presence of more than five lesions is likely to be due to chronic liver disease.  may resolve when liver function increases or when a liver transplant is performed.  the cause of the spider nevi patients cannot metabolize circulating estrogen pregnancy  may resolve after childbirth. oral contraceptives,  may resolve after stopping the contraceptives. forehead lesion (spider nevus (nevus araneus)) Tinea • Tinea is a term given to dermatophyte fungal infections. • Three main types of infection are described depending on what part of the body is infected tinea capitis - scalp tinea corporis - trunk, legs or arms tinea pedis - feet Tinea capitis (scalp ringworm) • a cause of scarring alopecia mainly seen in children • if untreated a raised, pustular, spongy/boggy mass called a kerion may form • Causes most common cause is Trichophyton tonsurans in the UK and the USA (>90% of cases) may also be caused by Microsporum canis acquired from cats or dogs • Diagnosis: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad the most useful investigation is scalp scrapings lesions due to Microsporum canis green fluorescence under Wood's lamp ( but do not fluoresce if caused by Trichophyton tonsurans.). lesions due to Trichophyton species do not readily fluoresce under Wood's lamp • Management (based on CKS guidelines): oral antifungals: Terbinafine for Trichophyton tonsurans infections  Although not licensed in young children, a four-week course of the fungicidal drug terbinafine is often preferred. griseofulvin for Microsporum infections.  Griseofulvin is fungistatic, so a prolonged course of 2-4 months is required. Topical ketoconazole shampoo should be given for the first two weeks to reduce transmission Image showing a kerion griseofulvin The enzyme that is most likely induced by griseofulvin requires which of the following cofactors? Vitamin B6  Griseofulvin is a microtubule poison that is used to treat skin and nail dermatophytoses  strong inducer of cytochrome P450 enzymes.  CYP450 enzymes require heme for proper function, and thus inducers of CYP450 increase heme synthesis. Tinea corporis (ringworm) • causes include Trichophyton rubrum and Trichophyton verrucosum (e.g. From contact with cattle) • well-defined annular, erythematous lesions with pustules and papules • may be treated with oral fluconazole Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Image showing tinea corporis Image showing tinea corporis. Note the well defined border Tinea pedis (athlete's foot) • characterised by itchy, peeling skin between the toes • common in adolescence Tinea incognito • What is the cause for tinea incognito? Inappropriate treatment with steroid cream • Tinea incognito is the name given to tinea when the clinical appearance has been altered by inappropriate treatment, usually a topical steroid cream • The result is that the original infection slowly extends Often the patient and/or their doctor believe they have a dermatitis, hence the use of a topical steroid cream • The steroid cream dampens down inflammation so the condition feels less irritable But when the cream is stopped for a few days the itch gets worse, so the steroid cream is promptly used again • The more steroid applied, the more extensive the fungal infection becomes Vitiligo Definition • Vitiligo is an autoimmune condition which results in the loss of melanocytes and consequent depigmentation of the skin. Epidemiology • It is thought to affect around 1% of the population • symptoms typically develop by the age of 20-30 years. Features • well demarcated patches of depigmented skin • the peripheries tend to be most affected • trauma may precipitate new lesions (Koebner phenomenon) Associated conditions • type 1 diabetes mellitus • Addison's disease • autoimmune thyroid disorders • pernicious anaemia • alopecia areata 062 - Pages 1526-1550 062 Pages 1526-1550 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Diagnosis • Diagnosis is made clinically • anti-melanocyte antibodies • can be confirmed using a skin biopsy. Management • sun block for affected areas of skin • camouflage make-up • topical corticosteroids may reverse the changes if applied early • there may also be a role for topical tacrolimus and phototherapy, although caution needs to be exercised with light-skinned patients Vitiligo Angular stomatitis • Angular stomatitis describes erythema and fissuring of the skin adjacent to the angle of the mouth. • The most common cause is Candida infection • also associated with:  allergy, seborrhoeic dermatitis,  vitamin B deficiencies,  iron deficiency. Venous ulceration • Venous ulcers are secondary to venous stasis and chronic stretching of the walls of the superficial veins. These eventually become thinner and ulcerate. • typically seen above the medial malleolus The incidence of venous leg ulceration is higher in: • obese patients • history of varicose veins • history of deep vein thrombosis Ulcers occur owing to: • venous stasis • secondary increase in capillary pressure • fibrosis • poorly nourished skin particularly over areas such as the medial malleolus Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Investigations • ankle-brachial pressure index (ABPI) is important in non-healing ulcers to assess for poor arterial flow which could impair healing a 'normal' ABPI may be regarded as between 0.9 - 1.2. Values below 0.9 indicate arterial disease. Interestingly, values above 1.3 may also indicate arterial disease, in the form of false-negative results secondary to arterial calcification (e.g. In diabetics) Management • compression bandaging, usually four layer (only treatment shown to be of real benefit) • The mainstay of treatment of venous ulceration is compression therapy, which aims to improve venous return and thereby reduce venous hypertension. • The patient should always have their Doppler's and ABPI (ankle brachial pressure index) prior to compression. The ABPI should be greater than 1 before compression bandaging is used (this excludes significant arterial disease. • oral pentoxifylline, a peripheral vasodilator, improves healing rate • small evidence base supporting use of flavinoids • little evidence to suggest benefit from hydrocolloid dressings, topical growth factors, ultrasound therapy and intermittent pneumatic compression Pressure ulcers Overview • Pressure ulcers develop in patients who are unable to move parts of their body due to illness, paralysis or advancing age. • They typically develop over bony prominences such as the sacrum or heel. The following factors predispose to the development of pressure ulcers: malnourishment incontinence lack of mobility pain (leads to a reduction in mobility) • The Waterlow score is widely used to screen for patients who are at risk of developing pressure areas. It includes a number of factors including body mass index, nutritional status, skin type, mobility and continence. Grading of pressure ulcers the following is taken from the European Pressure Ulcer Advisory Panel classification system. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Grade Findings Grade Non-blanchable erythema of intact skin. Discolouration of the skin, warmth, oedema, induration or hardness may also be used as indicators, particularly on individuals with darker skin Grade Partial thickness skin loss involving epidermis or dermis, or both. The ulcer is superficial and presents clinically as an abrasion or blister Grade Full thickness skin loss involving damage to or necrosis of subcutaneous tissue that may extend down to, but not through, underlying fascia. Grade Extensive destruction, tissue necrosis, or damage to muscle, bone or supporting structures with or without full thickness skin loss Management • a moist wound environment encourages ulcer healing. Hydrocolloid dressings and hydrogels may help facilitate this. The use of soap should be discouraged to avoid drying the wound • wound swabs should not be done routinely as the vast majority of pressure ulcers are colonised with bacteria. The decision to use systemic antibiotics should be taken on a clinical basis (e.g. Evidence of surrounding cellulitis) • consider referral to the tissue viability nurse • surgical debridement may be beneficial for selected wounds Keloid scars Keloid scars are tumour-like lesions that arise from the connective tissue of a scar and extend beyond the dimensions of the original wound Predisposing factors • ethnicity: more common in people with dark skin • occur more commonly in young adults, rare in the elderly • common sites (in order of decreasing frequency): sternum, shoulder, neck, face, extensor surface of limbs, trunk • Keloid scars are less likely if incisions are made along relaxed skin tension lines* *Langer lines were historically used to determine the optimal incision line. They were based on procedures done on cadavers but have been shown to produce worse cosmetic results than when following skin tension lines Treatment • early keloids may be treated with intra-lesional steroids e.g. triamcinolone • excision is sometimes required Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Increased skin fragility • Increased skin fragility is seen in a number of disorders and is used as a clinical test in bullous disorders (Nikolsky's sign). • Other causes include: pemphigus vulgaris porphyria cutanea tarda drug reactions (especially pseudoporphyria). • Other causes of increased skin fragility (not associated with bullae) include:  long term corticosteroid therapy, Ehlers-Danlos syndrome curvy (vitamin C deficiency). Basal cell carcinoma (BCC) Overview • Basal-cell carcinomas are the most common malignant skin tumour and are related to excessive sun exposure most commonly occurs in elderly patients with sun-damaged skin. • Lesions are also known as rodent ulcers • characterised by slow-growth and local invasion. Metastases are extremely rare. • BCC is the most common type of cancer in the Western world. • BCC is more commonly seen on the upper lip. Genetics • environmental and genetic factors are believed to predispose patients to BCC • Basal cell carcinoma is associated with mutations in the Hedgehog signaling pathway. • Up to 70% of people with sporadic BCC without Gorlin syndrome have patched PTCH1 gene mutations as a result of UV radiation exposure. Features • many types of BCC are described. The most common type is nodular BCC. • sun-exposed sites, especially the head and neck account for the majority of lesions • initially a pearly, flesh-coloured papule with telangiectasia • may later ulcerate leaving a central 'crater' • characterized histologically by palisading nuclei. Palisading nuclei consist of parallel rows of elongated nuclei. Management • surgical removal Mohs surgery for is useful for minimizing the amount of safety margin excised. • curettage • cryotherapy • topical cream: imiquimod, 5- fluorouracil • radiotherapy BCC VS SCC Basal cell carcinoma Squamous cell carcinoma Most common 2nd most common Present in upper part of face Present in lower part of face (appear most often on the lower lip, ear, and nose.) Does not metastasize and kill by local invasion(rodent ulcer) presents as a “pearly” papule or nodule that grows slowly with shiny appearance with telangiectasias and an umbilicated center or ulcer Squamous cell carcinoma (SCC) Overview • SCC is the second most common non-melanoma skin cancer worldwide (after basal cell cancer). • SCC is the most common oral cancer. • More common in elderly males. • It is possible to get SCC on any part of the body, including the inside of the mouth, lips, and genitals. • Women frequently get SCC on their lower legs. Precursor and variants of SCC: • Actinic keratosis presents as hyperkeratotic grey-white plaques and is a precursor lesion to squamous cell carcinoma of the skin. Precursor lesions for SCCs are called actinic (or sun-damage) keratosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Can metastasize usually hyperkeratotic scaly lesion with crusting and ulceration. often well-defined, superficial, discrete, and hard lesions arising from an indurated, rounded, and elevated base Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology • Keratoacanthoma is a cup-shaped form of squamous cell carcinoma of the skin that develops rapidly and resolves spontaneously. Risk factors • photo-exposed skin such as face and lower lips. often caused by ultraviolet B-light, which can mutate DNA via the formation of pyrimidine dimers. exposure to ultraviolet radiation (UV), especially UVB Mutations in the p53 tumour suppression gene commonly affects the lower lip. • The incidence of skin cancer has been increasing among Caucasians but remains relatively low in people of color.  Light-skinner, non-Hispanic white populations experience higher rates of SCC than darker people of color. Low incidence in darker skins due to photo-protection provided by increased epidermal melanin, which filters twice as much ultraviolet (UV) radiation When skin cancer occurs in people of color, patients often present with an advanced stage, and thus, worse prognosis in comparison to Caucasian patients • Chronic immunosuppression more common in patients who have received an organ transplant. • old scars or burns may arise from areas of Bowen’s disease and sometimes in the margin of a chronic leg ulcer. (SCC) arising on a scar is termed a Marjolin ulcer.  Marjolin ulcer is typically aggressive and associated with a poor prognosis. • arsenic exposure • ionizing radiation • HPV infection • chronic infections, particularly those associated with chronically draining sinuses. • actinic keratoses and Bowen's disease • Inherited syndromes: eg: xeroderma pigmentosum and albinism • smoking Features • usually appears as a scaly or crusty area of skin, with a red, inflamed base. Diagnosis • Excision biopsy is essential for accurate diagnosis. shows keratin pearl appearance. The presence of keratin pearls indicates that the tumor is well-differentiated and carries a better prognosis.  undifferentiated tumor would contain almost entirely atypical cells that have lost their keratin producing function and thus keratin pearls would be absent. Treatment • Treatments include non-surgical destruction (e.g., using cryotherapy), topical chemotherapy, traditional surgical excision, and Mohs micrographic surgery. • Surgical excision with 4mm margins if lesion <20mm in diameter. If tumour >20mm then margins should be 6mm. • Mohs surgery is the best surgical treatment to minimize the loss of normal tissue. • Radiotherapy is the treatment of choice in patients who are poor surgical candidates. • Chemotherapy is used as adjuvant therapy in high risk patients Prevention • Sunscreen is used to minimize risk of developing SCC. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prognosis Good Prognosis Poor prognosis Well differentiated tumours Poorly differentiated tumours <20mm diameter 20mm in diameter <2mm deep 4mm deep No associated diseases Immunosupression for whatever reason Keratoacanthoma (KA) Overview • Keratoacanthoma (KA) is a relatively common low-grade malignancy that originates in the pilosebaceous glands and resembles squamous cell carcinoma (SCC) pathologically. • Some experts support classifying KA as a variant of invasive SCC. • Keratoacanthoma is a benign epithelial tumour. • It is believed to develop from the hair follicle, • more common in males. • They are more frequent in middle age and do not become more common in old age (unlike basal cell and squamous cell carcinoma) • KA is characterised by rapid growth over a few weeks to months, followed by spontaneous resolution over four to six months in most cases. • Lesions typically are solitary and begin as firm, roundish, skin-coloured or reddish papules that rapidly progress to dome-shaped nodules with a smooth shiny surface and a central crateriform ulceration or keratin plug that may project like a horn. Features - said to look like a volcano or crater • initially a smooth dome-shaped papule • rapidly grows to become a crater centrally-filled with keratin Treatment • The most suitable management Urgent referral to dermatology • Spontaneous regression of keratoacanthoma within 3 months is common, often resulting in a scar. • Should be urgently excised as it is difficult clinically to exclude squamous cell carcinoma. Removal also may prevent scarring. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Actinic keratoses Overview • Actinic, or solar, keratoses (AK) is a common premalignant skin lesion that develops as a consequence of chronic sun exposure • Less than 10% of actinic keratoses progress to invasive squamous cell carcinoma. Features • small, crusty or scaly, lesions • may be pink, red, brown or the same colour as the skin • typically on sun-exposed areas e.g. temples of head • multiple lesions may be present Management • prevention of further risk: e.g. sun avoidance, sun cream • fluorouracil cream: typically a 2 to 3 week course. The skin will become red and inflamed - sometimes topical hydrocortisone is given following fluorouracil to help settle the inflammation • topical diclofenac: may be used for mild AKs. Moderate efficacy but much fewer side-effects • topical imiquimod: trials have shown good efficacy • cryotherapy • curettage and cautery Malignant melanoma Overview • Melanocytes are positioned in the basal layer of the epidermis • Melanoma is the third most common skin cancer, but is the most common cause of skin cancer-related death. • Up to 20% of patients develop metastatic disease. The mnemonic of ABCDE regarding characteristics of a melanoma are as follows: • A - Asymmetry - one half of the lesion does not match the other half • B - Border irregularity • C - Colour variegation - pigmentation is not uniform • D - Diameter- a diameter 7 mm warrants investigation although changes in size are also important • E - Evolution - evolving size or changes in characteristics such as nodules. Prognostic factors The invasion depth of a tumour (Breslow depth) is the single most important factor in determining prognosis of patients with malignant melanoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Breslow Thickness Approximate 5 year survival < 1 mm 95-100% 1 - 2 mm 80-96% 2.1 - 4 mm 60-75% 4 mm 50% Treatment • Vemurafenib is a small molecule inhibitor of BRAF oncogene that can be found in melanoma. As such, Vemurafenib is used to treat metastatic melanoma. Lentigo maligna • Lentigo maligna is a type of melanoma in-situ. • It typically progresses slowly but may at some stage become invasive causing lentigo maligna melanoma. • Lentigo maligna melanoma occurs on the sun-exposed skin areas (usually the face) of elderly patients Acral lentiginous melanoma • The acral lentiginous melanoma is normally seen on the sole of the foot, and occasionally on the palm of the hand • It is characterised by a raised darker area surrounded by a paler macular (lentiginous) area that may extend for several centimetres around the raised area • There are two clinical clues that lead us to suspect this diagnosis: the patient's race and the location of the lesion. Acral lentiginous melanoma is more common in African-Americans and Asians than other forms of melanoma. 2. the lesion is located in an area not exposed to sunlight (the sole of the foot is the most common place for this type of melanoma). Other notes • Patients with a strong family history of melanoma are more likely to harbor a mutation in the cyclin-dependent kinase inhibitor 2A tumor-suppressor gene (CDKN2A mutation) that codes for p16, which prevents progression through G1. • Periungual melanomas occur in the area of the nailbed • Hutchinson’s sign (brown pigmentation on the nailfold) is an important pointer to malignant melanoma • Superficial spreading melanoma is the commonest type, consisting of an irregular brown, black or blue–black lesion with some intermingled inflammation • Nodular melanoma: the most rapidly growing and aggressive variant and may contain relatively little melanin pigment associated with higher rates of metastasis and poorer outcomes than classic melanoma. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Moles • Uniform pigmentation is not in itself a suspicious feature of a mole, but colour variegation and irregular border are two of many suspicious features. Systemic mastocytosis Results from a neoplastic proliferation of mast cells Features • urticaria pigmentosa - produces a wheal on rubbing (Darier's sign) • flushing • abdominal pain • monocytosis on the blood film Diagnosis • raised serum tryptase levels • urinary histamine Angiosarcoma • Angiosarcomas are malignant vascular tumours most commonly seen in elderly men. • most commonly occur on the scalp and forehead. • present an infiltrative vascular patch or plaque with super-imposed nodules which may bleed with minor trauma. • poor prognosis. • Angiosarcomas can also occur in areas of chronic lymphoedema. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Pyogenic granuloma Overview • relatively common benign skin lesion • benign vascular lesion of the skin and mucosa. • The name is a double misnomer - the lesion is neither pyogenic nor a granuloma. • There are multiple alternative names but perhaps 'eruptive haemangioma' is the most useful. • Pathologically, it is an inflammatory lesion composed of granulation tissue and chronic inflammatory cells. Etiology • unknown • associated with trauma and pregnancy Epidemiology • more common in women and young adults Features • initially soft, round, bright red spot • usually solitary lesions, • Lesions often grow rapidly (over weeks), • tender and bled easily when touched. Localization • The most common location are: fingers (commonly involve the digits) mucosal surfaces of the mouth inner surfaces of the nose. Treatment • lesions associated with pregnancy often resolve spontaneously post-partum • other lesions usually persist. • surgical excision Removal methods include curettage and cauterisation, cryotherapy, excision Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Skin disorders associated with malignancy Paraneoplastic syndromes associated with internal malignancies: Skin disorder Associated malignancies Acanthosis nigricans Gastric cancer Acquired ichthyosis Lymphoma Acquired hypertrichosis lanuginosa Gastrointestinal and lung cancer Dermatomyositis Ovarian and lung cancer Erythema gyratum repens Lung cancer Erythroderma Lymphoma Migratory thrombophlebitis Pancreatic cancer Necrolytic migratory erythema Glucagonoma Pyoderma gangrenosum (bullous and non-bullous forms) Myeloproliferative disorders Sweet's syndrome Haematological malignancy e.g. Myelodysplasia - tender, purple plaques Tylosis Oesophageal cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acrokeratosis paraneoplastica A widespread psoriatic-type rash involving the ears is suggestive of acrokeratosis paraneoplastica. • Most acrokeratosis paraneoplastica cases are associated with squamous cell carcinoma of the upper one third of the respiratory or GI tract, i.e. the oropharynx, larynx, lungs or oesophagus. The symptoms of indigestion and food sticking fit best with a diagnosis of oesophageal carcinoma. Otitis externa Otitis externa is a common reason for primary care attendance in the UK. Causes of otitis externa include: • infection: bacterial (Staphylococcus aureus,Pseudomonas aeruginosa) or fungal • seborrhoeic dermatitis • contact dermatitis (allergic and irritant) Features • ear pain, itch, discharge • otoscopy: red, swollen, or eczematous canal Management • Initial management topical antibiotic or a combined topical antibiotic with steroid if the tympanic membrane is perforated aminoglycosides are traditionally not used. many ENT doctors disagree with this and feel that concerns about ototoxicity are unfounded if there is canal debris then consider removal if the canal is extensively swollen then an ear wick is sometimes inserted • Second line options include consider contact dermatitis secondary to neomycin oral antibiotics if the infection is spreading taking a swab inside the ear canal empirical use of an antifungal agent • Malignant otitis externa more common in elderly diabetics. In this condition there is extension of infection into the bony ear canal and the soft tissues deep to the bony canal. Intravenous antibiotics may be required. Livedo reticularis (LR) Definition • A vascular syndrome that can be caused by either benign autonomic dysregulation of cutaneous perfusion or pathological obstruction of blood vessels. Pathophysiology • Physiological livedo (idiopathic livedo): primary livedo Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology Autonomic dysregulation (functional disturbance) causing slowed cutaneous perfusion in response to external factors (i.e., cold). Triggered by cold, regresses after application of warmth. • Pathological livedo (livedo racemosa): secondary livedo Localized obstructions slow the blood flow (organic disturbance). Persists after warming the skin. Features • Patchy, reticulated, vascular network with a red-blue or violaceous discoloration of the skin. • A “fish-net like” mottling of the skin • Occur more in women than in men and usually in the 3rd decade of life. • Occurs most often in the lower extremities Causes It is mainly idiopathic (primary livedo reticularis is the most common cause) Causes Secondary livedo reticularis: • Obstruction / vasculopathy Antiphospholipid syndrome o Livedo racemosa is the most common dermatologic presentation in patients with antiphospholipid syndrome (APS), presenting in 25% of patients with primary APS and in 70% of patients with SLE-associated APS. Cryoglobulinaemia Polycythaemia rubra vera Multiple myeloma Cold agglutinin disease Protein C and S deficiency Antithrombin III deficiency Disseminated intravascular coagulation Haemolytic uraemic syndrome Emboli (DVT , cholesterol emboli and septic emboli) Hypercalcaemia (calcium deposits) Infections (syphilis, tuberculosis, Lyme disease) • Autoimmune / vasculitis / connective tissue disease Small, medium and large vessel vasculitis. SLE Dermatomyositis Rheumatoid arthritis Polyarteritis nodosa Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Drugs Amantadine (dopamine agonist used to treat Parkinson disease) causes livedo through arteriolar vasospasm provoked by catecholamines. Minocycline • Associations LR preceded the onset of repeated attacks of pancreatitis in a patient with chronic pancreatitis. Primary fibromyalgia Congenital hypogammaglobulinemia. Treatment • Physiological : warmth. bath PUVA is a therapeutic option with the possibility of some success. • Pathological : treat underline cause Livedo reticularis that does not regress after application of warmth is indicative of an underlying vascular disease and requires treatment. Hyperhidrosis describes the excessive production of sweat Management options include • topical aluminium chloride preparations are first-line. Main side effect is skin irritation • iontophoresis: particularly useful for patients with palmar, plantar and axillary hyperhidrosis • botulinum toxin: currently licensed for axillary symptoms • surgery: e.g. Endoscopic transthoracic sympathectomy. Patients should be made aware of the risk of compensatory sweating Seborrheic keratosis • Seborrheic keratoses are the most common benign tumor in older individuals. • and they develop from the proliferation of epidermal cells. • No specific etiologic factors have been identified. • Typical features include a warty and waxy surface with surface crypts and a stuck on appearance. • They typically have an appearance of being stuck on the skin surface. • Because they begin at a later age and can have a wart-like appearance, seborrheic keratoses are often called the “barnacles of aging. • Most commonly they are several • Can growths anywhere on the skin, except the palms and soles. Most often on the chest, back, head, or neck. • Commonly used treatments include Curettage and cautery (C&C), and cryotherapy (for thinner lesions). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 10 Dermatology multiple seborrheic keratoses in an autosomally dominant mode of inheritance. Solar keratosis • hyperkeratotic lesion with underlying erythema. • bleed when scratched • Progression of these lesions to squamous cell skin cancer is slow • Topical 5-FU cream used twice a day for 3–4 weeks usually achieves clearance of the lesion. • Diclofenac gel requires a more prolonged treatment period (up to 12 weeks), meaning that it is the second-choice option for compliance reasons. It is useful where coverage of a larger area of skin is required. solar keratosis (on scalp of elderly) Telogen phase • The telogen phase is the resting phase of the hair follicle. • Due to extreme stress →shedding of hair leading to loss of thickness →loss of hair. • It occurs as a normal phenomenon one to three months after pregnancy. • No treatment is required (only reassurance) and hair thickness eventually recovers without further intervention. Third edition Notes & Notes For MRCP part 1 & 11 By Dr. Yousif Abdallah Hamad Psychiatry Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Unexplained symptoms • Conversion disorder typically involves involuntary loss of motor or sensory function without a physiologic cause , often following an acute stressor. • Dissociative disorder involves psychiatric symptoms e.g. Amnesia, fugue, stupor • Malingering patients consciously fake or exaggerate for secondary gain, such as money, sick leave, or avoidance of responsibilities. • Somatisation disorder Eating disorders: Anorexia nervosa Definition • Anorexia nervosa is an eating disorder characterised by an intense fear of gaining weight and distorted body image resulting in calorie restriction and severe weight loss leading to inappropriately low body weight (BMI < 18.5 kg/m2), with the inability to recognize the seriousness of their significantly low body weight. Subtypes Restricting type Binge-eating/purging type • No binge eating or purging over a 3month period • weight loss is achieved by excessive dieting, exercise, or fasting • Presence of binge eating or purging over a 3-month period • weight loss is achieved by vomiting, diuretic and laxative abuse, or enemas Features • Significant low BMI < 18.5 using strategies that include restrictive eating, purging, and excessive exercise • Fear of weight gain • Lack of awareness of the seriousness of low body weight • Distorted body image and believe they are "fat" when they usually are very thin. Use of laxatives to drive weight loss is common, and a purgative screen is therefore a logical next step. Complications (due to weight loss & malnutrition) • Endocrine: central hypogonadism (Hypothalamic suppression) → estrogen deficiency → ↓ LH & FSH → estrogen deficiency leads to:  secondary Amenorrhea (functional hypothalamic amenorrhea)  osteoporosis →↑stress fractures. Euthyroid sick syndrome, hypothyroidism Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Cardiac: structural : cardiac mass, ↓cardiac chamber volumes, mitral valve prolapse, and pericardial effusion. Functional: bradycardia, hypotension and QT interval prolongation. So dizziness is the most concerning symptom • Refeeding syndrome: occur due to fluid and electrolyte shifts, marked by hypophosphatemia → arrhythmias. Lab findings • Electrolyte imbalances: ↓ potassium, ↓ sodium, ↓ chloride, ↓ phosphate, ↓ magnesium, ↑ bicarbonate (metabolic alkalosis) • ↑↑Cortisol, • ↑↑growth hormone (due to GH resistance), • ↑↑ glucose (impaired glucose tolerance) • Hypercholesterolaemia • Hypercarotinaemia • low T3 with normal T4 and TSH • hypoalbuminaemia Differential diagnosis • Bulimia nervosa not significantly underweight; rather, most of patients are at normal weight or overweight do not have excessive restrictive caloric intake behavior that is characteristic of patients with anorexia nervosa, so complications of starvation are unlikely Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Treatment • first-line → Cognitive behavioral therapy & Nutritional support • second line (antipsychotic) → olanzapine Tricyclic antidepressants should not be used because of their potential cardiotoxicity. Bupropion should not be used because it is associated with a higher incidence of seizures in patients with eating disorders. Do not offer medication as the sole treatment for anorexia nervosa. The best, most easily obtainable measure of clinical improvement in a patient with anorexia nervosa → a weight gain of 1 pound (0.45 kg) per week. The antidepressant bupropion lowers the seizure threshold. It is, therefore, contraindicated in individuals with eating disorders who are at an increased risk of developing seizures secondary to dehydration and electrolyte imbalances. Eating disorders: Bulimia nervosa Definition • Bulimia nervosa is a type of eating disorder characterised by episodes of binge eating followed by intentional vomiting to prevent weight gain. Features • BMI is normal or slightly elevated (≥ 18.5 kg/m2) • Induced vomiting →dorsal hand calluses (Russell sign), erosion of the teeth , malloryWeiss syndrome • Parotid gland hypertrophy • ↑Serum amylase • Electrolyte disturbances (eg,K+,Cl−), metabolic alkalosis Treatment • Cognitive behavioural therapy (CBT) • Do not offer medication as the sole treatment for bulimia nervosa. Parotid hypertrophy and erosion of the teeth are the most common physical signs of Bulimia nervosa and may prompt diagnosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hypomania vs mania The presence of psychotic symptoms differentiates mania from hypomania Mania Psychotic symptoms Mania and Hypomania delusions of grandeur Mood Predominately elevated irritable Auditory hallucinations Speech & Thought  Pressured  Flight of ideas  Poor attention Behaviour  Insomnia  Loss of inhibitions: risk-taking  Increased appetite Antipsychotics • Antipsychotics act as dopamine D2 receptor antagonists, blocking dopaminergic transmission in the mesolimbic pathways. • Conventional antipsychotics are associated with problematic extrapyramidal side-effects which has led to the development of atypical antipsychotics such as clozapine Extrapyramidal side-effects • Parkinsonism • acute dystonia (e.g. torticollis, oculogyric crisis) affects about 2% of patients. Administer procyclidine • akathisia (severe restlessness) • tardive dyskinesia (late onset of choreoathetoid movements, abnormal, involuntary), may occur in 40% of patients, may be irreversible, most common is chewing and pouting of jaw Specific warnings when antipsychotics are used in elderly patients: • increased risk of stroke (especially olanzapine and risperidone) • increased risk of venous thromboembolism Other side-effects • antimuscarinic: dry mouth, blurred vision, urinary retention, constipation • sedation, • weight gain • raised prolactin: galactorrhoea, block dopamine D2 receptors block dopamine's action on the pitutary reduces inhibition of prolactin secretionhyperprolactinaemia. • Amenorrhoea, infertility • loss of libido, and erectile dysfunction. • impaired glucose tolerance • neuroleptic malignant syndrome: pyrexia, muscle stiffness • reduced seizure threshold (greater with atypicals) • prolonged QT interval (particularly haloperidol) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Typical antipsychotics Typical Antipsychotics High Potency Antipsychotics (in Descending Order) Advantages Disadvantages Unique Features Haloperidol Fewer side effects of sedation and hypotension High association with extrapyramidal symptoms  Able to use as long-acting depot injections  Can be given IM in acute situations Fluphenazine Perphenazine Chlorpromazine Lower frequency of extrapyramidal side effects Greater incidence of anticholinergic side-effects, hypotension, sedation Corneal deposits Thioridazine  Retinal deposits  QT prolongation Atypical antipsychotics atypical antipsychotics such as olanzapine/risperidone/clozapine have been associated with hyperglycaemia and insulin resistance. • Clozapine: Most effective anti-psychotic Decreased suicide risk.  Agranulocytosis • Adverse effects of atypical antipsychotics: weight gain. clozapine is associated with agranulocytosis. • Risperidone is a high-affinity D2 and 5-HT-2 receptor antagonist Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Neuroleptic malignant syndrome (NMS) • It may also occur with dopaminergic drugs (such as levodopa) for Parkinson's disease, usually when the drug is suddenly stopped or the dose reduced. A patient with P/H/O parkinson's disease, deteriorate 1 – 2 days after admission to hospital for other condition →neuroleptic malignant syndrome (NMS) as a result of not taking her parkinson's medication →do Creatine kinase to confirm the diagnosis • Onset usually in first 10 days of treatment or after increasing dose • Renal failure may occur secondary to rhabdomyolysis • Raised creatine kinase in most cases. the most important investigation to be performed Management • stop antipsychotic • IV fluids to prevent renal failure • dantrolene may be useful in selected cases thought to work by decreasing excitation-contraction coupling in skeletal muscle by binding to the ryanodine receptor, and decreasing the release of calcium from the sarcoplasmic reticulum • bromocriptine, dopamine agonist, may also be used • levodopa preparations may be beneficial Neuroleptic malignant syndrome Serotonin syndrome • develops over days to weeks. • develops over 24 hours. • characterized by sluggish neuromuscular responses (rigidity, bradyreflexia). • characterized by neuromuscular hyperreactivity (tremor, hyperreflexia, myoclonus). • resolution typically requires an average of nine days. • resolution typically requires less than 24 hours . Serotonin syndrome • Myoclonus is the distinguishing feature of serotonin syndrome (found only in serotonin syndrome). • Occur in those taking therapeutic doses of SSRIs, as part of drug-drug interaction (e.g. the addition of: ondansetron, amphetamine, cocaine, meperidine(Pethidine), dextromethorphan, fentanyl, buspiron, ergot alkaloids, lithium, L-dopa, LSD, St. John’s Wort), or following intentional self-poisoning with SSRI. • treatment stopping any serotinergic agents using benzodiazepines for agitation consideration of use of serotonin antagonists such as cyproheptadine if there is severe autonomic disturbance. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Antidepressants • SSRIs are the first-line treatment for the vast majority of patients with depression Selective serotonin reuptake inhibitors (SSRIs) • Mechanism of action inhibition of serotonin reuptake in synaptic cleft →↑serotonin levels primarily act at the 5HT transporter protein • Drugs Fluoxetine Paroxetine Sertraline Citalopram Escitalopram • Indications First-line treatment for major depressive disorder Generalized anxiety disorder Obsessive-compulsive disorder Post-traumatic stress disorder Somatic symptom disorder Panic disorder Gambling disorder Premature ejaculation Premenstrual dysphoric disorder Binge-eating disorder • Side effects Sexual disorders (anorgasmia, erectile or ejaculatory dysfunction, ↓ libido) Diarrhea, nausea, vomiting  gastrointestinal symptoms are the most common side-effect Sleep disorders Headache Increased risk of bleeding  proton pump inhibitor should be prescribed if a patient is also taking a NSAID Serotonin syndrome Risk of suicide attempt a few days after commencing treatment with an SSRI  In major depressive disorder, the greatest risk for suicide occurs after a partial response to antidepressants.  Usually, energy and motivation return before a subjective improvement in mood occurs, and a patient who has been too apathetic to act on suicidal rumination may, at this point, attempt suicide. patients should be counselled to be vigilant for increased anxiety and agitation after starting a SSRI • Contraindications risk of serotonin syndrome if given concomitantly within 14 days of MAOIs, linezolid, or methylene blue use • Additional information must usually be taken for 4–6 weeks before symptom reduction is seen Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad citalopram (although ↑QT interval) and fluoxetine are currently the preferred SSRIs sertraline is useful post myocardial infarction as there is more evidence for its safe use in this situation than other antidepressants nice advice 2017 For people who also have a chronic physical health problem, consider using citalopram or sertraline as these have a lower propensity for interactions. SSRIs should be used with caution in children and adolescents. Fluoxetine is the drug of choice when an antidepressant is indicated • Citalopram and the QT interval citalopram and escitalopram are associated with dose-dependent QT interval prolongation and should not be used in those with:  congenital long QT syndrome;  known pre-existing QT interval prolongation; or  in combination with other medicines that prolong the QT interval the maximum daily dose is now 40 mg for adults; 20 mg for patients older than 65 years; and 20 mg for those with hepatic impairment • Interactions NSAIDs: NICE guidelines advise 'do not normally offer SSRIs', but if given coprescribe a proton pump inhibitor warfarin / heparin: NICE guidelines recommend avoiding SSRIs and considering mirtazapine  the SSRIs least likely to cause drug interactions with warfarin appear to be sertraline and citalopram. aspirin: see above triptans: avoid SSRIs fluoxetine and paroxetine have a higher propensity for drug interactions • Antidepressant Follow-up After initiation of antidepressant therapy patients should normally be reviewed by a doctor after 2 weeks. For patients under the age of 30 years or at increased risk of suicide they should be reviewed after 1 week. If a patient makes a good response to antidepressant therapy, they should continue on treatment for at least 6 months after remission as this reduces the risk of relapse. • Selective serotonin reuptake inhibitor discontinuation syndrome When stopping a SSRI, the dose should be gradually reduced over a 4-week period  This not necessary with fluoxetine due to its longer half-life. Paroxetine has a higher incidence of discontinuation symptoms. SSRI withdrawal syndrome typically begins within 24-48 hours after withdrawal, Discontinuation symptoms  Psychiatric (anxiety, insomnia, mood lability, vivid dreams)  Gastrointestinal (nausea, vomiting , diarrhoea cramping pain), and  Neurological (dizziness, headache, paraesthesia, dystonia, tremor). 063 - Chapter 11 063 Chapter 11 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Management of depression in elderly with Alzheimer's • citalopram is the best treatment Although citalopram may have minor effects on cognition, it has been shown in patients with Alzheimer's to impact positively on patient mood and wellbeing and is associated with a significant improvement in agitation and care giver distress. Dose limitation to 20 mg is generally recommended in the elderly because of a risk of QT prolongation. • Fluoxetine and sertraline have no significant positive effect on mood in patients with Alzheimer's disease, • whilst valproate is of value as a mood stabiliser outside the context of Alzheimer's, it is of little value in patients with the condition. while not as selective as the SSRIs, drugs of abuse such as cocaine, fenfluramine, and (3,4-methylenedioxy) methamphetamine (MDMA or ecstasy) are inhibitors of serotonin uptake. Selective serotonin-norepinephrine reuptake inhibitors (SSNRIs) • Mechanism of action  inhibition of serotonin and norepinephrine reuptake in synaptic cleft →↑serotonin and norepinephrine levels • Drugs Venlafaxine Duloxetine • Indications Major depressive disorder (second-line therapy) Generalized anxiety disorder Panic disorder Duloxetine: stress incontinence in women • Side effects Similar profile to SSRIs (see “Selective serotonin reuptake inhibitors” above) Increased blood pressure • Contraindications: risk of serotonin syndrome if given concomitantly within 14 days of MAOIs, linezolid, or methylene blue use • Additional information: Blood pressure should be controlled before initiating SSNRI therapy. Serotonin antagonist and reuptake inhibitors (SARIs) • Mechanism of action Inhibition of serotonin reuptake →↑serotonin levels Antagonist of H1- and α1-receptors • Drugs Trazodone Nefazodone • Indications: major depressive disorder, especially in patients with insomnia • Side effects Priapism Sedation (due to H1 antagonism) Orthostatic hypotension • Contraindications: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad risk of serotonin syndrome if given concomitantly within 14 days of MAOIs, linezolid, or methylene blue use • Additional information Mainly used as adjunct to other antidepressants for treatment of insomnia associated with depression Off-label use: insomnia in patients without depression Monoamine oxidase inhibitors (MAOIs) • Mechanism  inhibition of monoamine oxidase →↓ breakdown of epinephrine, norepinephrine, and serotonin →↑ levels of epinephrine, norepinephrine, and serotonin • Drugs Tranylcypromine Phenelzine Selegiline Isocarboxazid • Indications Major depressive disorder (third- or fourth-line therapy)  due to its potentially severe side effects, interaction with foods containing tyramine, and numerous drug interactions particularly effective for treating atypical symptoms of depression (↑ appetite and weight gain, ↑ sleep, leaden paralysis) Selegiline: Parkinson's disease (as an adjunct to carbidopa-levodopa)  For the treatment of depression, Selegiline is available as a transdermal patch  (oral form is only used for Parkinson's disease) • Side effects Hypertensive crisis with ingestion of foods containing tyramine (e.g. aged cheeses, smoked/cured meats, alcoholic beverages, dried fruits) Serotonin syndrome • Contraindications risk of serotonin syndrome if given concomitantly within 14 days of MAOIs, linezolid, or methylene blue use Tricyclic antidepressants (TCA) • Mechanism of action  inhibition of serotonin and norepinephrine reuptake in synaptic cleft →↑serotonin and norepinephrine levels • Drugs Tertiary amines Secondary amines Amitriptyline Clomipramine Doxepin Imipramine Trimipramine Nortriptyline Desipramine Protriptyline Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry • Indications less commonly now for depression due to their side-effects and toxicity in overdose. used widely in the treatment of neuropathic pain, where smaller doses are typically required. prophylaxis of headache (both tension and migraine) Major depressive disorder (third- or fourth-line therapy) Neuropathy (diabetic neuropathy, post-herpetic neuralgia, etc.) Chronic pain (including fibromyalgia) • Side effects Orthostatic hypotension Sedation and delirium Anticholinergic symptoms  Cardiovascular symptoms: wide QRS complex, tachycardia, arrhythmia (including ventricular fibrillation), hypotension  CNS symptoms: drowsiness, confusion, hallucinations, sedation, coma, seizures  Gastrointestinal symptoms: intestinal ileus, constipation  Genitourinary symptoms: urinary retention  General: Xerostomia (dry mouth) blurred vision mydriasis, hyperthermia/dry skin More sedative Less sedative Amitriptyline Clomipramine Dosulepin Trazodone (is technically a 'tricyclic-related) Imipramine Lofepramine Nortriptyline • Overdose lofepramine has a lower incidence of toxicity in overdose amitriptyline and dosulepin (dothiepin) are considered the most dangerous in overdose Clinical features: caused by anticholinergic effects Management  Secure airways, oxygenation, monitoring, fluid resuscitation  ECG: cardiac arrhythmia (e.g., tachycardia, QRS prolongation)  Urine immunoassay: detection of TCA in the body  Activated carbon in first 2 hours after ingestion as soon as the airways are secured  Sodium bicarbonate for cardiac arrhythmia (QRS ≥ 100 ms or ventricula arrhythmias)  Benzodiazepines for seizures Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Contraindications Risk of serotonin syndrome if given concomitantly within 14 days of MAOIs, linezolid, or methylene blue use Tertiary amines are high-risk medications in the elderly population as they can cause confusion due to sedative and anticholinergic side effects. • Additional information Rarely used as a first- or second-line antidepressant today due to extensive side effect profile and risk of lethal overdose (ingestion of a one-week supply can be fatal) Physostigmine should not be given to patients with suspected TCA overdose because it can precipitate cardiac arrest Antimuscarinic side-effects are more common with imipramine than other types of tricyclic antidepressants. __Atypical antidepressants Mirtazapine • Mechanism of action α2-adrenergic antagonist →↑serotonin and norepinephrine release 5-HT2 and 5-HT3 receptor antagonist →↑ effect of serotonin on free 5HT1 receptor → likely responsible for antidepressant effects H1 antagonist • Indications major depressive disorder, especially in underweight and insomniac patients • Side effects ↑ appetite and weight gain Sedation (due to H1 antagonism) • Contraindications risk of serotonin syndrome if given concomitantly within 14 days of MAOIs, linezolid, or methylene blue use Bupropion • Mechanism of action not fully understood, but thought to increase dopamine and norepinephrine levels via reuptake inhibition • Indications Smoking cessation:  used in conjunction with counseling and nicotine replacement Major depressive disorder Depressive disorders with seasonal pattern • Side effects Reduction of seizure threshold Tachycardia, palpitations, agitation Weight loss Neuropsychiatric symptoms (including depression, mania, psychosis, and paranoia) • Contraindications Patients with ↑ risk for seizure (epilepsy, anorexia/bulimia, alcohol or benzodiazepine withdrawal, etc.) Risk of serotonin syndrome if given concomitantly within 14 days of MAOIs, linezolid, or methylene blue use • Additional information Bupropion has no sexual side effects, which makes it a viable alternative to SSRIs or SSNRIs for patients who experience sexual dysfunction. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Benzodiazepines Action: • Benzodiazepines (lorazepam, diazepam, chlordiazepoxide) enhance the effect of the inhibitory neurotransmitter gamma-aminobutyric acid (GABA). Indications • Sedation • Hypnotic • Anxiolytic • Anticonvulsant • Muscle relaxant Prescription • Patients commonly develop a tolerance and dependance to benzodiazepines and care should therefore be exercised on prescribing these drugs. • The Committee on Safety of Medicines advises that benzodiazepines are only prescribed for a short period of time (2-4 weeks). Benzodiazepine withdrawal • The BNF gives advice on how to withdraw a benzodiazepine: • The dose should be withdrawn in steps of about 1/8 (range 1/10 to 1/4) of the daily dose every fortnight. • A suggested protocol for patients experiencing difficulty is given: Switch patients to the equivalent dose of diazepam Reduce dose of diazepam every 2-3 weeks in steps of 2 or 2.5 mg Time needed for withdrawal can vary from 1 month to 1 year or more benzodiazepine withdrawal syndrome: • If patients withdraw too quickly from benzodiazepines they may experience benzodiazepine withdrawal syndrome, a condition very similar to alcohol withdrawal syndrome. • This may occur up to 3 weeks after stopping a long-acting drug. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Features Insomnia Irritability Anxiety Tremor Loss of appetite Tinnitus Perspiration Perceptual disturbances Seizures Flumazenil Flumazenil, a benzodiazepine antagonist, is used to reverse the central sedative effects of benzodiazepines after anaesthetic and similar procedures Flumazenil has a shorter half-life than that of diazepam and midazolam and there is a risk that patients may become re-sedated - in which case a repeat dose of flumazenil should be given Which drug is more safer in overdose • Diazepam has a long half-life, principally because of its active metabolites. • Midazolam is short-acting but is only used intravenously. • Promethazine is an antihistamine with a 12-hour half-life and may cause daytime sedation. • Clomethiazole is less safe in overdose, has dependence potential and is only licensed for sedation in the elderly. • Loprazolam is short-acting (half-life 6–12 hours) . Post-traumatic stress disorder • Post-traumatic stress disorder (PTSD) can develop in people of any age following a traumatic event, for example a major disaster or childhood sexual abuse. • It encompasses what became known as 'shell shock' following the first world war. • One of the DSM-IV diagnostic criteria is that symptoms have been present for more than one month • the onset of symptoms is usually delayed and it tends to run a prolonged course Features • re-experiencing: flashbacks, nightmares, repetitive and distressing intrusive images • avoidance: avoiding people, situations or circumstances resembling or associated with the event • hyperarousal: hypervigilance for threat, exaggerated startle response, sleep problems, irritability and difficulty concentrating • emotional numbing - lack of ability to experience feelings, feeling detached from other people • depression • drug or alcohol misuse • anger • unexplained physical symptoms Management • following a traumatic event single-session interventions (often referred to as debriefing) are not recommended • watchful waiting may be used for mild symptoms lasting less than 4 weeks • military personnel have access to treatment provided by the armed forces • trauma-focused cognitive behavioural therapy (CBT) or eye movement desensitisation and reprocessing (EMDR) therapy may be used in more severe cases • drug treatments for PTSD should not be used as a routine first-line treatment for adults. If drug treatment is used then paroxetine or mirtazapine are recommended Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Post-concussion syndrome Post-concussion syndrome is seen after even minor head trauma Typical features include • headache • fatigue • anxiety/depression • dizziness Grief reaction • It is normal for people to feel sadness and grief following the death of a loved one and this does not necessarily need to be medicalised. Grief stages: One of the most popular models of grief divides it into 5 stages. Denial: this may include a feeling of numbness and also pseudohallucinations of the deceased, both auditory and visual. Occasionally people may focus on physical objects that remind them of their loved one or even prepare meals for them Anger: this is commonly directed against other family members and medical professionals Bargaining Depression Acceptance • It should be noted that many patients will not go through all 5 stages. • risk factors of Abnormal, or atypical, grief reactions more likely occur in women if the death is sudden and unexpected. problematic relationship before death if the patient has not much social support. • Features of atypical grief reactions include: delayed grief: sometimes said to occur when more than 2 weeks passes before grieving begins prolonged grief: difficult to define. Normal grief reactions may take up to and beyond 12 months Depression: screening and assessment Screening • The following two questions can be used to screen for depression 'During the last month, have you often been bothered by feeling down, depressed or hopeless?' 'During the last month, have you often been bothered by having little interest or pleasure in doing things?' A 'yes' answer to either of the above should prompt a more in depth assessment. Assessment • There are many tools to assess the degree of depression including the Hospital Anxiety and Depression (HAD) scale and the Patient Health Questionnaire (PHQ-9). • Hospital Anxiety and Depression (HAD) scale consists of 14 questions, 7 for anxiety and 7 for depression each item is scored from 0-3 produces a score out of 21 for both anxiety and depression severity: 0-7 normal, 8-10 borderline, 11+ case patients should be encouraged to answer the questions quickly Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Notes & Notes for MRCP Dr. Yousif Abdallah • Patient Health Questionnaire (PHQ-9) asks patients 'over the last 2 weeks, how often have you been bothered by any of the following problems?' 9 items which can then be scored 0-3 includes items asking about thoughts of self-harm depression severity: 0-4 none, 5-9 mild, 10-14 moderate, 15-19 moderately severe, 20-27 severe • NICE use the DSM-IV criteria to grade depression: Depressed mood most of the day, nearly every day Markedly diminished interest or pleasure in all, or almost all, activities most of the day, nearly every day Significant weight loss or weight gain when not dieting or decrease or increase in appetite nearly every day Insomnia or hypersomnia nearly every day Psychomotor agitation or retardation nearly every day Fatigue or loss of energy nearly every day Feelings of worthlessness or excessive or inappropriate guilt nearly every day Diminished ability to think or concentrate, or indecisiveness nearly every day Recurrent thoughts of death, recurrent suicidal ideation without a specific plan, or a suicide attempt or a specific plan for committing suicide Subthreshold depressive symptoms Fewer than 5 symptoms Mild depression Few, if any, symptoms in excess of the 5 required to make the diagnosis, and symptoms result in only minor functional impairment Moderate depression Symptoms or functional impairment are between 'mild' and 'severe' Severe depression Most symptoms, and the symptoms markedly interfere with functioning. Can occur with or without psychotic symptoms • Psychotic symptoms such as delusions and hallucinations may occur in depression, and when they do, treatment with both an antidepressant and an antipsychotic is indicated. Psychotic depression • Psychotic depression: severe depression accompanied by psychotic features • is uncommon but important due to high risk of suicide. • The history of low mood predating the psychotic symptoms, also the fact that the auditory hallucinations and delusions are consistent with the depressive feelings of guilt, distinguish this from schizophrenia. Depressive pseudodementia • Short-term memory loss may occur in conjunction with depression (depressive pseudodementia) as well as being seen in dementia. • The memory loss improves with treatment of the depression. Features of depression • Early morning wakening • decreased appetite • there may be life events that may have precipitated that illness • weight loss, • constipation, • loss of libido, impotence in men, • fatigue and generalised body aches and pains. • Retardation or agitation of behaviour may occur. Early morning waking is a classic somatic symptom of depression and often develops earlier than general insomnia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Suicide Factors associated with risk of suicide following an episode of deliberate selfharm: • efforts to avoid discovery • planning • leaving a written note • final acts such as sorting out finances • violent method These are in addition to standard risk factors for suicide • male sex • advancing age • unemployment or social isolation • divorced or widowed • history of mental illness (depression, schizophrenia) • history of deliberate self-harm • alcohol or drug misuse Treatment • In an Emergency Department the suicidal patient who declines to be admitted for observation and treatment should be managed as follows: Ensure that a member of staff stays with them at all times Call the duty psychiatrist If they attempt to abscond before or during psychiatric assessment, the staff of the Emergency Department have a duty under Common Law to restrain the patient A suicidal patient became agitated and insisted that she wanted to go home immediately. How should you proceed? Call the duty psychiatrist, and with other staff in the Emergency Department attempt to restrain her until they arrive Depression in older people • Older patients are less likely to complain of depressed mood • Depression in elderly can depress cognitive function, hence cognition may be inaccurately depressed on measurement scales. • In elderly patients, geriatric depression scale (GDS) is more appropriate than Becks depression scale, as the latter focuses heavily on somatic symptoms that frequently underscore depression in elderly patients. Features • physical complaints (e.g. hypochondriasis) • agitation • insomnia Management • SSRIs are first line (adverse side-effect profile of TCAs more of an issue in the elderly) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Generalised anxiety disorder Overview • GABA and serotonin levels are decreased Low levels of γ-aminobutyric acid (GABA) have been associated with anxiety disorders, including generalized anxiety disorder.  Benzodiazepines work as agonists on the GABA-A receptor, enhancing the effects of GABA in the central nervous system and thus relieving anxiety symptoms. • Norepinephrine is increased. • Anxiety is a common disorder that can present in multiple ways. • NICE define the central feature as an 'excessive worry about a number of different events associated with heightened tension.' • characterized by disproportionately excessive fear and anxiety about everyday things. Diagnosis • Always look for a potential physical cause when considering a psychiatric diagnosis. In anxiety disorders, important alternative causes include:  hyperthyroidism, cardiac disease and medication-induced anxiety.  salbutamol,  theophylline,  corticosteroids,  antidepressants  caffeine • Anxiety has to last longer than six months for a formal diagnosis of generalized anxiety disorder to be made. • According to the fifth edition of Diagnostic and Statistical Manual of Mental Disorders, a diagnosis of generalized anxiety disorder requires three symptoms out of six to be present: muscle tension, restlessness, irritability, fatigability, sleep disturbance, and difficulty concentrating. Management: NICE suggest a step-wise approach: • step 1: education about GAD + active monitoring • step 2: low intensity psychological interventions (individual non-facilitated self-help or individual guided self-help or psychoeducational groups) • step 3: high intensity psychological interventions (cognitive behavioural therapy or applied relaxation) or drug treatment.  Cognitive behavioral therapy is the psychotherapy of choice • step 4: highly specialist input e.g. Multi agency teams Drug treatment (step 3) • NICE recommend pharmacological therapy if low-intensity psychological interventions have been unsuccessful. • SSRI anti-depressants SSRIs are the first-line pharmacological therapy for generalised anxiety disorder Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry the first-line pharmacological therapy Sertraline is recommended first-line, and if contraindicated or not tolerated then any other SSRI or serotonin noradrenaline reuptake inhibitor (SNRI). interestingly for patients under the age of 30 years NICE recommend you warn patients of the increased risk of suicidal thinking and self-harm. Weekly follow-up is recommended for the first month • buspirone is an azaperone, a chemically and pharmacologically distinct class of drugs. It is an effective treatment for generalised anxiety disorder, especially for people who are sensitive to cognitive impairment. action: (5-HT1A partial agonist) Side effects: nasal congestion commonly reported. • beta-blockers • benzodiazepines: use longer acting preparations e.g. diazepam, clonazepam Hyperventilation syndrome (HVS): • history of repeated admissions without a diagnosis and rapid recovery are all pointers towards hyperventilation syndrome (HVS). • If a doctor encounters such presentation, the Nijmegen questionnaire can be used to test whether or not the patient has HVS. This questionnaire involves asking about 16 different symptoms such as chest pain and tingling fingers. Each one of these symptoms should be assigned a number from 0 to 4 according to how often it is felt. A score of more than 23 out of 64 is diagnostic of HVS. Mood disorder Cyclothymic disorder • numerous periods of both depression (but not major depressive episodes) and hypomania for at least two years. The crucial feature of a major depressive disorder is a severe dysphoric mood and persistent loss of interest or pleasure in all usual activities. Dysthymic disorder • chronic depression with never a manic or hypomanic episode, for at least two years. Bipolar I disorder • severe alterations in mood (mania and depression) that are usually episodic and recurrent. • Treatment Sodium valproate and carbamazepine are efficacious as first line treatment in the prophylaxis of manic and depressive episodes in bipolar I disorder. Lithium may be used if these anticonvulsants are ineffective. However, in the initial stages of manic episodes, the addition of drugs with potent sedative effects are often required, for example, clonazepam, lorazepam and haloperidol.  These drugs can be tapered and then discontinued as soon as the initial phase of the manic episode has subsided, and the effects of the anticonvulsants or lithium are seen clinically. Bipolar II disorder • characterised by one or more major depressive episodes, at least one hypomanic episode and NO manic episodes. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Cognitive behavioural therapy Main points • useful in the management of depression and anxiety disorders • usually consists of one to two hour sessions once per week • should be completed within 6 months • patients usually get around 16-20 hours in total Seasonal affective disorder (SAD) Definition • depression which occurs predominately around the winter months. Aetiology • thought to be related to melatonin metabolism and changes during winter Features • Symptoms of hyperphagia, hypersomnia and weight gain are more typical in SAD compared with matched non-seasonal controls. Treatment • Bright light therapy has been shown to be more effective than placebo for patients with SAD (exposing individuals to bright light for several hours a day) Body dysmorphic disorder Overview • Body dysmorphic disorder (also known as dysmorphophobia) is a mental disorder where patients have a significantly distorted body image • The pathology of the disorder is probably close to that of obsessive-compulsive disorder (OCD) and the symptoms respond to treatment with an selective serotonin-reuptake inhibitor (SSRI) but not a neuroleptic. Features • presents as a preoccupation with a presumed defect in appearance that may be an overvalued idea or may be delusional. Diagnosis • Diagnostic and Statistical Manual (DSM) IV criteria: Preoccupation with an imagine defect in appearance. If a slight physical anomaly is present, the person's concern is markedly excessive The preoccupation causes clinically significant distress or impairment in social, occupational, or other important areas of functioning The preoccupation is not better accounted for by another mental disorder (e.g., dissatisfaction with body shape and size in Anorexia Nervosa) Chapter 11 Psychiatry Post-partum mental health problems Post-partum mental health problems range from the 'baby-blues' to puerperal psychosis. The Edinburgh Postnatal Depression Scale may be used to screen for depression: • 10-item questionnaire, with a maximum score of 30 • indicates how the mother has felt over the previous week • score > 13 indicates a 'depressive illness of varying severity' • sensitivity and specificity > 90% • includes a question about self-harm 'Baby-blues' Postnatal depression Puerperal psychosis Seen in around 6070% of women Affects around 10% of women Most cases start within a month and typically peaks at 3 months Typically seen 3-7 days following birth and is more common in primips Features are similar to depression seen in other circumstances Mothers are characteristically anxious, tearful and irritable Reassurance and support, the health visitor has a key role As with the baby blues reassurance and support are important Cognitive behavioural therapy may be beneficial. Certain SSRIs such as sertraline and paroxetine* may be used if symptoms are severe** - whilst they are secreted in breast milk it is not thought to be harmful to the infant • paroxetine is recommended by SIGN because of the low milk/plasma ratio • fluoxetine is best avoided due to a long half-life Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Affects approximately 0.2% of women Onset usually within the first 2-3 weeks following birth Features include severe swings in mood (similar to bipolar disorder) and disordered perception (e.g. auditory hallucinations) Admission to hospital is usually required There is around a 20% risk of recurrence following future pregnancies Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Alcohol - problem drinking: management • Alcohol is a common cause of hypoglycaemia and can be rapidly life-threatening if not recognised. Common initial symptoms are tachycardia and sweating. • patients who abuse alcohol often are relatively hypotensive as they are often relatively dehydrated and are thin due to minimal food intake. Nutritional support • SIGN recommends alcoholic patients should receive oral thiamine if their 'diet may be deficient' Drugs used • benzodiazepines for acute withdrawal • Disulfram: promotes abstinence - alcohol intake causes severe reaction due to inhibition of acetaldehyde dehydrogenase. Patients should be aware that even small amounts of alcohol (e.g. In perfumes, foods, mouthwashes) can produce severe symptoms. Contraindications include ischaemic heart disease and psychosis • acamprosate: reduces craving, known to be a weak antagonist of NMDA receptors, improves abstinence in placebo-controlled trials is derived from taurine increases the γ-aminobutyric acid (GABA) level, which inhibits CNS activity has relatively few side-effects • Naltrexone: reduces the pleasure that alcohol brings and craving when it is withdrawn, and can halve the relapse rates; however, it is associated with a number of adverse effects, including: nausea, vomiting, anxiety, nervousness, insomnia, lethargy, arthralgia, increased sweating and lacrimation, diarrhoea or constipation, increased thirst and liver and kidney dysfunction particularly the Gl symptoms recognised with naltrexone may discourage use in a patient with a previous history of IBS Alcohol withdrawal Alcohol withdrawal is the most common cause of paranoid psychosis with visual hallucination Mechanism • chronic alcohol consumption enhances GABA mediated inhibition in the CNS (similar to benzodiazepines) and inhibits NMDA-type glutamate receptors • alcohol withdrawal is thought to be lead to the opposite (decreased inhibitory GABA and increased NMDA glutamate transmission) Features • symptoms start at 6-12 hours • peak incidence of seizures at 36 hours • peak incidence of delirium tremens is at 72 hours • if patients continue to abstain from alcohol they usually peak after about 72 hours and may last a week or more, but usually have resolved by 3 weeks. Chapter 11 Psychiatry Minor Withdrawal Alcoholic Hallucinosis Time Since Last Drink 6-12 hours 12-24 hours 24-48 48-72 hours • Insomnia • Tremor • Anxiety • Nausea • Vomiting • Headache • Sweating • Palpitations visual, auditory and tactile hallucinations. Features • Withdrawal Seizure Most patients will have single or few fits, and complete spontaneous disappearance is anticipated within 6-12 hours. The presence of focal fits, more than six fits, a prolonged post-ictal phase or development of status epilepticus should suggest another diagnosis. Around 30% of patients will go on to develop delirium tremens and prophylactic doses of diazepam or chlodiazepoxide are indicated. • Delirium tremens the most severe form of alcohol withdrawal. Onset is typically three to seven days after cessation of chronic alcohol ingestion. characterised by  visual hallucinations,  autonomic instability (tachycardia, hypertension, pyrexia),  obtundation and confusion.  Sweating, tremors and agitation are also features. Management • benzodiazepines In hepatic impairment benzodiazepines with a shorter half-life (e.g. lorazepam and oxazepam) are preferred • carbamazepine also effective in treatment of alcohol withdrawal at a starting dose of 800 mg per 24 hours • phenytoin is said not to be as effective in the treatment of alcohol withdrawal seizures best avoided because of the risk of causing hypotension. • Thiamine is also indicated in chronic alcoholism but is not as immediately important as diazepam. Schizophrenia Epidemiology Risk of developing schizophrenia • monozygotic twin has schizophrenia = 50% • parent has schizophrenia = 10-15% • sibling has schizophrenia = 10% • no relatives with schizophrenia = 1% • Schizophrenia is more common in social classes IV and V. • Temporal lobe epilepsy • Amphetamines may cause a state resembling hyperactive paranoid schizophrenia with hallucinations. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Withdrawal Seizure Delirium Tremens • Autonomic instability (tachycardia, hypertension, and pyrexia), • Disorientation • Hallucinations • Agitation generalised tonic-clonic seizures. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Schizophrenia: features Schneider's first rank symptoms may be divided into auditory hallucinations, thought disorders, passivity phenomena and delusional perceptions: Auditory hallucinations of a specific type: • two or more voices discussing the patient in the third person • thought echo • voices commenting on the patient's behaviour Thought disorder: occasionally referred to as thought alienation • thought insertion • thought withdrawal • thought broadcasting Passivity phenomena: • bodily sensations being controlled by external influence • actions/impulses/feelings - experiences which are imposed on the individual or influenced by others Delusional perceptions • a two-stage process) where first a normal object is perceived then secondly there is a sudden intense delusional insight into the objects meaning for the patient e.g. 'The traffic light is green therefore I am the King'. Other features of schizophrenia include • impaired insight • incongruity/blunting of affect (inappropriate emotion for circumstances) • decreased speech • neologisms: made-up words • catatonia • Concrete thinking where a patient cannot use abstraction to understand the meaning of a sentence. It is more common in schizophrenia. • negative symptoms: incongruity/blunting of affect, anhedonia (inability to derive pleasure), alogia (poverty of speech), avolition (poor motivation) Prognostic indicators Factors associated with poor prognosis • strong family history • gradual onset • low IQ • premorbid history of social withdrawal • lack of obvious precipitant Schizophrenia: management Key points • first-line oral atypical antipsychotics are first-line  (amisulpride, olanzapine, quetiapine, risperidone and zotepine) • if they fail to comply with this then, depot medication (either typical or atypical) The obvious benefit of depot medication is that it is administered at regular intervals (generally 2–4-weekly) by medical staff. Therefore, the patient does not have to remember to take it on a daily basis. Staff also know that the patient has definitely been receiving their medication. The drawbacks of depot medication are the discomfort of the injection and problems with the injection site, e.g. infection or abscess formation. • cognitive behavioural therapy should be offered to all patients • close attention should be paid to cardiovascular risk-factor modification due to the high rates of cardiovascular disease in schizophrenic patients (linked to antipsychotic medication and high smoking rates) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Electroconvulsive therapy (ECT) Indications • life-threatening depressive stupor, especially when a patient is refusing to eat and drink. This is used as it generally has a shorter onset of action than antidepressant medication, which takes 2–3 weeks to work. • severe depression refractory to medication • psychotic symptoms. Contraindications • Raised intracranial pressure • Recent cerebrovascular accident Most guidelines state that a recent CVA (within 1 to 3 months) is a contraindication. Side-effects • Short-term side-effects headache nausea short term memory impairment memory loss of events prior to ECT cardiac arrhythmia • Long-term side-effects some patients report impaired memory Charles Bonnet syndrome (CBS) Overview • Charles Bonnet syndrome (CBS) is characterised by persistent or recurrent complex hallucinations (usually visual or auditory), occurring in clear consciousness. • This is generally against a background of visual impairment (although visual impairment is not mandatory for a diagnosis). • Insight is usually preserved. • Well-formed complex visual hallucinations are thought to occur in 10-30 percent of individuals with severe visual impairment. • Around a third find the hallucinations themselves an unpleasant or disturbing experience. • This must occur in the absence of any other significant neuropsychiatric disturbance. Epidemiology • CBS is equally distributed between sexes and does not show any familial predisposition. • Prevalence of CBS in visually impaired people is thought to be between 11 and 15 percent. Risk factors include: • Advanced age • Peripheral visual impairment • Social isolation • Sensory deprivation • Early cognitive impairment Associated conditions • The most common ophthalmological conditions associated with this syndrome are agerelated macular degeneration, followed by glaucoma and cataract. Prognosis • In a large study published in the British Journal of Ophthalmology, 88% had CBS for 2 years or more, resolving in only 25% at 9 years (thus it is not generally a transient experience). Treatment • Reassurance is usually the best treatment Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Delusions Cotard syndrome • Cotard syndrome is a rare mental disorder where the affected patient believes that they (or in some cases just a part of their body) is either dead or non-existent. • This delusion is often difficult to treat and can result in significant problems due to patients stopping eating or drinking as they deem it not necessary. Othello syndrome is a delusional belief that a patients partner is committing infidelity despite no evidence of this. It can often result in violence and controlling behaviour. De Clerambault syndrome (otherwise known as erotomania), is where a patient believes that a person of a higher social or professional standing is in love with them. Often this presents with people who believe celebrities are in love with them. Ekbom syndrome is also known as delusional parasitosis and is the belief that they are infected with parasites or have 'bugs' under their skin. This can vary from the classic psychosis symptoms in narcotic use where the user can 'see' bugs crawling under their skin or can be a patient who believes that they are infested with snakes. Capgras delusion is the belief that friends or family members have been replaced by an identical looking imposter. Personality disorders Disorder Features Antisocial • Failure to conform to social norms with respect to lawful behaviors as indicated by repeatedly performing acts that are grounds for arrest; • Deception, as indicated by repeatedly lying, use of aliases, or conning others for personal profit or pleasure; • Impulsiveness or failure to plan ahead; • Irritability and aggressiveness, as indicated by repeated physical fights or assaults; • Reckless disregard for safety of self or others; • Consistent irresponsibility, as indicated by repeated failure to sustain consistent work behavior or honor financial obligations; • Lack of remorse, as indicated by being indifferent to or rationalizing having hurt, mistreated, or stolen from another Avoidant • Avoidance of occupational activities which involve significant interpersonal contact due to fears of criticism, or rejection. • Unwillingness to be involved unless certain of being liked • Preoccupied with ideas that they are being criticised or rejected in social situations • Restraint in intimate relationships due to the fear of being ridiculed • Reluctance to take personal risks due to fears of embarrassment • Views self as inept and inferior to others • Social isolation accompanied by a craving for social contact Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Disorder Features Borderline • Efforts to avoid real or imagined abandonment • Unstable interpersonal relationships which alternate between idealization and devaluation • Unstable self image • Impulsivity in potentially self damaging area (e.g. Spending, sex, substance abuse) • Recurrent suicidal behaviour • Affective instability • Chronic feelings of emptiness • Difficulty controlling temper • Quasi psychotic thoughts Borderline - think nightmare girlfriend/boyfriend Dependent • Difficulty making everyday decisions without excessive reassurance from others • Need for others to assume responsibility for major areas of their life • Difficulty in expressing disagreement with others due to fears of losing support • Lack of initiative • Unrealistic fears of being left to care for themselves • Urgent search for another relationship as a source of care and support when a close relationship ends • Extensive efforts to obtain support from others • Unrealistic feelings that they cannot care for themselves Histrionic • Inappropriate sexual seductiveness • Need to be the centre of attention • Rapidly shifting and shallow expression of emotions • Suggestibility • Physical appearance used for attention seeking purposes • Impressionistic speech lacking detail • Self dramatization • Relationships considered to be more intimate than they are Narcissistic • Grandiose sense of self importance • Preoccupation with fantasies of unlimited success, power, or beauty • Sense of entitlement • Taking advantage of others to achieve own needs • Lack of empathy • Excessive need for admiration • Chronic envy • Arrogant and haughty attitude Narcissistic - Steve Jobs's ex-wife thought he had this Obsessivecompulsive • Is occupied with details, rules, lists, order, organization, or agenda to the point that the key part of the activity is gone • Demonstrates perfectionism that hampers with completing tasks • Is extremely dedicated to work and efficiency to the elimination of spare time activities • Is meticulous, scrupulous, and rigid about etiquettes of morality, ethics, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Disorder Features or values • Is not capable of disposing worn out or insignificant things even when they have no sentimental meaning • Is unwilling to pass on tasks or work with others except if they surrender to exactly their way of doing things • Takes on a stingy spending style towards self and others; and shows stiffness and stubbornness • Cognitive behavioural therapy (CBT) and exposure response prevention (ERP) is the best management Paranoid • Hypersensitivity and an unforgiving attitude when insulted • Unwarranted tendency to questions the loyalty of friends • Reluctance to confide in others • Preoccupation with conspirational beliefs and hidden meaning • Unwarranted tendency to perceive attacks on their character Schizoid • Indifference to praise and criticism • Preference for solitary activities • Lack of interest in sexual interactions • Lack of desire for companionship • Emotional coldness • Few interests • Few friends or confidants other than family Schizoid - think Bruce Wayne/Batman from recent Christopher Nolan films Schizotypal • Ideas of reference (differ from delusions in that some insight is retained) • Odd beliefs and magical thinking • Unusual perceptual disturbances • Paranoid ideation and suspiciousness • Odd, eccentric behaviour • Lack of close friends other than family members • Inappropriate affect • Odd speech without being incoherent Diagnosis Borderline personality disorder is marked out by instability in moods, behaviour and relationships. Diagnosis is confirmed by the presence of at least 5 of the following symptoms; Extreme reactions including panic, depression, rage, or frantic actionsto abandonment, whether real or perceived A pattern of intense and stormy relationships with family, friends, and loved ones, often veering from extreme closeness and love to extreme dislike or anger Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry 3. Distorted and unstable self-image or sense of self, which can result in sudden changes in feelings, opinions, values, or plans and goals for the future (such as school or career choices). 4. Impulsive and often dangerous behaviours, such as spending sprees, unsafe sex, substance abuse, reckless driving, and binge eating. 5. Recurring suicidal behaviours or threats or self-harming behaviour, such as cutting Intense and highly changeable moods, with each episode lasting from a few hours to a few days. 6. Chronic feelings of emptiness and/or boredom. 7. Inappropriate, intense anger or problems controlling anger 8. Having stress-related paranoid thoughts or severe dissociative symptoms, such as feeling cut off from oneself, observing oneself from outside the body, or losing touch with reality. Panic disorder Definition • recurrent attacks of intense fear and discomfort. recurrent spontaneous panic attacks without an obvious cause or trigger, Pathophysiology • Abnormal discharge from the locus caeruleus in the midbrain has been implicated in panic attacks. The locus caeruleus is the origin of most brain noradrenergic pathways. • has a genetic component. Features • symptoms develop suddenly and usually peak in less than 10 minutes. • psychiatric symptom: intense anxiety or fear, derealization or depersonalization, fear of losing control or “going crazy,” and fear of dying. • physical manifestations of intense fear, like: palpitations, feeling of suffocation, diaphoresis, tremor, shortness of breath, chest pain, nausea, abdominal discomfort, dizziness, lightheadedness, paresthesias, crushing chest pain. Diagnosis • To diagnose panic disorder, symptoms must be present for more than one month after an attack. • physical cause of the symptoms must be ruled out before establishing a diagnosis of panic disorder. Differential diagnosis • To distinguish it from a specific phobia, some of the attacks must occur without an environmental trigger. Recurrent sudden attacks of intense anxiety or fear accompanied by physical symptoms (e.g: palpitations and a feeling of suffocation) without an obvious cause or trigger. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment: • NICE recommend either cognitive behavioural therapy or drug treatment • SSRIs are first-line.  Selective serotonin reuptake inhibitors and venlafaxine (a serotonin norepinephrine reuptake inhibitor) are the first-line • If SSRIs is contraindicated or no response after 12 weeks, then imipramine or clomipramine should be offered • Benzodiazepines are often used in the acute management of panic disorder. Acute confusional state • also known as delirium or acute organic brain syndrome Definition • Sudden change in the mental state or sudden onset of behaviour that is out of character, • Recent changes in behavior (within hours or days) Risk factors • Older people (≥ 65 ) affects up to 30% of elderly patients admitted to hospital. • cognitive impairment or dementia • severe illness 20–30% of people on medical wards in hospital have delirium, 10% - 50% of people who have surgery develop delirium • Current hip fracture Features - wide variety of presentations • memory disturbances (loss of short term > long term) • may be very agitated or withdrawn • disorientation • mood change • visual hallucinations • disturbed sleep cycle • poor attention Diagnosis • By clinical assessment based on: Diagnostic and Statistical Manual of Mental Disorders (DSM-IV) criteria or short Confusion Assessment Method (short CAM) to confirm the diagnosis.  In critical care or in the recovery room after surgery, CAM-ICU should be used. Differential diagnosis • Delirium vs dementia It can be difficult to distinguish between delirium and dementia because symptoms overlap, and some people may have both conditions.  Dementia tends to develop slowly, whereas delirium is characterised by sudden changes.  Dementia is generally a chronic, progressive disease for which there is no cure. Delirium is a potentially reversible condition if the causes are identified and they are treatable.  If clinical uncertainty exists over the diagnosis, initial management should be for delirium. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 11 Psychiatry Treatment • Non-pharmacological the first intervention Interview the patient, take a history, assess mental state and try to reassure the patient.  Adults with delirium who are distressed or are a risk to themselves or others are not prescribed antipsychotic medication unless de-escalation techniques (Communication approaches) are ineffective or inappropriate. modification of environment • Pharmacological treatment of underlying cause  Sedation  When to use? Sedation should only be used as a last resort and preferably only once the cause of the delirium has been established.  Which drug? Haloperidol 0.5 mg orally : the 2006 Royal College of Physicians guidelines' recommended haloperidol 0.5 mg as the first-line sedative Olanzapine: the 2010 NICE delirium guidelines advocate the use of haloperidol or olanzapine Mirtazapine enhances both noradrenergic and serotinergic transmission, would be a good antidepressant choice for an emaciated agitated elderly patients. (medical-masterclass.com 2017 mrcp part 2) Mirtazapine blocks alpha-2, 5-HT2A and 5-HT3 receptors, thus increasing the amounts of both noradrenaline and serotonin in the synaptic gap. It also has a high affinity for H1 receptors, so it tends to cause weight gain and drowsiness, a good choice for a thin agitated patient.  For how long? short-term (usually for 1 week or less) haloperidol or olanzapine  Contraindications avoid antipsychotics in patients Parkinson's disease or dementia with Lewy bodies. Hypnogogic and hypnopompic hallucinations Definition • Hypnogogic hallucinations: occur at the transition from wakefulness to sleep • hypnopompic hallucinations: occur at the transition from sleep to wakefulness. Features • Hallucinations can be visual, tactile, auditory or other sensory events, such as changes in location of body parts, and feelings of levitation or out of body experiences. • Visual and auditory hallucinations are most common. Treatment • No specific treatment is required; • some patients appear to benefit from tricyclic antidepressants, although they were not endorsed by a Cochrane review. Third edition Notes & Notes For MRCP part 1 & 2 By Dr. Yousif Abdallah Hamad Ophthalmology Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Acute angle closure glaucoma (AACG) Definition: sudden and sharp increase in intraocular pressure (IOP) caused by an obstruction of aqueous outflow (most commonly as a result of an occlusion of the iridocorneal angle ) Pathophysiology: blockage of the trabecular meshwork → ↓ drainage of aqueous humor from the eye → ↑ IOP Image: mechanism of AACG Risk factors • hypermetropia (long-sightedness) • lens growth associated with age • neovascular glaucoma (new blood vessels grow into the angle of the eye and block the aqueous outflow). Vascular endothelial growth factor (VEGF) is a growth factor protein that works by stimulating angiogenesis. Hence, inhibiting VEGF (e.g. Bevacizumab) can stop the progression of neovascularization. • Drugs: pupillary dilatation by mydriatic drops, anticholinergics (e.g., atropine) and tricyclic antidepressants Features • Sudden onset of symptoms • Unilaterally inflamed, reddened, and severely painful eye (hard on palpation) • Blurred vision and halos seen around light • Mid-dilated, irregular, unresponsive pupil • Frontal headaches, vomiting, nausea • Complications: rapid permanent vision loss due to ischemia and atrophy of the optic nerve symptoms worse with mydriasis (e.g. watching TV in a dark room) Diagnosis • Tonometry: → Elevated IOP (> 21 mm Hg) • Gonioscopy: the gold-standard diagnostic test →Narrowing/closure of the iridocorneal angle. Management • urgent referral to an ophthalmologist • Acetazolamide intravenously, along with a topical beta-blocker and a topical alpha-agonist 064 - Pages 1576-1600 064 Pages 1576-1600 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Reducing aqueous secretions with acetazolamide and inducing pupillary constriction with topical pilocarpine. • Pilocarpine should not be the initial treatment as it is ineffective at pressures above 40 mmHg. • Mannitol is typically reserved for refractory cases, not responding to the initial medical treatment. Top Tips Do not use mydriatic drugs (e.g., atropine and epinephrine) during ophthalmologic examination in patients with acute angle-closure glaucoma! Moreover, do not cover the eye, since darkness induces mydriasis and worsens the condition Primary open-angle glaucoma (POAG) Epidemiology: • The most common type of glaucoma. present in 2% of people older than 40 years. • Second leading cause of blindness following age-related macular degeneration (AMD). Pathophysiology • Secondary clogging of the trabecular meshwork or reduced drainage → gradual ↑ in IOP → vascular compression → ischemia to the optic nerve → progressive visual impairment. Risk factors: age, family history, black patients, myopia, hypertension, diabetes mellitus Features: • bilateral, progressive visual field loss (from peripheral to central) (Loss of nasal visual field) progressing to 'tunnel vision' • Fundoscopy: cupping and pallor of optic disc Management: • Eye drops to lower intra-ocular pressure (IOP) • Laser trabeculoplasty An alternative first-line treatment refractory to pharmacotherapy Chapter 12 Ophthalmology Medication Mode of action Notes Prostaglandin analogues (e.g. Latanoprost) Increases uveoscleral outflow hypokalemia, renal stones, acidosis, and aplastic anemia. Beta-blockers (e.g. Timolol) Reduces aqueous production Should be avoided in asthmatics and patients with heart block Sympathomimetics (e.g. brimonidine, an alpha2adrenoceptor agonist) Reduces aqueous production and increases outflow Avoid if taking MAOI or tricyclic antidepressants Adverse effects include hyperaemia Carbonic anhydrase inhibitors (e.g. acetazolamide) Reduces aqueous production Systemic absorption may cause sulphonamide-like reactions Miotics (e.g. pilocarpine, a muscarinic receptor agonist) Increases uveoscleral outflow Adverse effects included a constricted pupil, headache and blurred vision Age related macular degeneration (AMD) Epidemiology • The most common cause of blindness Pathophysiology • progressive degenerative changes in the central part of the retina (macula) → visual impairment Risk factors: • Advanced age, smoking Classification Dry AMD (nonexudative, atrophic) Prevalence ∼90% ∼10% Pathophysiology Deposition of drusen (yellow round spots) in the retinal pigment epithelium. Choroidal neovascularization (between the retinal pigment epithelium and Bruch's membrane) Onset slow progressive visual impairment (usually over decades) acute or insidious onset (over weeks to months) Presentation Bilateral manifests in one eye Fundoscopy Drusen (a small, yellowish, granular, subretinal deposits that are age related). Subretinal and intraretinal hemorrhage and/or exudate. if neovascularisation is present fluorescein angiography is performed Treatment Supportive: stop smoking Diet: high dose of beta-carotene, vitamins C and E, and zinc. Supplements should be avoided in smokers due to an increased risk of lung cancer Symptoms Reduced visual acuity: 'blurred', 'distorted' vision, central vision is affected first (central scotomas) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Once daily administration Preferred first-line therapy. should be used first-line in patients with a history of asthma. Adverse effects: brown pigmentation of the iris, growth of eyelashes Epithelial keratopathy Systemic: paresthesia, Wet AMD (exudative , neovascular) First-line: injection of VEGF inhibitors (ranibizumab, bevacizumab, pegaptanib) into the vitreous body. Differential diagnosis Differential diagnosis of vision loss Condition Clinical features Fundoscopy Age related macular degeneration • May be insidious (dry AMD) or rapid (wet AMD) onset • Impairment of central vision only (vision loss is rare) Open-angle glaucoma • Insidious onset • Peripheral vision loss (tunnel vision) Central Vessel occlusion (retinal artery) • Acute or subacute onset • Complete vision loss • Swollen disc • Retinal haemorrhages • Cotton wool spots Retinal detachment • Acute onset • Partial or complete vision loss (falling curtain) Cataract • Insidious onset • Blurred, dim vision, and a glare • Absent or opacified red-reflex Top tips Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Drusen • Macula depigmentation • Disc cupping with high intraocular pressure • Detached or floating retina • Retina may not be visible (in advanced disease) The fundus shows small pale dots over the macular area typical of drusen. This is macular degeneration and one of the commonest causes of blindness. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Cataracts Definition • opacification of the lens Causes • Majority age related (Senile cataracts)  the most common cause 17% of people older than 40 years 50% of people older than 75 years UV light • Systemic diabetes mellitus steroids  Inhaled steroids can cause cataracts infection (congenital rubella) metabolic:  diabetes  hypocalcaemia,  galactosaemia but if the galactosaemia is treated, the cataract is reversible. myotonic dystrophy, Down's syndrome • Ocular trauma uveitis high myopia topical steroids Feature • Symptoms painless, progressive, and slow vision loss • Physical exam absent red reflex Classification • Nuclear sclerosis: the most common type of cataract, involves the central or 'nuclear' part of the lens. common in old age reduction of vision is the major symptom. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad change lens refractive index,  often leads to an increase in refractive power of the lens causing nearsightedness (problems with distance vision). • Polar: localized, commonly inherited, lie in the visual axis • Subcapsular: glare is the major symptom  Glare is difficulty seeing in the presence of bright light such as direct or reflected sunlight or artificial light such as car headlamps at night. due to steroid use, just deep to the lens capsule, in the visual axis Posterior subcapsular cataracts are associated with:  retinitis pigmentosa  chronic steroid use. Anterior subcapsular cataracts are associated with:  idiopathic or  secondary to trauma and iotragenic causes. • Dot opacities common in normal lenses, also seen in:  diabetes  myotonic dystrophy Diabetic retinopathy See endocrinology Angioid retinal streaks • Angioid retinal streaks are seen on fundoscopy as irregular dark red streaks radiating from the optic nerve head. They are caused by degeneration, calcification and breaks in Bruch's membrane . Causes A useful mnemonic for angioid retinal streak is SLAPPERS: • S - Sickle-cell anaemia • L - Lead poisoning • A - Abetalipoproteinaemia/acromegaly • P - Paget's disease /phacomatoses (tuberous, sclerosis, neurofibromatosis, SturgeWeber) • P - Pseudoxanthoma elasticum • E - Ehlers-Danlos syndrome • R - Raised calcium or phosphate • S - Short people (dwarfism). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Mydriasis Causes of mydriasis (large pupil) • third nerve palsy • Holmes-Adie pupil • traumatic iridoplegia • phaeochromocytoma • congenital • Drug causes of mydriasis topical mydriatics: tropicamide, atropine sympathomimetic drugs: amphetamines, pseudoephedrine, amphetamines and cocaine, anticholinergic drugs: eg antihistamines, atropine and tricyclic antidepressants Poisons (atropine, CO, ethylene glycol). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Miosis Causes of small pupils include: • Horner's syndrome • Old age • Pontine haemorrhage • Argyll Robertson pupil • Drugs, and • Poisons (opiates, organophosphates). Holmes-Adie pupil Abnormally dilated pupil (mydriasis) which does not constrict in response to light, loss of deep tendon reflexes, and abnormalities of sweating. Holmes-Adie pupil is a benign condition most commonly seen in women. It is one of the differentials of a dilated pupil. Overview • unilateral in 80% of cases • dilated pupil (tonically dilated pupil) • slowly reactive to accommodation but very poorly (if at all) to light • once the pupil has constricted it remains small for an abnormally long time • associated with absent ankle/knee reflexes and impaired sweating The cause of the associated arreflexia is unknown. Pathophysiology • Viral or bacterial infection causes damage to neurons in the ciliary ganglion, located in the posterior orbit, that provides parasympathetic control of eye constriction. • damage to the dorsal root ganglia of the spinal cord problems with autonomic control of the body. Diagnosis • testing with low dose (1/8%) pilocarpine may constrict the tonic pupil due to cholinergic denervation super-sensitivity. A normal pupil will not constrict with the dilute dose of pilocarpine. Argyll-Robertson pupil • the prostitute's pupil - accommodates but doesn't react. • Another mnemonic used for the Argyll-Robertson Pupil (ARP) is Accommodation Reflex Present (ARP) but Pupillary Reflex Absent (PRA) Features • small, irregular pupils • no response to light but there is a response to accommodate Causes • diabetes mellitus • syphilis (neurosyphilis) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Anisocoria • is a condition characterized by an unequal size of the eyes' pupils. • Affecting 20% of the population, • it can be an entirely harmless condition or a symptom of more serious medical problems • The history of anisocoria, with headaches and diplopia should ring alarm bells, in that a life-threatening posterior communicating artery aneurysm/berry aneurysm needs to be excluded urgently. Optic atrophy • Optic atrophy is a descriptive term, it is the optic neuropathy that results in visual loss • Usually bilateral and causes a gradual loss of vision. • On fundoscopy optic atrophy is seen as pale, well demarcated disc. • Causes may be acquired or congenital Acquired causes • multiple sclerosis • papilloedema (longstanding) • raised intraocular pressure (e.g. glaucoma, tumour) • retinal damage (e.g. choroiditis, retinitis pigmentosa) • ischaemia • toxins: tobacco amblyopia, quinine, methanol, arsenic, lead • nutritional: vitamin B1, B2, B6 and B12 deficiency Congenital causes • Friedreich's ataxia • mitochondrial disorders e.g. Leber's optic atrophy  usually affects young men. It causes sequential optic neuropathies in days to weeks. It is typically painless and severe. Visual acuity fails to improve. Mutations in the MT-ND1, MT-ND4, MT-ND4L, and MT-ND6 genes  These genes are contained in mitochondrial DNA. Specifically, more than 50% of males with a mutation and more than 85% of females with a mutation never experience vision loss or related medical problems. • DIDMOAD - the association of cranial Diabetes Insipidus, Diabetes Mellitus, Optic Atrophy and Deafness (also known as Wolfram's syndrome) Optic neuritis The patient sees nothing and the doctor sees nothing • Optic neuritis is a broad term which can be used to describe inflammation, degeneration or demyelination of the optic nerve. • Optic neuritis is very rare in people over the age of 50. • It encompasses a number of conditions, including: Papillitis (anterior optic neuritis) - the intraocular portion of the nerve is affected, and the optic disc is swollen  It is important to note that the disc changes in papilloedema may closely resemble those of papillitis but visual acuity is markedly reduced in papillitis and not papilloedema. Retrobular neuritis - the distal portion of the optic nerve is affected, and the disc is therefore not swollen Neuroretinitis - optic disc and adjacent temporal retina are affected. Causes • multiple sclerosis • diabetes • syphilis Features • unilateral decrease in visual acuity over hours or days Visual loss typically occurs over days rather than hours. Sudden visual loss due to optic neuritis is very unusual. Optic neuritis presents with a particular type of central visual loss - a central scotoma. • poor discrimination of colours, 'red desaturation' - ie when red looks paler to one eye than the other - • The retrobulbar neuritis seen with ethambutol may be unilateral or bilateral; as such unilateral symptoms do not preclude the diagnosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad This patient has optic atrophy as revealed by a particularly pale disc. Causes include: • Glaucoma • External compression of the optic nerves, for example, pituitary tumour, and • Multiple sclerosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology • pain worse on eye movement • relative afferent pupillary defect during the 'swinging flashlight test'. • central scotoma • Most cases of optic neuritis are retrobulbar and hence there are no abnormalities on fundoscopy. the most likely finding on fundoscopy Normal optic disc Diagnosis • MRI with gadolinium of the brain will likely show enhancement of the optic nerve • Abnormal visual evoked potentials (VEP) Management • high-dose steroids Methylprednisolone pulse therapy is the standard treatment  slightly shortens the time of recovery but does not prevent neurodegeneration and persistent visual impairment. • recovery usually takes 4-6 weeks • erythropoietin may have neuroprotective effects in autoimmune optic neuritis Prognosis • MRI: if > 3 white-matter lesions, 5-year risk of developing multiple sclerosis is c. 50% • Retrobulbar neuritis has the same systemic implications as optic neuritis, in that an episode of optic or retrobulbar neuritis can contribute to a diagnosis of multiple sclerosis Relative afferent pupillary defect • Also known as the Marcus-Gunn pupil, a relative afferent pupillary defect is found by the 'swinging light test'. • It is caused by a lesion anterior to the optic chiasm i.e. optic nerve or retina Causes • retina: detachment • optic nerve: optic neuritis e.g. multiple sclerosis Pathway of pupillary light reflex • afferent: retina → optic nerve → lateral geniculate body → midbrain • efferent: Edinger-Westphal nucleus (midbrain) → oculomotor nerve Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Swinging flashlight test & Relative afferent pupillary defect RAPD (Marcus Gunn pupil) • The Marcus Gunn pupil is a relative afferent pupillary defect indicating a decreased pupillary response to light in the affected eye • In the swinging flashlight test, a light is alternately shone into the left and right eyes. • A normal response would be equal constriction of both pupils, regardless of which eye the light is directed at. This indicates an intact direct and consensual pupillary light reflex. • When the test is performed in an eye with an afferent pupillary defect, light directed in the affected eye will cause only mild constriction of both pupils (due to decreased response to light from the afferent defect), while light in the unaffected eye will cause a normal constriction of both pupils (due to an intact efferent path, and an intact consensual pupillary reflex). Thus, light shone in the affected eye will produce less pupillary constriction than light shone in the unaffected eye. • A positive RAPD is due to retinal or optic nerve disease. due to the consensual response of the pupillary light reflex, shining light in the unaffected eye will produce bilateral miosis. shining light in the affected eye will not produce miosis because the afferent limb of the pupillary light reflex pathway is damaged (eg: optic neuritis) However, due to the bilateral projections of nerves from the Edinger-Westphal nucleus, light shined in the unaffected eye will produce bilateral miosis. This phenomenon is called a consensual response. Herpes simplex keratitis • Herpes simplex keratitis most commonly presents with a dendritic corneal ulcer Features • red, painful eye • photophobia • epiphora • visual acuity may be decreased • fluorescein staining may show an epithelial ulcer (dendritic corneal ulcer) Management • immediate referral to an ophthalmologist • topical aciclovir Herpes zoster ophthalmicus • Herpes zoster ophthalmicus (HZO) describes the reactivation of the varicella zoster virus in the area supplied by the ophthalmic division of the trigeminal nerve. • It accounts for around 10% of case of shingles. Features • vesicular rash around the eye, which may or may not involve the actual eye itself • Hutchinson's sign: rash on the tip or side of the nose. Indicates nasociliary involvement and is a strong risk factor for ocular involvement Management • Oral antiviral treatment for 7-10 days, ideally started within 72 hours. Topical antiviral treatment is not given in HZO • oral corticosteroids may reduce the duration of pain but do not reduce the incidence of postherpetic neuralgia • ocular involvement requires urgent ophthalmology review Complications • ocular: conjunctivitis, keratitis, episcleritis, anterior uveitis • ptosis • post-herpetic neuralgia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Blepharitis • Blepharitis is inflammation of the eyelid margins. • It may due to either meibomian gland dysfunction (common, posterior blepharitis) or seborrhoeic dermatitis/staphylococcal infection (less common, anterior blepharitis). • Blepharitis is also more common in patients with rosacea • The meibomian glands secrete oil on to the eye surface to prevent rapid evaporation of the tear film. Any problem affecting the meibomian glands (as in blepharitis) can hence cause drying of the eyes which in turns leads to irritation Features • symptoms are usually bilateral • grittiness and discomfort, particularly around the eyelid margins • eyes may be sticky in the morning • eyelid margins may be red. Swollen eyelids may be seen in staphylococcal blepharitis • styes and chalazions are more common in patients with blepharitis • secondary conjunctivitis may occur Management • softening of the lid margin using hot compresses twice a day • mechanical removal of the debris from lid margins - cotton wool buds dipped in a mixture of cooled boiled water and baby shampoo is often used* *an alternative is sodium bicarbonate, a teaspoonful in a cup of cooled water that has recently been boiled • artificial tears may be given for symptom relief in people with dry eyes or an abnormal tear film Keratitis Definition • Keratitis refers to inflammation of one or more of the three corneal layers, the most common of which is epithelial keratitis. This is characterised by dendritic ulcers. Rarer forms involve the stroma or endothelium. Causes • Pseudomonas aeruginosa is commonly associated with contact lens related infections. • The management must also include advising the patient to discontinue wearing contact lenses and referral to a specialist ophthalmic unit. • Recurrence is common. Keratitis overview Characteristic features Therapy Bacterial keratitis Most common form of keratitis (typically Staph. aureus ↑ Risk with wearing contact lenses Pseudomonas is seen Purulent discharge and/or hypopyon in contact lens Round corneal infiltrate or ulcer wearers.) Herpes zoster keratitis ↓ Corneal sensation Punctate lesions on the corneal surface (early disease) Vesicular eruption on forehead, bridge, and tip of the nose Herpes simplex Dendritic or geographic corneal ulcer Topical trifluridine or ganciclovir keratitis Acanthamoeba ↑ Risk with wearing contact lenses keratitis Corneal ring infiltrate Features • Red eye: pain and erythema (sharp ocular pain) • photophobia • blurred vision (in many cases). • Microbial keratitis, causing a white corneal infiltrate • foreign body, gritty sensation • hypopyon may be seen Dendritic ulcers • caused by herpes simplex virus. • Presentation is usually with pain, photophobia, blurred vision, conjunctivitis and chemosis. • Steroid eye drops are contraindicated as they may induce massive amoeboid ulceration and blindness. • treated with aciclovir eye drops, which should be continued for three days after the ulcer has healed. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Topical broad-spectrum antibiotics (e.g., ciprofloxacin) Oral acyclovir, valacyclovir, or famciclovir Topical steroids Topical antiseptic (e.g., chlorhexidine) with propamidine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Red eye There are many possible causes of a red eye. It is important to be able to recognise the causes which require urgent referral to an ophthalmologist. Below is a brief summary of the key distinguishing features Acute angle closure glaucoma • severe pain (may be ocular or headache) • decreased visual acuity, patient sees haloes • semi-dilated pupil • hazy cornea Anterior uveitis • Features acute onset pain blurred vision and photophobia small, fixed oval pupil, ciliary flush sign on ocular examination →Hypopyon • Iritis is associated with conditions such as: Reiter's  Behcet's  Psoriatic arthropathy (about 20%) inflammatory bowel disease. • Signs of anterior uveitis Keratic precipitates: (opaque aggregates of inflammatory cells deposited on the endothelium in anterior uveitis. They are typically located inferiorly. Cells +/- flare +/- fibrin in the anterior chamber Ciliary injection - localised conjunctival injection (redness) around the limbus Posterior synechiae - where part of the pupil margin becomes stuck to the lens Hypopyon (in severe anterior uveitis). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Scleritis Definition • inflammation that occurs throughout the entire thickness of the sclera, Aetiology • may be underlying autoimmune disease e.g. rheumatoid arthritis Around 50% of patients with scleritis have an underlying disease, of which the majority are connective tissue disorders. Rheumatoid arthritis is the most common. Features • severe pain (may be worse on movement) and tenderness pain in scleritis is more evident and severe than episcleritis. Tenderness to palpation of the globe can differentiate it from episcleritis. After asking the patient to look down with eyelids closed, the physician gently presses the globe. Patients with scleritis have tenderness on palpation, while those with episcleritis do not. Unlike scleritis, patients with episcleritis do not complain of blurred vision or photophobia. Studies have shown that patients with RA-associated scleritis have more widespread systemic disease and a higher mortality rate than those episcleritis. • 50% of cases are bilateral. • Pain often radiates to the forehead, brow and jaw. This pain worsens with movement of the eye, and is classically worse at night. • There is associated watering, photophobia and a gradual decrease in vision (sometimes with diplopia). • Systemic symptoms such as fever, headache and vomiting can occur. • On examination the globe is tender, and the sclera can have a bluish tinge. • visual acuity is normal • there is marked dilatation of the deep and superficial scleral vessels. • Scleritis may cause thinning of the sclera (scleromalacia) and subsequent perforation. Treatment • Management ultimately depends on the underlying cause, but includes NSAIDs and prednisolone. • The patient should be referred urgently to the ophthalmology clinic • Application of topical phenylephrine 2.5% leads to blanching of episcleral vessels in episcleritis but not in scleritis. Episcleritis Scleritis is painful, episcleritis is not painful • Results in ocular irritation with nodules. • acute in onset, with mild pain or discomfort / grittiness. • can be unilateral or bilateral, with localised or diffuse red eye. • There may be mild photophobia and watering. The lack of photophobia and discharge, and normal vision, makes episcleritis the most likely option Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Ocular manifestation of rheumatoid arthritis (see rheumatology ) Conjunctivitis • Purulent discharge if bacterial, clear discharge if viral • Viral conjunctivitis causes redness, soreness and watering. In severe cases it can cause a keratitis which may affect vision. It is highly contagious so patients should be advised to practise strict hand hygiene, to avoid sharing towels and to take time off work. It is a self-limiting disease which may take several weeks to resolve.  Patients are treated with topical lubricants and some ophthalmologists give topical chloramphenicol to protect against secondary bacterial infections. Subconjunctival haemorrhage • history of trauma or coughing bouts • adverse effect of aspirin therapy (and other antiplatelets). • It usually resolves over 10-14 days. • If the haematoma is large it may be worth considering prophylactic antibiotic eyedrops. Posterior uveitis • Posterior uveitis describes inflammation of the choroid, which can involve the retinal vessels. • presents with gradual visual loss and floaters, which is often bilateral. • Discomfort and erythema are rare. • Slit light examination can demonstrate inflammatory lesions on the retina or choroid, with inflammation of the retinal vessels and oedema of the optic nerve. Retinitis CMV Retinitis: causes hemorrhage at the edge of the area of retinal necrosis • Retinitis is inflammation of the retina in the eye, which may lead to blindness. • may be caused by several infectious agents, toxoplasmosis, cytomegalovirus and candida. • Cytomegalovirus retinitis is the most common cause of vision loss in AIDS patients. Toxocara retinitis • In retinitis due to Toxocara canis, there is usually only a single, well demarcated lesion. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The slide shows the typical appearance of Toxocara retinitis with a lesion at the macula. Retinitis pigmentosa Definition • Retinitis pigmentosa is a degenerative disease involving retinal receptors and pigment cells. Pathophysiology • degeneration of rod photoreceptor cells in the retina night blindness and low peripheral vision There are two types of photoreceptors, called rods and cones.  Rods are in the outer regions of the retina, and allow us to see in dim and dark light. Died early night blindness  Cones reside mostly in the central portion of the retina, and allow us to perceive fine visual detail and color. Died in the late stages Features • night blindness is often the initial sign • funnel vision (the preferred term for tunnel vision) • fundoscopy: black bone spicule-shaped pigmentation in the peripheral retina, mottling of the retinal pigment epithelium Associated diseases • Refsum disease: cerebellar ataxia, peripheral neuropathy, deafness, ichthyosis • Usher syndrome • abetalipoproteinemia • Lawrence-Moon-Biedl syndrome • Kearns-Sayre syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology • Alport's syndrome • mitochondrial myopathy • drug-induced Thioridazine  (typical antipsychotic drug belonging to the phenothiazine group and was previously widely used in the treatment of schizophrenia and psychosis; withdrawn worldwide in 2005 because it caused severe cardiac arrhythmias,)  It is important to differentiate this from corneal deposits that may develop with the use of chlorpromazine. Thioridazine retinal deposits (retinitis pigmentosa). chlorpromazine corneal deposits Fundus showing changes secondary to retinitis pigmentosa Sudden painless loss of vision Causes Notes Central retinal vein occlusion • Incidence increases with age • More common than arterial occlusion • Causes : glaucoma, polycythaemia, hypertension, DM • Features: afferent pupillary defect On fundoscopy:  widespread dot-and-blot and/or flame-shaped hemorrhages in all four retinal quadrants  Cotton wool spots characterized by yellow-white deposits on the retina caused by swelling of retinal nerve fibers due to ischemia  Severe macular edema and papilledema • Fluorescein angiography: in order to differentiate ischemic from nonischemic forms of retinal vein occlusion Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Causes Notes Branch retinal vein occlusion • Features: Usually asymptomatic No afferent pupillary defect the hemorrhages are found in a single zone. Central Retinal artery occlusion • Causes: thromboembolism (from atherosclerosis) or arteritis (e.g. temporal arteritis) • Features: Sudden, painless loss of vision in one eye (often described as a “descending curtain”) afferent pupillary defect, history of amaurosis fugax, often describes as a 'black curtain' descending over the vision. On fundoscopy: 'cherry red' spot on a pale retina,  Grayish-white (cloudy) discoloration of the entire retina  Cherry-red spot at the fovea centralis Branch retinal artery occlusion • Features: Sudden onset of visual field defects (scotomas) in the affected eye No afferent pupillary defect, On fundoscopy: Grayish-white discoloration of the retinal quadrant supplied by the affected vessel Retinal detachment • Risk factors: Previous intraocular surgery (e.g., cataract surgery), posterior vitreous detachment • Most commonly due to retinal tears → retinal fluid, which is formed by vitreous degeneration, seeps into the subretinal space → retinal detachment • Features: Prodromal symptoms: result from posterior vitreous detachment (floaters, flashes of light (photopsia) Localized retinal detachment: scotoma (visual field defect): Dense shadow that starts peripherally progresses towards the central vision Straight lines appear curved Extensive retinal detachment and/or macular involvement: Central visual loss (often described by patients as a curtain descending over their field of vision) Fundoscopy: A freshly detached retina has a grey color instead of the normal pink color and may appear crinkled. A retinal tear may be visible Vitreous haemorrhage • Causes : bleeding disorders, DM → Proliferative retinopathy → rupture fragile neovascular vessels (most common cause) • Features: Large bleeds cause sudden visual loss Moderate bleeds may be described as numerous dark spots Small bleeds may cause floaters Fundoscopy: inability to visualise the retina Amaurosis fugax • Definition: sudden, painless loss of vision that lasts for seconds to minutes and is followed by spontaneous recovery (mostly unilateral) • Cause: retinal ischemia following transient occlusion of the central retinal artery by microemboli • Complications: Transient ischemic attacks (TIA) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Posterior vitreous detachment • Occur in up to 50-75% of the population over 65 years • Features: Flashes of light (photopsia) - in the peripheral field of vision Floaters, often on the temporal side of the central vision • Complications: Retinal tears/holes, retinal detachment, Vitreous hemorrhage Images Central vein occlusion: Flame-shaped hemorrhage is visible in all four retinal quadrants. Central retinal artery occlusion: Narrow retinal arteries and a pale retina with early signs of nerve fiber layer edema are visible. The fovea centralis appears red (cherry-red spot; due to the transparency of the well-vascularized choroid, as no nerve fibers are present in the fovea avascular zone. Therefore, there is no edema. Retinal detachment: The retina is visible as a yellow-grey, bullous elevation in the upper part of the image. Green overlay: detached retina Red overlay: tear Fundus Photograph of Vitreous Haemorrhage Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad An elderly patient with acute visual loss has giant cell arteritis until proved otherwise The history of diabetes, complete loss of vision in the affected eye and inability to visualise the retina point towards a diagnosis of vitreous haemorrhage. Nasal branch retinal vein occlusion sudden blurring (not total visual loss) of the temporal field in the affected eye. Of all types of retinal vessel occlusion, ischemic Central Retinal Vein Occlusion is most commonly associated with neovascularization. Tunnel vision Tunnel vision (also known as Kalnienk vision) is the loss of peripheral vision with retention of central vision, resulting in a constricted circular tunnel-like field of vision. Causes • papilloedema • glaucoma • retinitis pigmentosa • choroidoretinitis • optic atrophy secondary to tabes dorsalis • hysteria Ectopia lentis Ectopia lentis/subluxation of the lens is associated with: • Ehlers-Danlos syndrome • Marfan's syndrome • Weill-Marchesani syndrome (short stature, skeletal abnormalities and ectopia lentis), and • Refsum's disease. Fundoscopic features in eye infections • Cytomegalovirus (CMV) retinitis secondary to human immunodeficiency virus (HIV) Fundoscopy of the left eye revealed an extensive 'brushfire-like' lesion in the major superior temporal arcade with a large patch of white fluffy lesion mixed with extensive retinal haemorrhages. • Ocular histoplasmosis and syphilitic choroiditis would give a fundus picture of multiple whitish lesions. • Syphilitic neuroretinitis would normally give a picture of a macular star exudation. • Tuberculous periphlebitis gives a picture of perivenous sheathing and minimal retinal haemorrhages. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 12 Ophthalmology Eye signs in Systemic diseases • Lisch nodules of the iris are golden nodules occurring bilaterally in the teenage years onwards in Neurofibromatosis type 1 (NF-1). Axillary freckles appear at 10 years of age, while cafe au lait spots increase in size and number throughout childhood. • Brushfield spots of the iris are found in people with Down syndrome. • Kayser-Fleischer rings are due to copper deposition in Descemet's membrane of the cornea. • Band keratopathy is caused by calcium deposition in Bowman's layer of the cornea. Patients who present with band keratopathy should have a serum calcium and phosphate level • Ectopia lentis with aortic regurgitation Marfan syndrome (Lens dislocation (classically upwards)). Inferior dislocated lens consistent with a diagnosis of homocytinstinuria. • Roth's spots haemorrhages in the retina associated with subacute bacterial endocarditis. also, seen in leukaemia. • 'black sunburst' - a chorioretinal scar, which is one of the commoner retinal manifestations of Sickle cell disease (SCD) and pathognomonic. Hyphaema Overview • Occurs when bleeding from iris vessels fills the anterior chamber with blood and if there is enough blood • the main risk in the acute stage is of raised intraocular pressure (IOP). • It is usually caused by trauma - often small objects (champagne corks, squash balls) hitting the eye. Treatment • Strict rest is vital if a hyphaema is present, as there is an increased risk of a second bleed in the initial period. • Intravenous carbonic anhydrase inhibitors is the most appropriate treatment • Aspiration may be required to prevent loss of vision. • avoid drops that dilate the pupil (such as anticholinergics) the iris remains stable and a second bleed is therefore less likely. The slide shows hyphaema: blood in the anterior chamber. Third edition Notes & Notes For MRCP part 1 & 11 Dr. Yousif Abdallah Hamad Pharmacology Updated By Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Basic pharmacology Pharmacokinetics: metabolism • Drug metabolism usually involves two types of biochemical reactions - phase I and phase II reactions. • The majority of phase I and phase II reactions take place in the liver • Phase I reactions: oxidation, reduction, hydrolysis.  Mainly performed by the P450 enzymes but some drugs are metabolised by specific enzymes, for example alcohol dehydrogenase and xanthine oxidase.  Products of phase I reactions are typically more active and potentially toxic • Phase II reactions: conjugation.  Products are typically inactive and excreted in urine or bile.  Glucuronyl, acetyl, methyl, sulphate and other groups are typically involved Drug absorption • Diffusion.  Most drug absorption in the gastrointestinal tract occurs by diffusion.  For diffusion to occur:  the drug must be dissolved so that individual drug molecules come into contact with the gut epithelium,  the drug must be lipid soluble so that it can cross the cell membrane.  Because the cell membrane is lipoid, lipid-soluble drugs diffuse most rapidly.  Drugs that are not ionized are lipid soluble and most likely to be well absorbed from the gastrointestinal tract.  The ionized form has low lipid solubility (but high water solubility—ie, hydrophilic) and high electrical resistance and thus cannot penetrate cell membranes easily. • Theoretically, weakly acidic drugs (eg, aspirin) are more readily absorbed from an acid medium (stomach) than are weakly basic drugs (eg, quinidine). However, whether a drug is acidic or basic, most absorption occurs in the small intestine because the surface area is larger and membranes are more permeable In the elderly population, phase I reactions will usually become impaired before phase II reactions. Lipid soluble drug vs lipid insoluble drug lipid soluble drug lipid insoluble drug have good gastrointestinal absorption have poor gastrointestinal absorption can be given orally may need to be given parenterally will be widely distributed in the body (large volume of distribution) has limited distribution (may not cross bloodbrain barrier or placenta and less likely to be stored in fat tissue) usually requires metabolism before elimination (to decrease lipid solubility) often have a long plasma half-life (prolonged by ‘reservoir’ of drug in tissues and by requirement for metabolism). MRCPUK-part-1-Sep 2017: What is the mechanism that make salmeterol acts as a LABA? Its long duration results from its high lipid solubility Lipophilic, Hydrophilic and Amphiphilic Chemical nature Clinical significance Example • can easily diffuse across the lipid bilayer of the cell membrane. Lipophilic • Predominantly nonpolar compounds can be administered topically can across the bloodbrain barrier • Metabolised in the liver and then excreted through the bile duct • can only cross the lipid bilayer via facilitated transport • Smaller hydrophilic molecules can diffuse along a concentration gradient through pores in the membrane • eliminated by the kidneys Hydrophilic • Predominantly polar compounds Amphiphilic • Both lipophilic and hydrophilic Local anesthetics, e.g., lidocaine Drug metabolism in patients with advanced liver disease • Plasma proteins fall in liver disease and may negatively affect drug distribution • Both intrahepatic and extrahepatic cholestasis may affect the metabolism of drugs that are actively secreted into bile, eg ciprofloxacin • Conjugation reactions are affected to a lesser extent by advanced liver disease and only occur in very late stage disease Pharmacokinetics in chronic renal failure • Renal failure disturbs virtually every kinetic parameter including: gastric absorption hepatic metabolism of some drugs protein binding volume of distribution Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad may be eliminated without metabolism often have a short plasma half-life as elimination does not require metabolism. • Scopolamine (hydroscine) Tertiary amine Used to treat motion sickness • Butylscopolamine (hyoscine butylbromide) Quarternary amine Used as an antispasmodic to treat GI colic 065 - Chapter 13 065 Chapter 13 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • The bioavailability of an intravenously administered drug is 100% and does not change in renal failure What is the reason for phenytoin toxicity in patient with chronic renal failure?  Decreased protein binding of phenytoin  In CRF, drugs lose some of their affinity for protein binding →↑↑ availability of free drug at any given dose → toxicity  Because laboratory assays for phenytoin usually measure total drug concentration, this give a false re-assurance (drug level may be within therapeutic range)  In CRF dose reduction of phenytoin is therefore required  Other drugs may cause same problem → sodium valporate and warfarin First-pass metabolism • This is a phenomenon where the concentration of a drug is greatly reduced before it reaches the systemic circulation due to hepatic metabolism.  As a consequence much larger doses are need orally than if given by other routes. • This effect is seen in many drugs, including:  Aspirin  isosorbide dinitrate  glyceryl trinitrate  lignocaine  propranolol  verapamil  isoprenaline  testosterone  hydrocortisone  morphine • Drugs with high first-pass metabolism should be used with caution in liver disease, since poor hepatic function may lead to their accumulation because of increased bioavailability What is the reason for a different dose of sublingual glyceryl trinitrate (GTN) and oral isosorbide mononitrate?  First-pass metabolism Drug kinetics (first order + zero order kinetics) • In drugs which have saturation kinetics → initially Small doses of the drug lead to a linear increase in serum drug concentration(follow a linear line) → first order kinetics • Then their metabolism slows down leading to a plateau of the line, for example due to enzyme depletion. Small doses in the drug then lead to large increases in plasma concentration → zero order kinetics. • Types of drug kinetics  Zero order kinetics:  The rate of metabolism and/or elimination remains constant and is independent of the plasma concentration of a drug at steady state (Cp decreases linearly over time)  Zero-order is a capacity-limited elimination.  Examples include  ethanol  phenytoin  aspirin (at high concentrations)  heparin  First order kinetics:  The rate of metabolism and/or elimination is directly proportional to the plasma concentration of the drug (Cp decreases exponentially over time)  First-order is a flow-dependent elimination.  Applies to most drugs Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Zero-order kinetics • Zero-order kinetics describes: metabolic pathways becoming saturated resulting in constant amount of drug being eliminated per unit time (metabolism which is independent of the concentration of the reactant). • This explains why people may fail a breathalyser test in the morning if they have been drinking the night before • Drugs following zero order kinetics continue to be metabolised at a steady rate, independent of the concentration of the substrate. • The plot of metabolism against time is linear. Drugs exhibiting zero-order kinetics Phenytoin Salicylates (e.g. high-dose aspirin) Heparin Ethanol Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Acetylator status • 50% of the UK population are deficient in hepatic N-acetyltransferase • Greater than 60% of Japanese are recognised to be fast acetylators • Approximately 50% of black and Caucasian people are 'slow acetylators' and the rest are 'rapid acetylators'. • The majority of Eskimos and Orientals are 'rapid acetylators'. • Slow acetylation → ↑↑drug concentrations → ↑↑toxicity from drugs adverse effects. • Fast acetylation:  ↓↓response to the drug effect  ↑↑ blood levels of the toxic metabolite Drugs affected by acetylator status (slow acetylators → increased unwanted effects) isoniazid  Slow acetylation →↑↑drug concentrations → (peripheral neuropathy and toxic hepatitis hydralazine → drug-induced lupus dapsone → haemolysis and neuropathy but not fibrosis sulfasalazine → haemolysis procainamide Half-life ↑↑ lipid solubility  ↑↑tissue binding of the drug  ↓↓ renal and hepatic clearance rate  ↑↑ half life • The half-life is the time taken for the concentration of a drug to reduce by 50% • Plasma half-life is the most important pharmacokinetic factor in determining the appropriate timing between doses • The half-lives are related to: lipid solubility (amiodarone, fluoxetine and diazepam are very lipid-soluble) the rate of drug clearance Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Steady state: Drug concentration stays constant because the rate of drug elimination equals the rate of drug administration • It takes 1 half-life to reach 50% of the steady-state level, 2 half-lives to reach 25%, 3 halflives to reach 12.5%, and 4 half-lives to reach 6.25%. • Complete steady-state attainment takes 4–5 half-lives for drugs infused at a constant rate; 90% of steady-state level is reached after 3.3 half-lives • Amiodarone the longest half-life = 25 days , fluoxetine 53 h; diazepam 43 h; gentamicin 2-3 h; and bumetanide 0.8 h After 4 half-lives, more than 90% of the drug is eliminated Trough level • The lowest concentration reached by a drug before the next dose is administered, often used in therapeutic drug monitoring. • Half-life is the major determinant of trough concentration. • A peak is the highest level of a medication in the blood, while a trough level indicates the lowest concentration. Affinity & efficacy Drug affinity • a measure of the tendency of a drug to bind to its receptor Drug efficacy • the maximum degree to which a drug activates receptors after binding and triggers a cell response Potency • The potency of a drug is measured as the concentration required to produce a pharmacological response of a specified intensity. • Not related to efficacy (drugs with a high potency can have a low efficacy) but dependent on affinity Therapeutic index • a measurement of the safety of a drug • The greater the therapeutic index, the safer the drug • Drugs with a narrow therapeutic index require monitoring (e.g., lithium, theophylline, warfarin, digoxin, and antiepileptic drugs). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Dosage intervals Loading dose Why is a loading dose used in amiodarone? Because Amiodarone is widely bound in body tissues • Definition: the amount of an initial dose of a certain drug needed to reach a target plasma concentration • Formula: loading dose = (Cp x Vd) / F Cp = target peak plasma concentration at steady state (mg/L or units/L) Vd = volume of distribution (L/kg) F = bioavailability • In patients with renal and/or liver dysfunction, loading dose (which does not depend on drug clearance) and time to steady-state are usually unaffected. • Tissue-binding sites must be ‘filled up' by a loading dose before a therapeutic plasma concentration can be achieved. • Metabolism/elimination/clearance rates and plasma half-life determine the time taken to achieve a steady-state plasma concentration and the level of that steady-state concentration when a steady dosing regimen is established. • The loading dose is mainly dependent on the volume of distribution of a drug but in patient with moderate renal failure it depends on renal clearance. • Volume of distribution becomes important particularly when body weight is 40 kg or less. • What is the main factor that determines the choice of loading dose of digoxin in patient with high creatinine? Renal clearance  Digoxin is cleared by the kidneys, so the maintenance dose would require adjustment in renal failure.  In digoxin both the initial loading dose and the maintenance dose must be reduced in patients with underlying renal disease. • Most useful for drugs which have a long half-life such as: Amiodarone Digoxin Teicoplanin  antibiotic inhibit bacterial cell wall synthesis.  spectrum of activity similar to vancomycin against Gram-positive bacteria including Staphylococci and Clostridium spp. Oral teicoplanin is effective in the treatment of pseudomembranous colitis Voriconazole Procainamide Fulvestrant (selective estrogen receptor degrader (SERD). used to treat hormone receptor (HR)-positive metastatic breast cancer) Renal or liver conditions lower the maintenance dose without affecting the loading dose. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Maintenance dose • Definition: The amount of a certain drug needed to achieve a steady target plasma concentration. • Formula: maintenance dose = (Cp x Cl * τ) / F  Cp = target plasma concentration at steady state (mg/L)  Cl = clearance (L/h)  τ = dosing interval (hours)  F = bioavailability • In patients with renal and/or liver dysfunction, maintenance dose is decreased (because of impaired drug clearance) and time to steady-state is unchanged (time to steady state depends on t½). Loading dose vs maintenance dose: • Loading doses usually do not need to be adjusted in patients with chronic kidney disease, but maintenance doses should be adjusted by: dose reduction, lengthening the dosing interval, or both. • in renal or liver disease, dosage of the same drug when given as maintenance dose is decreased and when it is given as loading dose is usually unchanged. Clinical trial: phases Clinical trials are commonly classified into 4 phases; Phase Goal Notes I Determines pharmacokinetics and pharmacodynamics and side-effects prior to larger studies Conducted on healthy volunteers II Assess efficacy + dosage Involves small number of patients affected by particular disease May be subdivided into: • IIa - assesses optimal dosing • IIb - assesses efficacy III Assess effectiveness Typically involves 100-1000's of people, often as part of a randomised controlled trial, comparing new treatment with established treatments IV Postmarketing surveillance Monitors for long-term effectiveness and sideeffects How many patients would need to be recruited to detect one adverse event? • Roughly speaking, to detect one adverse event in a clinical trial you would need to enrol three times as many patients as the expected event frequency • So If the frequency expected was 1 in 10 000, then you would need to recruit 30 000 patients The main factor influencing the time to steady-state is Half-life (t½), not dose or administration frequency. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Prodrugs Definition • A drug that, on administration, must undergo chemical conversion by metabolic processes before becoming an active pharmacological agent; (a precursor of a drug). Prodrug Active form Note Levodopa Dopamine converted by dopa decarboxylase to dopamine in the brain (in the striatum). Enalapril Enalaprilat S-methyldopa Alpha methylnorepinephrine It is converted to αmethylnorepinephrine by dopamine betahydroxylase →activation of α2 adrenergic receptors in the brainstem → ↓sympathetic output →↓ BP. Loratadine desloratadine non-sedating antihistamine Terfenadine fexofenadine • non-sedating antihistamine • Terfenadine, withdrawn from the market because of serious side effect. • fexofenadine, is safe, does not carry the same risks as the parent compound. salicin salicylic acid salicin is a β-D-glucopyranoside that is cleaved by esterases to release salicylic acid. codeine and morphine (morphineglucuronides) codeine and morphine is enzymatically activated to form sugar derivatives (morphine-glucuronides) that are more active than the parent compound Mercaptopurine Methymercaptopurine ribonucleotide Fluouracil Fluororidine monophosphate Cyclophosphamide Aldophosphamide, Phosphormide mustard Sulfasalazine 5-Aminosalicyclic acid Becampicillin Ampicillin Prednisone Prednisolone Proguanil Proguanil triazine Antimalarial is an inhibitor of dihydrofolate reductase Hydrazide MAO inhibitors Hydrazine derivatives Dipivefrine Epinephrine used to treat open-angle glaucoma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad P450 enzyme system 3 "O" antibiotics inhibitOrs  isOniazid , ciprOfloxacine , erythrOmycin 1 "C " antibiotic induCer  rifampiCine Induction usually requires prolonged exposure to the inducing drug, as opposed to P450 inhibitors, where effects are often seen rapidly Inhibitors of the P450 system include • antibiotics: ciprofloxacin, erythromycin • isoniazid • cimetidine, omeprazole • amiodarone • allopurinol • imidazoles: ketoconazole, fluconazole • SSRIs: fluoxetine, sertraline • sulphonamides • Disulfiram • ritonavir • sodium valproate • acute alcohol intake • quinupristin Inducers of the P450 system include: • antiepileptics: phenytoin, carbamazepine • barbiturates: phenobarbitone • rifampicin • St John's Wort • chronic alcohol intake • griseofulvin • smoking (affects CYP1A2, reason why smokers require more aminophylline) Carbamazepine is an inducer of the P450 system. This in turn increases the metabolism of carbamazepine itself - auto- induction Chapter 13 Pharmacology P450 drug interactions: more detail the most important and common reason for drug interactions is the P450 CYP3A4 system. The table below shows the main enzyme systems that are affected by common drugs. P450 system Substrates Inhibitors Inducers CYP3A4 Macrolides Antiretrovirals Calcium channel blockers simvastatin Macrolides Protease inhibitors (including ritonavir) Imidazoles grapefruit juice CYP2D6 Tricyclic antidepressants Antipsychotics SSRIs Ritonavir CYP2C9 Warfarin Sulfonylureas Imidazoles Amiodarone Sodium valproate CYP1A2 Theophylline Ciprofloxacin Smoking Omeprazole CYP2E1 Alcohol Chronic alcohol Isoniazid Interestingly, codeine and dihydrocodeine are metabolised by cytochrome P450 2D6 to morphine, which provides the analgesic effect; therefore, those patients who are CYP-2D6 poor metabolisers will have a reduced analgesic effect with codeine or Dihydrocodeine CYP-2C8 CYP-2C18/19 CYP-2D6 Omeprazole Diazepam Tricyclic antidepressants Diazepam Tricyclic antidepressants β-blockers Barbiturates Omeprazole Dihydrocodeine Proguanil Ecstasy (MDMA) Selective serotonin reuptake inhibitors Drug interactions with cytochrome P450 • Drug interactions with the cytochrome P450 system are only clinically significant for drugs that have a narrow therapeutic index (ie small changes in plasma concentrations lead to the drug concentration being either sub-therapeutic or toxic) • Examples of these drugs include:  Ciclosporin  warfarin  theophylline and  phenytoin • Lithium has a narrow therapeutic index owing to changes in absorption and excretion and does not interact with cytochrome P450 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Carbamazepine Phenytoin Phenobarbitone Rifampicin St John's Wort Rifampicin Drugs required therapeutic monitoring Antiepileptics Antiarrhythmics • Carbamazepine • Phenobarbital • Phenytoin • Valproic Acid • Digitoxin • Digoxin • Lidocaine • NAPA • Procainamide Immunosuppressants Antimanics • Cyclosporine • Mycophenolic Acid • Sirolimus • Tacrolimus • Lithium Drug induced manifestations Drug causes gingival hyperplasia Drug causes of gingival hyperplasia • phenytoin • Ciclosporin • calcium channel blockers (especially nifedipine) Other causes of gingival hyperplasia include • acute myeloid leukaemia (myelomonocytic and monocytic types) Drugs causing photosensitivity • thiazides • tetracyclines, sulphonamides, ciprofloxacin • amiodarone • NSAIDs e.g. piroxicam • psoralens • sulphonylureas Drugs causing specific skin reactions • Psoriatic-type reactions are most commonly caused by beta-blockers • Antibiotics may cause lupus-type reactions, erythema multiforme, Stevens–Johnson syndrome and erythroderma • Warfarin is associated with alopecia, as are cytotoxic agents and antithyroid agents • Phenytoin may cause both acne and gingival hyperplasia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Antibiotics • Gentamicin • Tobramycin • Vancomycin Bronchodilators • Theophylline Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Drug affects folic acid metabolism Drugs which inhibit dihydrofolate reductase are: • Methotrexate • Pyrimethamine, and • Trimethoprim. Drugs which interfere with absorption/storage of folate are: • Phenytoin • Primidone, and • Oral contraceptives. Drug causes SIADH most commonly causes SIADH Other causes • Thiazide diuretics • Vincristine • Vinblastine • Cyclophosphamide • Chlorpropamide • Carbamazepine • Phenothiazines • Tricyclic antidepressants • Clofibrate • Oxytocin • Vasopressin • Morphine • Barbiturates • Nicotine Drug causes of urticaria The following drugs commonly cause urticaria: • aspirin • penicillins • NSAIDs • opiates Drugs induced galactorrhoea Drug causes of raised prolactin • metoclopramide, Domperidone  Domperidone is a dopamine antagonist producing large rises in prolactin concentrations. • phenothiazines • haloperidol • Cimetidine produces hyperprolactinaemia only when given intravenously (IV). • very rare: SSRIs, opioids Drugs associated with gynaecomastia • Spironolactone (the most common), causes gynaecomastia by several mechanisms.  block androgen production by inhibiting enzymes in the testosterone synthetic pathway,  block receptor binding of testosterone and dihydrotestosterone.  increases free oestrogen levels by displace oestradiol from sex hormone binding globulin (SHBG) Other causes • inhibitors of testosterone synthesis:  ketoconazole  metronidazole  cimetidine, Omeprazole  etomidate, and  cisplatin. • Oestrogens:  Digoxin → direct action at oestrogen receptors. • LHRH analogues • Finasteride. Drug-induced impaired glucose tolerance • Drugs which are known to cause impaired glucose tolerance include:  thiazides, furosemide (less common)  steroids  tacrolimus, ciclosporin  interferon-alpha  nicotinic acid  atypical antipsychotics e.g. olanzapine • Beta-blockers an glycemic status:  beta -2-adrenergic antagonism  inhibition of hepatic gluconeogenesis  unselective beta-blockade associated with hypoglycemia (e.g. propranolol rather than the use of beta-1 selective blockers e.g. atenolol, metoprolol).  selective beta-1 blockers would not lead to hypoglycaemia - however "...in patients with abnormal energy requirements or metabolism, administration of beta 1-selective-adrenergic antagonists may be associated with hypoglycaemia  Beta-blockers cause a slight impairment of glucose tolerance.  They should also be used with caution in diabetics as they can interfere with the metabolic and autonomic responses to hypoglycaemia Drug-induced lupus erythematosus The most commonly associated drugs • procainamide • hydralazine 2, • anti-TNF alpha agents, • statins • isoniazid • minocycline. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • marijuana • heroin • isoniazid • Ciclosporin • calcium-channel blockers • ACE inhibitors • tricyclic antidepressants • busulphan • diazepam Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Drug-induced Pancytopaenia Drug causes of Pancytopaenia • cytotoxics • antibiotics: trimethoprim, chloramphenicol • anti-rheumatoid: gold, penicillamine • carbimazole (causes both agranulocytosis and pancytopaenia) • anti-epileptics: carbamazepine • sulphonylureas: tolbutamide • Although both azathioprine and mesalazine cause pancytopenia, it is more commonly seen in patients undergoing azathioprine therapy. Drug-induced thrombocytopenia Drug-induced thrombocytopenia (probable immune mediated) • quinine • abciximab • NSAIDS • diuretics: furosemide • antibiotics: penicillins, sulphonamides, rifampicin • anticonvulsants: carbamazepine, valproate • heparin Sulfa drugs • Hypersensitivity reactions to sulfa medications are common and are usually limited to pruritic rashes. • An acronym for remembering sulfa drugs is Popular FACTSSS:  Probenecid,  Furosemide,  Acetazolamide,  Celecoxib,  Thiazides,  Sulfonamide antibiotics,  Sulfasalazine,  Sulfonylureas. • Furosemide  Most loop diuretic, such as furosemide are sulfa-containing drugs,  sulfa-containing drugs can cause interstitial nephritis.  Interstitium is the site of furosemide toxicity.  For these patients, ethacrynic acid can be used instead, because it does not contain a sulfa group. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Disulfiram Action • Alcohol antagonist drug used to treat chronic alcoholism • Ethanol is metabolized by two enzymes: Alcohol dehydrogenase, which is located in the cytosol, converts ethanol to acetaldehyde. Aldehyde dehydrogenase, which is located in the mitochondria , converts acetaldehyde to acetyl CoA. Both enzymes require NAD+ for function. • Disulfiram is an inhibitor of aldehyde dehydrogenase and causes accumulation of acetaldehyde, leading to severe nausea and vomiting if alcohol is consumed. Disulfiram reaction • The elevations in serum acetaldehyde levels cause the symptoms of disulfiram reaction which include:  flushing,  headache,  nausea, vomiting  sweating  blurred vision,  dyspnea,  palpitations, hypotension, chest pain and syncope. • avoid all alcohol-containing products (e.g., cough and cold syrups, mouthwash, or foods containing alcohol) while taking this medication. • Disulfiram typically causes an acute hepatitis like syndrome 2 to 12 weeks after starting the medication that can be severe and lead to acute liver failure or need for liver transplantation. Disulfiram  inhibitor of Aldehyde dehydrogenase, which is located in the mitochondria Fomepizole  inhibitor of Alcohol dehydrogenase, which is located in the cytosol The target of disulfiram is located in which cellular compartments?  Mitochondria Drug-induced ethanol intolerance (disulfiram-like reaction) • As in the case with disulfiram, the underlying mechanism is believed to be the accumulation of acetaldehyde in the blood, due to inhibition of the hepatic aldehyde dehydrogenases. • drugs which can produce DISULFIRAM like reaction when taken with Alcohol:  chloramphenicol,  furazolidone,  nitroimidazole antibiotics, including metronidazole, and  quinacrine,  First-generation sulfonylureas, e.g. tolbutamide and chlorpropamide  cephalosporins, including cefoperazone, cefamandole and cefotetan  antifungal eg: Griseofulvin  Procarbazine Chapter 13 Pharmacology Drug-induced long QT Commonly medications that cause QT prolongation class Examples Antiarrhythmic • Amiodarone • Disopyramide • Ibutilide • Procainamide • Quinidine • Sotalol antipsychotics • Chlorpromazine • Clozapine • Haloperidol • Quetiapine • Risperidone • Thioridazine antibiotics • Azithromycin • Clarithromycin • Erythromycin • Ciprofloxacin • Levofloxacin • Ofloxacin • Trimethoprim – sulpha • Ketoconazole • Fluconazole • itraconazole Antidepressants • Amitriptyline • Citalopram • Desipramine • Doxepin • fluoxetine • Imipramine • Nortriptyline • Paroxetine • Sertraline • venlavaxine Antiemetics • Ondansetron • prochlorperazine Drugs causing ocular problems Visual disturbance cataract Corneal opacities Yellowgreen tinge Drug steroids Amiodarone Indomethacin Sildenafil can cause both blue discolouration and non-arteritic anterior ischaemic neuropathy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Optic neuritis Retinopathy Blue tinge in vision Sildenafil Digoxin Ethambutol Amiodarone Metronidazole Chloroquine, quinine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Drug induced photosensitivity Rash on the forearms and face is typical of a photosensitivity rash • Thiazides • Tetracyclines, sulphonamides, ciprofloxacin • Amiodarone • NSAIDs e.g. Piroxicam • Psoralens • Sulphonylureas Mnemonic: FAST-N (Fluoroquinolones eg: cipro. Amiodarone. Sulfo.Tetracyclines. NSAIDs) Drug induced ototoxicity • Causes  Aminoglycosides  Streptomycin → irreversible cochlear and vestibular dysfunction  Platinum-based antineoplastic agents,  Salicylates  Quinine  Loop diuretics. • Ototoxicity is typically associated with bilateral high-frequency sensorineural hearing loss and tinnitus. • The time of onset is unpredictable:  marked hearing loss can occur even after a single dose.  may occur several weeks or months after completion of antibiotic or antineoplastic therapy. • Usually irreversible with most agents. Drug induced seizures • Drugs that cause seizures as a drug reaction include:  Isoniazid (vitamin B6 deficiency)  Bupropion,  Imipenem/cilastatin  Tramadol  Enflurane Isoniazid, Bupropion, Imipenem/cilastatin, Tramadol, Enflurane. With seizures, I BITE my tongue. Drug causes erythema multiforme, and the Stevens-Johnson syndrome subtype. • Allopurinol → (the Most commonly associated) • Recent drugs - nevirapine, lamotrigine, sertraline, pantoprazole, tramadol • Antibiotics - sulphonamides, co-trimoxazole, penicillin, cephalosporins, fluoroquinolones, vancomycin • NSAIDs - piroxicam, fenbufen, ibuprofen, ketoprofen, naproxen, tenoxicam, diclofenac, sulindac Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • Anti-TB - rifampicin, ethambutol, isoniazid, pyrazinamide • Anticonvulsants - barbiturates, carbamazepine, phenytoin, valproate, lamotrigine • Antifungals - fluconazole, nystatin, griseofulvin • Antidepressants - lamotrigine, sertraline. • Sulfasalazine Drugs which act on serotonin receptors • Below is a summary of drugs which are known to act via modulation of the serotonin (5-HT) system. • It should be noted that 5-HT receptor agonists are used in the acute treatment of migraine whilst 5-HT receptor antagonists are used in prophylaxis. Agonists • sumatriptan is a 5-HT1D receptor agonist which is used in the acute treatment of migraine • ergotamine is a partial agonist of 5-HT1 receptors Antagonists • pizotifen is a 5-HT2 receptor antagonist used in the prophylaxis of migraine attacks. • Methysergide is another antagonist of the 5-HT2 receptor but is rarely used due to the risk of retroperitoneal fibrosis • cyproheptadine is a 5-HT2 receptor antagonist which is used to control diarrhoea in patients with carcinoid syndrome • ondansetron is a 5-HT3 receptor antagonist and is used as an antiemetic 5HT-2 receptor inhibition • 5HT-2 receptor inhibition also reduces platelet aggregation • one example is sarpogrelate developed in North East Asia primarily as an alternative to aspirin because of its association with a lower risk of haemorrhage. Drugs that can be cleared with Hemodialysis - mnemonic: BLAST • Barbiturate • Lithium • Alcohol (inc methanol, ethylene glycol) • Salicylates • Theophyllines (charcoal hemoperfusion is preferable) Drugs which cannot be cleared with HD include • Tricyclics • Benzodiazepines (diazepam, midazolam, alprazolam) • Dextropropoxyphene (co-proxamol) • Digoxin, β-blockers Cardiovascular drugs Prescribing in patients with heart failure The following medications may exacerbate heart failure: • thiazolidinediones: pioglitazone is contraindicated as it causes fluid retention  pioglitazone is now the only thiazolidinedione on the market • verapamil: negative inotropic effect • NSAIDs & glucocorticoids: should be used with caution as they cause fluid retention  low-dose aspirin is an exception - many patients will have coexistent cardiovascular Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad disease and the benefits of taking aspirin easily outweigh the risks • class I antiarrhythmics; flecainide (negative inotropic and proarrhythmic effect) • Celecoxib (rofecoxib has been withdrawn) acts by inhibiting prostaglandin synthesis via inhibition of cyclo-oxygenase-2 (COX-2).It causes fluid retention and can worsen an already pre-existing heart failure. The CSM reminds prescribers that celecoxib is contraindicated in:  patients with severe congestive heart failure,  active peptic ulceration  or gastrointestinal bleeding. Antiarrhythmics: Vaughan Williams classification The Vaughan Williams classification of antiarrhythmics is still widely used although it should be noted that a number of common drugs are not included in the classification e.g. adenosine, atropine, digoxin and magnesium AP = action potential Class Examples Mechanism of action Ia Quinidine Procainamide Disopyramide Block sodium channels Increases AP duration Notes: • Quinidine toxicity causes cinchonism (headache, tinnitus, thrombocytopaenia) • Procainamide may cause drug-induced lupus • Disopyramide toxicity  Urinary retention Ib Lidocaine Mexiletine Tocainide Block sodium channels Decreases AP duration Ic Flecainide Encainide Propafenone Block sodium channels No effect on AP duration II Propranolol Atenolol Bisoprolol Metoprolol Beta-adrenoceptor antagonists III Amiodarone Sotalol Ibutilide Bretylium Block potassium channels IV Verapamil Diltiazem Calcium channel blockers Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Antiarrhythmic agents • Calcium-channel blockers act mainly on (SA) (AV) nodes (direct membrane effect), as these structures are almost exclusively depolarised by the slow calcium channels • Flecainide binds to the sodium channel and decreases the speed of depolarisation (in other words, decreases conduction velocity) (Slows the upstroke of the action potential) • Atenolol decreases sympathetic tone • Amiodarone and sotalol increase the action-potential duration and therefore the refractory periods  they have little effect on conduction velocity  Sotalol have a high risk of producing torsades de pointe • Class V agents (digitalis agents) affect SA and AV nodes by increasing vagal tone Atropine Action • Atropine is an antagonist of the muscarinic acetylcholine receptor Uses • Treatment of organophosphate poisoning • Bradycardia , heart block Physiological effects • Tachycardia • Mydriasis • ↓ Secretions of exocrine glands • ↓ Tone and motility of smooth muscles (i.e., ↓ urgency in cystitis) • ↓ Cholinergic overactivity in CNS MRCPUK-part-1-january 2018 exam: Which physiological effect would be expected following administration of atropine? Tachycardia + mydriasis Adenosine Mechanism of action • causes transient heart block in the AV node • agonist of the A1 receptor which inhibits adenylyl cyclase thus reducing cAMP and causing hyperpolarization by increasing outward potassium flux • Acts on specific adenosine cell surface receptors (A1 and A2) • Stress testing: A2A adenosine receptor agonist;  activation of the A2A adenosine receptor produces coronary vasodilation and increases coronary blood flow • ↑ coronary vasodilatation (Adenosine is an important mediator of metabolic vasodilatation) • Increasing O2 demands are met by  adenosine production  vasodilatation  increased blood supply. • Adenosine effect on renal  In the renal vasculature, in contrast, adenosine can produce vasoconstriction  However, the vasoconstriction elicited by an intravenous infusion of adenosine is Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad only short lasting, being replaced within 1-2 min by vasodilatation.  It appears that the steady-state response to the increase of plasma adenosine levels is global renal vasorelaxation that is the result of A2A receptor activation  Adenosine lowers glomerular filtration rate (GFR) by constricting afferent arterioles, especially in superficial nephrons. In contrast, it leads to vasodilation in deep cortex and medulla. • ↓↓ sinus node automaticity and AVN conduction. • adenosine has a very short half-life of about 8-10 seconds • Inactivated by adenosine deaminase. Adverse effects • transient facial flushing (18%) (most common) • bronchospasm  Dyspnea (12%)  It should be avoided in asthmatics • choking sensation, where patients often clutch their chest • chest pain • can enhance conduction down accessory pathways, resulting in increased ventricular rate (e.g. WPW syndrome) Interaction • The effects of adenosine are enhanced by dipyridamole (anti-platelet agent)  Adenosine transported out of the cell to the extracellular space by specific bidirectional nucleoside transporters. Inhibitors of these transporters, such as dipyridamole, increase the extracellular concentrations of adenosine and are useful clinically to treat certain cardiovascular complications. • Adenosine effects blocked by theophyllines. • Unlike verapamil it may be used following β-blockade Adenosine is a coronary vasodilator (which is why we use it in cardiac stress testing) and a bronchoconstrictor (action opposed by theophylline). Flecainide Action • Flecainide is a Vaughan Williams class 1c antiarrhythmic. • It slows conduction of the action potential by acting as a potent sodium channel blocker.  Slows the upstroke of the action potential  does not alter the overall length of the action-potential duration. • This may be reflected by widening of the QRS complex and prolongation of the PR interval Indications • atrial fibrillation • SVT associated with accessory pathway e.g. Wolf-Parkinson-White syndrome Contraindications • post myocardial infarction  increase mortality Adverse effects • negatively inotropic • bradycardia • proarrhythmic • oral paraesthesia • visual disturbances Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Amiodarone • Amiodarone is a class III antiarrhythmic agent • used in the treatment of atrial, nodal and ventricular tachycardias. • metabolized in the liver via cytochrome P450 3A4. Action • The main mechanism of action is by blocking potassium channels which inhibits repolarisation and hence prolongs the action potential.  Amiodarone prolongs the refractory period of the cardiac conducting system.  Its antiarrhythmic effects are due mostly to the inhibition of the rapid component of the delayed potassium rectifier IKr channel (as with sotalol) but also have an effect on the slow component. • Amiodarone also has other actions such as blocking sodium channels (a class I effect) Several factors limit the use of amiodarone: • long half-life (20-100 days)  Because of its long half-life there is a potential for drug interactions to occur for several weeks after amiodarone has been stopped. • should ideally be given into central veins (causes thrombophlebitis) • has proarrhythmic effects due to lengthening of the QT interval • interacts with drugs commonly used concurrently e.g. Decreases metabolism of warfarin • numerous long-term adverse effects. Monitoring of patients taking amiodarone • TFT, LFT, U&E, CXR prior to treatment • TFT, LFT every 6 months  and for up to 12months after discontinuation of amiodarone  An increase of up to 40% above the baseline T4 is a normal effect of amiodarone. This occurs approximately 2 months after initiation of therapy & does not require discontinuation. Administration • 300 mg of amiodarone made up to 20 ml with 5% dextrose given as an intravenous bolus is the drug of choice in treating refractory ventricular fibrillation or pulseless ventricular tachycardia (100 mg of lidocaine may be given intravenously when amiodarone is unavailable). Adverse effects corneal deposits is the most common side effect hypothyroidism occur more frequently than hyperthyroidism • Thyroid dysfunction: both hypothyroidism and hyperthyroidism  Amiodarone blocks the peripheral conversion of thyroxine (T4) to triiodothyronine (T3)→ hypo (occurs in up to 20% of patients taking amiodarone)  It is also a potential source of large amounts of inorganic iodine → hyper (occurs in 3% of patients in iodine-deficient areas, but in 20% in areas where iodine is sufficient). • Corneal deposits  present in most patients,  almost universal in patients taking amiodarone therapy (at least 90%). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  rarely interfere with vision, becomes manifest by the presence of night-time visual glare, noticed while driving.  usually reversible on withdrawal of drug • Photosensitivity  Skin deposits result in photodermatitis and a greyish-blue discoloration on sun-exposed areas ('slate-grey' appearance (Skin sensitivity)  can be prevented by using a sun block • Pulmonary fibrosis/pneumonitis (5-7%). • Liver cirrhosis/hepatitis • Peripheral neuropathy, myopathy • Prolonged QT interval • Thrombophlebitis and injection site reactions • Bradycardia • Persistent slate-grey skin discoloration (ceruloderma)  more common in males than females.  the pigmentation consists of brownish-yellow deposits of amiodarone, iron and others (not including melanin or hemosiderin)  On biopsy of these lesions, which cell type is laden with pigment?  histiocytes of the dermis  appears in sun-exposed areas and is thought to be activated by an UVArelated hypersensitivity response.  Sun exposure is not recommended for patients on amiodarone.  Treatment  discontinuation of the drug  if not disappeared after discontinuation → laser-based therapy. • Neutropenia • Nightmares, sleep disturbance Important drug interactions of amiodarone • Decreased metabolism of warfarin, therefore increased INR  Decrease warfarin dose by 33- 50% and monitor the INR weekly • Increased digoxin levels  the dose of digoxin should be halved when patients are started on amiodarone. • There is an increased risk of ventricular arrhythmias when amiodarone is given with tricyclics, hence concomitant use should be avoided. For amiodarone and the thyroid gland (See Endocrinology chapter) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Dobutamine & Dopamine Dobutamine Dopamine Action • Direct Sympathomimetics (β1 receptor agonist) • β1> β2, agonist • positive inotropic effect chronotropic effects • D1 = D2 > β > α • Chronotropic effects at lower doses (β effect) • Vasoconstriction at high doses (α effect) Indications • Cardiogenic shock • Acute heart failure • Cardiac stress testing • Heart failure • Cardiogenic shock • Unstable bradycardia Adrenaline Adrenaline is a sympathomimetic amine with both alpha and beta adrenergic stimulating properties. The β- effect will cause significant tachycardia Indications • anaphylaxis • cardiac arrest Recommend Adult Life Support (ALS) adrenaline doses • anaphylaxis: 0.5ml 1:1,000 IM • cardiac arrest: 10ml 1:10,000 IV or 1ml of 1:1000 IV Management of accidental injection • local infiltration of phentolamine • An alternative possibility is locally applied GTN paste Anaphylaxis • Where there is a history of a typical allergic reaction, current United Kingdom resuscitation guidelines suggest adrenaline if there is: Stridor Wheeze Respiratory distress, or Clinical evidence of shock. • Adrenalin is used for its alpha-agonist effects that include increased peripheral vascular resistance and reversed peripheral vasodilatation, systemic hypotension, and vascular permeability. • Beta-agonist effects include bronchodilatation, chronotropic cardiac activity, and positive inotropic effects. • IM administration is preferred because of a superior safety profile with respect to cardiac adverse events compared with the IV route, although 1:10000 adrenalin IV may be used in a life-threatening situation. • The intramuscular (IM) route for adrenaline is the route of choice for most healthcare providers. • Adult EpiPen which allergy sufferers can carry with them contains 0.3 mg or 0.15 mg adrenaline in a 1:1000 dilution for intramuscular (IM) injection. Antiplatelets Overview of antiplatelet agents Overview of antiplatelet agents Group Agents Indications Adverse effects Irreversible cyclooxygen ase inhibitors Acetylsalicylic acid (aspirin) • Acute coronary syndrome • Ischemic stroke • Primary and secondary prevention of cardiovascular disease excretion P2Y12 receptor antagonists (ADP receptor inhibitors) • Clopidogrel • Prasugrel • Ticagrelor • Ticlopidine • Cangrelor • Dual antiplatelet therapy (with acetylsalicylic acid) in ACS • Alternative to aspirin Glycoprotein IIb/IIIa inhibitors • Abciximab • Eptifibatide • Tirofiban • High-risk patients with unstable angina/NSTEMI before undergoing PCI Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Reye syndrome • Aspirin exacerbated respiratory disease • GI upset • Salicylate toxicity • Affects the kidneys in a dosedependent manner  Low doses → uric acid retention  High doses → uric acid • Allergic reactions • Haemorrhage • GI upset • Acute thrombocytopenia • Haemorrhage Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Summary of latest guidance The table below summarises the most recent guidelines regarding antiplatelets: Diagnosis 1st line 2nd line NSTEMI Aspirin (lifelong) & clopidogrel (12 months) If aspirin contraindicated, clopidogrel (lifelong) STEMI Aspirin (lifelong) & clopidogrel (1m if no/bare stent, 12 m if drug-eluting stent) If aspirin contraindicated, clopidogrel (lifelong) TIA* Clopidogrel (lifelong) Aspirin (lifelong) & dipyridamole (lifelong) Ischaemic stroke Clopidogrel (lifelong) Aspirin (lifelong) & dipyridamole (lifelong) Peripheral arterial disease Clopidogrel (lifelong) Aspirin (lifelong) *the guidelines for TIA are based on the 2012 Royal College of Physicians National clinical guideline for stroke. These guidelines corrected the anomaly where patients who've had a stroke were given clopidogrel, but those who'd suffered a TIA were given aspirin + dipyridamole. Peri-Operative Management of Anticoagulation and Antiplatelet Therapy (British society for Haematology guidelines 2016) • Warfarin and other vitamin K antagonists  Emergency surgery in patients on warfarin  If surgery can wait for 6–8 h then 5 mg of intravenous phytomenadione can restore coagulation factors;  if this is not possible, anticoagulation can be reversed with 25–50 u/kg of fourfactor prothrombin complex concentrate  Consider bridging with treatment dose heparin in: Patients with a VTE within previous 3 months. Very high risk patients such as patients with a previous VTE whilst on therapeutic anticoagulation who now have a target INR of 3·5. Patients with a previous stroke/TIA in last 3 months. Patients with a previous stroke/TIA and three or more of the following risk factors:  Congestive cardiac failure  Hypertension (>140/90 mmHg or on medication)  Age >75 years  Diabetes mellitus mechanical heart valve (MHV) patients other than those with a bileaflet aortic valve and no other risk factors  the post-operative bridging (i.e. full dose anticoagulation) should not started until at least 48 h after high bleeding risk surgery although thromboprophylaxis should be given if indicated.  Warfarin should be stopped for 5 days before an elective procedure if anticoagulation needs to be discontinued • Antiplatelet therapy  aspirin monotherapy (for secondary prevention of cardiovascular disease) can be continued for most invasive non-cardiac procedures  Aspirin can be continued both before and after coronary artery bypass surgery The lifespan of a platelet is 7–10 days. If aspirin is held prior to surgery, it should be discontinued one week in advance. 066 - Pages 1626-1650 066 Pages 1626-1650 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Acetylsalicylic acid (ASA, aspirin) Overview • Aspirin works by blocking the action of both cyclooxygenase-1 and 2. • Cyclooxygenase is responsible for prostaglandin, prostacyclin and thromboxane synthesis. • Cyclo-oxygenase is an enzyme that converts arachidonic acid to thromboxane A2 (TXA2), a strong platelet agonist • Because the platelet has no protein synthetic apparatus the effects of aspirin are irreversible and last for the life of the platelet (8-10 days) • ↑ bleeding time (PT and PTT unchanged) • The blocking of thromboxane A2 formation in platelets reduces the ability of platelets to aggregate which has lead to the widespread use of low-dose aspirin in cardiovascular disease. • Until recent guidelines changed all patients with established cardiovascular disease took aspirin if there was no contraindication. Following the 2010 technology appraisal of clopidogrel this is no longer the case. Mechanism of action • ASA covalently attaches an acetyl group to COX. • Irreversible COX-1 inhibition → inhibition of thromboxane (TXA2) synthesis in platelets → inhibition of platelet aggregation (antithrombotic effect) • Onset of antiplatelet action: within minutes • Duration of antiplatelet action: 7–10 days • Irreversible COX-1 and COX-2 inhibition → inhibition of prostacyclin and prostaglandin synthesis → antipyretic, anti-inflammatory, and analgesic effect Effects • Low dose (below 300 mg/day): inhibition of platelet aggregation • Intermediate dose (300-2400 mg/day): antipyretic and analgesic effect • High dose (2400-4000 mg/day): anti-inflammatory effect What do the current guidelines recommend? • first-line for patients with ischaemic heart disease • Current NICE guidelines advise that people with acute upper gastrointestinal bleeding who take aspirin for secondary prevention of vascular events and in whom haemostasis has been achieved continue on low dose aspirin. • the U.S. Preventive Services Task Force (USPSTF), recommended that, for some people, aspirin can be used to help reduce their risk of cardiovascular disease and colorectal cancer. Potentiates • oral hypoglycaemics • warfarin • steroids Reye syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • Definition: a rare type of hepatic encephalopathy that is associated with aspirin use for viral illness in children < 19 years • Aetiology: aspirin use in individuals < 19 years of age with a febrile illness • Pathophysiology  accumulation of salicylate metabolites in the liver → mitochondrial injury and reversible inhibition of enzymes required for fatty acid oxidation; acute encephalopathy  Hyperammonemia → cerebral edema → ↑ ICP • Features  Preceding viral infection (e.g., influenza, varicella or viral gastroenteritis)  Acute encephalopathy  Severe vomiting  coma  Liver failure  Fatty degeneration  Hepatomegaly • Diagnostics: clinical diagnosis; further testing to rule out other causes (diagnosis of exclusion)  ↑ AST and ALT  Hyperammonemia  Hypoglycemia  Liver biopsy: microvesicular hepatic steatosis • Prevention  Aspirin should be avoided in individuals < 19 years of age  Exception: children with Kawasaki disease • Prognosis →Mortality rate: ∼ 20% In hypersensitive patients aspirin can cause: • Angioedema • Bronchospasm, and • Urticaria (skin rashes). ASA can be continued normally if patient is going for dental procedure Aspirin is not considered to be safe in breast-feeding due to the risk of causing Reye's syndrome in the baby. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Salicylate overdose The mixed respiratory alkalosis and metabolic acidosis in a sweaty, confused patient point towards salicylate overdose. The development of pulmonary edema suggests severe poisoning and is an indication for hemodialysis. Tinnitus is characteristic and salicylate toxicity may produce deafness. Overview • A key concept for the exam is to understand that salicylate overdose leads to a mixed respiratory alkalosis and metabolic acidosis.  Early stimulation of the respiratory centre leads to a respiratory alkalosis  later the direct acid effects of salicylates (combined with acute renal failure) may lead to an acidosis. • The metabolic acidosis can increase the transfer of salicylates across the blood-brain barrier, thereby increasing CNS toxicity Features • Early features:  hyperventilation (centrally stimulates respiration)  respiratory alkalosis  the most prominent feature of the early period after aspirin overdose  tinnitus: typically occurs at plasma salicylate concentrations above 400-500 mg/l  vertigo  lethargy  sweating, pyrexia  salicylates cause the uncoupling of oxidative phosphorylation leading to decreased adenosine triphosphate production, increased oxygen consumption and increased carbon dioxide and heat production  peripheral vasodilatation and bounding pulse  nausea/vomiting → dehydration • Later features:  metabolic acidosis  by uncoupling oxidative phosphorylation, leading to a build- up of organic acids in the blood.  hyperglycaemia and hypoglycaemia  Hypoglycaemia is commonly seen in children but not in adults  seizures  coma  Although decreased consciousness is seen in aspirin overdose, it is seen late, and is associated with severe metabolic acidosis and hypokalaemia.  Early presentation with coma will suggest that another drug has been taken in addition to aspirin. Treatment • No specific antidote • The management is supportive, with measures to prevent further absorption from the gastrointestinal tract and enhance excretion. • General (ABC, charcoal) Multi-dose activated charcoal may be indicated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  activated charcoal should be repeated as bezoars may form, resulting in delayed absorption of salicylate. This should continue until salicylate levels have peaked. • Urinary alkalinization  alkalinisation of the urine should be considered in patients with a plasma level > 300 mg/L.  urine and serum alkalinization through intravenous sodium bicarbonate ( 1.25% or 8.4% )  By alkalinizing the urine, charged salicylic acid will become protein bound and secreted through the proximal tubule, which minimizes the diffusion of uncharged salicylate back into the renal epithelium.  The ionisation of a weak acid, such as salicylic acid, is increased in an alkaline environment.  The administration of an intravenous infusion of sodium bicarbonate aiming for a urinary pH of 7.5-8 will increase the excretion of the acid 10-fold.  Alkalinization of the serum further promotes diffusion of salicylate out of the brain. • Haemodialysis  Indications for haemodialysis in salicylate overdose  serum concentration > 700mg/L  metabolic acidosis resistant to treatment  acute renal failure  pulmonary oedema  neurological impairment (coma, hallucinations or seizures) Clopidogrel Most (PPIs) ↓ Clopidogrel effect but lansoprazole is OK • Clopidogrel is an antiplatelet agent used in the management of cardiovascular disease. • Clopidogrel belongs to a class of drugs known as thienopyridines which have a similar mechanism of action. Other examples include:  prasugrel  ticagrelor  ticlopidine Mechanism (Inhibition of the platelet ADP receptor) • antagonist of the P2Y12 adenosine diphosphate (ADP) receptor, inhibiting the activation of platelets Indications • clopidogrel is used in addition to aspirin in patients with an acute coronary syndrome. The dose is 300 mg. • NICE now recommend clopidogrel first-line following an ischaemic stroke and for peripheral arterial disease. • Recent Royal College of Physician (RCP) guidelines support the use of clopidogrel in TIAs. However the older NICE guidelines still recommend aspirin + dipyridamole Interactions • concurrent use of proton pump inhibitors (PPIs) may make clopidogrel less effective (MHRA July 2009) • this advice was updated by the MHRA in April 2010, evidence seems inconsistent but omeprazole and esomeprazole still cause for concern. Other PPIs such as lansoprazole should be OK Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Clopidogrel • action → antagonist of the P2Y12 adenosine diphosphate (ADP) receptor, inhibiting the activation of platelets • other members of the same class (thienopyridines):  prasugrel  ticagrelor  ticlopidine • Indications → 1st line for : ACS , an ischaemic stroke , TIA and peripheral arterial disease. • Interaction → most (PPIs) ↓ Clopidogrel effect but lansoprazole is OK Prasugrel • a third-generation thienopyridine antiplatelet agent • ADP receptor inhibitors • advantages compared with clopidogrel  faster onset of action,  greater potency in the inhibition of adenosine-induced platelet aggregation,  more consistent antiplatelet response • Prasugrel is contra-indicated in patients with prior transient ischaemic attack or stroke.  In the TRITON-TIMI 38 trial, patients in this group had a higher rate of stroke when taking Prasugrel compared with those taking Clopidogrel. IIb/IIIa inhibitors (eg: Abciximab) • Other members of this drug group  abciximab  eptifibatide  tirofiban • Action  monoclonal antibody antagonizes IIb/IIIa glycoprotein receptor on activated platelets • prevents platelet aggregation • Abciximab is a humanised monoclonal antibody Phosphodiesterase III (PDE) inhibitors (dipyridamole & cilostazol ) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Mechanism of action • inhibits phosphodiesterase → increase platelet cAMP (due to decreased breakdown of cAMP) → reduce intracellular calcium levels → inhibition of platelet aggregation. • direct arterial vasodilation  inhibits cellular uptake of adenosine → more available to act on coronary vessels → vasodilation • inhibition of thromboxane synthase Indications • Dipyridamole is an antiplatelet mainly used in combination with aspirin after an ischaemic stroke or transient ischaemic attack • Cilostazol is currently licensed for the management of patients with intermittent claudication without rest pain and with no signs of tissue necrosis.  It is a first-line medication for the treatment of claudication caused by peripheral artery disease (PAD).  Trials show an improvement in time to initial pain on walking and maximal walking distance when compared to placebo.  metabolised by cytochrome P450 3A4. Contraindications • known bleeding tendencies (e.g. active peptic ulcer disease, previous haemorrhagic stroke in the last 6 months). • Asthmatics (may provoke bronchospasm) Angiotensin-converting enzyme (ACE) inhibitors Mechanism of action • Inhibit the conversion angiotensin I to angiotensin II Indications • hypertension  first-line treatment in younger patients with hypertension and are also extensively used to treat  less effective in treating hypertensive Afro-Caribbean patients. • diabetic nephropathy • heart failure. • secondary prevention of IHD. Side-effects • Cough:  occurs in around 15% of patients  may occur up to a year after starting treatment.  Thought to be due to increased bradykinin levels  The enzyme ACE is also responsible for the metabolism of bradykinin in mast cells and ACEi leads to its bradykinin accumulation  This phenomenon is not seen in subjects taking angiotensin receptor blockers such as losartan. • Angioedema:  may occur up to a year after starting treatment  ACE inhibitors are the most common cause of drug-induced angioedema Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad (swelling of his lips and tongue ) • Hyperkalaemia • ACEi  dilate the efferent arteriole of the glomerulus, ↓GFR  ↑ creatinine and BUN. • 1st-dose hypotension: more common in patients taking diuretics Cautions and contraindications • Pregnancy and breastfeeding – avoid ( ACEi & ARB  renal dysgenesis in the fetus) Exposure to ACE inhibitors in the first trimester  showed a significant increase in major (in particular, cardiovascular) congenital malformation. • Renovascular disease - significant renal impairment may occur in patients who have undiagnosed bilateral renal artery stenosis • Aortic stenosis - may result in hypotension • Patients receiving high-dose diuretic therapy (more than 80 mg of furosemide a day) - signficantly increases the risk of hypotension • Hereditary of idiopathic angioedema • The co-administration of a potassium-sparing diuretic and an ACE inhibitor, may result in profound hyperkalaemia. Thus patients on both these drugs should have their potassium monitored closely. Monitoring • Urea and electrolytes should be checked before treatment is initiated and after increasing dose  Monitoring of renal function and potassium is important after commencement of an ACE inhibitor.  The optimum period to check this is one to two weeks after commencing the medication. • A rise in the creatinine and potassium may be expected after starting ACE inhibitors.  Acceptable increases are an increase in serum creatinine, up to 50% from baseline or up to 265μmol/l (whichever is smaller) and an increase in potassium up to 5.5 mmol/l.  NICE guidelines state that when initiating ACE inhibitor therapy a 25% reduction in the eGFR or 30% increase in the serum creatinine is tolerable and should not lead to changes in dosing.  ACE inhibitors should also be stopped or dose adjusted if is there is a rise in the serum potassium level to greater than 6 mmol/l.  Other causes of a deterioration in renal function should be excluded first before stopping the ACE inhibitor.  e.g: patient taking trimethoprim  This drug competes with creatinine for excretion in the nephron  ↑ serum creatinine.  the appropriate option would be to re-check the blood tests in one to two weeks once trimethoprim has been discontinued to see whether the level of renal dysfunction is sustained or improves. Usage of ACEi & ARB as combination (NICE January 2015) • Do not combine an ACE inhibitor with an ARB to treat hypertension. • no significant benefits of ACEi & ARB combination were seen in people who did not have heart failure and there was an increased risk of hyperkalaemia, hypotension, and impaired renal function. • The NICE guideline on chronic heart failure recommends that, after seeking specialist advice, the addition of an ARB licensed for heart failure is an option that could be considered for people who remain symptomatic despite optimal therapy with an ACE Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology inhibitor and a beta-blocker  Candesartan and valsartan are the only ARBs licensed as add-on therapy to ACE inhibitors in this situation.  Other options are adding an aldosterone antagonist licensed for heart failure or hydralazine in combination with nitrate. direct renin inhibitors • Aliskiren (branded as Rasilez)  Direct renin inhibitor • Action: by inhibiting renin blocks the conversion of angiotensinogen to angiotensin I • indication: only current role would seem to be in patients who are intolerant of more established antihypertensive drugs • no trials have looked at mortality data yet. Trials have only investigated fall in blood pressure. Initial trials suggest aliskiren reduces blood pressure to a similar extent as angiotensin converting enzyme (ACE) inhibitors or angiotensin-II receptor antagonists • adverse effects were uncommon in trials although diarrhoea was occasionally seen Other notes • Enalapril is a prodrug for enalaprat, the active agent • irbesartan : the dose response is linear, as such dose can be titrated more easily from a base of 75 mg to a maximum of 300 mg. Adrenoceptor antagonists Doxazosin is an α-1 adrenoceptor antagonist used in the treatment of hypertension and benign prostatic hypertrophy Alpha antagonists • alpha-1: doxazosin  cause  orthostatic hypotension • alpha-1a: tamsulosin - acts mainly on urogenital tract • alpha-2: yohimbine • non-selective: phenoxybenzamine (previously used in peripheral arterial disease) Phenoxybenzamine  presurgical management of hypertension in phaeochromocytoma. Beta antagonists • beta-1: atenolol • non-selective: propranolol Carvedilol and labetalol are mixed alpha and beta antagonists Beta-blockers Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Indications • angina • post-myocardial infarction • Heart failure: there is now strong evidence that certain beta-blockers improve both symptoms and mortality. Especially Bisoprolol • arrhythmias: beta-blockers have now replaced digoxin as the rate-control drug of choice in atrial fibrillation • hypertension: the role of beta-blockers has diminished in recent years due to a lack of evidence in terms of reducing stroke and myocardial infarction. • thyrotoxicosis • migraine prophylaxis • anxiety Beta- blocker in heart failure • NICE recommends β blockers in all HF patients. • In chronic obstructive pulmonary disease (COPD) patients with HF, cardioselective β blockers appear safer at lower doses than higher doses or non-selective β blockers. • Bisoprolol 5 mgs is too high an initial starting dose, a low dose can always be titrated up later, if tolerated. ( starting dose  Bisoprolol 1.25 mg od ) • Carvedilol though effective treatment for heart failure is not selective and therefore carries a greater risk of causing bronchospasm. • Atenolol though cardioselective has no clinical evidence for prognostic benefit in heart failure. • The patient should be closely monitored for deterioration in lung function postadministration. Examples • Atenolol  Atenolol is a water soluble beta-blocker,  taken once daily  not associated with drowsiness/sleep disturbance like the lipid-soluble beta-blockers. • Propranolol  one of the first beta-blockers to be developed.  Lipid soluble therefore crosses the blood-brain barrier • Nebivolol  has a vasodilatory action in addition to β-blocking effects  associated with a lower incidence of erectile dysfunction compared with other βblocking agents • Bisoprolol → the most cardio-selective beta-blocker • Metoprolol  The most lipid-soluble and therefore has the largest volume of distribution  ↑lipid solubility → greater penetration across the blood-brain barrier (and also into other tissues), and therefore a greater incidence of night terrors  Maximal gastrointestinal absorption of drugs occurs when there is intermediate lipid and water solubility, so that drugs with greater lipid solubility, although allowing greater tissue penetration, may be more poorly absorbed  Metoprolol though selective is shorter acting. • Oxprenolol → has an intrinsic sympathomimetic properties. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Carvedilol Bisoprolol Not β1- selective Highly β1- selective Vasodilatation due to α-1- blockade No α-1- blocking activity Lipids effects Positive lipid effect  ↑↑HDL & ↓↓LDL Negative lipid effect  ↑↑ cholesterol , TG, VLDL Lipid profile almost not affected Oral bioavailability of digoxin increased No interaction with other CV drugs known Sensitive to liver enzyme induction Not sensitive to liver enzyme induction Extensive metabolism in the liver (CYP2D6)(dose adjustment in liver impairment) No dose adjustment required Side-effects • bronchospasm • cold peripheries • β-Blockers cause a rise in peripheral vascular resistance due to the unopposed αadrenoceptor effects (vasoconstriction) • Fatigue  fatigue is a frequent side effect  typically is felt two hours and beyond after taking the drug. • sleep disturbances, including nightmares • β-blockers associated with increased dreams/possible night terrors Contraindications • uncontrolled heart failure • asthma • sick sinus syndrome • concurrent verapamil use: may precipitate severe bradycardia • There is a theoretical risk of intrauterine growth retardation with the use of atenolol in pregnancy although the studies which showed this effect were done with very large doses of atenolol. Beta-blocker overdose Features • bradycardia • hypotension • heart failure • syncope Management • if bradycardic then atropine • in resistant cases glucagon may be used • Glucagon acts by bypassing the blocked β-receptor, thus activating adenyl cyclase  formation of cyclic AMP from ATP. Cyclic AMP in turn exerts a direct stimulant action on the heart. • The action of glucagon, essential for reversing the effect of beta-blocker overdose  Promotes the formation of cyclic AMP.  Doses of glucagon used are much higher than those conventionally used for reversing hypoglycaemia in diabetes, with a bolus of 3-10 mg being required, then 25 mg/hr by infusion. • Haemodialysis is not effective in beta-blocker overdose Calcium channel blockers • Voltage-gated calcium channels are present in: myocardial cells, cells of the conduction system and cells of the vascular smooth muscle.  (they have no effect on veins). • The various types of calcium channel blockers have varying effects on these three areas and it is therefore important to differentiate their uses and actions. Examples Indications & notes Verapamil • Angina, hypertension, arrhythmias • Highly negatively inotropic • Should not be given with beta-blockers as may cause heart block Diltiazem • Angina, hypertension • Less negatively inotropic than verapamil but caution should still be exercised when patients have heart failure or are taking beta-blockers Nifedipine, amlodipine, felodipine (dihydropyridines) • Hypertension, angina, Raynaud's • Affects the peripheral vascular smooth muscle more than the myocardium and therefore do not result in worsening of heart failure • What is the conventional cardiac micro-anatomical structure targeted by calciumchannel blockers?  L-type calcium channels  all conventional calcium-channel blockers work on L-type calcium channels  The L-type channels are found on a tubular network of invaginations of sarcolemma of muscle fibres called T (transverse) tubules.  T tubules contain 2 main types of calcium channels:  L-type calcium channels (where calcium channel blocker do interact)  T (transient) type calcium channels (conventional calcium channel blockers have no effect here). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Side-effects and cautions • Heart failure, • constipation, • hypotension, • bradycardia, flushing • Hypotension, • bradycardia, • heart failure, • ankle swelling • Flushing, • headache, • ankle swelling Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Centrally acting antihypertensives Methyldopa  not utilised in a patient with abnormal LFTs Examples of centrally acting antihypertensives include: • methyldopa: used in the management of hypertension during pregnancy • moxonidine: used in the management of essential hypertension when conventional antihypertensives have failed to control blood pressure • clonidine: the antihypertensive effect is mediated through stimulating alpha-2 adrenoceptors in the vasomotor centre Bosentan • Bosentan is a competitive antagonist of both endothelin-A (ETa) and endothelin-B (ETb) receptors, leading to falls in both pulmonary and systemic vascular resistances without an increase in heart rate • effective in patients with pulmonary arterial hypertension • It is excreted in bile following metabolism by the cytochrome P450 enzymes and this is a potential source of interaction with drugs metabolised by the same isoenzyme • Common unwanted effects include  flushing  hypotension  dyspepsia  fatigue  Haemoglobin concentrations can fall by up to 1 g/dl during bosentan treatment  Hepatotoxicity:  The most serious unwanted effect is dose-dependent hepatotoxicity, and it is therefore contraindicated in patients with moderate to severe liver disease  Generally, hepatotoxicity occurs within the first 3-4 months of treatment  teratogenic and therefore contraindicated in pregnancy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Nitroglycerin • Nitroglycerin products are both venous capacitance dilators and coronary and systemic artery dilators • Administration of nitroglycerin results in:  dilation of systemic veins  decreased myocardial wall tension  decreased oxygen demand  vasodilation of large and medium-sized coronary arteries  increased coronary blood flow to the subendocardium  reduced afterload  reduced preload  increased ventricular compliance • Nitrates may cause haemolytic anaemia Nicorandil Action • acts through the opening of potassium channels . • Nicorandil is an activator of ATP-dependent potassium channels • Effect  relaxation of smooth muscle in veins  venodilatation  ↓ ventricular filling pressures + dilatation of the coronary arterioles • It relaxes vascular smooth muscle through membrane hyperpolarisation via increased transmembrane potassium conductance and, like nitrates, through an increase in intracellular cyclic guanosine monophosphate (GMP). Indication • now second-line treatment for angina • Use nicorandil for treatment of stable angina only in patients whose angina is inadequately controlled by first line anti-anginal therapies, or who have a contraindication or intolerance to first line anti-anginal therapies such as beta-blockers or calcium antagonists Side effects • Headache  The most common unwanted effect (- 35% of patients),  appears to be dose-dependent  resolves with continued treatment • Ulcerations  oral ulceration, flushing and gastrointestinal disturbances  (ulceration of the upper and lower gastrointestinal tract and may present with life threatening bleeding)  Nicorandil can cause serious skin, mucosal, and eye ulceration, including gastrointestinal ulcers which may progress to perforation, haemorrhage, fistula, or abscess Contraindication • Use with phosphodiesterase inhibitors such as sildenafil is contraindicated since they can potentiate the hypotensive effects of nicorandil Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Digoxin and digoxin toxicity The half-life of digoxin is around 36-48 hours. This results in a delay before steady plasma levels are seen, it may take a week to start its action • Digoxin is a cardiac glycoside now mainly used for rate control in the management of atrial fibrillation. • As it has positive inotropic properties it is sometimes used for improving symptoms (but not mortality) in patients with heart failure. • digoxin is highly water-soluble • Digoxin has a high volume of distribution and long half-life (36-48 h), which means that loading doses are required to allow the drug to reach a steady-state concentration more quickly.  If initiated on a maintenance dose (without loading), it will take several days to reach a steady state. • Digoxin is almost exclusively renally cleared; as a result, renal impairment will significantly alter the half-life of this medication. Mechanism of action • decreases conduction through the atrioventricular node which slows the ventricular rate in atrial fibrillation and flutter • Increases the force of cardiac muscle contraction due to inhibition of the Na+/K+ATPase pump which is located in the sarcolemmal membrane. • Also stimulates vagus nerve What is the pharmacokinetic reason that drives the practice of loading with digoxin?  Volume of distribution. • The volume of distribution for Digoxin is very large (510 litres). This means that administered doses are rapidly distributed to body tissues. • The initial distribution lasts for some 6-8hrs, which drives the typical loading regimen for Digoxin of two larger doses (500mcg) some 6-12hrs apart. • Without loading Digoxin typically takes a few days to reach therapeutic effect. Digoxin can worsen hyperkalaemia • Translocation of potassium from the cells into the extracellular space can occur from digoxin overdose due to its dose-dependent Na-K-ATPase pump inhibition. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Digoxin toxicity • Plasma concentration alone does not determine whether a patient has developed digoxin toxicity. • The BNF advises that the likelihood of toxicity increases progressively from 1.5 to 3 mcg/l.  Samples taken after 6 h will be more accurate in estimating the body’s digoxin • the mechanism of action leading to tachy-arrhythmias in digoxin toxicity  Inhibition of the sodium pump Features • generally unwell, lethargy, anorexia,  The earliest features of digitalis toxicity include: Nausea, vomiting, anorexia. • cholinergic effects : nausea, vomiting, diarrhea • confusion, • yellow-green vision • arrhythmias (e.g. AV block, bradycardia)  (Digoxin toxicity can result in any abnormal cardiac rhythm except type-ll second-degree atrioventricular (AV) block) Precipitating factors • classically: hypokalaemia  (hyperkalaemia may also worsen digoxin toxicity, although this is very small print) • increasing age • renal failure • myocardial ischaemia • hypomagnesaemia, • hypercalcaemia, • hypernatraemia, • acidosis • hypoalbuminaemia • hypothermia • hypothyroidism • amyloidosis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • drugs: amiodarone, quinidine, verapamil, diltiazem, spironolactone (competes for secretion in distal convoluted tubule therefore reduce excretion), ciclosporin. Also drugs which cause hypokalaemia e.g. thiazides and loop diuretics  Bumetanide is a loop diuretic and may cause hypokalaemia as a side effect. The potassium loss caused by bumetanide increases the toxicity of digoxin. Management Antidote "KLAM" • slowly normalize K+ • Lidocaine • digoxin Antibodies (anti-dig Fab fragments) • Mg2+ Phenytoin may be used as an alternative to lidocaine (both are class IB agents) if immune therapy is unsuccessful or unavailable in the treatment of tachyarrhythmias secondary to digoxin toxicity. • Treatment of digoxin toxicity should be guided by the patient’s signs and symptoms and the specific toxic effects and not necessarily by digoxin levels alone. • Activated charcoal if presented within 1 h of an overdose  The first-line treatment for acute ingestion is repeated dosing of activated charcoal to reduce absorption and interrupt enterohepatic circulation. • Binding resins (eg, cholestyramine)  may bind enterohepatically-recycled digoxin.  may be more appropriately used for treatment of chronic toxicity in patients with renal insufficiency. • correct arrhythmias • severe sinus bradycardia (hemodynamically unstable bradyarrhythmic patients)  Atropine • ventricular tachycardia  responds best to digoxin immune therapy, but phenytoin and lidocaine are useful if immune therapy is ineffective or unavailable.  These drugs depress the enhanced ventricular automaticity without significantly slowing AV conduction • Magnesium sulfate, 2 g IV over 5 minutes, has been shown to terminate dysrhythmias in digoxin-toxic patients with and without overt cardiac disease.  Magnesium is contraindicated in the setting of bradycardia or AV block and should be used cautiously in patients with renal failure. • Premature ventricular contractions (PVCs), bigeminy, or trigeminy may require only observation unless the patient is hemodynamically unstable, in which case lidocaine may be effective. • Digibind  Its brand name of Digoxin immune fab or Digoxin-specific antibody is an antidote for overdose of digoxin  Action: bind to the digoxin  unable to bind to its action sites  is an immunoglobulin fragment that binds with digoxin.  first-line treatment for significant dysrhythmias from digitalis toxicity  Indications for digoxin-specific antibodies include:  Hemodynamically unstable arrhythmia  Tachyarrhythmias with hypotension  bradycardia with hypotension that do not respond to atropine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad treatment.  End organ damage  digoxin level > 4ng/ml if chronic ingestion  digoxin level > 10 ng/ml if acute ingestion (taken 6 h after the last dose)  Hyperkalaemia (if not respond to insulin-dextrose infusions): potassium > 5 mEq/L and symptomatic  SE  Serum sickness • If digoxin-specific antibodies not available  lidocaine or phenytoin • Digoxin toxicity related ventricular tachycardia:  Phenytoin and lidocaine are useful for ventricular tachycardia if immune therapy is ineffective or unavailable  Phenytoin is thought to suppress the pro-arrhythmic properties of digoxin without diminishing its inotropic effects.  lidocaine is useful for chemical cardioversion of digoxin toxicity related ventricular tachycardia. This is because it can reduce ventricular automaticity without significantly slowing AV conduction.  Calcium channel blockers are contraindicated because they may increase digoxin levels.  Amiodarone is shown to increase digoxin levels and as such can worsen the risk of rhythm disturbance further.  VT in digoxin toxicity is resistant to electrical cardioversion, which may actually precipitate VF and asystole.  Bretylium is contraindicated in the treatment of digoxin induced arrhythmias as it can actually precipitate ventricular tachycardia.  Quinidine worsens AV and SA conductivity and reduces digoxin tissue binding and is therefore also contraindicated. • conventional dialysis is ineffective • monitor potassium  Electrolytes  In acute toxicity, hyperkalemia is common  Although calcium is often used to ameliorate cardiac toxicity from hyperkalemia, it is not recommended in patients with digoxin toxicity because it can delay after-depolarization and may precipitate ventricular tachycardia or fibrillation. This is based on the fact that intracellular calcium levels are already high in this setting.  potassium level > 5 mEq/L  digoxin Fab fragments  Chronic toxicity is often accompanied by hypokalemia and hypomagnesemia  Concomitant hypomagnesemia may result in refractory hypokalemia  Correction of electrolyte imbalances may reverse dysrhythmias. Which measurement would be most useful when monitoring patient for digoxin efficacy?  Pulse rate  Measuring drug plasma concentration will tell you whether digoxin is at therapeutic concentrations in the blood, but not whether it is having a therapeutic effect. Chapter 13 Pharmacology Diuretics Class Compound Action Side effects Loop Diuretics Furosemide Bumetanide ethacrynic acid Thiazides hydrochlorothiazide, indapamide K+ sparing agents spironolactone Aldosterone receptor antagonist Hyperkalemia amiloride, triamterene Osmotic Diuretics mannitol Inhibit water reabsorption throughout the tubules, but mostly in the proximal tubule Loop diuretics Action • Furosemide and bumetanide are loop diuretics that act by inhibiting the Na-K-Cl cotransporter (NKCC) in the thick ascending limb of the loop of Henle, reducing the absorption of NaCl. • There are two variants of NKCC; loop diuretics act on NKCC2, which is more prevalent in the kidneys. Indications • heart failure: both acute (usually intravenously) and chronic (usually orally) • resistant hypertension, particularly in patients with renal impairment Adverse effects • hypotension • hypocalcaemia • hyponatraemia • renal impairment (from dehydration + direct toxic effect) • hypokalaemia • hypochloraemic alkalosis • hyperglycaemia (less common than with thiazides) • ototoxicity • gout • Loop diuretics induces ototoxicity by affecting Na+/K+/2Cl- cotransporters present in the inner ear. • Explanation of respond to i.v furosemide but not oral in heart failure  Increased bioavailability  In right heart failure  The patient has a lot of gut oedema which would  reduce the absorption of oral furosemide. Intravenous furosemide would have a much better bioavailability and thus therapeutic effect.  Protein binding of drugs may be reduced in elderly patients, this may be due to malnutrition. • Explanation of not responding to furosemide in chronic kidney disease (CKD)  Tubular secretion of furosemide is reduced in CKD  Organic acids accumulate in renal failure and compete for tubular secretion with furosemide. This competition can be overcome by using a larger dose of the drug. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad inhibit NKCC2 in the thick ascending loop of Henle Deafness inhibit NaCl co-transporter in early distal tubule hyponatraemia, hypokalaemia, hypercalcaemia inhibit Na channel in late distal tubule Hyperkalemia Pulmonary edema Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad A 76-year-old lady taking perindopril 2 mg, bisoprolol 1.25 mg and had recently had her dose of furosemide increased from 40 mg to 80 mg. C/O dizziness, particularly when standing upright after being seated. There were no clinical signs of cardiac failure. Serum urea: 13.3 mmol/L. Serum creatinine: 221 µmol/L. What is the next step in her management?  Stop the furosemide temporarily and restart at a lower dose within a few days  This lady is developing postural hypotension after the recent increase in furosemide dose.  She has moderate renal impairment.  Stopping either her beta-blocker or ACE inhibitor is not the best option for treatment at this stage. Bendroflumethiazide the target of action of thiazide diuretics  NaCl co-transporter the target of action of loop diuretics  NKCC2 • Bendroflumethiazide (bendrofluazide) is a thiazide diuretic which works by inhibiting sodium absorption at the beginning of the distal convoluted tubule (DCT). • The NaCl co-transporter:  the target of thiazide diuretics  it contributes to the reabsorption of about 10% of the filtered load of sodium.  Mutations causing loss of function of the NaCl co-transporter cause Gitelman's syndrome, the commonest monogenic cause of hypokalaemia in adults. • Potassium is lost as a result of more sodium reaching the collecting ducts. • Bendroflumethiazide has a role in the treatment of mild heart failure although loop diuretics are better for reducing overload. • The main use of bendroflumethiazide was in the management of hypertension but recent NICE guidelines now recommend other thiazide-like diuretics such as indapamide and chlortalidone. Bendroflumethiazide - mechanism of Hypokalemia: • ↑ sodium reaching the collecting ducts • Activation of the renin-angiotensin-aldosterone Which loop diuretic is known to cause sulfa-drug allergy? Furosemide Which loop diuretic is used for diuresis in patients allergic to sulfa drugs? Ethacrynic Acid Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Common adverse effects • dehydration • postural hypotension • hyponatraemia, hypokalaemia, Hypomagnesaemia, hypercalcaemia • gout • impaired glucose tolerance • impotence Rare adverse effects • thrombocytopaenia • agranulocytosis • photosensitivity rash • pancreatitis • hypochloraemic alkalosis Amiloride • The potassium-sparing diuretic amiloride inhibits sodium channels in the distal segment of the distal convoluted tubule • Amiloride inhibits the action of aldosterone on the distal convoluted tubule producing potassium reabsorption. • In treating a patient with congestive heart failure who develops hypokalaemia, the best choice is to add a small dose of amiloride to his furosemide therapy Triamterene • Triamterene, a potassium sparing diuretic similar to amiloride. • occasionally prescribed with thiazide or loop diuretics, to prevent hypokalaemia. • It inhibits the movement of sodium through channels towards the end of the distal tubule and collecting ducts, preventing the passage of sodium from the urinary space into the tubular cells. This action causes hyperpolarisation of the apical plasma membrane, preventing the secretion of potassium into the collecting ducts. • Hyperkalaemia is common (>5%), and is unaffected by concurrent potassium depleting diuretics. • In mild hyperkalaemia, (eg: K = 5.9 mmol/l) with no evidence of cardiac toxicity. The management involves stopping the triamterene, and repeating the U&E in one week. Spironolactone • Spironolactone is an aldosterone antagonist • acts in the cortical distal convoluted tubule and collecting duct. Indications • ascites: patients with cirrhosis develop a secondary hyperaldosteronism. Relatively large doses such as 100 or 200mg are often used • hypertension: used in some patients as a NICE 'step 4' treatment • heart failure (see RALES study below) • nephrotic syndrome • Conn's syndrome • Spironolactone is a diuretic with anti-androgen effects. This makes it a useful agent in the treatment of hormonal acne and hirsutism.  It blocks the androgen receptor and 5α-reductase enzyme that is responsible for the synthesis of dihydrotestosterone (DHT) and can be used to treat hirsutism. Adverse effects • hyperkalaemia • gynaecomastia  Spironolactone and eplerenone are both aldosterone receptor antagonists that have shown survival benefit in patients with NYHA III/IV systolic heart failure. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Eplerenone has a lower antiandrogenic effect compared to spironolactone and may, therefore, be preferable if patient develops erectile dysfunction and bilateral gynecomastia. RALES • NYHA III + IV, patients already taking ACE inhibitor • low dose spironolactone reduces all-cause mortality Eplerenone Indications • Eplerenone is a spironolactone-like agent indicated as an add-on to standard therapy after a myocardial infarction, and heart failure Side-effects • Common side-effects: hyperkalaemia, dizziness, hypotension, diarrhoea, nausea and prerenal renal dysfunction • Uncommon side-effects : eosinophilia, dehydration, hypercholesterolemia and hypertriglyceridaemia Cautions • The drug is metabolised via the CYP3A4 system, so that inducers or inhibitors of the 3A4 enzyme subtype may precipitate drug interactions Diuretic abuse • Diuretic abuse is not uncommon amongst athletes and jockeys as a means of weight loss. • The patient has a hypokalaemic alkalosis, and urine potassium excretion is high despite the hypokalaemia. Respiratory drugs _______________Theophylline • Theophylline, like caffeine, is one of the naturally occurring methylxanthines. • The main use of theophyllines in clinical medicine is as a bronchodilator in the management of asthma and COPD Action • The exact mechanism of action has yet to be discovered. • One theory suggests theophyllines may be a non-specific inhibitor of phosphodiesterase resulting in an increase in cAMP. • antagonism of adenosine and prostaglandin inhibition  It blocks the adenosine receptor  Blockade of the receptors by theophylline results in:  relaxation of smooth muscles, especially bronchial muscles  constriction of cerebral blood vessels  stimulation of the cardiac pacemaker  stimulation of gastric secretions • Theophylline also releases calcium ions from the sarcoplasmic reticulum in skeletal and cardiac muscle, thus enhancing their contractility, including diaphragmatic contractility • plasma theophylline concentration of between 10 and 20 mg/l is required for satisfactory bronchodilatation. Side effect • At therapeutic doses, the side-effect of Aminophylline  Jitteriness Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • adverse effects can occur within the range 10-20 mg/l and both the frequency • severity increase at concentrations above 20 mg/l Factors increasing the plasma theophylline concentration: • heart failure • cirrhosis • viral infections • increased age (the elderly) • Diet:  Obesity  High carbohydrate intake  High methylxanthine intake (for example, tea, coffee) • drugs that inhibit its metabolism  Commonly prescribed drugs that can increase serum theophylline levels include:  clarithromycin, erythromycin  ciprofloxacin,  cimetidine,  oral contraceptives  allopurinol.  Fluvoxamine  Consideration should be given to reducing theophylline dose when these drugs are prescribed. • cessation of enzyme-inducing drugs. Factors decreasing the plasma theophylline concentration: (increasing theophylline clearance): • Diet:  Low carbohydrate  High protein intake • Social:  chronic alcoholism without cirrhosis  smoking  Smoking cessation  sudden increase in theophylline level  Regular tobacco use up-regulates hepatic enzyme activity; cessation will be associated with a decrease of hepatic enzyme activity, such that theophylline concentrations may increase. • Drugs: drugs that induce liver metabolism: eg:  Rifampicin  Carbamazepine. Theophylline poisoning • Theophylline has a narrow therapeutic window and needs close monitoring of its serum level to avoid toxicity • Symptoms of toxicity may be delayed following the ingestion of sustained-release preparations for up to 48 h • Theophylline toxicity occurs with concomitant use of clarithromycin due to inhibition of cytochrome P450 (CYP1A2 and CYP3A4) by clarithromycin. • Features of mild to moderate theophylline toxicity include nausea, vomiting, epigastric, tremor, tachycardia, restlessness and hallucinations. Severe toxicity can cause convulsions, arrhythmias and metabolic acidosis. • Studies have shown an approximate 20% increase in both peak and trough theophylline levels with concomitant use of clarithromycin and it is recommended that theophylline levels should be monitored prior, during and on cessation of clarithromycin and dosage Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad adjustment of theophylline made accordingly. • Features mild to moderate theophylline toxicity  nausea, vomiting, epigastric,  tremor,  tachycardia,  restlessness and  hallucinations. Severe toxicity:  convulsions,  arrhythmias  metabolic acidosis, hypokalaemia and hyperglycaemia • Management activated charcoal charcoal haemoperfusion is preferable to haemodialysis In cases of severe theophylline toxicity, charcoal haemoperfusion can be used Antimuscarinic agent • Muscarinic antagonists (antimuscarinic agents) are a group of anticholinergic drugs that competitively inhibit postganglionic muscarinic receptors. • Which organ systems are most affected by an antimuscarinic agent depends on the specific characteristics of the agent, particularly its lipophilicity. Lipophilic agents (i.e., atropine or benztropine) are able to cross the bloodbrain barrier and therefore affect the central nervous system (CNS) in addition to other organ systems. Less lipophilic agents (i.e., ipratropium or butylscopolamine) are administered if the CNS does not need to be targeted, specifically for respiratory (e.g., asthma), gastrointestinal (e.g., irritable bowel syndrome), or genitourinary applications (e.g., urinary incontinence). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Action • Muscarinic antagonists (the majority of anticholinergic drugs) inhibit the effect of acetylcholine on muscarinic receptors, Effects of muscarinic antagonists Muscarinic receptors Organ/Tissue Effects M1, M4, M5 Central nervous system • Influences neurologic function (e.g., cognitive impairment) M2 Heart • ↑ Heart rate • Increases AV-node conduction → arrhythmias M3 Smooth muscle • Gastrointestinal tract  ↓ Intestinal peristalsis ,  ↓ Salivary and gastric secretions • Urinary tract  ↓ Bladder contraction (decreases detrusor muscle tone, increases the internal urethral sphincter tone) • Airway  Bronchodilation  ↓ Bronchial secretions • Eye  Mydriasis → narrowing of the iridocorneal angle  Impaired accommodation • Blood vessels: minimal effect on vascular tone and blood pressure Exocrine glands • ↓ Secretions (sweat) Antimuscarinic side effects "Blind as a bat (mydriasis), mad as a hatter (delirium), red as a beet (flushing), hot as a hare (hyperthermia), dry as a bone (decreased secretions and dry skin), the bowel and bladder lose their tone (urinary retention and paralytic ileus), and the heart runs alone (tachycardia).” Side effect Contraindications Impaired secretion by exocrine glands • Dry mouth and sore throat • ↓ Respiratory tract secretions • Hyperthermia und warm, dry skin Cardiovascular system • Tachycardia • Tachyarrhythmias Decreased smooth muscle tone • Gastroesophageal reflux • Obstipation or ileus • Impaired micturition/urinary retention • Vasodilatation and flush Eye • Mydriasis and photophobia • Blurred vision CNS • Excitement, agitation, and hallucinations with the use of lipophilic parasympatholytics (e.g., atropi ne), especially in elderly patients • Confusion, disorientation • Coma, seizure, and rarely death Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Acute asthma • Respiratory distress • Heart failure • Myocardial infarction • Hyperthyroidism • Hiatal hernia associated with reflux esophagitis • Ulcerative colitis • Paralytic ileus • Obstructive disease of the gastrointestinal tract (e.g., achalasia, pylori c stenosis or duodenal stenosis) • Obstructive uropathy (e.g., benign prostatic hyperplasia, urinary retention) • Narrowangle glaucoma • Myasthenia gravis 067 - Chapter 13 067 Chapter 13 Chapter 13 Pharmacology Lipophilic antimuscarinic (good oral bioavailability and CNS penetration) (Tertiary amines) Drug Effect Indication • Atropine • ↑ Heart rate • ↓ Secretions of exocrine glands • ↓ Tone and motility of smooth muscles • ↓Cholinergic overactivity in CNS • Mydriasis and cycloplegia • Scopolamine(hyoscine) • ↓ Vestibular disturbances (antiemetic) • Homatropine • Mydriasis • Tropicamide • Impair accommodation • ↓ Cholinergic overactivity in CNS • Benztropine • Biperiden • Trihexyphenidyl • ↓ Tone and motility of smooth muscle cells • Oxybutynin • Tolterodine • Solifenacin • Dicyclomine • Darifenacin • ↑ Sphincter tone • Urinary urgency, urge incontinence, urinary frequency, and/or nocturia(symptoms resulting from, e.g., overactive bladder) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • First drug of choice in unstable (symptomatic) sinus bradycardia (IV) • Premedication: prior to intubation to decrease salivary, respiratory, and gastric secretions • Ophthalmology: uveitis • Antidote for anticholinesterase poisoni ng • Scorpion stings • Motion sickness • Ophthalmology • Therapeutic use: in patients with uveitis • Diagnostic use: pupillary dilation to allow ocular fundus examination and cycloplegia to allow refractory testing • Antiparkisonian effect (Parkinson disease) • ↓ Extrapyramidal symptoms (EPS) caused by antipsychotics • Oxybutynin, tolterodine, and solifenacin: overactive bladder incontinence • Dicyclomine: irritable bowel syndrome Hydrophilic (poor oral bioavailability and CNS penetration) (Quarternary amines) Drug Effect Indication • Glycopyrrolate • Decreases secretions of exocrine glands • Bronchodilation • COPD and bronchial asthma • Ipratropium bromide • Tiotropium bromide Anticholinergic syndrome (overdose) • Etiology  Belladonna poisoning  Jimson weed/Angel's trumpet (Datura stramonium) poisoning  Medications  Anticholinergic agents (e.g., atropine, benztropine, trihexyphenidyl)  Drugs with anticholinergic properties Tricyclic antidepressives (predominantly doxepin, amitriptyline, imipramine, and trimipramine) Antipsychotics (e.g., clozapine, quetiapine) First-generation antihistamines (e.g., promethazine, dimenhydrinate) • Clinical features  Dry mouth, warm, flushed skin, thirst, tachycardia, arrhythmias, mydriasis, confusion, and agitation  Possibly anticholinergic delirium: Excessive use of tricyclic antidepressants (or other medications with significant anticholinergic effects) can cause lifethreatening delirium, hallucinations, and psychomotor symptoms. • Treatment: antidote for purely anticholinergic poisoning (e.g. atropine): physostigmine One mnemonic used to remember the symptoms of anticholinergic toxicity is: Hot as a hare: increased body temperature Blind as a bat: mydriasis (dilated pupils) Dry as a bone: dry mouth, dry eyes, decreased sweat Red as a beet: flushed face Mad as a hatter: delirium Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Peptic ulcer disease treatment • Ipratropium bromide: • COPD grade I and higher • Acute management of refractory asthma • Tiotropium bromide: • Longer duration of action • Long-term treatment of COPD (grade II and above) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Tiotropium Indications • Tiotropium is a specific long-acting antimuscarinic agent indicated as maintenance therapy for patients with (COPD) Cautions • Caution is advised in patients with narrow-angle glaucoma, prostatic hyperplasia or bladder-neck obstruction Side-effects • Dry mouth • Paradoxical bronchospasm • Rarer side-effects include tachycardia, blurred vision, urinary retention and constipation Doxapram Indications • Doxapram is a centrally acting respiratory stimulant, used in patients with severe respiratory disease who are deemed unsuitable for admission to the Intensive Therapy Unit • Intravenous doxapram only used if the patient is not suitable for either intubation or noninvasive ventilation. • The main purpose in using doxapram is to allow time for recovery from an acute respiratory event • The usual dosing regimen is 1-4 mg/min given as an intravenous infusion Contraindications • heart disease, • epilepsy, cerebral oedema, stroke, • status asthmaticus, • hypertension, hyperthyroidism and phaeochromocytoma Side-effects • hypertension, • exacerbation of apparent dyspnoea, • agitation, • confusion, • sweating, • cough, • headache, • dizziness, • nausea, vomiting • urinary retention Sodium cromoglicate • Sodium cromoglicate principally acts by reducing the degranulation of mast cells triggered by the interaction of antigen and IgE • The inhibitory effect on mast cells appears to be cell-type specific, since cromoglicate has little inhibitory effect on mediator release from human basophils • More recent research has also shown that cromoglicate may act on eosinophils to reduce their inflammatory response to inhaled allergens, but this is not the most probable mechanism of action of sodium cromoglicate in the prophylaxis of asthma Magnesium treatment in asthma • Intravenous magnesium (1.2 - 2 g given over 20 minutes) is now indicated in the management of severe life threatening acute asthma attacks Its principal actions are to: • inhibit acetylcholine release at the neuromuscular junction Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • relax bronchial smooth muscle • stabilise mast cells Unwanted effects are uncommon following single-dose therapy, although a slight decrease in blood pressure can be noticed and flushing can occur Symptoms of hypermagnesaemia include:  nausea  diarrhoea  flushing  hypertension  confusion  coma  loss of tendon reflexes CNS & Psychiatric drugs Anti-convulsants Remarkable side effects of anti-epileptic drugs are: • SIADH and rash (carbamazepine) • Liver toxicity (sodium valproate) • Severe rash (lamotrigine) • Retinal damage (vigabatrin) • Aplastic anaemia (felbamate). • Topiramate anticonvulsant ,most frequently prescribed for the prevention of migraines Side effects:  Renal stones topiramate causes systemic metabolic acidosis, lowers urinary citrate excretion, and increases urinary pH. These changes increase the propensity to form calcium phosphate stones.  weight loss (weight gain with sodium valproate),  impaired taste sensation,  cognitive dysfunction  depression.  Tingling in extremities. • Felbamate Because of its potentially fatal toxic effects (especially aplastic anemia and hepatic failure), the use of felbamate should be restricted to patients with severe partial epilepsy or Lennox-Gastaut syndrome who do not respond to other medications. • Lamotrigine Lamotrigine has a black box warning because of its association with StevensJohnson syndrome.  the risk of tevens-Johnson syndrome increases if it is co-administered with valproate .  When co-administered with valproate, the dosage of lamotrigine should be half that required in the absence of valproate and should be very slowly escalated. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Epilepsy medication in pregnancy • There is an increased risk of neural tube defects associated with anti-convulsants during pregnancy. • However, the risks associated with treatment are outweighed by the benefits in preventing seizures, so the drug should be continued. • The risks may be minimised through use of folate supplements. • If a patient is planning on pregnancy, then registry studies suggest that lamotrigine would be the best choice • Percentage of Congenital malformations associated with Anti-epileptics Valproate 6% (neural tube defects in the fetus)  Valproate should be avoided in pregnancy if possible  NICE guidance suggests that phenytoin should be avoided in women of child-bearing age because of the risk of congenital malformations. Topiramate 4.3% Phenytoin 3.5% (fetal hydantoin syndrome with facial dysmorphism) Carbamazepine 2.5% General population 1.5% Primidone and phenobarbital withdrawal symptoms in the newborn Contraception in epilepsy • Phenytoin induces liver enzymes, thereby increasing oestrogen breakdown and reducing the effectiveness of oestrogen-containing contraceptives • Where the combined contraceptive pill is used in conjunction with phenytoin, the contraceptive should contain high dose oestrogen: 50 mg ethinylestradiol or more • Lamotrigine is a suitable first-line treatment for partial epilepsy, and does not alter oestrogen metabolism • lamotrigine is the most appropriate choice in women of child-bearing age because: low risk of congenital malformations. it does not affect the effectiveness of the oral contraceptive pill • Women taking lamotrigine monotherapy and oestrogen-containing contraceptives should be informed of the potential increase in seizures due to a fall in the levels of lamotrigine. • Whilst Carbamazepine is a potent enzyme inducer and therefore can't be used in combination with the pill Antiepileptic and weight (medical-masterclass.com 2017 part 2) • Two antiepileptic medications have been found to induce weight loss; topiramate and zonisamide. • Valproate, vigabatrin, gabapentin, carbamazepine, and pregabalin induce weight gain. • Levetiracetam, lamotrigine, and phenytoin are weight neutral. Sodium valproate Indications • management of epilepsy and is first line therapy for generalised seizures. • acute mania Action • blockage of voltage-gated sodium channels • increasing GABA activity (by inhibits GABA transaminase). Adverse effects • gastrointestinal: nausea • increased appetite and weight gain • alopecia: regrowth may be curly (note that phenytoin → hirsutism while valporate → alopecia) • ataxia • tremor Which enzyme does Valproic Acid inhibit? GABA Transaminase What ion channel does valproic acid block? voltage-gated sodium channels Sodium valproate can lead to severe hepatic toxicity. more commonly if the patient has a metabolic or degenerative disorder, organic brain disease or severe seizures associated with mental retardation. Usually this reaction occurs within the first three months of therapy. Phenytoin Indications • management of seizures. • used as an antidote for Digitalis-induced arrhythmias. Action • blockage of voltage gated Na+ channels. • refractory period of voltage-gated Na+ channels decreasing the sodium influx into neurons which in turn decreases excitability Side effects • Acute  initially: dizziness, diplopia, nystagmus, slurred speech, ataxia  later: confusion, seizures • Chronic  common: gingival hyperplasia (secondary to increased expression of platelet derived growth factor, PDGF), hirsutism, coarsening of facial features, drowsiness  megaloblastic anaemia (secondary to altered folate metabolism) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • hepatitis • pancreatitis • thromobcytopaenia • teratogenic • hyponatraemia • polycystic ovarian (PCOS) syndrome • strong inhibitor of CYP450s. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  peripheral neuropathy  enhanced vitamin D metabolism causing osteomalacia  lymphadenopathy  dyskinesia • Idiosyncratic  fever  rashes, including severe reactions such as toxic epidermal necrolysis  hepatitis  Dupuytren's contracture (although not listed in the BNF)  aplastic anaemia  drug-induced lupus  Hypocalcaemia  Pseudolymphoma or, rarely, malignant lymphoma and mycosis-fungoides-like lesions. • Teratogenic  associated with cleft palate and congenital heart disease Interaction • Phenytoin would speed up metabolism of ethinyloestradiol making the pill less effective.  strong inducer of CYP450 enzymes. • Cimetidine increases the efficacy of phenytoin by reducing its hepatic metabolism • Sucralfate may decrease the pharmacological effects of phenytoin when administered concurrently • Effect on other anti-epileptic:  Phenytoin usually lowers the serum concentration of carbamazepine, clonazepam, topiramate and sodium valproate,  elevates the serum level of phenobarbitone.  Phenytoin does not appear to influence the serum concentration of levetiracetam. In renal failure Renal failure  ↓ drug affinity for protein binding  ↑ free drug  toxicity (drug level may be within the therapeutic range) • In patients with renal failure, dose reduction of phenytoin is therefore required. • Other drugs where this may be a problem include sodium valproate and warfarin. There is no oral preparation of fosphenytoin; it is used in status epilepticus only. Phenytoin toxicity typically gives rise to a cerebellar-like syndrome. Nystagmus is present even in mild toxicity. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Carbamazepine Carbamazepine is chemically similar to the tricyclic antidepressant drugs. Indications: • most commonly used in the treatment of epilepsy, particularly partial seizures, where carbamazepine remains a first-line medication. • Other uses include  neuropathic pain (e.g. trigeminal neuralgia, diabetic neuropathy)  bipolar disorder Mechanism of action • binds to sodium channels increases their refractory period Adverse effects • P450 enzyme inducer  Auto-induction of carbamazepine metabolism  need to increase the dose to achieve a therapeutic plasma concentration.  In patients on carbamazepine who develop Hashimoto's thyroiditis the dose of thyroxine should be increased to maintain therapeutic levels • dizziness and ataxia • drowsiness • headache • nystagmus • visual disturbances (especially diplopia)  The most common dose-related adverse effects of carbamazepine are diplopia and ataxia • Steven-Johnson syndrome  HLA-B1502 in individuals of Han Chinese and Thai origin has been shown to be strongly associated with the risk of developing Stevens-Johnson syndrome (SJS) when treated with carbamazepine.  The prevalence of the HLA-B1502 carrier is about 10% in Han Chinese and Thai populations.  Whenever possible, these individuals should be screened for this allele before starting treatment with carbamazepine • leucopenia and agranulocytosis • syndrome of inappropriate ADH secretion • Carbamazepine is nephrotoxic and may cause proteinuria. Carbamazepine overdose presents with: • Drowsiness • Slurred speech • Ataxia • Hallucinations • Nausea • Vomiting • Tremor • Blurred vision • Seizures • Oliguria, and • Bullous skin lesions. Contraindications: • atrioventricular (AV) conduction abnormalities • porphyria • history of bone marrow depression Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Vigabatrin Action • Inhibition of GABA Transaminase, thereby increasing GABA levels Indication: • Vigabatrin should be used only in combination with other anti-epileptic drugs for patients with resistant partial epilepsy when all other appropriate drug combinations have proved inadequate or have not been tolerated. • Vigabatrin is the drug of choice for infantile spasms, is not generally used outside the situation of infantile spasms Adverse effects: • reduced peripheral vision  40% of patients develop visual field defects, which may be irreversible  The pattern of the field defect is typically a bilateral, absolute concentric constriction of the visual field, the severity of which varies from mild to severe.  Vigabatrin-associated field defects are typically nasal more so than temporal,  visual fields should be checked before the start of treatment and every 6 months • aggression • alopecia • retinal atrophy Topiramate • Action  blocks voltage-gated Na+ channels  ↑ GABA action • advantages  Topiramate is one of the few antiepileptic drugs (also including gabapentin) with almost exclusively renal metabolism  It would be less likely to cause worsening of hepatic function • adverse effects of topiramate include  renal stones  weight loss  and neuropsychiatric side-effects Gabapentin • MOA of Gabapentin and Pregabalin?  Inhibits voltage gated Ca channels as a GABA analog • used for add-on therapy in partial or generalised seizures. • does not induce cytochrome P450 unlike other anticonvulsants such as phenytoin and phenobarbitone. • Requires dose adjustment in renal disease a patient with epilepsy and hepatic impairment  Topiramate Vigabatrin  Visual field defects Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Levetiracetam (Keppra) • Action  unknown. • it does not affect hepatic enzymes, but dose reduction is required in renal failure. • Usage:  Is an adjunctive treatment for partial seizures with or without secondary generalisation. • Advantages:  The drug appears to be well tolerated with few side effects.  has least interactions and is safe with warfarin . Procyclidine • Action  antimuscarinic • Indication  used to treat the Parkinsonian side effects of neuroleptics; • Signs of procyclidine overdose include:  Agitation  Confusion  Sleeplessness lasting up to 24 hours or more  Pupils are dilated and unreactive to light.  Visual and auditory hallucinations and tachycardia have also been reported. Barbiturates • Examples  phenobarbital, pentobarbital, thiopental, and secobarbital • Mechanism  increases GABAA action by ↑ duration of Cl- channel opening resulting in ↓ neuron firing  barbitDURATE • Clinical use  CNS depressant for anxiety and seizures  induction of anesthesia (thiopental) • kinetics  induction of P450  tolerance/dependence • Phenobarbitone suppress the central nervous system causing:  Hypoventilation (and therefore a respiratory acidosis)  Hypotension, and  Hypothermia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Anticholinergic syndrome Common causes Signs and symptoms Management • tricyclic antidepressants • atropine • H-1-antihistamines • hot, dry skin • hypertension • tachycardia • urinary retention • dilated pupils (mydriasis) • Agitated delirium can also occur supportive • Although physostigmine, a reversible inhibitor of acteylcholinesterase, is effective in treating symptoms, there is a significant risk of cardiac toxicity (bradycardia, AV conduction defects and asystole). • Treatment therefore consists of withdrawal of the precipitating drug and supportive care. Serotonin syndrome Causes • monoamine oxidase inhibitors • SSRIs • ecstasy • amphetamines • The serotonin syndrome occurs primarily because of interactions between monoamineoxidase inhibitors (MAOI) and drugs that enhance serotonin function (eg selective serotonin-reuptake inhibitors (SSRIs)) Features • neuromuscular excitation (e.g. hyperreflexia, myoclonus, Tremor, rigidity) • autonomic nervous system excitation (e.g. hyperthermia) • altered mental state • sweating • tachycardia Management (Cyproheptadine may be useful in treatment) • stopping the precipitating drugs • instituting generalised cooling measures and diazepam to reduce agitation • Studies have suggested that drugs possessing serotonin-antagonist activity (eg cyproheptadine, methysergide) may provide some benefit in the management of patients with the serotonin syndrome Oculogyric crisis An oculogyric crisis is a dystonic reaction to certain drugs or medical conditions Features • restlessness, agitation • involuntary upward deviation of the eyes Causes • phenothiazines • haloperidol  Usually a consequence of typical neuroleptic drugs such as haloperidol or chlorpromazine, but is unusual with newer agents such as olanzapine or clozapine. • metoclopramide • postencephalitic Parkinson's disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The condition is often precipitated by re-introduction of the agent. Management • procyclidine (usually IV or IM) • Benztropine St John's Wort Overview • shown to be as effective as tricyclic antidepressants in the treatment of mild-moderate depression • mechanism: thought to be similar to SSRIs (although noradrenaline uptake inhibition has also been demonstrated) • NICE advise 'may be of benefit in mild or moderate depression, but its use should not be prescribed or advised because of uncertainty about appropriate doses, variation in the nature of preparations, and potential serious interactions with other drugs' Adverse effects • profile in trials similar to placebo • can cause serotonin syndrome • inducer of P450 system, therefore decreased levels of drugs such as warfarin, ciclosporin. The effectiveness of the combined oral contraceptive pill may also be reduced. Dopamine receptor agonists Overview • e.g. bromocriptine, cabergoline , ropinirole, apomorphine • ergot-derived dopamine receptor agonists (bromocriptine, cabergoline, pergolide*) have been associated with pulmonary, retroperitoneal and cardiac fibrosis.  The Committee on Safety of Medicines advice that an ESR, creatinine and chest xray should be obtained prior to treatment and patients should be closely monitored  *pergolide was withdrawn from the US market in March 2007 due to concern regarding increased incidence of valvular dysfunction Action • L-DOPA is a precursor of dopamine. Dopamine itself does not cross the blood-brain barrier and so is no effective as a drug. • Levodopa exerts its therapeutic action after being converted by dopa decarboxylase to dopamine in the brain (in the striatum). • It is also converted to dopamine in the periphery, causing nausea and vomiting through action at the area postrema, which lies outside the blood-brain barrier in the brain stem. Indications • Parkinson's disease  Currently treatment is delayed until the onset of disabling symptoms  If the patient is elderly, L-dopa is sometimes used as an initial treatment • prolactinoma/ galactorrhoea • cyclical breast disease • acromegaly Adverse effects • nausea/vomiting • postural hypotension • hallucinations • daytime somnolence Chapter 13 Pharmacology Bromocriptine Action • Bromocriptine is an ergotamine dopamine agonist that leads to activate central and peripheral D2 receptors Indications • used to inhibit prolactin release from the anterior pituitary • preferred in women who are looking to get pregnant (less teratogenicity than cabergoline). Side effects • Common: nausea, nasal congestion, constipation, • Uncommon: dizziness (orthostatic hypotension) • Rare  Tinnitus  Excessive sleepiness (it is seen more commonly with modern agents such as ropinirole).  Pulmonary fibrosis  Vasospasm in the peripheral circulation: Higher doses may cause cold-induced peripheral digital vasospasm (Raynaud's phenomenon).  Hallucinations and psychosis : exacerbation or unmasking of depression and psychosis (only at very high doses) Dopa-decarboxylase inhibitors • Reduce the extracerebral complications of L-dopa therapy. These include nausea, vomiting, postural hypotension and cardiac arrhythmias. • When given in combination with dopamine agonists dyskinetic movements are more likely. • Carbidopa is an inhibitor of dopa decarboxylase that does not cross the blood-brain barrier, so it reduces peripheral, but not central, metabolism of levodopa to dopamine, thereby reducing the unwanted side effect but not the therapeutic action. • Benserazide is another peripheral dopa decarboxylase inhibitor that is commonly used in combination with levodopa (as co-beneldopa (Madopar)). Amitriptyline (tricyclic antidepressants) Adverse effects Antimuscarinic effects: relatively common and occur before an antidepressant effect is obtained. • Dry mouth • Constipation  paralytic ileus • Urinary retention • Tolerance is often achieved if treatment is continued • adverse effects may be less troublesome if treatment is begun with small doses and then increased gradually, although this may delay the clinical response. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Blurred vision and disturbances in accommodation • Increased intraocular pressure, and • Hyperthermia. Neurological adverse effects: • Drowsiness • Headache • Peripheral neuropathy • Tremor • Ataxia • Epileptiform seizures • Tinnitus Gastrointestinal complaints include: • Sour or metallic taste • Stomatitis, and • Gastric irritation with nausea and vomiting. • rarely, cholestatic jaundice cardiovascular • Orthostatic hypotension and tachycardia can occur in patients without a history of cardiovascular disease, and may be particularly troublesome in the elderly. blood disorders: • Eosinophilia • Bone marrow depression • Thrombocytopenia • Leucopenia, and • Agranulocytosis. Endocrine effects • testicular enlargement • gynaecomastia and breast enlargement, and galactorrhoea. • Sexual dysfunction. • Changes in blood sugar concentrations • hyponatraemia associated with inappropriate secretion of antidiuretic hormone. • increased appetite with weight gain (or occasionally anorexia with weight loss). • Sweating may be a problem. Others • Hypersensitivity reactions, such as urticaria and angioedema, and photosensitisation have been reported Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • extrapyramidal symptoms including speech difficulties (dysarthria).Confusion, hallucinations, or delirium may occur, particularly in the elderly, and mania or hypomania, and behavioural disturbances (particularly in children) have been reported. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Tricyclic overdose • Overdose of tricyclic antidepressants is a common presentation to emergency departments. Amitriptyline and dosulepin (dothiepin) are particularly dangerous in overdose. • Other tricyclic antidepressants includes imipramine • Early features relate to anticholinergic properties: dry mouth, dilated pupils, agitation, sinus tachycardia, blurred vision. Features of severe poisoning include: • Hypertension  results from the blockade of norepinephrine reuptake  is an early and transient finding.  Catecholamines are eventually depleted and in most patients hypertension is mild and self-limiting and is best left untreated. • Orthostasis and hypotension  are the result of direct myocardial depression, catecholamine depletion, alphaadrenergic blockade, and arrhythmias.  The combination of decreased contractility and vasodilation produce decreased preload and can result in severe and refractory hypotension. • Arrhythmias  secondary to blockage or slowing of fast sodium channels (causing a quinidine-like effect)  the most serious consequence of TCA overdose.  Mild overdoses produce sinus tachycardia, mostly as a result of anticholinergic effects.  More severe overdoses result in prolonged QRS and QTc intervals, followed by a prolonged PR interval, and, finally, ventricular arrhythmias, including ventricular tachycardia and ventricular fibrillation. • seizures • metabolic acidosis • coma ECG changes include: (ECG is the most appropriate initial action) • sinus tachycardia • widening of QRS • prolongation of QT interval Widening of QRS > 100ms is associated with an increased risk of seizures whilst QRS > 160ms is associated with ventricular arrhythmias Management • Check U&Es, looking specifically for hypokalaemia, and ABG looking for acidosis. Hypokalaemia should be corrected. ECG should be done to assess the QRS interval. • Gastric lavage should only be considered if it is within one hour a potentially fatal overdose. 50 g of charcoal can be given if it is within one hour of ingestion. • 50 ml of 8.4% sodium bicarbonate should be given if the pH is less than 7.1, QRS interval is more than 0.16 s, or there are cardiac arrhythmias or hypotension. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Indication for sodium bicarbonate in tricyclic poisoning includes wide QRS complex.  Intravenous sodium bicarbonate is the standard initial therapy for patients who develop cardiotoxicity (usually a QRS > 100ms or a ventricular arrhythmia) as a result of tricyclic antidepressant (TCA) overdose.  Mechanism of Sodium bicarbonate action:  alkalinisation of blood to a pH of 7.45-7.55 uncouples TCA from myocardial sodium channels;  also, additional sodium increases extracellular sodium concentration, thereby improving the gradient across the channel.  Intravenous magnesium sulphate can be used as a second-line agent in refractory arrhythmias.  IV bicarbonate may reduce the risk of seizures and arrhythmias in severe toxicity • arrhythmias: class 1a (e.g. Quinidine) and class Ic antiarrhythmics (e.g. Flecainide) are contraindicated as they prolong depolarisation. Class III drugs such as amiodarone should also be avoided as they prolong the QT interval. Response to lignocaine is variable and it should be emphasized that correction of acidosis is the first line in management of tricyclic induced arrhythmias • intravenous lipid emulsion is increasingly used to bind free drug and reduce toxicity • dialysis is ineffective in removing tricyclics • Patients who display signs of toxicity should be monitored for a minimum of 12 hours. Tricyclic Withdrawal symptoms rare and include: • cholinergic effects such as: abdominal cramps, diarrhoea, vomiting and dehydration • extrapyramidal symptoms such as: anxiety, psychosis, delirium and mania Monoamine oxidase (MAO) inhibitors Overview • serotonin and noradrenaline are metabolised by monoamine oxidase in the presynaptic cell Non-selective monoamine oxidase inhibitors • e.g. tranylcypromine, phenelzine • used in the treatment of atypical depression (e.g. hyperphagia) and other psychiatric disorder • not used frequently due to side-effects • Abrupt withdrawal of phenelzine leads to panic, shaking, sweats and nausea Adverse effects of non-selective monoamine oxidase inhibitors • hypertensive reactions with tyramine containing foods e.g. cheese, pickled herring, Bovril, Oxo, Marmite, broad beans • anticholinergic effects Selective serotonin reuptake inhibitors (SSRIs) Selective serotonin reuptake inhibitors (SSRIs) are considered first-line treatment for the majority of patients with depression. • citalopram and fluoxetine are currently the preferred SSRIs • sertraline is useful post myocardial infarction as there is more evidence for its safe use in this situation than other antidepressants • SSRIs should be used with caution in children and adolescents. Fluoxetine is the drug of choice when an antidepressant is indicated Adverse effects • gastrointestinal symptoms are the most common side-effect Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • there is an increased risk of gastrointestinal bleeding in patients taking SSRIs. A proton pump inhibitor should be prescribed if a patient is also taking a NSAID • patients should be counselled to be vigilant (ﺣﺬﺭ) for increased anxiety and agitation after starting a SSRI • fluoxetine and paroxetine have a higher propensity for drug interactions • The Committee on Safety of Medicines (CSM) have reported that hyponatraemia is associated with all types of antidepressants; however it has been reported more frequently with selective serotonin reuptake inhibitors (SSRIs) than with other antidepressants. • Hyponatraemia should be considered in all patients who develop drowsiness, confusion or convulsions whilst taking an antidepressant. Citalopram and the QT interval • citalopram and escitalopram are associated with dose-dependent QT interval prolongation and should not be used in those with:  congenital long QT syndrome;  known pre-existing QT interval prolongation;  or in combination with other medicines that prolong the QT interval • the maximum daily dose is now 40 mg for adults; 20 mg for patients older than 65 years; and 20 mg for those with hepatic impairment Interactions • NSAIDs: NICE guidelines advise 'do not normally offer SSRIs', but if given co-prescribe a proton pump inhibitor • warfarin / heparin: NICE guidelines recommend avoiding SSRIs and considering mirtazapine • aspirin: see above • triptans: avoid SSRIs • monoamine oxidase inhibitor (MAOI) serotonin syndrome follow up • Following the initiation of antidepressant therapy patients should normally be reviewed by a doctor after 2 weeks. • For patients under the age of 30 years or at increased risk of suicide they should be reviewed after 1 week. • If a patient makes a good response to antidepressant therapy they should continue on treatment for at least 6 months after remission as this reduces the risk of relapse. Discontinuation symptoms • When stopping a SSRI the dose should be gradually reduced over a 4 week period (this is not necessary with fluoxetine). • Paroxetine has a higher incidence of discontinuation symptoms  Withdrawal of paroxetine can lead to deterioration in mood and cognition and orofacial dystonias • Symptoms:  increased mood change  restlessness  difficulty sleeping  unsteadiness  sweating  gastrointestinal symptoms: pain, cramping, diarrhoea, vomiting  paraesthesia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Lithium • Lithium is mood stabilising drug used most commonly prophylactically in bipolar disorder but also as an adjunct in refractory depression. • It has a very narrow therapeutic range (0.4-1.0 mmol/L) and a long plasma half-life being excreted primarily by the kidneys. Mechanism of action - not fully understood, two theories: • interferes with inositol triphosphate formation • interferes with cAMP formation Adverse effects • nausea/vomiting, diarrhoea • fine tremor • polyuria (secondary to nephrogenic diabetes insipidus) • thyroid enlargement, may lead to hypothyroidism • ECG: T wave flattening/inversion • weight gain • Hypercalcaemia and primary hyperparathyroidism.  It has been suggested that lithium  alters the sensitivity of the parathyroid cells to calcium  hyperplasia.  Other studies have however failed to confirm an excess of parathyroid hyperplasia in this population, suggesting instead that lithium selectively stimulates growth of parathyroid adenomas in susceptible patients, who are best treated therefore with adenoma excision rather than total parathyroidectomy. Pregnancy • Exposure to lithium in utero is associated with Ebstein's anomaly. • Lithium is contraindicated during the first trimester and when breast-feeding. • In the first trimester lithium can cause atrialisation of the right ventricle. • During the second and third trimesters lithium can be used, but dose requirements are increased. • Immediately after delivery lithium dose requirements return to normal abruptly. Lithium levels can rise dangerously if a high dose is continued. • Long-term treatment with lithium can produce frank hypothyroidism  Lithium is concentrated by the thyroid and inhibits thyroidal iodine uptake. It also inhibits iodotyrosine coupling, alters thyroglobulin structure, and inhibits thyroid hormone secretion.  The best management in this case would be to discontinue the lithium therapy and replace it with another agent (after consulting the patient’s psychiatrist) – carbamazepine, sodium valproate or lamotrigine could all be alternative agents for mood stabilisation. Lamotrigine is the preferred option, assuming pregnancy is Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology desired. • Lithium is excreted in breast milk and if the infant becomes dehydrated, then toxic lithium levels develop rapidly. Monitoring of patients on lithium therapy • NICE and the National Patient Safety Agency (NPSA) recommends: lithium blood level should 'normally' be checked every 3 months. Levels should be taken 12 hours post-dose thyroid and renal function should be checked before starting treatment and then every 6 months patients should be issued with an information booklet, alert card and record book monitor serum lithium levels 1 week after treatment starts and every dose change, and then every 3 months. Lithium monitoring (NICE 2017): thyroid and renal function serum lithium levels ECG before treatment 1 week after treatment starts For people at high risk of cardiovascular disease every 6 months every dose change every 3 months Sodium valproate is the second line therapy for bipolar disorder in patients who don’t tolerate lithium or where it’s contraindicated. Interaction: • Acetazolamide leads to decreased lithium concentration  Osmotic diuretics and carbonic anhydrase inhibitors such as acetazolamide lead to decreased lithium concentration because of increased excretion • Calcium channel blockers combined with lithium may cause a syndrome of ataxia, confusion and sleepiness, which is reversible on stopping the drug. • ACE inhibitors lead to increased lithium concentration because of decreased excretion. • thiazide diuretics increased lithium reabsorption and may cause lithium intoxication. • Methyldopa also leads to increased risk of neurotoxicity. Lithium toxicity Toxicity may be precipitated by dehydration, renal failure, diuretics (Especially bendroflumethiazide) or ACE inhibitors and ARBs • Lithium has a very narrow therapeutic range (0.4-1.0 mmol/L) • long plasma half-life (20 h) • excreted primarily by the kidneys. • Lithium toxicity generally occurs following concentrations > 1.5 mmol/L. • Toxicity may be precipitated by dehydration, electrolyte imbalance, renal failure, , and drugs Drugs that may precipitate lithium toxicity include: • diuretics (especially bendroflumethiazide), • ACE inhibitors & ARB • NSAIDs • Metronidazole • Tetracycline Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Phenytoin • Ciclosporin • Methyldopa Features of toxicity • coarse tremor (a fine tremor is seen in therapeutic levels) • hyperreflexia • acute confusion • dysarthria • ataxia • seizure • coma Mild to moderate toxicity (levels less than 2 mmol/L) severe toxicity (levels more than 2 mmol/L) • anorexia • vomiting • ataxia • dysarthria • blurring of vision • coarse tremor • diarrhoea • drowsiness, and • muscle weakness. • circulatory failure • coma • convulsions • hyper-reflexia • oliguria • psychosis, and • death (in severe cases). Management • The management of lithium toxicity is largely supportive. • The first step is to establish renal function and correct serum electrolytes. • Which investigation will help you in the immediate setting?  Serum electrolytes and renal function  Renal function will determine the patient's ability to excrete lithium.  Lithium levels should be taken but may be of limited value in the acute setting (rapid result may not be available; levels not always reliable especially with sustained release preparations). • mild-moderate toxicity may respond to volume resuscitation with normal saline.  In case of significant hypernatraemia , 5% dextrose is an initial option for fluid replacement • haemodialysis may be needed in severe toxicity  indication of Haemodialysis:  if serum lithium levels > 4 mmol/l or  serum lithium levels > 2.5 mmol/l with signs of significant lithium toxicity (e.g. seizures, depressed mental status) or inability to excrete lithium (e.g. renal disease, decompensated heart failure). • sodium bicarbonate is sometimes used but there is limited evidence to support this.  By increasing the alkalinity of the urine, it promotes lithium excretion • Activated charcoal does not bind lithium effectively and is therefore ineffective except where co-ingestion of other poisons is suspected. • Whole bowel irrigation should be considered in adults who have ingested a slow release preparation of lithium of greater than 4 g. Prognosis • 10% of patients who survive severe lithium toxicity will be left with a neurological deficit. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Therapeutic drug monitoring Lithium • range = 0.4 - 1.0 mmol/l • take 12 hrs post-dose Digoxin • at least 6 hrs post-dose Ciclosporin • trough levels immediately before dose Phenytoin • trough levels immediately before dose Baclofen • gamma-aminobutyric acid-B receptor agonist • The primary site of action is the spinal cord by depressing monosynaptic and polysynaptic transmission. • It can hyperpolarise cells by increasing K+ conductance and inhibit Ca2+ channels in others. • Avoid abrupt withdrawal as it can cause serious side-effects including: Autonomic dysreflexia.  hallucinations Baclofen toxicity • Onset of toxicity is rapid and its effect can last up to 35-40 hours post ingestion. • Features include: Drowsiness Coma Respiratory depression  CO2 retention is likely to be due to central nervous system depression and reduction in diaphragmatic contraction secondary to baclofen toxicity. Hyporeflexia Hypotonia Hypothermia, and Hypotension. Bradycardia with first degree heart block and prolongation of Q-T interval can occur. • Treatment is usually supportive and often requires intensive care. Intubation and mechanical ventilation • Patients with a high risk of aspiration pneumonia (↓ glasgow coma scale (GCS) ) are a contraindication to non-invasive ventilation. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Endocrinology drugs For all diabetic drugs  See endocrinology lipid-lowering agents See endocrinology (Hyperlipidaemia: management) Octreotide Octreotide  Stimulation of the somatostatin (SMS) receptor Overview • long-acting analogue of somatostatin • somatostatin is released from D cells of pancreas and inhibits the release of growth hormone, glucagon and insulin Uses • acute treatment of variceal haemorrhage • acromegaly • gastrinomas • carcinoid syndrome • prevent complications following pancreatic surgery • VIPomas • refractory diarrhoea Adverse effects • gallstones (secondary to biliary stasis) Orlistat  Reduces fat absorption from the intestine • Orlistat promotes weight loss and improves co-morbidities in obese patients • Orlistat operates by preventing the absorption of fat molecules in the intestinal tract • Approximately 30% of fat that would otherwise have been absorbed passes straight through the bowel and is excreted in the faeces • As a result it can cause 'fatty stools', urgency and increased frequency of defaecation often with anal leakage or oily spotting • these effects encourage people taking the drug to limit fat intake • Orlistat itself is not absorbed, except in very small quantities and thus its side-effects are restricted to the gastrointestinal tract • Patients taking orlistat may require concomitant vitamin supplements because of malabsorption of fat-soluble vitamins such as vitamins A, D, K and E • Orlistat is shown to be clinically efficacious in reducing a person's weight over a period of a year • Study results also showed significant improvement in reducing fasting glucose, total cholesterol, LDL-cholesterol and blood pressure Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Obs & Gyna drugs Prescribing in pregnant patients Very few drugs are known to be completely safe in pregnancy. The list below largely comprises of those known to be harmful. Drugs Antibiotics • ACE inhibitors, ARBs • Statins • Warfarin • Sulfonylureas • Retinoids (including topical) • Cytotoxic agents • Tetracyclines • Aminoglycosides • Sulphonamides • Trimethoprim • Quinolones: the BNF advises to avoid due to arthropathy in some animal studies • The majority of antiepileptics including valproate, carbamazepine and phenytoin are known to be potentially harmful. The decision to stop such treatments however is difficult as uncontrolled epilepsy is also a risk. • Verapamil is relatively safe in pregnancy and has been widely used to treat maternal and fetal supraventricular tachycardias. • Amiodarone is associated with fetal hypothyroidism, • lisinopril with oligohydramnios, • lithium with Ebstein’s anomaly, • and warfarin with facial / CNS abnormalities. Combined oral contraceptive pills Mechanisms of action • Estrogen  Hypothalamus: ↓ release of GnRH  Pituitary: ↓ LH → inhibits ovulation, ↓ FSH → prevents ovarian folliculogenesis • Progestin → thickens the cervical mucus, preventing the entry of sperm. Advantages • Treatment of menopausal symptoms such as hot flashes. • Other beneficial effects of MHT include the decreased risk of colon cancer, diabetes mellitus type 2, and all-cause mortality for women ages 50-59 years. Emergency contraception (after unprotected sexual intercourse) • Most effective when taken within 3 days of intercourse  The rate of pregnancy is ≤ 3.0% if emergency contraception is taken within 72 hours. • Typically administered as a single dose or as two doses over one day • Significantly less effective in patients who are obese or overweight • Action of emergency contraception: ↓ tubal motility and ciliary activity thereby preventing sperm from reaching the oocyte in the ampulla of the tube. • Example: levonorgestrel Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Side effects • Irregular periods (unscheduled bleeding): is the most common adverse effect • Breast tenderness • Headaches • ↑ incidence of functional ovarian cysts, hepatic adenomas • ↑relative risk of venous and arterial thrombotic events. • Erythema nodosum Transdermal administration of estradiol is associated with a lower risk of stroke and venous thromboembolism than oral administration of estradiol and is unlikely to increase the risk of stroke and venous thrombosis above that of non-users. Contraindications • People >35 years old who smoke tobacco (risk of cardiovascular events) • Migraine (especially with aura) • Breast cancer • Liver disease. • breast feeding < 6 weeks post-partum • Uncontrolled hypertension • History of thromboembolic disease (stroke or ischaemic heart disease) Progestogen only pills (POPs) • Examples: Norethindrone, drospirenone, and desogestrel • Mechanism of contraception:  Norethindrone → thickening cervical mucus thereby preventing sperm penetration; ovulation is not consistently suppressed.  Drospirenone and desogestrel → suppression of ovulation. • Advantages  can be used whilst breast-feeding  can be used in situations where the combined oral contraceptive pill is contraindicated (most women with medical comorbidities). • Failure rate = over 7 % (women choosing POPs are often subfertile as a result of breastfeeding or older reproductive age) • Hepatic enzyme-inducers (e.g. anticonvulsants phenytoin, carbamazepine, topiramate, and barbiturates and the antituberculosis drug rifampin) →↓efficacy of POPs. Studies have shown that women taking estrogen- progestin combination OCPs before menopause have an increased risk of cervical carcinoma but a decreased risk of endometrial and ovarian carcinoma. An entirely normal 16-year-old girl is very tall and would like to stop growing. What is the most appropriate treatment for her?  Oral contraceptive pill  The oral contraceptive pill used in this context would be associated with fusion of long-bone growth plates, and subsequent cessation of longitudinal growth.  Although ideally she should be encouraged not to receive medical intervention at all, in this situation use of the OCP represents the lowest-risk option. Chapter 13 Pharmacology What is the action of emergency contraception in preventing conception following unprotected sexual intercourse.?  Decreasing tubal motility and ciliary activity thereby preventing sperm from reaching the oocyte in the ampulla of the tube. The rate of pregnancy is ≤ 3.0% if emergency contraception is taken within 72 hours after unprotected sexual intercourse. The earlier it is taken, the lower the likelihood of pregnancy! Breast feeding: contraindications Breast feeding is acceptable with nearly all anti-epileptic drugs The major breastfeeding contraindications tested in exams relate to drugs (see below). Other contraindications of note include: • galactosaemia • viral infections - this is controversial with respect to HIV in the developing world. This is because there is such an increased infant mortality and morbidity associated with bottle feeding that some doctors think the benefits outweigh the risk of HIV transmission SAFE DANGEROUS • Antibiotics: penicillins, cephalosporins, trimethoprim • Endocrine: glucocorticoids (avoid high doses), levothyroxine* • Epilepsy: sodium valproate, carbamazepine • Asthma: salbutamol, theophyllines • Psychiatric drugs: tricyclic antidepressants, antipsychotics** • Hypertension: β-blockers, hydralazine, methyldopa • Anticoagulants: warfarin, heparin • Digoxin *the BNF advises that the amount is too small to affect neonatal hypothyroidism screening **clozapine should be avoided Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Antibiotics: ciprofloxacin, tetracycline, chloramphenicol, sulphonamides • Psychiatric drugs: lithium, benzodiazepines, clozapine • Aspirin • Carbimazole • Sulphonylureas • Cytotoxic drugs • Amiodarone • vitamin A derivatives. 068 - Pages 1676-1700 068 Pages 1676-1700 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Drug causes teratogenesis Some common drugs and their potential teratogenic effect are given below: drug teratogenic effect Androgens cardiac deformities Alcohol fetal alcohol syndrome Carbamazepine microcephaly Diethylstilbestrol vaginal carcinoma Lithium cretinism Phenobarbital cleft palate Sodium valproate neural tube defects Thalidomide phocomelia Warfarin chondrodysplasia punctata Unwanted drug effects in pregnancy drug effects in pregnancy ACE inhibitors oligohydramnios, impaired renal function Aspirin kernicterus β-Blockers hypoglycaemia, intrauterine growth retardation, fetal bradycardia Carbimazole neonatal goitre NSAIDs close ductus arteriosus Sulphonamides kernicterus Thiazide diuretics: neonatal thrombocytopenia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Antimicrobial Antibiotics: bactericidal vs. bacteriostatic Bactericidal antibiotics Bacteriostatic antibiotics • penicillins • cephalosporins • aminoglycosides • nitrofurantoin • metronidazole • quinolones • rifampicin • isoniazid • chloramphenicol • macrolides • tetracyclines • sulphonamides • trimethoprim Antibiotics: mechanisms of action The lists below summarise the site of action of the commonly used antibiotics Inhibit cell wall formation Inhibit protein synthesis (by acting on ribosome) RNA synthesis peptidoglycan cross-linking 50S subunit chloramphenicol macrolides (e.g. • β-lactams  Penicillins  Cephalosporins • carbopenems ↓peptidoglycan synthesis erythromycin) 3. fusidic acid 4. (Quin/Dalfo)pristin 5. Linezolid 30S subunit • glycopeptides aminoglycosides  Vancomycin  teicoplanin • Isoniazid (Those organisms lacking a cell wall are resistant to these drugs eg. Chlamydia's) (cause misreading of mRNA) 2. tetracyclines Antibiotics: anaerobic activity antibiotics have anti-anaerobic activity antibiotics do not have anti-anaerobic activity • penicillins • cephalosporins (except ceftazidime) • erythromycin • metronidazole • tetracycline Skin rash with antibiotics • Ampicillin and amoxicillin can cause skin rashes that are not allergic in nature • Erythromycin, benzylpenicillin, cefuroxime and cefadroxil all produce a diffuse, papular, non-purpuric rash that may be intensely pruritic • A maculopapular rash is also seen when tonsillitis/pharyngitis is related to EBV infection Cephalosporins • Cephalosporins are safe in penicillin allergy if it is only a rash. • Only ceftazidime and cefepime will cover Pseudomonas Co-trimoxazole Indications • now only indicated for oral prophylaxis against Pneumocystis pneumonia, toxoplasmosis and nocardiosis • It should only be considered in the treatment of chronic bronchitis or urinary tract infection where there is no other alternative Side-effects • nausea, vomiting, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Inhibit DNA synthesis Inhibit • quinolones (e.g. ciprofloxacin) Damages DNA •Rifampicin metronidazole Inhibits folic acid formation sulphonamides trimethoprim • gentamicin • ciprofloxacin • ceftazidime Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • allergy : rash (including Stephens-Johnson syndrome), toxic epidermal necrolysis and photosensitivity • Blood disorders: neutropenia, thrombocytopenia and, rarely, agranulocytosis Cautions/contraindications • used with caution (or avoided) in renal or hepatic impairment Aminoglycosides Action • bactericidal antibiotics that bind to the 30S ribosome and inhibit bacterial protein synthesis. • active only against aerobic gram-negative bacilli and cocci.  ineffective against anaerobic bacteria as they require O2 to enter bacterial cells. Indications • endocarditis in combination with penicillin (gentamycin) • added to a beta-lactam antibiotic when serious Pseudomonas aeruginosa (cystic fibrosis) • tuberculosis (streptomycin) Side effects • Nephrotoxicity  The reversible acute tubular necrosis after aminoglycoside reflects a concurrent impairment in the concentrating ability, and most patients are non-oliguric.  Irreversible tubulointerstitial damage, however, is uncommon after discontinuing aminoglycoside.  We expect a diagnosis of acute renal failure beginning more than five days after the initiation of gentamicin;  Aminoglycoside nephrotoxicity correlates with  Frequency of aminoglycoside dosing • Ototoxicity:  Streptomycin, tobramycin, and gentamycin are primarily vestibulotoxic  Kanamycin, amikacin, neomycin, and dihydrostreptomycin are preferentially cochleotoxic.  Cochlear toxicity that results in hearing loss usually begins in the high frequencies and is secondary to irreversible destruction of outer hair cells in the organ of Corti, predominantly at the basal turn of the cochlea  What is the explanation of progression of hearing loss or onset of hearing loss after cessation of aminoglycoside treatment?  Aminoglycosides are cleared more slowly from inner ear fluids than from serum  monitor the patient for cochleotoxic and vestibulotoxic effects up to 6 months after cessation of aminoglycoside treatment is important.  What is the initial manifestation of early hearing loss?  increase in the threshold of highest frequencies (>4000 Hz).  what is the main teratogenic effect of aminoglycosides.  CN VIII toxicity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Transient myaesthenic syndrome Aminoglycosides may impair neuromuscular transmission and should not be given to patients with myasthenia gravis; large doses given during surgery have been responsible for a transient myaesthenic syndrome in patients with normal neuromuscular function. • What is the mechanism of resistance of Aminoglycosides? Bacterial transferase enzymes;  they inactivate the drug by acetylation, phosphorylation or adenylation • Why is the gentamycin trough level likely to be too high in patients with chronic renal failure? Prolongation of the half-life  The usual half-life of gentamicin is between 2 and 3 h, although this can be considerably prolonged in patients with renal failure. Administration • There are two commonly used regimens for dosing gentamicin. Both require the patient's body weight to ensure accurate dosing. For patients who are over their ideal body weight, this value rather than the patient's actual weight should be used. Ideal body weight can be calculated using age, sex and height on a number of online applications. The most commonly used dosing regimen in the UK is the once daily regime, which is thought to be associated with reduced toxicity whilst being effective against gram-negative infections.  It is not recommended for patients with a creatinine clearance of less than 60 ml/min.  The dose used is 7 mg/kg IV every 24 hours.  Levels should be monitored for patients on this regimen for 3 days or more, with a level taken 6-14 hours following the third dose. A nomogram is then used to determine whether the interval between doses should be altered. Patients with creatinine clearance of less than 60 ml/min are usually given a reduced dose of gentamicin with a multiple-daily dosing regimen. This may also be recommended by microbiologists for the treatment of serious gram-negative infections such as Pseudomonas. Dosing is dependent on creatinine clearance: >60 ml/min: 1.5-1.7 mg/kg IV every 8 hours 40-60 ml/min: 1.2-1.5 mg/kg IV every 12 hours 20-40 ml/min: 1.2-1.5 mg/kg IV every 12-24 hours <20 ml/min: 2 mg/kg loading dose then discuss with microbiology and pharmacy • On this regimen monitoring is typically initiated after the 3rd or 4th dose, which allows a steady-state to be reached. Peak levels should be taken 30 minutes following the end of the infusion, and a trough level taken before the next dose. The desired trough level is less than 2 micrograms/ml, with a peak level of 5-8 micrograms/ml. Administering gentamicin in conjunction with loop diuretics ↑↑ risk of exacerbating renal and ototoxicity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • Aminoglycosides Ototoxicity:  mechanism:  cochlear dysfunction (e.g., tinnitus, hearing impairment) by damaging cochlear cells, and/or  vestibulopathy (e.g., nausea, vomiting, dizziness, vertigo, oscillopsia, ataxia) by damaging hair cells of the inner ear.  nystagmus may be present as an early sign.  The vestibular dysfunction of gentamicin toxicity is typically bilateral; accordingly, there is no imbalance between right-sided and leftsided input to the central nervous system, so patients do not typically experience vertigo.  However, patients can experience oscillopsia and an abnormal head thrust test in both horizontal directions.  Oscillopsia is a visual disturbance in which stationary objects appear to oscillate. occur only when the head is moving. Quick movements of the head are associated with transient visual blurring. This can cause difficulties with seeing signs while driving or recognizing people's faces while walking.  Head thrust test (Head impulse test) a physical examination maneuver to test for vestibular neuritis. While the patient fixates on a target, the examiner administers brisk, horizontal head rotations to the side. Considered positive if the patient is unable to maintain visual fixation, in which case the patient requires corrective saccades (quick eye movements) to re-fixate back to the target). Macrolides • Erythromycin was the first macrolide used clinically. Newer examples include clarithromycin and azithromycin. • They are used against intracellular pathogens, including Mycoplasma and Legionella, and can also be used as alternatives in case of penicillin allergy. Action • Macrolides act by inhibiting bacterial protein synthesis by blocking translocation. • Macrolides are bacteriostatic agents that inhibit protein synthesis by binding to the 50S subunit of the bacterial ribosome. If used in high doses, they may be bactericidal. • If pushed to give an answer they are bacteriostatic in nature, but in reality this depends on the dose and type of organism being treated.  bacteriostatic at low doses and bactericidal at high doses Macrolides (erythromycin, azithromycin and clarithromycin), aminoglycosides and chloramphenicol  bind to bacterial ribosomes and disrupt protein synthesis • Clarithromycin is a macrolide antibiotic with good gram positive cover and that of atypical Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad organisms. It's mechanism of action is via reversible inhibition of 50s ribosome subunit. Mechanism of resistance • post-transcriptional methylation of the 23S bacterial ribosomal RNA Adverse effects • gastrointestinal side-effects are common. Nausea is less common with clarithromycin than erythromycin • cholestatic jaundice: risk may be reduced if erythromycin stearate is used • P450 inhibitor (see below) Common interactions • statins should be stopped whilst taking a course of macrolides. Macrolides inhibit the cytochrome P450 isoenzyme CYP3A4 that metabolises statins. Taking macrolides concurrently with statins significantly increases the risk of myopathy and rhabdomyolysis. • Clarithromycin enhances anticoagulant effect of coumarins This is because warfarin is metabolised by the same CYP3A isozyme as clarithromycin. Clarithromycin, known to inhibit CYP3A, and a drug primarily metabolised by CYP3A may be associated with elevations in drug concentrations that could increase or prolong both therapeutic and adverse effects of the concomitant drug. • Clarithromycin is a potent inhibitor of CYP3A4, and as such may interfere significantly with metabolism of a number of medications, including theophylline, simvastatin, and cyclosporine as the most important drug interactions. • The effect of warfarin and digoxin may also be potentiated by clarithromycin. Erythromycin • Was the 1st macrolide used clinically. Newer examples include clarithromycin and azithromycin. • Erythromycin may potentially interact with amiodarone, warfarin and simvastatin • Erythromycin would inhibit the metabolism of theophylline. • Macrolides act by inhibiting bacterial protein synthesis. • If pushed to give an answer they are bacteriostatic in nature, but in reality this depends on the dose and type of organism being treated. Erythromycin is used in gastroparesis as it has prokinetic properties, Promotes gastric emptying Used in diabetic gastropathy, Adverse effects of erythromycin • GI side-effects are common • Cholestatic jaundice: risk may be ↓ if erythromycin stearate is used • P450 inhibitor • associated with prolonged QT interval and torsades de pointes, Quinolones Quinolones are a group of antibiotics which work by inhibiting DNA synthesis and are bactericidal in nature. Examples include: • ciprofloxacin • levofloxacin Mechanism of action Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • inhibit topoisomerase II (DNA gyrase) and topoisomerase IV Mechanism of resistance • mutations to DNA gyrase, efflux pumps which reduce intracellular quinolone concentration Adverse effects • lower seizure threshold in patients with epilepsy • tendon damage (including rupture) - the risk is increased in patients also taking steroids  Rupture has been reported in the achilles, shoulder and hand.  This may occur due to disruption of the extracellular matrix and depletion of collagen which is observed in animal models. • cartilage damage has been demonstrated in animal models and for this reason quinolones are generally avoided (but not necessarily contraindicated) in children Interaction & contraindication • It should not be used with drugs that prolong the QT interval (eg erythromycin, tricyclic antidepressants) since there is an increased risk of cardiac arrhythmias • Contraindicated in left heart failure with reduced ejection fraction • It should not be given at the same time as bivalent or trivalent cations (eg aluminium, iron) as these reduce absorption. Antacids  reduce quinolones absorption leading to therapeutic failure. • Quinolone absorption is markedly reduced with antacids containing aluminium, magnesium and/or calcium and therapeutic failure may result. Other metallic ion-containing drugs, such as sucralfate, iron salts, and zinc salts, can also reduce absorption. • The affinity of quinolones for the gamma-aminobutyric acid (GABA) receptor may induce CNS adverse effects; these effects are enhanced by some nonsteroidal anti-inflammatory drugs (NSAIDs). Co-amoxiclav • Because of cholestatic jaundice, prescription of co-amoxiclav is not recommended for longer than 14 days. • If patient developed cholestatic jaundice  the co-amoxiclav should be withdrawn, and the combination avoided in future. Probenecid • Drugs can be excreted into the proximal convoluted tubule of the nephron by cation or anion transporters:  cation transporters: basic drugs, eg quinine, pethidine, morphine  anion transporters: acidic drugs, eg penicillins, bendroflumethiazide, furosemide, cephalosporins • The anion transporters are inhibited by probenecid, which can lead to increased plasma concentrations of acidic drugs • probenecid used clinically to increase the plasma half-life and therefore the therapeutic duration of the drug • For example, in the management of gonorrhoea infection, probenecid may be combined with oral penicillin to increase the half-life of the penicillin Sulfonamides Antibacterial sulfonamides act as competitive inhibitors of the enzyme dihydropteroate synthetase (DHPS), an enzyme involved in folate synthesis. Other uses • The sulfonamide chemical moiety is also present in other medications that are not antimicrobials, including thiazide diuretics (including hydrochlorothiazide, metolazone, and indapamide, among others), loop diuretics (including furosemide, bumetanide and torsemide) sulfonylureas (including glipizide, glyburide, among others), some COX-2 inhibitors (e. g. celecoxib) and acetazolamide. • Sulfasalazine, in addition to its use as an antibiotic, is also utilized in the treatment of inflammatory bowel disease. • Co-trimoxazole: sulfonamide antibiotic combination of trimethoprim and sulfamethoxazole, in the ratio of 1 to 5, used in the treatment of a variety of bacterial infections. The name cotrimoxazole is the British Approved Name, and has been marketed worldwide under many trade names including Septra, Bactrim, and various generic preparations. Sources differ as to whether co-trimoxazole usually is bactericidal or bacteriostatic Vancomycin Spectrum of the drug – MEC • M – MRSA • E – Enterococcus • C - Cl. difficle Action • glycopeptide antibiotic • Bactericidal  inhibits formation of peptidoglycan in bacterial cell walls, but a step earlier in the process compared to β-lactams  binds D-ala-D-ala moities of the peptides Resistance • D-ala-D-ala mutates to D-ala-D-lac, conferring resistance Indications • IV administration for serious, multidrug resistant Gram-positive infections  including methicillin-resistant Staphylococcus aureus infections (MRSA)  including Enterococcus  including multidrug resistant Staph epidermidis • Given orally for C. difficile  not systemically absorbed when given orally  when antibiotic-associated colitis fails to respond to metronidazole therapy or is severe and potentially life-threatening; • prophylaxis,  for endocarditis following certain procedures in patients at high risk for endocarditis;  for major surgical procedures involving the implantation of prosthetic materials or devices, e.g., cardiac and vascular procedures and total hip placement, Side effects • Red man syndrome  non-immunological reaction, related to the rate of infusion (infuse drug too fast → release of histamine → red rash)  If a patient experiences an infusion related reaction to vancomycin:  1.Cease infusion  2. Administer antihistamine (cetirizine10mg PO)  3. If newly hypotensive consider adrenaline Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Side effects – RON • R - Red man syndrome • O – Ototoxicity • N - Nephrotoxicity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  4. recommencement of vancomycin at a slower rate of infusion (doubling the time to infuse the solution, or changing to a continuous infusion). • Ototoxicity more likely in patients with high plasma concentrations, renal impairment or pre-existing hearing loss. may progress after drug withdrawal, may be irreversible. Hearing loss may be preceded by tinnitus, which must be regarded as a sign to stop treatment. • Nephrotoxicity • Thrombophlebitis Dosage • loading dose: 25mg / kg (actual body weight) • Maintenance dose: 15 mg/kg per dose (actual body weight)  (15mg/kg 12-hourly if GFR ≥40mL/min, (maximum 2 grams per dose) • When to start maintenance dose: According to GFR level:  if GFR ≥ 40mL/min : 12 hours after loading dose  if GFR = 20-39 mL/min : 24 hours after loading dose  If GFR < 20mL/min : check trough level 24 hours after loading dose; wait for trough result prior to re-dosing. Maintenance dose determination Monitoring • Vancomycin requires plasma level monitoring (after three or four doses if the renal function is normal, or earlier if renal impairment is present) • the best determinant of vancomycin efficacy is the AUC/MIC • A 24-hour AUC/MIC of 400 or more is the target for clinical success • AUC/MIC means: ratio of Area Under the Curve (plasma concentration vs time) to Minimum Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Inhibitory Concentration (Units are mg.hr/Litre) • For practical reasons, a trough (pre-dose) plasma concentration is used as a surrogate measure of efficacy. • Trough level means: a serum vancomycin level taken at the end of the dosing interval, approximately one hour prior to next dose • The important level to measure here is the trough level as opposed to the peak level with gentamicin. • the target vancomycin trough level for the treatment of (MRSA) bacteremia is 15 to 20 μg/ml to achieve an AUC/MIC of 400 • The trough level toxic threshold (30 mg/l).  If trough level > 30 mg/l  Omit dose and restart when level <15 mg/l  dose omission is required to reduce the risk of significant complications (including ototoxicity and nephrotoxicity).  The BNF recommends trough levels of 15-20 mg/l for endocarditis. Intravenous administration • Doses of 1g should be administered over at least 60 minutes. For higher doses the duration of infusion should be extended by 30 minutes for each additional 500mg. This is recommended to reduce the risk of red man syndrome. • The usual dilution is 5mg/mL; for fluid-restricted patients, concentrations of up to 10mg/mL may be used Which molecular change is responsible for vancomycin resistance?  D-ala D-ala to D-ala D-lac  Vancomycin resistance is involves its Binding sites the D-Ala-D-Ala.  terminal D-Ala is replaced by D-Lactate( D-Lac). Linezolid • is a type of oxazolidinones antibiotic class Action • inhibits bacterial protein synthesis by binding at the 50S subunit of the bacterial ribosome  linezolid occupies the A site of the 50S ribosomal subunit, inducing a conformational change that prevents tRNA from entering the site and ultimately forcing tRNA to separate from the ribosome  work on the first step of protein synthesis, initiation, unlike most other protein synthesis inhibitors, which inhibit elongation • bacteriostatic Spectrum, highly active against Gram positive organisms including: • MRSA (Methicillin-resistant Staphylococcus aureus) • VRE (Vancomycin-resistant enterococcus) • GISA (Glycopeptide Intermediate Staphylococcus aureus) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Advantages • high bioavailability (close to 100%) when given by mouth:  the entire dose reaches the bloodstream, as if it had been given intravenously. Adverse effects • Bone marrow suppression (especially thrombocytopenia)  (reversible on stopping) • Peripheral neuropathy • GI upset • Serotonin syndrome Contraindications • Concurrent use with monoamine oxidase inhibitors (MAOI) and selective serotonin reuptake inhibitors (SSRIs) • tyramine diet Carbapenems • Carbapenems are antibiotics used for multidrug-resistant (MDR) bacteria. • members  imipenem (+ cilastatin)  normal kidneys break down imipenem with a dihydropeptidase  cilastatin, a selective dihydropeptidase inhibitor, is always given with imipenem  inhibits renal dihydropeptidase I, thereby decreasing inactivation of drug in renal tubules  cilastatin not needed for meropenem  meropenem • Their use is primarily in people who are hospitalized. • Like the penicillins and cephalosporins, they are members of the beta lactam class of antibiotics, which kill bacteria by binding to penicillin-binding proteins and inhibiting cell wall synthesis. • Side effect  Gastrointestinal distress, skin rash and seizures are three common complications of carbapenem administration when there are high plasma levels.  5-10% of patients with penicillin allergy are also allergic to carbapenems Meropenem • Which Carbapanem antibiotic has less CNS toxicity?  Meropenem • Meropenem is a carbapanem antibiotic that does not need to be coadministered with Cilastatin. Trimethoprim • Trimethoprim is an antibiotic, mainly used in the management of urinary tract infections. • It is combined with sulfamethoxazole for synergistic reasons Mechanism of action • interferes with DNA synthesis by inhibiting dihydrofolate reductase Adverse effects • myelosuppression • transient rise in creatinine: trimethoprim competitively inhibits the tubular secretion of creatinine resulting in a temporary increase which reverses upon stopping the drug  Trimethoprim interferes with tubular handling of creatinine and thereby leads to an increase in serum creatinine, without impairment of GFR. • Megaloblastic anaemia may occur owing to folate deficiency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Quinupristin & dalfopristin antibiotics Overview • injectable streptogrammin antibiotic Only administered via a central line. • combination of group A and group B streptogrammin respectively. • inhibits bacterial protein synthesis by blocking tRNA complexes binding to the ribosome Spectrum • most Gram-positive bacteria • Particularly useful against multi- resistant Strep. pneumoniae and Staph. aureus. • exception: Enterococcus faecalis* Adverse effects • thrombophlebitis (give via a central line) • arthralgia • P450 inhibitor *not to be confused with Enterococcus faecium, which is sensitive to Quinupristin & dalfopristin Tuberculosis: drug side-effects and mechanism of action Drug Most common side effects Rifampicin Orange bodily fluids, rash, hepatotoxicity, drug interactions Isoniazid Peripheral neuropathy, psychosis, hepatotoxicity Pyrazinamide Arthralgia, gout, hepatotoxicity, nausea Ethambutol Optic neuritis, rash Rifampicin • mechanism of action: inhibits bacterial DNA dependent RNA polymerase preventing transcription of DNA into mRNA • potent liver enzyme inducer • hepatitis, • orange secretions Patients on rifampicin should be warned that their urine, tears and other secretions will develop a bright orange-red colour • flu-like symptoms • acute interstitial nephritis (pt may present with acute renal failure after 1 month of starting rifampicin) Interaction • Interact with oral contraceptive induces  failure of the oral contraceptive treatment • Rifampicin is a potent hepatic enzyme inducer that increases the metabolism of many drugs, including all the steroid hormones • Barrier contraceptives must be used during treatment with rifampicin and for 4-8 weeks after a course of rifampicin is completed Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Isoniazid • mechanism of action: inhibits mycolic acid synthesis • peripheral neuropathy:  Occurs in less than 1%  Those with N-acetyltransferase type-2 gene defect  resulting in abnormal isoniazid metabolism  predisposed to neuropathy  Prevented with 10 mg pyridoxine (Vitamin B6) • hepatitis, raised transaminases in 10-20%  Isoniazid-induced hepatitis occurs in ~1% of individuals and is much commoner in people more than 35-years-old (risk of hepatitis is less than 0.3% in patients under 20 years; 2-3% risk in individuals over 50 years). • agranulocytosis • liver enzyme inhibitor • isoniazid inhibits the conversion of tryptophan to niacin  nicotinic acid (niacin) deficiency  Pellagra (the 3 D's - dermatitis, diarrhoea and dementia) • systemic lupus erythematosus (SLE)-like syndrome. • Isoniazid toxicity  Isoniazid toxicity should be suspected in any patient with intractable seizures and profound metabolic acidosis with an elevated anion gap.  Intravenous pyridoxine (vitamin B6) is the treatment of choice.  The acidosis may need to be corrected with bicarbonate. Pyrazinamide • mechanism of action: converted by pyrazinamidase into pyrazinoic acid which in turn inhibits fatty acid synthase (FAS) I • hyperuricaemia causing gout • arthralgia, myalgia • hepatitis Ethambutol • mechanism of action: inhibits the enzyme arabinosyl transferase which polymerizes arabinose into arabinan • optic neuritis: check visual acuity before and during treatment • dose needs adjusting in patients with renal impairment The main adverse effects of ethambutol are:  loss of visual acuity  restriction of visual fields  colour blindness  retrobulbar neuritis  arthralgia. Uncommonly it may be associated with  hyperuricaemia, and with interstitial nephritis. This is thought to occur less frequently than with rifampicin. Antiviral agents Drug Mechanism of action Aciclovir Guanosine analog, phosphorylated by thymidine kinase which in turn inhibits the viral DNA polymerase Ganciclovir Guanosine analog, phosphorylated by thymidine kinase which in turn inhibits the viral DNA polymerase Ribavirin Guanosine analog which inhibits inosine monophosphate (IMP) dehydrogenase, interferes with the capping of viral mRNA Amantadin e Inhibits uncoating (M2 protein) of virus in cell. Also releases dopamine from nerve endings Oseltamivir Inhibits neuraminidase Influenza Foscarnet Pyrophosphate analog which inhibits viiral DNA polymerase Interferon-α Human glycoproteins which inhibit synthesis of mRNA Cidofovir Acyclic nucleoside phosphonate, and is therefore independent of phosphorylation by viral enzymes (compare and contrast with aciclovir/ganciclovir) Which step is required for acyclovir activation? Conversion to monophosphate form by viral thymidine kinase Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Adverse effects/toxicit y Indication s HSV, VZV Crystalline nephropathy CMV Myelosuppressio n/agranulocytosis Chronic hepatitis C, RSV Haemolytic anaemia Influenza, Parkinson's disease Confusion, ataxia, slurred speech CMV, HSV if not responding to aciclovir Nephrotoxicity, hypocalcaemia, hypomagnasaem ia, seizures Chronic hepatitis B & C, hairy cell leukaemia Flu-like symptoms, anorexia, myelosuppressio n CMV retinitis in HIV Nephrotoxicity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology HIV: anti-retrovirals Highly active anti-retroviral therapy (HAART) involves a combination of at least three drugs, typically two nucleoside reverse transcriptase inhibitors (NRTI) and either a protease inhibitor (PI) or a non-nucleoside reverse transcriptase inhibitor (NNRTI). This combination both decreases viral replication but also reduces the risk of viral resistance emerging Anti-retroviral agent used in HIV About Nucleoside Analogue Reverse Transcriptase Inhibitors (NRTI) Examples: zalcitabine, zidovudine (AZT), didanosine, lamivudine, stavudine, Protease inhibitors (PI) • Inhibits a protease needed to make virus able to survive outside the cell • Examples: indinavir, nelfinavir, ritonavir, saquinavir Non-Nucleoside Reverse Transcriptase Inhibitors (NNRTI) examples: nevirapine, efavirenz Nucleoside analogue reverse transcriptase inhibitors (NRTI) • examples: zidovudine (AZT), didanosine, lamivudine, stavudine, zalcitabine • general NRTI side-effects: peripheral neuropathy • zidovudine: anaemia, myopathy, black nails • didanosine: pancreatitis Non-nucleoside reverse transcriptase inhibitors (NNRTI) • examples: nevirapine, efavirenz • side-effects: P450 enzyme interaction (nevirapine induces), rashes Protease inhibitors (PI) • Protease inhibitors are multi-pathway inhibitors of rivaroxaban clearance and elimination. • examples: indinavir, nelfinavir, ritonavir, saquinavir • side-effects: diabetes, hyperlipidaemia, buffalo hump, central obesity, P450 enzyme inhibition • indinavir: renal stones, asymptomatic hyperbilirubinaemia • ritonavir: a potent inhibitor of the P450 system HIV: anti-retrovirals - P450 interaction • nevirapine (NNRTI): induces P450 • protease inhibitors: inhibits P450 Abnormalities of serum lipid levels are likely to be multifactorial in patients with HIV disease, but appear much commoner in patients taking protease inhibitors. Isolated hypertriglyceridaemia can occur in HIV disease in the absence of protease inhibitors, but extremely high serum triglycerides have been documented in some patients treated with these drugs. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Oseltamivir (Tamiflu) • Oseltamivir (Tamiflu) like its predecessor zanamivir (Relenza) functions as an antiviral through inhibition of the enzyme neuraminidase, thus slowing viral replication down rather than directly killing the virus particle. • This slowing down of replication is important in permitting time for the body's own immune system to deal with the virus. • Unlike inhaled zanamivir, oseltamivir is administered orally. • Oseltamivir It is of value in prophylaxis against influenza • However, viral replication is rapid and to be effective the drug must be given as early as possible after the development of symptoms of flu and preferably within 48 hours. Anti-fungal • Nystatin is poorly absorbed through mucous membranes and is thus useful in oral, vaginal and enteric candidiasis • Terbinafine is used to treat superficial mycoses such as dermatophyte infections • Fluconazole is useful in candidiasis and central nervous system infections with Cryptococcus neoformans and is usually commenced after initial treatment with amphotericin and flucytosine • Itraconazole is the agent of choice for non-life threatening blastomycosis and histoplasmosis it is also moderately effective against invasive aspergillosis • Amphotericin B  treatment of Aspergilloma  The drug may exert either fungicidal or fungistatic activity, depending on its concentration at the site of infection and sensitivity of the organism  increases the permeability of the fungal cell wall by binding to ergosterol and forming micropores  side effect nephrotoxicity associated with hypokalaemia and hypomagnesaemia  To decrease toxicity, newer lipid-bound preparations are now available Griseofulvin • Is not active against Candida albicans. It is active against trichophytons (tinea) and other dermatophytes. • It is metabolised in the liver (note also it's an enzyme inducer). Only 0.1-0.2% excreted in urine. • Treatment with griseofulvin is often needed for a long period, sometimes years, depending on the rate of nail growth. • It is associated with drug-induced Stevens-Johnson syndrome Diethylcarbamazine Indication: • Treatment of individual patients with certain filarial diseases. • These diseases include: lymphatic filariasis caused by infection with Wuchereria bancrofti, Brugia malayi, or Brugia timori; (ELEPHANTiasis) tropical pulmonary eosinophilia, and loiasis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Overdose of antimalarial medications Chloroquine Symptoms • Nausea • Headaches • Visual disturbances • Cardiac arrhythmias • Convulsions • Coma Treatment • Activated charcoal should be given to patients who present within 1 h • The initial hypokalemia that occurs appears to be cardio-protective and should not be corrected for at least 8 h after the ingestion • In patients with severe toxicity, high-dose (2 mg/kg) diazepam and adrenaline (0.25 pg/kg per min) have been shown to reduce mortality Quinine toxicity (cinchonism) • Indications of Quinine:  antimalarial  prophylactic agent against leg cramps, • The effect of Quinine toxicity, (known as cinchonism), may be fatal:  In the short term:  cardiac arrhythmia (common) (ventricular tachyarrhythmias or fibrillation)  due to blockade of sodium and potassium channels prolonging QRS and QT intervals respectively  flash pulmonary oedema  Hypoglycaemia (common)  quinine stimulates pancreatic insulin secretion  Visual complications, including blindness, can occur and may be permanent  in the long term  renal failure • Differential diagnosis (Quinin vs Aspirin)  Clinically, quinine toxicity is difficult to distinguish from aspirin poisoning and so measurement of serum salicylate levels is important when this clinical picture is seen.  Central nervous symptoms such as tinnitus, deafness and visual defects which may occur with aspirin are usually transient whereas quinine leaves permanent neural damage, if the patient survives.  In terms of management however, whereas aspirin can be cleared from overdose victims by haemofiltration, quinine cannot be extracted easily by extracorporeal methods. • Management  Supportive  fluids, inotropes and bicarbonate as needed  positive pressure ventilation for pulmonary oedema. Classical hallmarks of cinchonism are tinnitus, visual blurring, flushed, dry skin and abdominal pain. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Avoid  Lidocaine (lignocaine) should not be used in the management of cardiac arrhythmias as this can increase the risk of seizures  Urine acidification is not recommended as whilst it increases quinine elimination, it also increases the risk of cardiotoxicity Immunosuppressants Ciclosporin (Cyclosporine) Mode of action • It acts by binding to cyclophilin forming a complex which  inhibits calcineurin, (a phosphotase that activates various transcription factors in T cells)  reducing IL-2 release  decreases clonal proliferation of T cells  immunosuppression Indications • following organ transplantation • rheumatoid arthritis • psoriasis (has a direct effect on keratinocytes as well as modulating T cell function) • ulcerative colitis • pure red cell aplasia • atopic dermatitis (AD) (T lymphocytes are involved in the pathophysiology of AD and increased production of cytokines particularly IL-4) Adverse effects (note how everything is increased - fluid, BP, K+, hair, gums, glucose) • Nephrotoxicity  Chronic interstitial nephritis is a major side-effect of ciclosporin  Fluconazole inhibits the metabolism of ciclosporin which increases the risk of ciclosporin nephrotoxicity. • hepatotoxicity • fluid retention • hypertension • hyperkalaemia • hypertrichosis • gingival hyperplasia • impaired glucose tolerance • hyperlipidaemia • increased susceptibility to severe infection Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • Tremor  cause coarse tremor.  In the first instance the dose should be reduced.  Usually the neurological side effects of cyclosporin are dose dependent. • increased risk for Squamous cell carcinoma  Cutaneous squamous cell carcinoma (SCC) is the second most common human cancer  transplant-associated SCC (TSCC), which occurs in immune-suppressed solid organ transplant recipients (OTRs) may be considerably more aggressive than SCC in immune competent patients, with metastatic rates as high as 8%  IL-22 receptor is most highly expressed in TSCC and is induced by cyclosporine A.  Treatment with anti–IL-22 antibody decreases SCC tumor number and tumor burden. Note: • Interestingly for an immunosuppressant, ciclosporin is noted by the BNF to be 'virtually non-myelotoxic'. Cyclosporine A immunosuppression drives catastrophic squamous cell carcinoma through IL-22 (September 2016) Monitoring • These patients are seen monthly to have their blood pressure, urea, and electrolytes checked. • indications for stopping cyclosporine treatment:  Difficult to control hypertension  increase in creatinine by more than 30% from baseline Tacrolimus Mode of action • similar to the action of ciclosporin Tacrolimus vs Ciclosporin: • It has a very similar action to ciclosporin (inhibits calcineurin, reducing IL-2 release ) • The action of tacrolimus differs from ciclosporin in that it binds to a protein called FKBP rather than cyclophilin • Tacrolimus is more potent than ciclosporin and hence the incidence of organ rejection is less. • However, nephrotoxicity and impaired glucose tolerance is more common Indications • immunosuppressant to prevent transplant rejection. • Other T-cell medicated diseases  Eczema (as ointment)  Sever refractory uveitis after bone marrow transplant  Vitiligo Monitoring • Tacrolimus levels can be affected by concomitant use of other drugs and changes in gut absorption, and so need to be monitored carefully. Many side effects of tacrolimus are similar to cyclosporine A, but tacrolimus does not cause gingival hyperplasia or hirsutism Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sirolimus Overview • A macrolide compound • Also known as rapamycin Mode of action • binding with intracellular FKBP-12 protein  inhibition of mTORC1 ↓ cytokine-induced T-cell proliferation  immunosuppression • Sirolimus binds to the immunophilin FK binding protein 12 (FKBP12), and the drugimmunophilin complex acts on the Target of Rapamycin (rapamycin being the original name of sirolimus) to interrupt stimulation of cell proliferation via the interleukin-2 receptor. • What is the target of action of sirolimus?  FK binding protein 12 (FKBP12) Indications • treatment of acute rejection. Adverse Effects • Pancytopenia • Hyperlipidemia • Peripheral edema • Insulin resistance  Inhibition of mTORC2  diabetes- like symptoms Azathioprine Azathioprine  check thiopurine methyltransferase deficiency (TPMT) before treatment • Azathioprine is metabolised to the active compound mercaptopurine, a purine analogue that inhibits purine synthesis  Impaired DNA synthesis • A thiopurine methyltransferase (TPMT) test may be needed to look for individuals prone to azathioprine toxicity.  The enzyme activity of thiopurine methyltransferase (TPMT) is under the control of a genetic polymorphism.  90 % of the population have normal or high (TPMT) enzyme activity. 10 % have intermediate levels  One in 300 people have no functional enzyme activity.  Several groups of patients have developed azathioprine induced myelosuppression linked to TPMT deficiency. Adverse effects include • bone marrow depression  Pancytopenia  It suppresses lymphocyte numbers and function • nausea/vomiting • pancreatitis • Hepatotoxicity • 100-fold increased risk of skin cancers and lymphomas. Monitoring • (BNF) suggest monitoring CBC, LFTs and U&E every 3 months once patients are established and stable on azathioprine treatment. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology interaction • Azathioprine and 6-MP are metabolized by xanthine oxidase. Therefore, allopurinol–a xanthine oxidase inhibitor–increases the risk of azathioprine and 6-MP toxicity. • A significant interaction may occur with allopurinol and hence lower doses of azathioprine should be used.  Allopurinol acts by inhibition of xanthine oxidase and thus inhibits the metabolism of 6-mercaptopurine, an active metabolite of azathioprine.  The prodrug azathioprine is metabolised to its active compound 6-mercaptopurine (6-MP). 6-MP undergoes catabolic oxidation to 6-thiouric acid by xanthine oxidase.  Allopurinol has a peak onset of action of one to two weeks and works by inhibiting xanthine oxidase.  Co-administration of (Azathioprine + Allopurinol)  accumulation of 6-MP (6-MP toxicity)  ↑ risk of myelosuppression (aplastic anaemia)  if concomitant use is to occur, a dose reduction in azathioprine by 25% is advised with regular blood count monitoring. Usage in pregnancy • Azathioprine can be used in pregnancy without significant risk to the fetus Methotrexate Action • Methotrexate is an antimetabolite which inhibits dihydrofolate reductase, an enzyme essential for the synthesis of purines and pyrimidines  Methotrexate inhibits dihydrofolate reductase , thereby inhibiting the production of tetrhydrofolate required for thymidine and purine synthesis.  inhibits purine and pyrimidine synthesis by competing for the active site of dihydrofolate reductase (by competitive inhibition).  It is cytotoxic during the S-phase of the cell cycle, and has a greater toxic effect on rapidly dividing cells.  Take 6 -12 weeks to achieve full affect Indications • rheumatoid arthritis • psoriasis (Methotrexate would be the only correct treatment for someone with erythrodermic psoriasis) • acute lymphoblastic leukaemia Adverse effects • mucositis • myelosuppression • Macrocytosis is seen as a consequence of long term methotrexate therapy. • pneumonitis • pulmonary fibrosis • liver cirrhosis  What is the toxicity of Methotrexate (MTX) at the liver?  Macrovesicular fatty change Pregnancy • women should avoid pregnancy for at least 3 months after treatment has stopped • the BNF also advises that men using methotrexate need to use effective contraception for at least 3 months after treatment Prescribing methotrexate • methotrexate is taken weekly, rather than daily Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • FBC, U&E and LFTs need to be regularly monitored.  The Committee on Safety of Medicines recommend 'FBC and renal and LFTs before starting treatment and repeated weekly until therapy stabilised, thereafter patients should be monitored every 2-3 months' • Folic acid 5mg once weekly should be co-prescribed, taken more than 24 hours after methotrexate dose • the starting dose of methotrexate is 7.5 mg once weekly, can be increased by 2.5 mg every 6 weeks, to a maximum of 20 mg weekly (Ref: oxford handbook of practical drug therapy) • only one strength of methotrexate tablet should be prescribed (usually 2.5 mg) • do not prescribe with aspirin or NSAIDs  ↓ methotrexate excretion  ↑ toxicity • avoid prescribing anti-folate antibiotics trimethoprim or cotrimoxazole concurrently - increases risk of marrow aplasia • In the circumstances of infection one should consider temporarily stopping methotrexate as it is an immunosuppressant. Interaction • OAT-1 inhibitors  Methotrexate is a substrate for the OAT-1 renal transporter and levels of methotrexate are therefore affected by decreased renal function.  OAT-1 inhibitors include drugs such as probenecid, and therefore should not be used in conjunction with methotrexate. • Omeprazole  Omeprazole is also known to affect clearance of methotrexate; this interaction is not thought to be via OAT-1, but is thought to be related to inhibition of breast cancer resistance protein, which is responsible for methotrexate transport. Monitoring • Clinicians are recommended to check FBC fortnightly until 6 weeks after the last dose increase.  Provided it is stable, it can be checked monthly thereafter until the dose and disease is stable for one year.  Thereafter, monitoring is guided by clinical judgement. If white cell count is less than 3.5, neutrophils less than 2 or platelets less than 150, methotrexate should be withheld pending discussion with the specialist team.  An MCV greater than 105 fL warrants checking B12, folate and TSH and treating any abnormality. If these are normal, discuss with the specialist team. • Liver function tests should be checked three monthly. If there is an unexplained decrease in albumin, or AST/ALT twice the upper limit of normal, the specialist team should be informed. • Urea, creatinine and electrolytes should be checked six monthly. If the estimated glomerular filtration rate falls below 50 mL/minute, methotrexate should be withheld until the result has been discussed with the specialist team. Drug MOA Mycophenolate mofetil inhibits inosine monophosphate dehydrogenase Azathioprine metabolised to the active compound mercaptopurine a purine analogue that inhibits DNA synthesis. purine synthesis inhibitor Methotrexate antimetabolite which inhibits dihydrofolate reductase Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Methotrexate overdose Methotrexate overdose  Folinic acid • Methotrexate is a folic acid antagonist which can result in multi-organ failure in overdose. • medication errors with respect to rheumatoid arthritis are not uncommon.  Patients occasionally find it difficult to understand that they must take their medication weekly as opposed to daily. • Calcium folinate is a potent antagonist for the effects of methotrexate on the haematopoeic system, given by IV infusion at doses up to 75mg in the first 12hrs. This can then be followed by doses of 6-12mg every 4hrs. • Folinic acid is the antidote and should be given intravenously as soon as possible, regardless of the liver function tests. • Blood transfusion may also be required in exceptional circumstances. • Where massive overdose of methotrexate has occurred, hydration and urinary alkalinisation may be an option. • Standard dialysis is ineffective in removing methotrexate, although intermittent high flux dialysis may be of value. Mycophenolate mofetil Mode of action • inhibits inosine monophosphate dehydrogenase, which is needed for purine synthesis as T and B cells are particularly dependent on this pathway it can reduce proliferation of immune cells • A growing number of studies have demonstrated the efficacy of mycophenolate in SLE, especially in the context of lupus nephritis. • Mycophenolate is an anti-purine drug that selectively depletes B and T lymphocytes (preferentially targeting activated cells). The result of this mode of action is that neutropenia is rare, which would be advantageous in (SLE) patients complicated by an autoimmune neutropenia.  the most appropriate agent for (SLE) which complicated by an autoimmune neutropenia • adverse effects  Pancytopenia  Hypertension  Hyperglycemia Hydroxychloroquine • Hydroxychloroquine ocular toxicity includes:  Keratopathy  Ciliary body involvement  Lens opacities (Lenticular deposits)  Retinopathy.  Retinopathy is the major concern; the others are more common but benign.  The incidence of true hydroxychloroquine retinopathy is exceedingly low.  Risk factors include:  Daily dosage of hydroxychloroquine  Cumulative dosage  Duration of treatment  Coexisting renal or liver disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  Patient age, and  Concomitant retinal disease.  Patients usually complain of difficulty in reading, decreased vision, missing central vision, glare, blurred vision, light flashes, and metamorphopsia.  They can also be asymptomatic.  Most patients with advanced retinopathy have a bull's eye (also known as target, as in darts) fundoscopic appearance. All patients have field defects including paracentral, peri-central, and central and peripheral field loss. • Regular screening may be necessary to detect reversible premaculopathy. • Cessation of the drug is the only effective management of the toxicity. Sulfasalazine Side effects • hypersensitivity, • myelosuppression, • macrocytosis, and • azoospermia in males. sulfasalazine toxicity • There are numerous signs of sulfasalazine toxicity. • Rash and oral ulceration should be asked about and, if severe, the drug should be withheld until specialist advice has been sought. • Nausea, dizziness and headache can be common and sometimes necessitate dose reduction. • If patients present with abnormal bruising or sore throat an urgent CBC should be done, and sulfasalazine withheld until results are available. Monitoring • CBC  CBC should be monitored monthly for the first 3 months.  Sulphasalazine should be withheld until discussion with the specialist team if:  The white cell count is less than 3.5  Neutrophils is less than 2, or  Platelets are less than 150.  If (MCV) > 105 fl, vitamin B12, folate and TSH should be checked and treated if found to be abnormal. If these are all normal it should be discussed with the specialist team.  If counts remain normal within the first 3 months, CBC can be checked 3 monthly. • Liver function tests (LFTs)  should also be checked monthly for the first 3 months.  If either AST or ALT are more than twice the upper limit of normal, sulfasalazine should be withheld until discussion with the specialist team.  If the LFTs remain normal for the first 3 months, monitoring can be decreased to 3 monthly. 069 - Chapter 13 069 Chapter 13 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  If, following the first year, the dose has not been increased and blood results have been stable, the frequency of monitoring can be reduced to every six months for the second year of treatment. Thereafter monitoring is not required, although CBC and LFTs should be checked one month after any dose increase. Leflunomide • an immunosuppressive disease-modifying antirheumatic drug (DMARD), used in active moderate-to-severe rheumatoid arthritis and psoriatic arthritis. • It is a pyrimidine synthesis inhibitor. • achieves its effects by inhibiting the mitochondrial enzyme dihydroorotate dehydrogenase (DHODH), which plays a key role in the de novo synthesis of uridine monophosphate (rUMP), which is required for the synthesis of DNA and RNA. Hence, leflunomide inhibits the reproduction of rapidly dividing cells, especially lymphocytes. Side effects • Hepatotoxicity (occurring in 15-20% of cases)  most hepatic events occur within the first 6 months of use. • signs of leflunomide toxicity should be monitored. If the patient develops a rash or itch dose reduction should be considered, with or without the addition of antihistamines. If severe, leflunomide should be stopped and washout considered. • Hair loss, headaches and gastrointestinal upset may also warrant dose reduction or washout. • A blood pressure of greater than 140/90 mmHg should be treated as per NICE guidelines. If it remains elevated, stop leflunomide and consider washout. • Weight should be monitored, and a weight loss of greater than 10% should be identified. If no other cause can be found, consider dose reduction or washout. • If there is increasing shortness of breath, pneumonitis should be considered and leflunomide should be stopped. • Leflunomide reduces sperm count. Monitoring • LFT  (LFTs) should be checked monthly for 6 months and, if stable, 2 monthly thereafter.  If AST or ALT is between 2 and 3 times the upper limit of normal, and the leflunomide dose is more than 10 mg daily, the dose should be reduced to 10 mg and LFTs rechecked weekly until normalised. If the ALT and AST are returning to normal, the patient should be left on 10 mg per day. It the LFTs remain elevated, leflunomide should be stopped and discussed with the specialist team.  If the AST or ALT is more than 3 times the upper limit of normal, the LFTs should be rechecked within 72 hours. If they remain more than 3 times the reference range, leflunomide should be stopped and washout considered (cholestyramine and activated charcoal).  It is important to note that the half-life of leflunomide is usually 2 weeks (mean 14) therefore if a rapid response is required, washout should be considered. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • CBC  (CBC) should be checked monthly for six months and, if stable, two monthly thereafter.  White cell count less than 3.5, neutrophils less than 2 or platelets less than 150 should be discussed with the specialist team, and leflunomide withheld until this has taken place. Poisoning &Toxicology Overdose and poisoning: management The table below outlines the main management for common overdoses: Toxin Treatment Paracetamol Management • activated charcoal if ingested < 1 hour ago • N-acetylcysteine (NAC) • liver transplantation Salicylate Management • urinary alkalinization is now rarely used - it is contraindicated in cerebral and pulmonary oedema with most units now proceeding straight to haemodialysis in cases of severe poisoning • haemodialysis Opioid/opiates Naloxone Benzodiazepines Flumazenil Tricyclic antidepressants Management • IV bicarbonate may reduce the risk of seizures and arrhythmias in severe toxicity • arrhythmias: class 1a (e.g. Quinidine) and class Ic antiarrhythmics (e.g. Flecainide) are contraindicated as they prolong depolarisation. Class III drugs such as amiodarone should also be avoided as they prolong the QT interval. Response to lignocaine is variable and it should be emphasized that correction of acidosis is the first line in management of tricyclic induced arrhythmias • dialysis is ineffective in removing tricyclics Lithium Management • mild-moderate toxicity may respond to volume resuscitation with normal saline Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Toxin Treatment • haemodialysis may be needed in severe toxicity • sodium bicarbonate is sometimes used but there is limited evidence to support this. By increasing the alkalinity of the urine it promotes lithium excretion Warfarin Vitamin K, prothrombin complex Heparin Protamine sulphate Beta-blockers Management • if bradycardic then atropine • in resistant cases glucagon may be used Ethylene glycol Management has changed in recent times • ethanol has been used for many years • works by competing with ethylene glycol for the enzyme alcohol dehydrogenase • this limits the formation of toxic metabolites (e.g. Glycoaldehyde and glycolic acid) which are responsible for the haemodynamic/metabolic features of poisoning • fomepizole, an inhibitor of alcohol dehydrogenase, is now used first-line in preference to ethanol • haemodialysis also has a role in refractory cases Methanol poisoning Management • fomepizole or ethanol • haemodialysis Organophosphate insecticides Management • atropine • the role of pralidoxime is still unclear - meta-analyses to date have failed to show any clear benefit Digoxin Digoxin-specific antibody fragments Iron Desferrioxamine, a chelating agent Lead Dimercaprol, calcium edetate Carbon monoxide Management • 100% oxygen • hyperbaric oxygen Cyanide Hydroxocobalamin; also combination of amyl nitrite, sodium nitrite, and sodium thiosulfate Sarin (organophosphorus) Pralidoxime reactivates acetyl cholinesterase enzyme. It should be used in the first few hours. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Drug poisoning: Hypersalivation Hypersalivation is seen with: • Parasympathomimetic agents • Insecticides • Arsenic • Strychnine • Chlormethiazole, and • Clozapine. Other poisoning signs Acneiform rash around the buccal cavity  Solvent abuse Nasal septum perforation (and hypertension)  Cocaine abuse Drug poisoning: Altered serum glucose in unknown overdose Alteration in serum glucose concentration, in addition to other clinical signs and symptoms, can be helpful in diagnosing the ingestion of an unknown drug: Drugs induce hyperglycaemia Drug induce hypoglycaemia • Corticosteroids, • thiazide diuretics, • theophylline, • iron (during the initial period after overdose), • caffeine and • B2-agonists • insulin, sulphonylureas, • Salicylates • sodium valproate, • propranolol, • iron (later if hepatic failure ensues) Drugs cleared by alkalization of the urine The clearance of which drug would be increased by alkalization of the urine? • Weak acids are ionized in an alkaline environment, and this lessens their tubular absorption. • Alkalization of urine, achieved by IV infusion of sodium bicarbonate, can thereby be used to increase the urinary elimination of: barbiturates, salicylates and isoniazid. Measurement of drug concentrations • Measurement of drug concentrations is clinically important for relatively few compounds. • Drug concentrations are particularly important for those compounds where the concentration is predictive of serious toxicity in an otherwise asymptomatic patient. Compounds where measurement of drug concentration is clinically indicated: • Paracetamol • Theophylline  Theophylline concentrations predict the risk of seizures and cardiac toxicity in both acute and chronic toxicity  Patients who have ingested more than 10 mg kg−1 of theophylline should receive repeated doses of activated charcoal. • Digoxin • Iron Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • Lithium • Salicylate • Ethylene glycol  An ethylene glycol concentration of >50 mg dl−1 is a possible indication for haemodialysis and a definite indication for 4-methylpyrazole (4MP) or ethanol infusion • Methanol  A methanol level of greater than 50 mg dl−1 is a possible indication for haemodialysis and a definite indication for 4MP or ethanol infusion.  haemodialysis usually considered at methanol concentrations above 20 mmol/l (approximately 90 mg/dl). • Ethanol • Anticonvulsants  Measurement of anticonvulsant concentrations will confirm ingestion but do not substantially influence treatment in overdose, which is supportive care. • Paraquat  non-selective contact herbicide  paraquat concentrations are useful for confirming ingestion and defining prognosis but do not influence treatment, which is predominantly supportive care Drug toxicity in renal failure • A wide range of drug-handling processes occur in the kidney:  Filtration  tubular secretion  active and passive tubular reabsorption • The overall renal clearance of drugs declines in parallel with falls in the glomerular filtration rate and creatinine clearance Norpethidine • In patients with renal impairment pethidine is metabolised to norpethidine, but at this stage metabolism stops and norpethidine accumulates rather than being excreted through the kidneys • Norpethidine is toxic and is associated with a risk of seizures Morphine • A similar accumulation of morphine 6-glucuronide occurs after morphine administration in patients with renal impairment, which may lead to narcosis • fluid overloaded + pin point pupils in a patient taking morphine with renal impairment  the most likely cause of his symptoms  Renal failure leading to accumulation of morphine (not overdose) (masterclass 2017 part 2 )  Patients with relapsed ovarian cancer may develop an obstructive nephropathy due to pelvic recurrence. If they are on morphine they may get accumulation of this drug and signs of opiate toxicity superimposed on the signs of renal failure. Other drugs • Other drugs where physiologically active metabolites accumulate leading to toxicity in renal failure include:  nitroprusside (active metabolite thiocyanate)  allopurinol (accumulation of oxypurinol leads to rash and allergy) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Characteristic smells of toxins/poisons Certain toxins/poisons have characteristic smells that can assist in the identification of substances taken. Below is a list of well-recognised smells/odours and the poisons/toxins for which they are characteristic. • Garlic: Arsenic, selenium • Bitter almonds: Cyanide • Rotten eggs: Hydrogen sulphide, mercaptans • Wintergreen: Methyl salicylate • Mothballs: Naphthalene Arsenic toxicity The combination of mixed sensorimotor polyneuropathy in the presence of possible exposure to pesticides in a farmer would suggest a diagnosis of chronic arsenic poisoning. . • Arsenic is a heavy metal which is a natural component of the earth's crust. • exists in organic or inorganic . It is highly toxic in its inorganic form.  organic arsenics found in fish and seafood are non-toxic • Arsenic exposure is usually occupational or environmental • routes of exposure include:  Groundwater most often becomes contaminated naturally  Arsenic contamination of groundwater is widespread  most common in Bangladesh, West Bengal and india  Occupational exposures: toxic waste sites and traditional medicines. • Features  Acute  GI (nausea, vomiting, hemorragic gastroenteritis, garlic breath)  CNS (coma, seizures)  Chronic  Skin changes: dermatitis, hyperkeratosis & hyperpigmentation  The first symptoms of long-term exposure  the most common effect of chronic exposure  Keratoses on the palms and soles are characteristic.  occur after a minimum exposure of approximately five years  may be a precursor to skin cancer.  Mees lines: leukonychia striata ( transverse white lines on the finger nails )  Abdominal pain  Sensory-motor Peripheral neuropathy  Diabetes  Cancers (lung, bladder, skin). • Arsenic can interfere with the mechanism of hemoglobin synthesis and the ribosomes may form dot-like precipitates, called basophilic stippling, at the periphery of RBCs. • Basophilic stippling is also found in:  thrombotic thrombocytopenic purpura, in hemoglobin H disease (rarely)  megaloblastic anemia.  It indicates a RBC cell line maturation defect in the bone marrow. • The hematological effects of arsenic toxicity include:  Anemia  Pancytopenia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  Hemolysis in some cases • Management  Acute exposure  Chelation:  Consider chelation therapy in patients who are symptomatic and/or have urine concentration >200 mcg/L.  DMPS is the chelation agent of choice.  DMSA is an alternative (oral preparation only, so unsuitable if the patient is vomiting).  Chronic exposure  arsenic-free drinking water, to reduce the risk of further disease  It is recommended that all patients with skin lesions be given multivitamins. Drugs altered pupil size Many drugs can cause changes in pupil size as detailed below: • Dilated pupils (mydriasis):  sympathomimetic drugs, eg cocaine, dopamine, amphetamines  anticholinergic drugs, eg antihistamines, atropine, tricyclic antidepressants • Constricted pupils (miosis):  sympatholytic drugs, eg opiates, phenothiazines, clonidine, sodium valproate  cholinergic drugs, eg organophosphates, pilocarpine Charcoal • reduce drug absorption from the gastrointestinal tract, and interrupting enterohepatic recirculation. • Which factor would be most strongly influence your decision to administer or avoid oral activated charcoal?  Absence of bowel sounds  It is generally safe, but should be administered only in patients who are able to protect their airway. The absence of bowel sounds may indicate a paralytic ileus, which is surprisingly common after overdose, and which is associated with an increased risk of charcoal aspiration and pneumonitis. • Iron, lithium and other cations are not adsorbed by charcoal; alcohols including ethanol, methanol and ethylene glycol are not adsorbed either. • Activated charcoal is capable of adsorbing around 10% of its own weight, so administration of charcoal 50 g might be expected to adsorb around 5 g of drug. • should normally be administered within 1 hour of drug overdose, but may be effective when administered after a longer interval, particularly after modified-release preparations. Multi-dose activated charcoal When Activated charcoal can be repeatedly given to increase elimination of the poison?  When the drug circulates through the enterohepatic circulation • Multi-dose activated charcoal means giving 50 g of activated charcoal every 3-4 h • It is useful in patients who have taken significant amounts of salicylates, and should be continued until plasma salicylate concentrations have peaked • It is also useful in the management of patients who have taken drugs with significant enterohepatic circulation (carbamazepine, phenobarbital, theophylline and quinine) and sustained-/modified-release preparations • It is contraindicated in patients with signs of bowel obstruction, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Methanol poisoning Overview • Methanol, like ethanol, is metabolised by alcohol dehydrogenase to form formaldehyde. Formaldehyde is then further metabolised by aldehyde dehydrogenase to formic acid. • Formate formation leads to:  severe metabolic acidosis, and  crystals forming within the eye can lead to so called 'snow field' cataract formation. Feature • Early signs (are due to methanol) include:  Nausea and vomiting  Headache,  Confusion. • later signs (are due to its metabolite, formic acid)  high gap metabolic acidosis  Anion gap = (Na + K) - (Cl + HCO3); normal range 7-17 mmol/L.  Although elevated, the lactate level does not account for the anion gap.  visual problems, retinal injury, including blindness (methanol-associated visual loss)  accumulation of formic acid  a form of optic neuropathy Differential diagnosis • The differential diagnosis of this form of a high anion gap metabolic acidosis is (SLUMPED) (salicylates, lactic acidosis, uremia, methanol/ethylene glycol, paraldehyde, ethanol, and diabetic ketoacidosis). Similarities between Methanol and ethylene glycol intoxication • Both are causes a very similar biochemical and clinical picture. • Both require the enzyme alcohol dehydrogenase for metabolism. • Both are treated with fomepizole or ethanol, which inhibit alcohol dehydrogenase • Both can present with metabolic acidosis, hyperpnea and tachypnea, coma, seizures, and hypotension. • The fruity smell suggests ketosis. Differences between Methanol and ethylene glycol intoxication • From history  Methanol is pure distilled alcohol, more likely to be consumed by those with a history of alcohol abuse.  Ethylene glycol is antifreeze, usually consumed by those with suicidal intent or history of deliberate self-harm. • From examination  eye signs (macular oedema and poor pupillary responses)  methanol  In exams, cases involving methanol toxicity often involve patients not meeting your gaze or asking for the lights to be switched on, as well as the more traditional visual acuity results.  Methanol leads to the formation of formate, which causes retinal damage with optic disc hypemia and edema, blindness, and basal ganglia infarcts.  Ethylene glycol causes the formation of calcium oxalate crystals, leading to renal Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology failure and hypocalcemia ( tetany)  Oxalate crystals are a specific sign of ethylene glycol toxicity. formate is the toxic metabolite of methanol oxalic acid is the toxic metabolite of ethylene glycol Management • fomepizole or ethanol  Inhibition of methanol metabolism by alcohol dehydrogenase is the treatment of choice.  1st line  fomepizole which is an inhibitor of alcohol dehydrogenase.  2nd line  If fomepizole is not available, then ethanol is recommended. • sodium bicarbonate if necessary to correct severe acidaemia (pH <7.20) • Haemodialysis Treatment is aimed at: Eliminating formic acid (alkaline diuresis or haemodialysis). Correcting acidosis with IV bicarbonate. Preventing metabolism of methanol to formic acid by administering IV ethanol. Ethylene glycol toxicity • Ethylene glycol is a type of alcohol used as a coolant or antifreeze Features of toxicity are divided into 3 stages: • Stage 1: symptoms similar to alcohol intoxication: confusion, slurred speech, dizziness • Stage 2: metabolic acidosis with high anion gap and high osmolar gap. Also tachycardia, hypertension • Stage 3: acute renal failure  renal, respiratory and cardiac failure.  Multi-organ failure is thought to occur at least in part due to widespread deposition of calcium oxalate crystals around 12 h after the initial insult. Management • treatment is often given based on clinical suspicion due to a delay in obtaining ethylene glycol levels in most centres. • fomepizole, an inhibitor of alcohol dehydrogenase, is now used first-line in preference to ethanol  prevents metabolism of ethylene glycol to oxalic acid, responsible for the acidosis and renal failure  Because of the potential formation of calcium oxalate, calcium levels should also be assessed. • ethanol has been used for many years  works by competing with ethylene glycol for the enzyme alcohol dehydrogenase  this limits the formation of toxic metabolites (e.g. glycoaldehyde and glycolic acid) which are responsible for the haemodynamic/metabolic features of poisoning • IV fluids with bicarbonate to correct the metabolic acidosis in severe lactic acidosis. • Calcium gluconate for hypocalcemia, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • haemodialysis also has a role in refractory cases Isopropyl alcohol (Isopropanol) intoxication Acidosis + eye signs  methanol poisoning Acidosis without eye signs  ethylene glycol poisoning Ketosis without acidosis  isopropyl alcohol poisoning Overview • It is a clear colorless liquid with a BITTER TASTE and fruity odor. • commonly used as a rubbing alcohol and as a solvent in hair-care products, skin lotions and home aerosols. • Also found in products including cleaners, disinfectants, antifreezes, cosmetics, solvents, inks, and pharmaceuticals. • Inexpensive and can be a substitute for ethanol. • the second most common alcohol intoxication next to ethanol. • It is twice as potent as ethanol as a central nervous system depressant but without an early elation phase. Feature: • Severe isopropanol poisoning results in CNS and respiratory depression and circulatory collapse. • GIT and CNS symptoms are predominating, • alcohol, benzodiazepines, isopropyl alcohol, lithium, and organophosphates may all lead to miosis (constriction of the pupil) • Large ingestions can result in coma. • The most common metabolic effects are an increased osmol (osmolal) gap, ketonemia, and ketonuria • metabolic acidosis - unlike in other alcohols intoxication - is not present, this is because isopropyl alcohol is metabolized by alcohol dehydrogenase to acetone, (a ketone is not an acid).  therefore, ketone appear in breath and in urine. • Isopropyl alcohol intoxication can be remembered as "ketosis without acidosis". • Another unique finding is "pseudo renal failure" or ISOLATED false elevation of creatinine with a normal BUN. Diagnosis: • An osmol gap, ketonemia, and/or ketonuria without metabolic acidosis, along with a fruity or sweet odor on the breath and CNS depression support the diagnosis. • Although ethylene glycol, methanol, and ethanol ingestions result in anion gap and osmolar gap, isopropyl alcohol results in only an osmolar gap.  Osmolar gap = Osmolality – Osmolarity  Osmolality is measured in laboratory by osmometers  Osmolarity is calculated = (2 x [Na+]) + [glucose] + [urea]  normal = < 10 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  the units of osmolality are mOsm/kg of solute  the units of osmolarity are mOsm/L Treatment: • supportive care (is the mainstay of management) Patients usually make a full recovery • hemodialysis  elimination of isopropanol and acetone  only in severe life-threatening poisonings. Ecstasy poisoning • Ecstasy is an amphetamine derivative (MDMA, 3,4-Methylene-Dioxy-Meth-Amphetamine) use became popular in the 1990's during the emergence of dance music culture • is a semi-synthetic hallucinogen used as a recreational drug. Clinical features • neurological: agitation, anxiety, confusion, ataxia • cardiovascular: tachycardia, hypertension • hyponatraemia • Hyperventilation • hyperthermia • rhabdomyolysis Management  supportive (no specific antidote) • Cold intravenous fluids if the core temperature is over 39 °C • dantrolene may be used for hyperthermia if simple measures fail • and/or paralysis and ventilation • Treatment of associated hyperthermia Opioid misuse Acute confusion and visual hallucinations are common symptoms of opioid toxicity and pin point pupils and myoclonas are common signs. • Opioids are substances which bind to opioid receptors. This includes both naturally occurring opiates such as morphine and synthetic opioids such as buprenorphine and methadone. Features of opioid misuse • rhinorrhoea • needle track marks • pinpoint pupils • drowsiness • watering eyes • yawning • symptoms of neurotoxicity (for example, hallucinations, myoclonus and delirium) • respiratory depression Complications of opioid misuse • viral infection secondary to sharing needles: HIV, hepatitis B & C • bacterial infection secondary to injection: infective endocarditis, septic arthritis, septicaemia, necrotising fasciitis • venous thromboembolism • overdose may lead to respiratory depression and death • psychological problems: craving • social problems: crime, prostitution, homelessness Emergency management of opioid overdose Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • IV or IM naloxone: has a rapid onset and relatively short duration of action • intravenous naloxone (0.4 mg), repeated up to a total dose of 2 mg depending on clinical response. • The half-life of naloxone is shorter than that of opioids, hence if the patient wakes up it can be anticipated that he will 're-narcose'. A naloxone infusion may be necessary. Harm reduction interventions may include • needle exchange • offering testing for HIV, hepatitis B & C Management of opioid dependence • patients may be offered maintenance therapy or detoxification • NICE recommend methadone or buprenorphine as the first-line treatment in opioid detoxification • compliance is monitored using urinalysis • detoxification should normally last up to 4 weeks in an inpatient/residential setting and up to 12 weeks in the community • Naltrexone can be used to help prevent relapse in the treatment of Opioids dependency Naltrexone is a long-acting opioid antagonist. It can be used as an adjunct to psychosocial treatments to prevent relapse in detoxified patients who were formerly dependent on opioids. Naltrexone should only be initiated in specialist clinics. Patients should have remained opioid-free for at least 7–10 days before naltrexone is started. Naltrexone has also been shown to be useful for relapse prevention in those who misuse alcohol. Dihydrocodeine • Dihydrocodeine is an opiate analgesic and when taken in overdose has a number of toxic effects. • It acts as a respiratory depressant leading to reduced respiratory rate. • It can cause bradycardia and hypotension in large doses. • Pupillary constriction is a diagnostic feature in opiate overdose. • It is also a central nervous system depressant and therefore causes coma in overdose. Pain relief • Titrating the dose of morphine needed for analgesia should be done with rapidly acting formulations of morphine, and once adequate analgesia is obtained sustained-release morphine can then be substituted (at the same total daily dose) Analgesia in opiate users (eg: on methadone) • Discontinuation of methadone may result in symptoms of acute opiate withdrawal and this is not recommended • Continuation of methadone and consideration of analgesics with a different mode of action (ie non-steroidals such as parenteral diclofenac) is recommended Opioid withdrawal • The symptoms and signs of opioid withdrawal include dysphoric mood, yawning, insomnia, nausea, vomiting, diarrhoea, muscle aches, lacrimation / rhinorrhoea, pupillary dilatation, piloerection, sweating and fever. • Initially give 10 mg of methadone syrup and wait about 60 min to determine its effect. Continue administering in 10 mg doses until symptoms are under control. It is rare to exceed a total dose of 40 mg over 24 hours. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Morphine Side-effects including: • Nausea, vomiting  Nausea affects up to two-thirds of patients starting morphine but in the majority of these it is self-limiting to within 1 week.  Haloperidol is the first-line drug for opioid-induced nausea, kidney disease and hypercalcaemia • constipation • drowsiness, confusion • others, including: bronchospasm, angioedema, urinary retention, ureteric or biliary spasm, dry mouth, sweating, rash, facial flushing, vertigo, tachycardia, bradycardia, palpitations, orthostatic hypotension, hypothermia, restlessness, mood change, hallucinations, seizures (adults and children) and miosis, headache and allergic reactions (including anaphylaxis) and decreased libido or potency • pruritus in some patients, secondary to intradermal histamine release.  changing to an alternative opioid such as oxycodone, which is less likely to cause itching, may be more appropriate • raised intracranial pressure • Muscle rigidity may occur with high doses • biliary sphincter constriction  Elevated liver enzymes • Large doses can lead to respiratory depression, circulatory failure and coma Morphine vs pethidine • Morphine acts for four to five hours while pethidine works for two to three hours.  This means that pethidine would have to be given at more frequent intervals to produce the same analgesic effects as morphine. Pethidine • Meperidine (Pethidine) is a full opioid agonist at mu receptors.  the only opioid that acts as an antimuscarinic • Pethidine is contraindicated in most cases of sickle cell pain. It is metabolized into a cerebral irritant that can lead to clonus, seizures, or altered mental status. • Pethidine is preferred to morphine in the preoperative management of biliary colic and in the management of acute diverticulitis.  Pethidine is comparable to morphine in its sedative and tranquillizing effects, but the analgesia and respiratory depression it produces are of shorter duration, and it induces less smooth muscle spasm. • It is largely metabolized in the liver and the end-products are excreted in the urine. • Contraindications  Bronchial asthma, emphysema or heart failure secondary to chronic lung disease.  Increased intracranial pressure, head injury or brain tumour.  Severe hepatic impairment, adrenocortical insufficiency, hypothyroidism.  Convulsive disorders, acute alcoholism, delirium tremens.  Use of monoamine oxidase inhibitors within the previous 14 days. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Buprenorphine Action • partial opiate agonist at mu and kappa opioid receptors.  meaning that by occupying the receptor, it doesn’t achieve the effects of full agonism, and thus has less addictive potential versus other opiates.  Due to the fact that buprenorphine is a partial agonist, at higher doses it displays “functional antagonism”, meaning that by occupying the receptor it blunts the effects of other full opiate agonists. • It also has a long half-life of up to 32hrs.  This means that it can be utilised in cases of addiction to short-acting opiates such as diamorphine because it reduces the highs, and thus addictive potential, associated with these agents. Interaction • Since buprenorphine is a partial agonist at opioid receptors, it will antagonise the action of a full agonist such as morphine • therefore it is appropriate to substitute morphine for buprenorphine, but not to add the two together MRCPUK- part-1- jan- 2017: What is the mode of action of buprenorphine?  Partial mu opioid receptor agonist Cocaine • Cocaine is an alkaloid derived from the coca plant. • cocaine toxicity becoming a much more frequent clinical problem. Mechanism of action • cocaine blocks the uptake of dopamine, noradrenaline and serotonin The use of cocaine is associated with a wide variety of adverse effects: Cardiovascular effects • myocardial infarction  cocaine-induced MI is thought to be related to coronary artery spasm  It is probably caused by stimulation of the α-adrenergic receptors in smooth muscle cells. In addition, cocaine increases endothelin-1 (a vasoconstrictor) and decreases nitric oxide (vasodilator). • both tachycardia and bradycardia may occur • hypertension  (Blockage of noradrenaline (norepinephrine) re-uptake leads to tachycardia, & ↑↑BP) • QRS widening and QT prolongation • aortic dissection Neurological effects • seizures • mydriasis • hypertonia • hyperreflexia • haemorrhagic stroke • cocaine-induced spinal cord infarct:  The constellation of quadriparesis, spinothalamic sensory loss with sparing of posterior columns and sphincter dysfunction is most suggestive of an anterior spinal cord syndrome.  The areflexia may reflect spinal cord shock. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  With a C3/4 spinal cord lesion, it is not surprising that the patient has respiratory difficulties.  detection of cocaine in the urine suggesting he was using it Psychiatric effects • agitation (inhibition of dopamine re-uptake  psychomotor agitation) • psychosis • hallucinations (serotonin re-uptake blockade leads to  hallucinations) Others • hyperthermia which may lead to rhabdomyolysis and renal failure • metabolic acidosis • rhabdomyolysis Management of cocaine toxicity • in general benzodiazipines are generally first-line for most cocaine related problems  Agitation, seizures and hypertension are best treated with benzodiazepines (such as midazolam) initially.  Diazepam is useful for the treatment of anxiety and may precipitate a small reduction in blood pressure, but will not treat coronary artery vasospasm.  Calcium channel blockers (such as nifedipine) can be used as a second line treatment for hypertension if benzodiazepines are ineffective. • chest pain:  benzodiazipines + glyceryl trinitrate.  Other option include calcium antagonists,  If myocardial infarction develops then primary percutaneous coronary intervention • hypertension:  benzodiazipines + sodium nitroprusside • Beta blockers should be avoided in cocaine associated myocardial ischaemia or infarction as they can potentiate coronary vasoconstriction.  Beta blockers are contraindicated as they can cause unopposed alpha activity and worsen hypertension. • Intubation and ventilation will lower blood pressure and improve the ischaemia  the most appropriate next intervention if diazepam fail to control the acute symptoms (eg: seizure)  Whilst IV sodium valproate and IV phenytoin may be effective in terminating the recurrent seizures, these options would cost precious time with respect to controlling blood pressure and pyrexia MRCPUK-Part-1-January 2016 exam: A 23-year-old man found 'collapsed' in the bathroom at a house party. Then C/O severe abdominal pain + blood in his stool. What is the single most likely cause of his abdominal pain? Ischaemic colitis (Ischaemic colitis is a recognised phenomenon following cocaine ingestion and should be considered if patients develop abdominal pain or rectal bleeding) Heroin withdrawal • The following are all signs of heroin withdrawal:  rhinorrhoea  diarrhoea  nausea and vomiting  lacrimation  irritability and restlessness, which are cardinal features Heroin substitutes in medical management of withdrawal • Both buprenorphine and methadone may be considered for use as heroin replacements • Buprenorphine may be associated with less risk in overdose, but NICE recommends that unless circumstances dictate otherwise, methadone should be the first-choice therapy • Co-abuse of alcohol and benzodiazepines may drive preferential use of buprenorphine, as these agents increase the risk of significant CNS depression Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Benzodiazepine overdose Overview • toxicity with sedative drugs is the second most common agent - after analgesic agents- in some parts of the United Kingdom. • Benzodiazepine overdose is very rarely life-threatening unless associated with the coingestion of alcohol or other respiratory depressants Features • CNS depression: lethargy, somnolence, hyporeflexia • Ataxia • Slurred speech • Mild hypotension • Respiratory depression Treatment • Supportive therapy  GCS ≤ 8: endotracheal intubation  Hypotension: fluid resuscitation • Antidote: flumazenil  Routine use of flumazenil for benzodiazepine overdose is not recommended  A general rule of thumb is that a benzodiazepine toxicity syndrome should never be reversed with the antidote drug flumazenil unless it was you who gave the benzodiazepine.  Most cases of benzodiazepine overdose occur in patients who are on chronic benzodiazepine therapy for psychiatric illness, anxiety or seizures.  Rapid reversal of benzodiazepines with flumazenil can precipitate withdrawal symptoms and seizures in patients with benzodiazepine dependence.  If a seizure is precipitated by flumazenil the treatment is to give further benzodiazepines.  Indications  Severe respiratory depression  Overdose in benzodiazepine-naive patients (e.g., accidental ingestion in children, periprocedural oversedation with benzodiazepines)  reversal of anaesthesia. Cathinone toxicity • NRG-1 is a synthetic cathinone drug which is increasingly used recreationally. • Pharmacologically it is a derivative of phenylpropanone which is a naturally occurring psychotrope in khat (Catha edulis). • Synthetic cathinones became increasingly popular in the last ten years as an alternative to ecstasy since they were cheaper, easier to produce and initially were unrestricted. As legislation changes, chemical substitutions are made to molecular moieties to create similar drugs to avoid restrictions. • All exert their effect by increasing synaptic concentrations of noradrenaline, dopamine and serotonin, giving users the sensation of euphoria, detachment and wellbeing as well as upregulation of the sympathetic system. Benzodiazepine overdose is best managed supportively and with airway protection and ventilation if needed. Flumazenil should be avoided unless for reversal of anaesthesia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • Toxicity is often seen due to lack of regulation of constituents and active ingredients Features • Tachycardia and hypertension may be seen due to the sympathomimetic effects of the drug and in some cases myocardial ischaemia can be seen. • In the majority of cases of toxicity, however, similar to ecstasy toxicity, hyponatraemia and serotonin syndrome are seen. Hyponatraemia occurs as a consequence of significant water intake to reduce body temperature. Serum sodium levels may be markedly low and patients may present seizing. • Serotonin syndrome is due to massive flooding of synapses with liberated serotonin and causes agitation, confusion, muscle hyperactivity with fasciculations, hypertonia and clonus. • Creatine kinase and white cell counts are often raised and body temperature may be extremely high. Treatment • If there is evidence of neurological compromise with an accompanying hyponatraemia, rapid correction of sodium is recommended with infusion of 3% saline solution at a maximum rate of 1ml/kg/hour. • 0.9% saline solution is not recommended in patients with hyponatraemia and agitation due to the risk of worsening the hyponatraemia. Cannabinoids • Cannabinoids are derived from the resin of cannabis sativa, • 9-tetrahydrocannabinol (9-THC) is its most important pharmacologically active constituent. • Oral bioavailability of THC, whether given in the pure form or as THC in marijuana, is low and extremely variable, ranging between 5% and 20%, with effects occurring 0.5-3 hours later. • Bioavailability of THC in a marijuana cigarette or pipe also rarely exceeds 10-20%. • Naloxone and other opioid receptor antagonists block the analgesic actions of cannabinoids. • Synthetic cannabinoids reduce arachidonic acid-induced inflammation by inhibiting eicosanoid production. Cyanide poisoning cyanide mechanism of action  Inhibition of enzyme cytochrome oxidase c • Cyanide may be used in:  insecticides,  photograph development and  production of certain metals. • Acute cyanide toxicity may occur secondary to burning plastics in the house fire. • Toxicity results from reversible inhibition of cellular oxidising enzymes • Cyanide ions inhibit mitochondrial cytochrome oxidase, preventing aerobic respiration, which is an essential part of the mitochondrial electron transfer chain (ETC). It therefore interferes with the basic process of cellular respiration, preventing the formation of ATP and causing rapid cell death. Presentation (classical features: brick-red skin, smell of bitter almonds) • manifests in normal oxygen saturations, a high pO2 and flushing (or 'brick red' skin) brought on by the excess oxygenation of venous blood. (it is important to note that the blood gas sample given is venous rather than arterial) • acute: hypoxia, hypotension, headache, confusion  increased anion gap, consistent with high lactate (generated by anaerobic respiration due to the inability to use available oxygen). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  very high lactate and high venous pO2 fit better with cyanide toxicity. • chronic: ataxia, peripheral neuropathy, dermatitis Management • supportive measures: 100% oxygen • definitive: hydroxocobalamin (intravenously), also combination of amyl nitrite (inhaled), sodium nitrite (intravenously), and sodium thiosulfate (intravenously) • The recommended treatment for moderate cyanide toxicity in the UK is one of three options: Hydroxocobalamin,  has the best side-effect profile and speed of onset compared with other treatments dicobalt edetate,  only given when the patient is tending to lose or has lost consciousness.  When the patient is fully conscious, it is unlikely that the extent of poisoning warrants the use of Dicobalt Edetate Injection.  Dangerous if given without confirmed cyanide poisoning  Other antidotes such as hydroxocobalamin or sodium thiosulphate are preferred. sodium thiosulfate Hydroxocobalamin • also known as vitamin B12a and hydroxycobalamin, • is an injectable form of vitamin B 12 • indications  vitamin B 12 deficiency  cyanide poisoning,  Leber's optic atrophy,  toxic amblyopia (Nutritional optic neuropathy)  a condition where a toxic reaction in the optic nerve results in visual loss.  Various poisonous substances may cause the condition as well as nutritional factors.  Tobacco amblyopia is a form of toxic amblyopia caused by tobacco containing cyanide. Sarin gas • Sarin gas and related agents cause inhibition of the enzyme acetylcholinesterase, causing levels of acetylcholine to build up in the nervous system causing prolonged sustained contraction of the diaphragm. This hinders and eventually paralyses normal breathing. • Sarin has muscarinic and nicotinic effects.  Muscarinic effects:  Paralysis  Fasciculations  Hyperglycaemia, and  Ketosis.  Nicotinic effects:  Hypotension  Meiosis  Dyspnoea, and  GI disturbance. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Arsenic • Arsenic causes inhibition of the enzyme pyruvate dehydrogenase which is necessary for the conversion of pyruvate to acetyl CoA. This also interferes with the basic process of cellular respiration, as pyruvate formed during glycolysis cannot be changed to acetyl CoA to enter the Kreb's cycle. • Arsenic and mustards  cause mutational damage to DNA  ↑ risks of skin and haematological malignancy in the longer term. • Arsenic can also accelerate atherosclerosis. Acid poisoning Pathology • Acids cause injury by coagulative necrosis Presentation • Acid effects are mainly topical, with corrosive burns to the mouth, oropharynx and stomach • They are less likely than alkalis to cause significant localised damage to the oesophagus • Aspiration can lead to inflammation and a chemical pneumonitis Management • Neutralisation of acids is not appropriate, since this can generate increased heat and so exacerbate any injury sustained • Gastric lavage is contraindicated due to the increased risk of oesophageal perforation • Management consists of supportive care and early endoscopy • Early surgical intervention is required to prevent mediastinitis, from which there is a high mortality, in those patients with signs or symptoms of perforation • Hydrofluoric acid causes significant hypocalcaemia as it binds calcium,  even small amounts (topically or ingested) can produce significant hypocalcaemia and be rapidly fatal  in cases of significant topical exposure, patients should be monitored for signs of systemic hypocalcaemia  patient treated with intravenous calcium supplementation if required .  Calcium gluconate applied both topically and injected around the burn may be required  Systemic fluorosis may occur as a complication Alkali poisoning • Alkalis cause saponification (liquefactive necrosis) of tissue • Neutralisation of alkalis is not appropriate, as this can generate increased heat and so exacerbate any injury sustained • Assuming survival, fluorosis may lead to further problems later on Radiosensitiser drugs Radiosensitiser drugs  radiation toxicity • dactinomycin, • metronidazole • 5-fluorouracil • gemcitabine • cisplatin • hydroxyurea • paclitaxel • mitomycin C • topotecan Radioprotector • Amifostine is a radioprotector Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management of body packers • The management of body packers and body stuffers is relatively straightforward • Abdominal radiographs may show some packages in the gastrointestinal tract - they appear as air halos trapped within the packages, but not all packages may contain trapped air • In patients with no signs of drug-associated toxicity, whole-bowel irrigation with polyethylene glycol will clear the gastrointestinal tract of all the swallowed packages • Endoscopy may also be useful in removing packages that are still in the stomach, but packages should be carefully removed to prevent damage and drug release • Gastric lavage may increase the risk of package rupture • Laxatives may also help the packages to pass naturally, but paraffin-based laxatives should not be used since they increase the risk of package rupture • Surgical intervention to remove all the remaining packages may be necessary in patients who start to develop signs of drug toxicity, since the strength and amount of drug in each package is unknown Heavy metal poisoning Causes • lead: most common • mercury • manganese • cadmium • thallium Lead poisoning • Along with acute intermittent porphyria, lead poisoning should be considered in questions giving a combination of abdominal pain and neurological signs • Lead can also be absorbed through the skin and by inhalation. Aetiology: ingestion of: • lead-containing compounds, deliberate (pica) or inadvertent  Patients with learning disabilities may be prone to lead poisoning due to pica. • contaminated water from old lead water pipes • occupation, such as a painter have a lead exposure while stripping the walls in old houses. • certain traditional remedies such as ayurvedic medicines Features • abdominal pain • nausea • constipation • peripheral neuropathy (mainly motor) due to demyelination • fatigue • blue lines on gum margin (only 20% of adult patients, very rare in children) • may be associated with anterior uveitis or iritis Laboratory tests • Whole blood lead levels:  <10 μg/dL - normal.  >10 μg/dL - may cause impaired cognitive development in children.  >45 μg/dL - GI symptoms in adults and children.  >70 μg/dL - high risk of acute CNS symptoms. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology >100 μg/dL - may be life-threatening. Investigations • Abdominal radiographs are essential to see if there is any unabsorbed lead present, which can be removed by whole-bowel irrigation • The blood lead level is usually used for diagnosis. Levels greater than 10 mcg/dl are considered significant • full blood count: microcytic anaemia. Blood film shows red cell abnormalities including: basophilic stippling This occurs due to accumulation of (RNA) in the RBCs due to inhibition of pyrimidine 5 nucleotidase by lead. clover-leaf morphology • raised serum and urine levels of delta aminolaevulinic acid may be seen making it sometimes difficult to differentiate from acute intermittent porphyria • urinary coproporphyrin is also increased (urinary porphobilinogen and uroporphyrin levels are normal to slightly increased) Management - various chelating agents are currently used: • dimercaptosuccinic acid (DMSA) the most appropriate intervention The recommended dose is 10 mg/kg three times per day for five days, followed by 10 mg/kg twice per day for two weeks. • EDTA This is used IV or IM, which makes administration less convenient than DMSA. It is considered for patients with symptoms of severe acute lead poisoning. • Dimercaprol • Penicillamine • succimer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Mercury poisoning Features • paraesthesia • visual field defects • ataxia • dysarthria • hearing loss • irritability • renal tubular acidosis • Chronic poisoning from the inhalation of mercury vapour results in a classic triad of tremor, neuropsychiatric disturbance and gingivostomatitis Cadmium (Cd) poisoning • Workers in zinc factories are at risk of cadmium (Cd) poisoning. Feature • Bone pain, osteopenia • Renal failure.  The Cd-protein complex is mainly taken up by proximal tubular cells. This may give rise to a tubular proteinuria  may also cause a Fanconi syndrome-like presentation, with amino aciduria and phosphaturia.  Prolonged renal tubular toxicity may cause glomerular damage.  Another renal effect of prolonged Cd exposure is calcium phosphate stones. Thallium poisoning Features • painful polyneuropathy • mood change • alopecia Treatment is chelation therapy with oral Prussian Blue. Iron overdose • Undissolved iron tablets are radio-opaque Presentation • Early features of iron overdose are due to the direct corrosive effects of iron and include vomiting, diarrhoea and gastrointestinal bleeding • Typically, there is then a latent phase of up to 24 h when the patient is asymptomatic • This is then followed by widespread organ failure • Initial hyperglycaemia can occur following significant ingestion of iron, but hypoglycaemia can be seen later in cases of severe poisoning with associated hepatic failure • In patients who recover, there may be long-term GI strictures and possible gastrointestinal obstruction due to the initial corrosive effects of iron Treatment • Iron is a metal and therefore will not be adsorbed by activated charcoal • Patients with serum iron concentrations over 90 mmol/l, as well as those with signs of severe toxicity, require chelation therapy with desferrioxamine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology LSD intoxication Lysergic acid diethylamide (LSD) • No medicinal use. • Recreationally used as a hallucinogen and for its ability to alter human perception and mood. Pharmacodynamics: • LSD is primarily a non-selective 5-HT agonist. • LSD may exert its hallucinogenic effect by interacting with 5-HT2A receptors as a partial agonist and modulating the NMDA receptor-mediated sensory, perceptual, affective and cognitive processes. • LSD mimics 5-HT at 5-HT1A receptors, producing a marked slowing of the firing rate of serotonergic neurons. Features • hallucinations • heightened sense of awareness • synaesthesia • palinopsia New recreational drugs Drug types Street names Gamma-hydroxybutyric acid (GHB) and gammabutyrolactone (GBL) G, Geebs or Liquid Ecstasy Synthetic agonists of the CB1 receptor Spice Methoxetamine (derivative of ketamine) Mexxy Benzylpiperazine Exodus, Legal X, Legal E Nitrous oxide Hippie crack Paracetamol overdose Overview • it is the most common agent of intentional self-harm • it is the most common cause of acute liver failure • As little as 10–15 g (20–30 tablets) in an adult or 150 mg/kg of paracetamol taken within 24 h may cause severe hepatocellular necrosis and, less frequently, renal tubular necrosis. Pathophysiology Paracetamol is conjugated to glucuronic acid and sulphate under normal conditions. In overdose these processes become saturated and the drug is then results in a toxic metabolite, N-acetyl-p-benzoquinone imine (NAPQI) (NAPQI) inactivated by glutathione, rapidly preventing any harm. If the glutathione supply is depleted then a toxic metabolite is formed. After ingestion of a therapeutic dose: • The liver normally conjugates paracetamol with glucuronic acid/sulphate. • and the resulting non-toxic metabolites are excreted in the urine. • About 4% of a therapeutic dose is metabolised by the cytochromes P450, mainly CYP2E1, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad to a potentially toxic intermediate metabolite N-acetyl-p-benzoquinone imine (NAPQI). • NAPQI combines with intracellular glutathione to become a non-toxic mercapturate derivative with urinary excretion. after ingestion of an overdose: • the conjugation system becomes saturated leading to oxidation by P450 mixed function oxidases*. • the normally minor CYP2E1 pathway becomes important. • This produces a toxic metabolite (N-acetyl-B-benzoquinone imine)  *this explains why there is a lower threshold for treating patients who take P450 inducing medications e.g. phenytoin or rifampicin • Normally glutathione acts as a defence mechanism by conjugating with the toxin forming the non-toxic mercapturic acid. • If glutathione stores run-out, the toxin leads to cell death of hepatocytes and renal tubules Paracetamol overdose: risk factors The following groups of patients are at an increased risk of developing hepatotoxicity following a paracetamol overdose: • patients taking liver enzyme-inducing drugs (rifampicin, phenytoin, carbamazepine, chronic alcohol excess, St John's Wort) • malnourished patients (e.g. anorexia or bulimia, cystic fibrosis, hepatitis C, alcoholism, HIV  ↓ glutathione stores • patients who have not eaten for a few days • Human immunodeficiency virus (HIV) positive patients. Investigations • Paracetamol level: take paracetamol level four hours post-ingestion, or as soon as the patient arrives if:  Time of overdose is greater than four hours.  Staggered overdose (in staggered overdoses, the level is not interpretable except to confirm ingestion). Management The essentials of management are: Check paracetamol level four hours after ingestion, check levels against the RumackMatthew nomogram. Gastric lavage if large dose ingested (more than 7.5 g) and/or presenting within eight hours of ingestion; consider oral charcoal. Give N-acetylcysteine or methionine. Hourly BMs monitored. Check INR 12 hourly. if patient present with ingestion of non-significant amount (<150mg/kg) and timing of ingestion is known (1- 4 hrs)  No immediate action • A single dose of activated charcoal (50g for adults) can be given up to 1 hour after ingestion • Acetylcysteine should be started immediately or empirically when:  if a significant amount has been taken (>150mg/kg). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Serum paracetamol level: 100 mg/L at 4 hours and 15 mg/L at 15 hours after ingestion patients who present late (8-24 hours) Serum paracetamol level is not available within an 8-hour time window If there is any doubt about the timing of the ingestion (including a staggered overdose over one hour or more). Patients are unconscious or have a suspected overdose. • Hepatotoxicity is unlikely if it is >24 hours since last ingestion of paracetamol and all the following apply: Patient is asymptomatic. Paracetamol concentration is <5 mg/L. INR is 1.3 or less. ALT is less than 2 times upper limit of normal. If all of the above criteria are fulfilled then acetylcysteine may be stopped, and the patient discharged with the advice to return if he or she becomes symptomatic (vomiting, abdominal pain). • Repeated supratherapeutic ingestion Patients who have ingested <75 mg/kg in a period of 24 hours are very unlikely to develop hepatotoxicity. Those who have ingested 75 mg, or less/kg/24 hours of paracetamol require no treatment. Those who have ingested 75-150 mg/kg/24 hours should be considered for acetylcysteine (based on amount ingested, timing, and other relevant features) Those who have ingested >150 mg/kg/24 hours are treated with acetylcysteine. 070 - Pages 1726-1750 070 Pages 1726-1750 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prescribing N-acetyl cysteine (NAC) • Action:  it is a precursor of glutathione and hence can increase hepatic glutathione production • Root and administration:  Acetylcysteine is the treatment of choice and is given intravenously (in the US and some other places it is still occasionally given orally).  Although the oral route is simpler, it frequently causes nausea and vomiting and is unpleasant. Additionally, the standard oral regimen is 72 hours in duration compared with 21 hours intravenously,  Acetylcysteine should be administered by intravenous infusion preferably using Glucose 5% as the infusion fluid. Sodium Chloride 0.9% solution may be used if Glucose 5% is not suitable. • Indications:  N-Acetylcysteine is recommended in all cases where the paracetamol overdose exceeds 150 mg/kg body weight  All patients with a plasma paracetamol level ≥ 100 mg/L at 4 hours or ≥ 15 mg/L at 15 hours after ingestion should receive acetylcysteine regardless of risk factors for hepatotoxicity.  The paracetamol level is not used to guide treatment in the setting of a staggered overdose, and N-acetylcysteine should be given without delay to reduce the risk of liver failure.  In the case of staggered overdose or unclear timing of overdose, acetylcysteine should be given. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • When to be started:  N-acetyIcysteine is most effective when administered within 8 h of ingestion  If acetylcysteine is started within 8 hours of the ingestion, hepatotoxicity is extremely unlikely.  The urgency of treatment is underlined by the fact that the incidence of hepatotoxicity is worse if treatment is delayed.  Trials of N-acetylcysteine suggest that the incidence of hepatotoxicity is 1% in those treated within eight hours as opposed to 46% in those treated after 16 hours. • Infusion rate:  The new guidelines have increased the recommended duration of the first infusion to 60 minutes from 15 minutes previously.  The MHRA now recommends extending the time of the initial infusion from 15 minutes to 60 minutes in order to reduce the incidence of adverse reactions. • Doses:  The full course of treatment with acetylcysteine comprises of 3 consecutive intravenous infusions.  The patient should receive a total dose of 300 mg/kg body weight over a 21-hour period. First infusion  Add the appropriate volume of acetylcysteine injection to 200 mL of infusion fluid and infuse over 1 hour. Second infusion  Add the appropriate volume of acetylcysteine injection to 500 mL of infusion fluid and infuse over the next 4 hours. Third infusion  Add the appropriate volume of acetylcysteine injection to 1 litre of infusion fluid and infuse over the next 16 hours. • Reactions to NAC  Features:  (eg: patient became flushed and hypotensive)  Mechanism:  Reactions to NAC are well recognized and are not related to hypersensitivity.  The majority of dose-related adverse reactions occur within the first hour of the initial infusion of acetylcysteine.  Any 'hypersensitivity-like' reactions are more likely to be anaphylactoid in nature (i.e. not immunologically mediated) and therefore may not occur on repeated exposure.  Management:  NAC can almost always be safely restarted, and total dose safely administered after symptomatic treatment.  Even if a patient has a history of a previous reaction to intravenous acetylcysteine, the benefits outweigh the risks and patient should receive treatment.  IV chlorpheniramine and restart NAC infusion once symptoms resolved  What is the most appropriate next step after iv antihistamine?  Re-start the N-acetylcysteine infusion at half rate  Oral methionine may be an alternative but is definitely second line.  Patients often have an associated history of alcohol intake and episodes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad of vomiting, which can affect the pharmacokinetics of oral medications. Paracetamol overdose during pregnancy • resulting toxic metabolites can cross the placenta and lead to hepatocellular necrosis of maternal and fetal liver cells. • NAC can bind the toxic metabolites in the mother and fetal circulation as it crosses the placenta. • NAC appears to be safe during pregnancy and therefore should be administered. King's College Hospital criteria for liver transplantation in paracetamol-induced acute liver failure List for transplantation if: • Arterial pH <7.3 or arterial lactate >3.0 mmol/L after adequate fluid resuscitation; OR • If all three of the following occur in a 24-hour period:  Creatinine >300 μmol/L.  PT >100 seconds (INR >6.5).  Grade III/IV encephalopathy. Strongly consider transplantation if: • Arterial lactate >3.5 mmol/L after early fluid resuscitation. The criteria for transfer to a specialist liver unit are: (poor prognostic factors) • Encephalopathy • INR: >2.0 at < 48 hours, or > 3.5 at < 72 hours  synthetic function (as determined by INR or PT) is the best indicator. • Serum creatinine: >200 μmol/L • Blood pH: <7.3 • Systolic BP: <80 mmHg. Monitoring and endpoints for treatment Hepatotoxicity • In patients being treated with acetylcysteine for liver toxicity the acetylcysteine should be continued until the INR is 1.3 or less OR INR is falling towards normal on two consecutive blood tests, and less than 3.0. • Blood tests (urea and electrolytes, creatinine, INR, and ALT) should be re-checked every 8 to 16 hours to assess the progress of the hepatic injury. There is no clinical benefit in continuing treatment with acetylcysteine for a rise in ALT if the INR has normalised. Time-sensitive treatment issues • 8-hour window  the need for acetylcysteine treatment should be based on a serum paracetamol concentration determined within this 8-hour window.  acetylcysteine within 8 hours of an acute ingestion  prevent hepatic injury in nearly all patients  Empiric acetylcysteine therapy should be initiated for patients who:  present later than 8 hours after ingestion;  when serum paracetamol concentrations cannot be determined within 8hours; Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  or if the exact timing of the ingestion is uncertain. adverse effects • oral acetylcysteine  nausea and vomiting. • intravenous acetylcysteine  anaphylactoid reaction (e.g., nausea, flushing, vomiting, rash, urticaria, pruritus, angio-oedema, dyspnoea, wheezing, bronchospasm, tachycardia, and hypotension), • Previous anaphylactoid reaction to acetylcysteine is not a contraindication to receiving acetylcysteine.  Patients with a previous anaphylactoid reaction should be given an H1 and an H2 antagonist.  Patients with previous bronchospasm reaction to acetylcysteine can be given nebulised salbutamol.  Patients considered at risk of anaphylactoid reactions (e.g., those with atopy, bronchospasm, asthma, or a previous reaction) should be administered prophylactic medication such as antihistamines to reduce adverse reactions. • Methionine is used as an oral antidote for paracetamol poisoning in those who cannot tolerate N-acetylcysteine Paracetamol and smoking • Enzyme induction with cigarette smoking does affect paracetamol metabolism. Its importance however, is in toxicity. • Smokers would be classified as in a high risk for paracetamol overdose and are assessed using a different time - paracetamol level curve. Complications • Untreated paracetamol poisoning may cause varying degrees of liver injury over the 2 to 4 days following ingestion, including fulminant hepatic failure.  Hepatotoxicity is extremely rare in patients treated with acetylcysteine within 8 hours of an acute paracetamol overdose. • Lactic acidosis is recognised complication • Hypoglycaemia is seen when paracetamol toxicity leads to significant impairment of hepatic synthetic function  Severe hypoglycaemia affects 40% of patients with fulminant liver failure, which exacerbates encephalopathy. • Paracetamol nephrotoxicity  can develop later than liver toxicity  The mechanism of kidney injury is similar to that of the liver,  there is little evidence that N-acetyl cysteine confers any renal protection.  usually the renal function returns to baseline after a few weeks.  Haemodialysis may be required to support the patient during the acute episode. Prognosis • The prognosis is poor in those with  Blood PH less than 7.0  Prolonged prothrombin time (more than 100s) and  Serum creatinine more than 300 uM.  Mortality is greater if the patient is more than 40 years of age. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad paracetamol overdose treatment nomogram Adult Dosage Table (Royal College of Emergency Medicine Guidance. http://www.rcem.ac.uk) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Although hepatotoxic in high doses even in fairly advanced chronic liver disease paracetamol can be used safely as long as doses do not exceed 2-3 g per day. The main exception to this is alcoholic liver disease where the patient continues to drink, in this setting induction of enzymes and depletion of glutathione increases the chances of hepatotoxicity. Paraquat poisoning Properties of Paraquat • Paraquat is a very toxic compound • As little as 2 g is potentially fatal (10 ml of a concentrated 20% solution) Presentation • Initial signs of toxicity are due to its corrosive effects on the gastrointestinal tract and oropharynx Pathology • Paraquat is rapidly absorbed and is sequestered in the lungs, where it reacts with oxygen to form hydrogen peroxide and superoxide anions • Hydrogen peroxide and superoxide anions are responsible for cell death, which leads to an acute alveolitis Prognosis • Death tends to occur within hours to days in patients who have ingested more than 6 g of Paraquat • Death tends to occur within days in those who have ingested 3-6 g of Paraquat • Illness following ingestion of 1.5-3 g Paraquat follows a much more protracted course and delayed pulmonary • fibrosis can lead to death up to 6 weeks after ingestion Management • supportive care • activated charcoal to reduce absorption • oxygen supplementation can increase pulmonary toxicity, by increasing the rate of hydrogen peroxide and superoxide anion production Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Organophosphate insecticide poisoning Organophosphate is an anticholinesterase, thus prolonging the effects of acetylcholine. One of the effects of organophosphate poisoning is inhibition of acetylcholinesterase Organophosphates are rapidly absorbed through the gastrointestinal and respiratory tracts and the skin Mechanism • The principal action of organophosphates is inhibition of acetylcholinesterases • This results in the accumulation of acetylcholine at muscarinic receptors, nicotinic receptors and in the central nervous system Features can be predicted by the accumulation of acetylcholine (mnemonic = SLUD) Hypersalivation and miosis are the specific clues to acetycholine overactivity. • Salivation • Lacrimation • Urination • Defecation/diarrhoea • cardiovascular: hypotension, bradycardia • also: small pupils, muscle fasciculation Presentation The presentation relates to the sites of accumulation of acetylcholine • Accumulation at muscarinic receptors leads to:  miosis  hypersalivation  sweating  diarrhoea  excessive bronchial secretions • Accumulation at nicotinic receptors leads to:  muscle fasciculations  tremor • Accumulation in the central nervous system leads to:  anxiety  loss of memory  headache  coma • Organophosphate-induced neuropathy starts to develop 2 weeks after exposure  Initial presentation of neuropathy is a flaccid paralysis  Later, hypertonia, hyperreflexia and a spastic paralysis occur Management • atropine • the role of pralidoxime(an activator of cholinesterase) is still unclear - meta-analyses to date have failed to show any clear benefit Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Carbon Monoxide (CO) Poisoning Risk factors • A hypoxemic poisoning syndrome seen in patients who have been exposed to automobile exhaust, smoke inhalation, barbecues, or old appliances in poorly ventilated locations. Pathophysiology • CO binds with high affinity to haemoglobin, forming carboxyhaemoglobin. CO also binds myoglobin and mitochondrial cytochrome oxidase. Features • Presents with hypoxemia, cherry-red skin (rare), confusion, and headaches. Coma or seizures occur in severe cases. • Chronic low-level exposure may cause flu-like symptoms with generalized myalgias, nausea, and headaches. Ask about symptoms in others living in the same house. • Suspect smoke inhalation in the presence of singed nose hairs, facial burns, hoarseness, wheezing, or carbonaceous sputum. • CO poisoning causes tissue hypoxia, anaerobic metabolism and lactic acidosis. Diagnosis • Check an ABG and serum carboxyhemoglobin level (normal is < 5% in nonsmokers and < 10% in smokers). • Check an ECG in the elderly and in patients with a history of cardiac disease. Treatment • 100% O2 • after which transfer to a centre with hyperbaric oxygen should be considered. • Patients with airway burns or smoke inhalation may require early intubation, since upper airway edema can rapidly lead to complete obstruction. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Antiemetic Antiemetics • Aprepitant  is a neurokinin receptor blocker used in the prevention of chemotherapy induced nausea. • Hyoscine  antiemetics functions as a cholinergic muscarinic antagonist  It acts as a competitive antagonist at muscarinic acetylcholine receptors; it is thus classified as an anticholinergic or as an antimuscarinic drug. • Metoclopramide is a dopamine receptor antagonist that can induce parkinsonism. It can also worsen control in patients with idiopathic Parkinson's disease to its antagonistic effect on dopamine receptors. • Domperidone is also a dopamine antagonist but acts peripherally.  Best drug for nausea and vomiting associated with Parkinson treatment.  Drugs such as apomorphine and bromocriptine cause vomiting through peripheral stimulation of the chemoreceptor trigger zone. Worsening of Parkinson’s disease may result from the use of dopamine antagonists; however, domperidone is much less likely to cross the blood–brain barrier and is therefore the preferred agent in this case. • Haloperidol: the main site of action for haloperidol with regards anti-emetic effects --> Chemoreceptor trigger zone  Haloperidol is an anti-dopaminergic agent licensed for and used mainly as an anti-psychotic agent  It does result in more extrapyramidal side-effects than phenothiazine-type agents, but is associated with less hypotension • Phenothiazines (e.g. promethazine) and domperidone are also used as anti-emetic agents and act at the chemoreceptor trigger zone • Cyclizine is an anticholinergic antihistamine acting through the vomiting centre. Chapter 13 Pharmacology Group Drug Antagonize d receptor Mechanism Specific features Side effects Dopamin e receptor antagoni sts/ proki netic agents Prochlor perazine D2 • Antiemetic effect at the area postrema Domperi done • Antiemetic effect at the area postrema • Prokinetic effect Metoclo pramide • Antiemetic effect in the CNS and at the area postrema • Prokinetic effect : ↑ gastric contractions, duodenal and jejunal motility, resting tone of the lower esophageal sphincter and decreased pylorus sphincter activity allow food to pass quickly Serotoni n receptor antagoni sts Ondans etron (Zofran® ) 5-HT3 • Central- acting antiemetic effect • Peripheral inhibition of the intestinal tract's vagal nerve signals Anticholi nergic Agents Scopola mine M2 • Antiemetic effect at the area postrema • Peripheral inhibition of the intestinal tract's vagal nerve signals Antihista mines Meclizin e, dimen hydrinat e, diphen hydramin e, doxyla mine, pr omethazi ne H1 • Antiemetic effect in the CNS Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Depression • Fatigue • Diarrhea • Hyperprolactinemia • Overdose leads to reversible extrapyramidal syndrome (e.g., dystonia, park insonism, tardive dyskinesia, and akathisia) and neuroleptic malignant syndrome • Antidote: biperide n(anticholinergic agent) • Do not combine metoclopr amide with antipsyc hotics because of the increased risk of dyskinesia! • Domperidone may cause cardiac arrhythmias. • Antipsychotic agent • Used in severe hyperemesis gravidarum • Prokinetic effect: to treat diabetic and post-surgery gastroparesis (delayed gastric emptying) • Used in severe hyperemes is gravidarum • Chemotherapy and radiationinducedvomiting and pos toperative nausea and vomiting (PONV) ∗Headaches ∗Constipation or diarrhea ∗QT interval prolongation(torsades de pointes) ∗Increase in liver enzymes ∗Serotonin syndrome • Especially effective against motion sickness or vesti bularinducednausea and vomiting • Anticholinergic side effects: dry mouth, mydriasis, t achycardia, urinary retention • Antidote: physostig mine(cholinesteras e inhibitor) • Strong sedative • Used in hyperemesis gravidarum (also see “Drugs of choice in pregnancy” (antiemetics) • drowsiness and confusion • Anticholinergic side effects: dry mouth, dilated pupils, blurred vision, reduced bowel sounds, and urinary retention) →antidote: physo stigmine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad 5-HT3 antagonists • 5-HT3 antagonists are antiemetics used mainly in the management of chemotherapy related nausea. • They mainly act in the chemoreceptor trigger zone area of the medulla oblongata. Examples • Ondansetron  Ondansetron  is a selective 5-HT3 (5-hydroxytryptamine 3A receptor) antagonist both centrally and peripherally and as such is a potent antiemetic.  Ondansetron is the first line drug for chemotherapy related nausea and vomiting.  Its effects are on both peripheral and central nerves.  One part is to reduce the activity of the vagus nerve, which is a nerve that activates the vomiting center in the medulla oblongata,  the other is a blockage of serotonin receptors in the chemoreceptor trigger zone.  Common side effects of ondansetron are headache, drowsiness, and dizziness. • granisetron Adverse effects • constipation is common Metoclopramide Action • D2 receptor antagonist Indications • mainly used in the management of nausea. • gastro-oesophageal reflux disease • prokinetic action is useful in gastroparesis secondary to diabetic neuropathy • often combined with analgesics for the treatment of migraine (migraine attacks result in gastroparesis, slowing the absorption of analgesics) Adverse effects • extrapyramidal effects: oculogyric crisis. This is particularly a problem in children and young adults , especially girls , usually subsides within 24 hours following cessation of treatment and can be treated with procyclidine 5-10 mg i.m. (antimuscarinic). • hyperprolactinaemia • tardive dyskinesia Acute dystonic-dyskinetic reactions • Risk factors  mostly occur in children and young adults  about 70% of cases are female.  It occurs more commonly when excess of the recommended dose of metoclopramide is administered. • Time frame  The effects usually occur within 72 hours but have been reported to occur within 30 minutes of starting treatment. • Features  oculogyric crisis  opisthotonus  torticollis  trismus,  tetanus-like reactions. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  A blue discolouration of the tongue has also been described. • Treatment  generally self-limiting,  the reaction can be reversed by an anticholinergic such as benzatropine or procyclidine or an antihistamine such as diphenhydramine. MRCPUK-part-2-march-218: A 21-year female presented with acute spasm of her neck after metoclopramide injection. What is the most appropriate intervention?  Procyclidine Other drugs Antihistamines • Antihistamines (H1 inhibitors) are of value in the treatment of allergic rhinitis and urticaria. • Sedation and headaches are the most common adverse effects of antihistamines • First generation antihistamines (chlorpheriramine and diphenhydramine) are more sedating than the newer agents. Sedating antihistamines • Cyproheptadine • Chlorpheniramine  As well as being sedating these antihistamines have some antimuscarinic properties (e.g. urinary retention, dry mouth). Non-sedating antihistamines • loratidine • cetirizine • Desloratadine  is a long-acting H-1-receptor antagonist  has poor penetration into the central nervous system  does not interact with antibiotics or other co-administered medications • Of the non-sedating antihistamines there is some evidence that cetirizine may cause more drowsiness than other drugs in the class. • Of the newer antihistamines, cetirizine and levocetirizine are more sedating than loratadine and desloratadine, and possibly more sedating than fexofenadine. Other notes • Terfenadine (a pro-drug) has been associated with cardiac arrhythmias (torsades de pointes) especially in individuals with prolonged QT intervals.  Fexofenadine is the active metabolite of terfenadine and does not appear to have the same arrhythmogenic effects as terfenadine.  second-generation antihistamine  has fewer sedative and anticholinergic side effects.  in patients with allergy + history of narrow-angle glaucoma  Fexofenadine  first-generation antihistamines (eg: Chlorpheniramine) have anticholinergic side effects that can cause mydriasis and trigger an acute attack in patients with a history of narrow-angle glaucoma, • Cetirizine, desloratadine and fexofenadine are prescribed for allergic rhinitis (hay fever) and Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad all three are equally effective • cetirizine and fexofenadine interact with erythromycin and other macrolides • Chlorphenamine maleate and terfenadine cause drowsiness and also interact with erythromycin Human and animal bite • Co-amoxiclav is recommended as first-line treatment for all cat or human bites and other complicated animal bites. • In patients who are pencillin allergic, doxycycline plus metronidazole is a typical first choice regimen. • Only 15 - 20% of dog bites become infected, and providing the wound is appropriately cleaned and not considered at risk (for example, crush or deep wounds) then antibiotic prophylaxis may not be required. Botox  Paralysis of frontalis  eyebrows are drooping (eyebrow ptosis). • Botox (onabotulinumtoxinA) is an injectable neuro-toxin used for the treatment of chronic migraines, limb spasticity, axillary hyperhidrosis, cervical dystonia, strabismus, and blepharospasm. • Botox is a neurotoxin derived from the bacteria, Clostridium botulinum. It blocks neuromuscular transmission inhibition of acetylcholine release at the presynaptic membrane. The end result is that the muscle contraction is inhibited. • The action of Botox is not permanent because collateral axonal sprouting establishes new neuromuscular junctions, restoring muscle function. • Frontalis is a quadrilateral muscle found on the forehead that elevates the eyebrows; hence paralysis of this muscle can lead to eyebrow ptosis. D-Penicillamine • used to reduce the body copper in Wilson's disease & as a chelating agent in lead poisoning • D-Penicillamine is associated with  pancytopenia and tubulointerstitial nephritis Isotretinoin • Isotretinoin is an oral retinoid used in the treatment of severe acne. • Two-thirds of patients have a long term remission or cure following a course of oral isotretinoin Adverse effects • Teratogenicity: ♀s MUST be using two forms of contraception (e.g. COCP and condoms).  Women must have a negative pregnancy test before treatment  and be on effective contraception for at least a month before the course begins, during the course and for a month after it finishes Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  Congenital deafness , CNS and heart defects may occur in children exposed to isotretinoin in utero • Dry skin, eyes and lips: the most common side-effect of isotretinoin • Low mood, depression • Raised triglycerides • Hair thinning • Nose bleeds (caused by dryness of the nasal mucosa) • Benign intracranial hypertension: isotretinoin treatment should not be combined with tetracyclines for this reason Cinnarizine • Cinnarizine is thought to be particularly useful for the treatment of motion sickness as it has a dual action:  it acts as a depressant of the vestibular system  it dampens down smooth muscle contraction in the gut Ergotamine • Ergotamine is an old drug and a member of the family of ergot alkaloids. • It is licensed as a treatment and prophylaxis for migraines but has been largely superseded by newer agents despite its efficacy, cost and relatively benign side effect profile. • A derivative of the drug, ergometrine, is used in obstetrics to reduce the incidence of post partum haemorrhage. • Ergotamine, like all ergot alkaloids, is a potent vasoconstrictor which is partly how it exerts its clinical effects, however in overdosage it can cause significant peripheral vasoconstriction causing critical ischaemia and gangrene. Coronary vasoconstriction may occur, with or without flow limiting lesions causing cardiac ischaemia which may be manifest as chest pain, arrhythmia or even sudden death. • Contraindications to the use of ergotamine are flow limiting coronary lesions or peripheral vascular disease. • Additionally, ergotamine has a complex series of effects on central nervous neurotransmitter systems including serotonergic, dopaminergic and noradrenergic systems which can cause excitement, confusion, paranoia, visual and auditory hallucinations and delusions in overdose. • It is also a metabolic precursor to the highly hallucinogenic chemical lysergic acid diethylamide (LSD) which inactivates 5-HT2A receptors in the brain. • At normal doses, side effects of ergotamine are relatively minor and unlikely to cause significant clinical signs in the absence of underlying pathology. However, metabolism of ergot alkaloids is predominantly by the hepatic enzyme CYP3A4 which is almost totally inhibited by macrolide antibiotics. Co-administration of ergotamine and clarithromycin may be expected to produce a rapid picture of ergotism with confusion, psychosis, muscle cramps, seizures, peripheral and coronary vasospasm, severe headache and gastrointestinal symptoms of bowel ischaemia, cramps, diarrhoea and GI haemorrhage. Myocardial infarction, renal infarction, stroke and critical limb ischaemia may occur if not treated. • Interestingly, ergot alkaloid derivatives are naturally produced by the fungus Claviceps purpurea which may infect crops. • Historically, significant outbreaks of ergotism have been seen due to ingestion of crops contaminated with ergot and there is some historical evidence that claims of witchcraft are ascribable to the psychosis of ergot poisoning. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Finasteride • Finasteride is an inhibitor of 5 alpha-reductase. • 5-α-Reductase converts testosterone to dihydrotestosterone (DHT) • DHT is much more active than testosterone and binds more avidly to cytoplasmic receptors • DHT stimulates prostate growth and may be responsible for benign prostatic hyperplasia in the elderly Indications • benign prostatic hyperplasia • male-pattern baldness Adverse effects • impotence • decrease libido • ejaculation disorders • gynaecomastia and breast tenderness Finasteride causes decreased levels of serum prostate specific antigen Acetazolamide Action • carbonic anhydrase inhibitor, hence causing the accumulation of carbonic acid • Inhibits proximal tubule bicarbonate reabsorption in a similar fashion to type-2 renal tubular acidosis (RTA)  associated with metabolic acidosis • By excreting bicarbonate, the blood becomes acidic, causing compensatory hyperventilation with deep respiration (Kussmaul respiration), increasing levels of oxygen and decreasing levels of carbon dioxide in the blood. Hence used in treatment of high altitude sickness. Indications • intracranial hypertension  post-haemorrhagic hydrocephalus (often with furosemide)  primary idiopathic pseudotumour cerebri (benign intracranial hypertension) • reducing intraocular pressure • prevent acute mountain sickness • preventative agent for contrast nephropathy Side effects • metabolic acidosis, due to bicarbonate loss in the proximal and distal tubules through inhibition of reabsorption  hyperchloraemic, normal anion gap metabolic acidosis. • Hypokalaemia • Acute interstitial nephritis (AIN) • Agranulocytosis and thrombocytopenia • hyponatremia, • hyperglycemia, hypoglycemia, glycosuria, • crystalluria (and hematuria), and polyuria. • peripheral paresthesiae Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology carbonic anhydrase works to control the equilibrium between carbon dioxide and carbonic acid in order to maintain proper blood pH. Through which mechanism does carbonic anhydrase exert its influence on reaction kinetics?  Lowers the activation energy  Enzymes like carbonic anhydrase lower the energy of activation that is needed to initiate a reaction.  Inhibition of carbonic anhydrase prevents the conversion of carbon dioxide (CO2) and water (H2O) to carbonic acid (H2O3) thus affecting the blood pH. Bicarbonate therapy • Can increase extracellular pH only if the carbon dioxide (CO2) produced can be removed by adequate ventilation. • Indeed, if hypercapnia occurs then as CO2 crosses cell membranes easily, intracellular pH may decrease even further with further deterioration of cellular function. • Bicarbonate has a negative inotropic effect, • reducing cerebral blood flow; • It shifts the oxygen dissociation curve to the left, inhibiting oxygen release to tissues. • Exacerbates intracellular acidosis in cardiorespiratory arrest Bisphosphonates Bisphosphonates are analogues of pyrophosphate, a molecule which decreases demineralisation in bone. They inhibit osteoclasts by reducing recruitment and promoting apoptosis. The mechanism of action of bisphosphonates involves the inhibition of farnesyl diphosphate synthase within osteoclasts. In doing this they interfere with geranylgeranylation (attachment of the lipid to regulatory proteins), which causes osteoclast inactivation. This leads to reduced bone turnover, increased bone mass and improved mineralisation. Clinical uses • prevention and treatment of osteoporosis  Bisphosphonates licensed for the prevention and treatment of osteoporosis include alendronate, risedronate and ibandronate. • hypercalcaemia • Paget's disease • pain from bone metastases  The bisphosphonates zoledronate and pamidronate are used for the treatment of metastatic bone disease and short term management of hypercalcaemia. Adverse effects Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • oesophageal reactions: oesophagitis, oesophageal ulcers (especially alendronate) • osteonecrosis of the jaw:  This is a consequence of potent anti-resorptive action of the nitrogen containing bisphosphonates.  Most cases have been associated with zoledronic acid and pamidronate given intravenously for metastatic bone disease.  The reported incidence in patients with malignancy treated with these drugs is between 1.34.0%.  Dental disease is a recognised predisposing factor.  The lesions usually heal with minimal surgical debridement, chlorhexidine mouthwashes, antibiotics and analgesia. • Bisphosphonate infusions can lead to hypocalcaemia although it is more common when using larger doses in malignancy induced hypercalcaemia as oppose to the smaller dose used in osteoporosis. • increased risk of atypical stress fractures of the proximal femoral shaft in patients taking alendronate The BNF suggests the following counselling for patients taking oral bisphosphonates • 'Tablets should be swallowed whole with plenty of water while sitting or standing; to be given on an empty stomach at least 30 minutes before breakfast (or another oral medication); patient should stand or sit upright for at least 30 minutes after taking tablet' Botulinum toxin As well as the well publicised cosmetic uses of Botulinum toxin ('Botox') there are also a number of licensed indications: • blepharospasm • hemifacial spasm • focal spasticity including cerebral palsy patients, hand and wrist disability associated with stroke • spasmodic torticollis • severe hyperhidrosis of the axillae • achalasia Immunoglobulins: Therapeutics The Department of Health issued guidelines on the use of intravenous immunoglobulins in May 2008 Uses • Primary and secondary immunodeficiency • Idiopathic thrombocytopenic purpura (ITP) • Myasthenia gravis • Guillain-Barre syndrome • Kawasaki disease • Toxic epidermal necrolysis (TEN) • Pneumonitis induced by CMV following transplantation • Low serum IgG levels following hematopoietic stem cell transplant for malignancy • Dermatomyositis • Chronic inflammatory demyelinating polyradiculopathy Basics • Formed from large pool of donors (e.g. 5,000) • IgG molecules with a subclass distribution similar to that of normal blood • Half-life of 3 weeks Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Malignant hyperthermia (MH) Overview • condition often seen following administration of anaesthetic agents • characterised by increased temperature and muscle rigidity during anaesthesia, which results from abnormal skeletal muscle contraction and increased metabolism. • caused by excessive release of Ca2+ from the sarcoplasmic reticulum of skeletal muscle • associated with defects in a gene on chromosome 19 encoding the ryanodine receptor, which controls Ca2+ release from the sarcoplasmic reticulum • neuroleptic malignant syndrome may have a similar aetiology Causative agents • halothane ( volatile anaesthetic agents) • suxamethonium • other drugs: antipsychotics (neuroleptic malignant syndrome) Investigations • Serum creatine kinase(CK) elevation and myoglobinuria are suggestive but not diagnostic of MH.(both known to increase after giving suxamethonium to normal patients) • Contracture tests with halothane and caffeine are the investigations of choice. • Muscle biopsies may appear histologically normal. Management • dantrolene - prevents Ca2+ release from the sarcoplasmic reticulum  Intravenous dantrolene (up to 10 mg/kg) is the only available specific treatment  Care must be taken when administering as the solution has a pH of 9-10. Prognosis • The prognosis of malignant hyperpyrexia is good when the appropriate treatment is instigated early, mortality being less than 5% (prior to dantrolene the mortality was 80%). Intravenous fluid therapy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Intravenous fluid therapy in adults in hospital (NICE guidelines 2013) • Indicators for urgent fluid resuscitation:  systolic blood pressure is less than 100 mmHg  heart rate is more than 90 beats per minute  capillary refill time is more than 2 seconds or peripheries are cold to touch  respiratory rate is more than 20 breaths per minute  National Early Warning Score (NEWS) is 5 or more  passive leg raising suggests fluid responsiveness • Resuscitation • If patients need IV fluid resuscitation, use crystalloids that contain sodium in the range 130– 154 mmol/l, with a bolus of 500 ml over less than 15 minutes. • Consider human albumin solution 4–5% for fluid resuscitation only in patients with severe sepsis. • Routine maintenance • If patients need IV fluids for routine maintenance alone, restrict the initial prescription to: • 25–30 ml/kg/day of water and • approximately 1 mmol/kg/day of potassium, sodium and chloride and • approximately 50–100 g/day of glucose to limit starvation ketosis. (This quantity will not address patients' nutritional needs) (patients rarely need more than a total of 3 litres of fluid per day) • Consider prescribing less fluid (for example, 20–25 ml/kg/day fluid) for patients who: • are older or frail • have renal impairment or cardiac failure • are malnourished and at risk of refeeding syndrome • When prescribing for routine maintenance alone, consider using 25–30 ml/kg/day sodium chloride 0.18% in 4% glucose with 27 mmol/l potassium on day 1. • Prescribing more than 2.5 litres per day increases the risk of hyponatraemia. These are initial prescriptions and further prescriptions should be guided by monitoring. • Consider delivering IV fluids for routine maintenance during daytime hours to promote sleep and wellbeing. British Consensus Guidelines on Intravenous Fluid Therapy (2011) Recommendation • Because of the risk of inducing hyperchloraemic acidosis in routine practice, when crystalloid resuscitation or replacement is indicated, balanced salt solutions e.g. Ringer’s lactate/acetate or Hartmann’s solution should replace 0.9% saline, except in cases of hypochloraemia e.g. from vomiting or gastric drainage. • Hypochloraemia is an indication for the use of 0.9% saline, with sufficient additions of potassium and care not to produce sodium overload. • Losses from diarrhoea/ileostomy/small bowel fistula/ileus/obstruction should be replaced volume for volume with Hartmann’s or Ringer-Lactate/acetate type solutions. • “Saline depletion,” for example due to excessive diuretic exposure, is best managed with a balanced electrolyte solution such as Hartmann's. Daily requirement • The typical daily requirement is:  1.5 ml/kg/hr fluid - for a 80kg man around 2-3 litres/day  70-150mmol sodium  40-70mmol potassium • This is why the typical regime prescribed for patients is: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology  1 litre 5% dextrose with 20mmol potassium over 8 hours  1 litre 0.9% normal saline with 20mmol potassium over 8 hours The table below shows the electrolyte concentrations (in millimoles/litre) of plasma and the most commonly used fluids: Na+ Cl- K+ HCO3- Ca2+ Plasma 135-145 98-105 3.5-5 22-28 2.3-2.6 0.9% normal saline 5% dextrose Hartmann's solution Normal saline has a pH of 5 and may produce a mild metabolic acidosis with significant infusions. Which fluid would be the most appropriate to replace the fluid being lost in a patient with a paralytic ileus draining 2 litres of fluid a day through a nasogastric tube?  0.9% sodium chloride with potassium according to electrolytes  it is essential to supply sufficient chloride ions to replace the chloride being lost in the gastric fluid (gastric juice is essentially dilute hydrochloric acid). Lactulose • Lactulose MOA  Osmotic laxative • Causes hypomagnesaemia associated with diarrhoea • Is not absorbed • Does not affect the absorption of spironolactone and • May be used in diabetics. • It reduces proliferation of ammonia producing bacteria It is used in patients with cirrhosis/hepatic encephalopathy to limit the proliferation of ammonia-forming gut organisms and increase the clearance of protein load in the gut. • lactulose broken down by colonic bacteria  production of lactic acid and other organic acids  contents of the gut become more acidic (↓ PH)  ↓↓ absorption of ammonia  ↑↑ ammonia in the gut  ↑↑ water drawn into the lower bowel laxative abuse Features • most commonly seen in young female patients complaining of chronic diarrhoea.  The diarrhoea is frequently high volume • underweight girl with calluses on her knuckles may point towards induced vomiting and a diagnosis of bulimia, which would fit with possible laxative abuse. • Hypokalaemia  Due to increased GI potassium loss  symptoms of fatigue which are consistent with hypokalaemia.  GI loss leads to renal conservation of potassium, a urinary concentration of potassium of less than 1 mmol/l being highly suggestive of laxative abuse. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Bismuth • subsalicylate is a colloidal substance frequently included in over-the-counter treatments for gastrointestinal discomfort. • It has anti-secretory, anti-inflammatory, and antibacterial properties. • It may be included in multidrug regimens against H. pylori. • Its most unique side-effect is the appearance of black stool or a black tongue, both secondary to the drug's interaction with sulfur. Non-steroidal anti-inflammatory drugs (NSAID) Non-steroidal anti-inflammatory drugs (Nice 2015) • If an NSAID is needed, use ibuprofen (1200 mg a day or less) or naproxen (1000 mg a day or less). • Naproxen (1000 mg a day or less) and low-dose ibuprofen (1200 mg a day or less) are considered to have the most favourable thrombotic cardiovascular safety profiles of all NSAIDs. • Co-prescribe gastroprotective treatment (a proton pump inhibitor) with NSAIDs • In October 2012, a European Medicines Agency (EMA) review on the cardiovascular safety of NSAIDs confirmed that diclofenac is associated with cardiovascular risks that are higher than ibuprofen and naproxen, and similar to the COX-2 inhibitors. • etoricoxib should not be prescribed to people whose blood pressure is persistently above 140/90 mmHg • the arterial thrombotic risk with diclofenac is similar to that of COX-2 inhibitors. • diclofenac is now contraindicated in patients with established:  ischaemic heart disease  peripheral arterial disease  cerebrovascular disease  congestive heart failure (New York Heart Association [NYHA] classification II–IV) Indometacin  is an inhibitor of both prostaglandin synthase and lipoxygenase enzymes Side effects • Current evidence suggests that naproxen, a nonselective NSAID, is associated with the lowest risk of cardiovascular events. Therefore, naproxen is the NSAID of choice in patients with high cardiovascular risk. • Optic neuritis is described as being rarely associated with diclofenac therapy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • A range of other CNS side effects has also been noted on the summary of product characteristics, these include headache, dizziness, vertigo and in rare circumstances drowsiness. • gastrointestinal bleeding occurs due to depletion of mucosal prostaglandin E (PGE) levels • Endoscopic evidence of peptic ulceration is found in 20% of NSAID users even in the absence of symptoms • The relative risk of causing Gl bleeds differs with different preparations: ibuprofen has a low risk piroxicam and azapropazone have the highest risk • While all NSAIDs may contribute to anaemia, usually via gastrointestinal bleeding, mefenamic acid is particularly associated with immune haemolytic anaemia. • NSAIDs reduce glomerular perfusion by inhibiting production of prostaglandins which dilate the afferent arteriole of the glomerulus. The reduction in blood supply to the kidney results in impairment of kidney function. • NSAIDs can also cause an interstitial nephritis but this is often accompanied by a nephrotic syndrome-like picture. Non-steroidal anti-inflammatory drugs are contraindicated in chronic liver disease for a variety of reasons: • their gastrointestinal side effects increase the risk of bleeding, particularly in those with varices. • Additionally, due to systemic vasodilatation renal circulation is very dependent upon prostaglandin production to maintain glomerular filtration. Inhibition of this mechanism by non-steroidals, in addition to their other nephrotoxic effects, means that their use in patients with chronic liver disease, especially where there is pre-existing renal impairment, can precipitate renal failure. Overdose with (NSAIDs) Presentation and aetiology GIT upset (epigastric tenderness, nausea, vomiting and diarrhea) These effects are mainly due to the inhibition of cyclo-oxygenase convulsions (10-20%) more common in mefenamic acid over dose Large overdoses can present with: acidosis renal impairment gastrointestinal haemorrhage CNS effects (drowsiness, coma, cerebellar signs) Management Activated charcoal in patients presenting within the first hour Supportive care Oral H2-histamine blockers and proton-pump inhibitors may reduce the symptoms of gastrointestinal toxicity Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Celecoxib (COX)-2 inhibitor) Celecoxib is an NSAID that is safe to use in patients with gastritis or gastric ulcers as it does not affect COX1 action at the stomach. Cox-2 inhibitors have a much lower risk of gastrointestinal bleed and high risk of cardiovascular events, they should not be prescribed to those with cardiovascular disease, or in those with high risk of cardiovascular disease. Action • Celecoxib is a selective cyclo-oxygenase(COX)-2 inhibitor  differing from the other non-steroidal anti-inflammatory drugs (NSAIDs) such as naproxen which affects both COX-1 and COX-2.  COX-1 is involved in platelet aggregation and inhibition of this by the NSAIDs produces its beneficial cardiovascular effects.  platelet aggregation is not affected by COX-2.  Celecoxib has a lower level of anti-platelet activity than naproxen Advantages • Naproxen and celecoxib have been shown to be as effective at reducing inflammation. • One of the benefits of celecoxib is its reduced incidence of upper gastrointestinal side effects. Side effects • As with the non-specific NSAIDS, hepatotoxicity may occur with the COX-2 specific inhibitors resulting in cholestatic, hepatocellular or mixed liver injury. Rates seem to be comparable between the traditional NSAIDs and the COX-2 selective inhibitors. • The cardiovascular effects of the COX-2 inhibitors remains under study, and care should be taken before prescribing them to patients with a past medical history of significant cardiovascular disease. • Rofecoxib (Vioxx) has been withdrawn due to its increased cardiovascular events compared with naproxen. • What is the mechanism of celecoxib-induced deterioration in renal function?  inhibition of afferent arteriole vasodilatation Interaction • Co-administration of diuretics and COX-2 inhibitors should be avoided if possible, as COX-2 inhibitors may reduce the antihypertensive and diuretic effects of diuretics. This may be due to impaired prostaglandin synthesis, which results in salt and water retention. In addition, COX-2 inhibitors have nephrotoxic effects which can be exacerbated by diuretics. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Aminosalicylate drugs • 5-aminosalicyclic acid (5-ASA) is released in the colon and is not absorbed. It acts locally as an antiinflammatory. The mechanism of action is not fully understood but 5-ASA may inhibit prostaglandin synthesis • The safety of the 5-aminosalicylic acid (5-ASA) drugs in pregnancy is best supported by the data on Salazopyrin which have been available for the longest. Sulphasalazine • a combination of sulphapyridine (a sulphonamide) and 5-ASA • many side-effects are due to the sulphapyridine moiety: rashes, oligospermia, headache, Heinz body anaemia, megaloblastic anaemia • other side-effects are common to 5-ASA drugs (see mesalazine) Mesalazine • a delayed release form of 5-ASA • sulphapyridine side-effects seen in patients taking sulphasalazine are avoided • side-effects: GI upset, headache, agranulocytosis, pancreatitis, interstitial nephritis pancreatitis is 7 times more common in patients taking mesalazine than sulfasalazine Olsalazine • two molecules of 5-ASA linked by a diazo bond, which is broken by colonic bacteria Anti-TNF therapy (NICE January 2016) Drugs • adalimumab, Golimumab, infliximab, certolizumab, tocilizumab • etanercept, Action • tumour necrosis factor alpha (TNF-α) inhibitors Indications • Refractory Crohn's disease, • rheumatoid arthritis: for adults who have both the following characteristics:  Active rheumatoid arthritis as measured by disease activity score (DAS28) greater than 5.1 confirmed on at least two occasions, 1 month apart.  Have undergone trials of two disease-modifying anti-rheumatic drugs (DMARDs), including methotrexate (unless contraindicated).  A trial of a DMARD is defined as being normally of 6 months, with 2 months at standard dose, unless significant toxicity has limited the dose or duration of treatment.  Use of the TNF-α inhibitors for rheumatoid arthritis in adults not previously treated with methotrexate or other DMARDs is not recommended.  Follow up  Continue treatment only if there is a moderate response measured using European League Against Rheumatism (EULAR) criteria at 6 months after starting therapy.  monitored 6-monthly  withdraw treatment if a moderate EULAR response is not maintained. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Plaque psoriasis  Adalimumab is recommended for adults with plaque psoriasis only if:  condition is severe and  not improved with other treatments such as ciclosporin, methotrexate and PUVA (psoralen and long-wave ultraviolet radiation), or they have had side effects with these in the past or there is a medical reason why they should not be given these treatments.  Follow up  Adalimumab treatment should be continued beyond 16 weeks only if the psoriasis has clearly improved within this time. • ankylosing spondylitis  NICE states that adalimumab, etanercept and golimumab may be used for ankylosing spondylitis (AS) only if:  treatment with two or more NSAIDs for four weeks at the highest possible dose has not controlled the symptoms  confirms that condition has not improved by 2 methods: level of pain is assessed twice (using a simple scale to fill in) 12 weeks apart and confirms that condition has not improved Bath Ankylosing Spondylitis Disease Activity Index (BASDAI) is tested twice, 12 weeks apart, and confirms that condition has not improved BASDAI is a set of measures to evaluate condition, by asking a number of questions about symptoms Side effects • Reactions  Injection site reactions  Cutaneous reactions, including psoriasis  Infusion reactions  Infusion reactions with infliximab are classified as one of two types:  Acute reactions : occur within 24 hours.  Delayed reactions: develop between 1 and 14 days • Neutropenia • Infections  risk of reactivation of tuberculosis or new infection  including miliary TB and some unusual extra-pulmonary TB  If patient had previous active TB, the optimal TB screening test in this situation Interferon gamma release assay • Demyelinating disease  exacerbation of neurologic disorders associated with demyelination, such as multiple sclerosis. • Heart failure  Given the evidence to date, patients with symptomatic HF should be treated with strategies other than TNF-alpha inhibitors.  In a patient who develops HF while on a TNF-alpha inhibitor, a drug-induced cause should be suspected. • Malignancy • Induction of autoimmunity Usage 071 - Chapter 13 071 Chapter 13 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • Prior to initiating a TNF-alpha inhibitor, all patients should be screened for:  tuberculosis,  hepatitis B, and  hepatitis C. • All forms of anti-TNF therapy are given by injection.  Etanercept is given as subcutaneous injection twice per week.  Infliximab is given as an infusion (intravenous).  requires intravenous infusion in a hospital setting.  It is given 2-4 weekly initially and then on a 6-8 weekly basis and as per protocol.  Infliximab monotherapy induces the production of anti-infliximab antibodies, which may reduce its effectiveness. Adding methotrexate to infliximab therapy may prevent this response.  Adalimumab is given as (subcutaneous injection) on alternate weeks (every second week). • Unlike methotrexate,  there is little problem with nausea.  Nor is there the same concern for effects on blood cells and the liver which means less blood tests are required. • TNF-α inhibitors should normally be used in combination with methotrexate.  If methotrexate is intolerant, adalimumab and etanercept may be given as monotherapy. Monoclonal antibodies Overview • manufactured by a technique called somatic cell hybridization. • This involves the fusion of myeloma cells with spleen cells from a mouse that has been immunized with the desired antigen. The resulting fused cells are termed a hybridoma and act as a 'factory' for producing monoclonal antibodies. • The main limitation to this is that mouse antibodies are immunogenic leading to the formation of human anti-mouse antibodies (HAMAs). This problem is overcome by combining the variable region from the mouse body with the constant region from an human antibody. Rituximab - monoclonal antibody against CD20 Cetuximab - monoclonal antibody against the epidermal growth factor receptor Some monoclonal antibodies in clinical use include: monoclonal antibodies Action Indication Digibind Digoxin-binding antibody for treatment of overdoses Abciximab Glycoprotein IIb,IIIa receptor for unstable angina. Pexelizumab Anti-C5 (complement) - antiinflammatory Rituximab Anti-CD20 non-Hodgkin's lymphoma Infliximab anti-TNF rheumatoid arthritis and Crohn's Cetuximab anti-epidermal growth factor receptor and head and neck cancer Trastuzumab anti-HER2, anti EGF receptor metastatic breast cancer Alemtuzumab anti-CD52 chronic lymphocytic leukemia Abciximab anti-glycoprotein IIb/IIIa receptor ischemic events in patients OKT3 anti-CD3 prevent organ rejection Tocilizumab directed against IL-6 receptor treatment of moderate-to- DMARDs and/or anti-TNF Nivolumab PD-1 (programmed cell death) inhibitor (PD-1 receptors are found on the surface of T cells.) melanoma and lymphoma. Monoclonal Antibodies in Rheumatoid Arthritis Monoclonal Antibodies Directed Against TNF-α Antibodies Against B Cells Antibodies That Interfere With IL-6 Function Antibodies That Interfere With IL-1 Function Infliximab Adalimumab Golimumab Certolizumab Rituximab Tocilizumab Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad (increases clearance). reduces myocardial infarction and death following coronary artery bypass graft (CABG) and angioplasty. metastatic colorectal cancer undergoing PCI, prevention of severe RA in patients with an inadequate response to carcinoma of the lung Nivolumab in combination with ipilimumab used in metastatic Anakinra Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology Monoclonal antibodies are also used for: • medical imaging when combined with a radioisotope • identification of cell surface markers in biopsied tissue • diagnosis of viral infections Side effects • Nivolumab (PD-1 inhibitor) and ipilimumab (CTLA-4 inhibitor) are checkpoint inhibitors which are used in the treatment of metastatic melanoma. Effects on the endocrine system are being increasingly reported with prolonged therapy (hypophysitis and hypothyroidism) and therefore it is important to assess patients carefully who present with symptoms of hypothyroidism whilst on these drugs. Abatacept • What is the mechanism of action of abatacept?  Chimeric protein that inhibits T-lymphocyte activation  CTLA4 homologue  Abatacept is a cytotoxic lymphocyte antigen 4 (CTLA 4) homologue – • Indication  licensed for RA treatment. Proton pump inhibitors • The proton pump is only contained in the tubo-vesicles of the parietal cell  secrete acid. • Proton-pump inhibitors (e.g omeprazole) binds to gastric K+/H+-ATPase proton pump irreversibly • However, as the half-life of the pump is 24-36 hours, the duration of the effect of protonpump inhibitors is limited by the degradation of these pumps. Sildenafil Action • Sildenafil is a phosphodiesterase type V inhibitor (PDE-5 inhibitors) used in the treatment of impotence. • It increases intracavernosal cGMP levels, thereby competitively inhibiting the PDE-5 enzyme, and allowing nitric oxide-induced vasodilation.  it blocks cGMP phosphodiesterase, which is normally responsible for the breakdown of cGMP. Sildenafil therefore leads to increased levels of cGMP, which has vasodilatory effects to relax smooth muscle. Contraindications • patients taking nitrates and related drugs such as nicorandil • hypotension • recent stroke or myocardial infarction (NICE recommend waiting 6 months) • non-arteritic anterior ischaemic optic neuropathy Side-effects • visual disturbances e.g. blue discolouration, non-arteritic anterior ischaemic neuropathy Sildenafil is a PDE-5 inhibitor, but at high doses it also inhibits PDE-6, which leads to blue discoloration of vision.This can often be managed by reducing the dose of Sildenafil. • nasal congestion • flushing • gastrointestinal side-effects • headache Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Anaesthetic drugs halothane hepatitis (medical-masterclass.com 2017 mrcp part 2) • There are many causes of post-operative jaundice, but the fact that the surgery was uncomplicated, the time course, the presence of joint / muscle pains and an eosinophilia, all suggest halothane hepatitis as the most likely diagnosis. This is thought to result as a hypersensitivity reaction. Treatment is supportive. Effects on the liver • Halothane  Halothane undergoes ∼25% metabolism by oxidative phosphorylation via hepatic cytochrome P450 systems.  The major metabolite is trifluoroacetic acid (TFA), which is protein-bound and this TFA–protein complex can induce a T-cell-mediated immune response resulting in hepatitis ranging from mild transaminitis to fulminant hepatic necrosis and possibly death.  the risk of fatal hepatic necrosis  one in 10 000 anaesthetics.  Adult females are more commonly affected.  Repeated exposure increases the risk of hepatitis.  Halothane and hepatitis  Halothane can cause a mild liver dysfunction in approximately 30% of patients, due to the binding of reactive halothane metabolites to hepatocytes  Halothane oxidation by cytochrome P450 enzymes leads to the synthesis of trifluoroacetyl chloride, which covalently binds to hepatic molecules and causes an immune reaction Fulminant hepatitis results from the reactive metabolite, trifluoroacetyl chloride  Further exposure to halothane anaesthesia may lead to a fulminant hepatitis, where the mortality is approximately 90%.  Halothane induced hepatitis typically occurs five to seven days after exposure • Less commonly hepatitis has been described after exposure to enflurane > isoflurane > desflurane. • Sevoflurane is not metabolized to antigenic TFA–protein complexes. Inhaled anaesthetic-like agent • If patient was markedly comatose on arrival but quickly regains consciousness. This suggests a short acting (probably) inhaled anaesthetic-like agent  e.g Inhaled solvent glue. • The inhaled solvents, due to their lipophilicity, are rapidly absorbed through the lungs and then quickly distributed to the brain and other organs. The effects therefore appear within minutes of inhalation. • Typical substances that are inhaled include toluene, aromatic hydrocarbons and butane. Pseudocholinesterase deficiency Overview • Pseudocholinesterase is a glycoprotein enzyme, produced by the liver. • It specifically hydrolyzes exogenous choline esters. • most common in European; rare in Asians. • Pseudocholinesterase deficiency results in delayed metabolism of the following: Succinylcholine. depolarizing neuromuscular blocking agent (the most clinically important drug) • Suxamethonium is a depolarising neuromuscular blocking agent, Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology metabolised by plasma pseudocholinesterases. • Approximately 1 in 2500 individuals have deficiency of this enzyme, resulting in prolonged neuromuscular blockade if they are given suxamethonium. 2. mivacurium. 3. procaine. 4. cocaine. • After an intravenous dose of succinylcholine in individuals with normal plasma levels of normally functioning pseudocholinesterase enzyme:  hydrolysis and inactivation of 90-95% of i.v succinylcholine occurs before it reaches the neuromuscular junction.  The remaining 5-10% of the dose acts as an acetylcholine receptor agonist at the neuromuscular junction, causing prolonged depolarization of the postsynaptic junction of the motor-end plate.  This depolarization initially triggers fasciculation of skeletal muscle.  As a result of prolonged depolarization, endogenous acetylcholine released from the presynaptic membrane of the motor neuron does not produce any additional change in membrane potential after binding to its receptor on the myocyte.  Flaccid paralysis of skeletal muscles develops within 1 minute. • In normal subjects, skeletal muscle function returns to normal approximately 5 minutes after a single bolus injection of succinylcholine as it passively diffuses away from the neuromuscular junction. • Pseudocholinesterase deficiency can result in higher levels of intact succinylcholine molecules reaching receptors in the neuromuscular junction, causing the duration of paralytic effect to continue for as long as 8 hours. • This condition is recognized clinically when paralysis of the respiratory and other skeletal muscles fails to spontaneously resolve after succinylcholine is administered as an adjunctive paralytic agent during anesthesia procedures. Diagnosis: • by plasma assays of pseudocholinesterase enzyme activity. Management • prolonged ventilation until the action of the drug wears off. • Relatives of affected patients should be screened. Prognosis • exposed to succinylcholine excellent when close monitoring and respiratory support measures. • exposed to cocaine, sudden cardiac death can occur. Succinyl choline • Depolarizing Skeletal muscle relaxants • Also called suxamethonium • Analogue of acetyl choline, acts on nicotinic Nm receptors • Only depolarizing skeletal muscle relaxant • Fastest onset of action, Shortest duration of action • can stimulate autonomic ganglia • Side effect and contraindications (CI)  Cause hyperkalemia in patients with nerve and muscular disorders so CI in:  nerve disorders (Paraplegia, hemiplegia, GBS) and  muscular disorders(muscular dystrophy, Myasthenia, crush injury, burns, rhabdomyolysis)  Increases all pressures so CI in: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  glaucoma,  head injury,  increase BP,  nausea and vomiting due to intragastric pressure.  Trigger malignant hyperthermia when used with halothane Local spinal anesthetics Hypotension and bradycardia following spinal anesthesia suggest neurogenic shock. • Local spinal anesthetics, can interrupt the transmission of nerve impulses in spinal sympathetic pathways, causing a loss of sympathetic vascular tone that ultimately results in neurogenic shock. • Neurogenic shock is a type of distributive shock characterized by:  generalized vasodilation (causing diaphoresis and flushed skin).  This vasodilation leads to decreased preload and subsequently reduced cardiac output, which results in hypotension and bradycardia.  Consequently, cerebral perfusion is impaired, leading to a loss of consciousness. Fentanyl • Large, rapidly given doses of specific opioids such as fentanyl, sufentanil, remifentanil, and alfentanil are associated with systemic skeletal muscle rigidity.  Of most concern to the anesthesiologist is chest wall rigidity (which impairs mask and bag ventilation) and rigidity of the jaw muscles which can prevent the insertion of an advanced airway. Ketamine • Ketamine is commonly used as a recreational drug. adverse effects include: • stimulation, euphoria, depersonalisation, floating feeling • synaesthesia (a sensory stimulus in one modality is perceived as a sensation in another), eg: being able to 'smell sounds' • delirium, • vivid dreams • hallucinations. Topoisomerase inhibitors Overview • Topoisomerase I and II are enzymes that control the changes in DNA structure during the normal cell cycle. • Topoisomerase inhibition leads to apoptosis and cell death. • Used in:  chemotherapy treatments.  as antibacterial agents :Quinolones (including nalidixic acid and ciprofloxacin) Topoisomerase I inhibitors • Agent:  Irinotecan: used mainly for Colorectal cancer  Topotecan: used mainly for Ovarian cancer and Small-cell lung cancer Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 13 Pharmacology • Mechanism of action: Inhibition of topoisomerase I → ↓ DNA unwinding → ↓ DNA replication and DNA degradation (because of ssDNA breaks) • Side effects : Myelosuppression and GI symptoms (e.g., diarrhea) Topoisomerase II inhibitors • Agent: Etoposide • Indications: used for Solid tumors, Testicular cancer, Small-cell lung cancer, Leukemias, Lymphomas • Mechanism of action: Inhibition of topoisomerase II → ↑ DNA degradation (dsDNA breaks) and ↓ DNA replication (cell cycle arrest in S and G2 phase) • Side effects: Myelosuppression, Alopecia By what mechanism does topoisomerase catalyse DNA replication? Helix torsion release Topoisomerase releases torsion in the DNA helix during replication. It accomplishes this by cutting the DNA helix at specific points to allow it to unravel and then ligates the ends together again. This allows large proteins such as DNA polymerase to replicate DNA along the sequence. Notes & Notes For MRCP part 1 & 11 By Dr. Yousif Abdallah Hamad Basic sciences Biochemistry & metabolism Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Anion gap (AG) • The anion gap allows for the differentiation of 2 groups of metabolic acidosis. Metabolic acidosis with a high AG is associated with the addition of endogenously or exogenously generated acids. Metabolic acidosis with a normal AG is associated with the loss of HCO3 or the failure to excrete H+ from the body. • The anion gap is calculated by: (sodium + potassium) - (bicarbonate + chloride) • A normal anion gap is 8-14 mmol/L • It is useful to consider in patients with a metabolic acidosis: Causes of a normal anion gap or hyperchloraemic metabolic acidosis  gastrointestinal bicarbonate loss: diarrhoea, ureterosigmoidostomy, fistula  renal tubular acidosis  drugs: e.g. acetazolamide  ammonium chloride injection  Addison's disease Causes of a raised anion gap metabolic acidosis  lactate: shock, hypoxia  ketones: diabetic ketoacidosis, alcohol  urate: renal failure  acid poisoning: salicylates, methanol mnemonic of high anion gap acidosis: • DR. MAPLES: D-DKA; R-renal; M-methanol; A-alcoholic ketoacidosis; P-paraldehyde, phenformin; L-lactic (ie, CO, HCN); E-ethylene glycol; S-salicylates Remember the mnemonic MUDPILES →high anion gap acidosis M Methanol U Uremia D Diabetic ketoacidosis P Paraldehyde I Infection L Lactic acidosis E Ethylene glycol S Salicylates Metabolic acidosis associated with bladder reconstruction (e.g: for carcinoma of the bladder). • Hyperchloraemic metabolic acidosis is a documented complication of neobladder formation. However, it usually improves with time and is mild. • Severe and persistent metabolic acidosis may manifest when patients undergo further surgery for other reasons, as is the case in this patient. • Neobladder formation following radical cystectomy or cystoprostatectomy is becoming increasingly more common, and medical staff treating patients with neobladders should recognise and treat metabolic acidosis with intravenous fluids and bicarbonate. Metabolic alkalosis Pathophysiology • Metabolic alkalosis may be caused by a loss of hydrogen ions (H+) or a gain of bicarbonate (HCO3). • It is due mainly to problems of the kidney or gastrointestinal tract • The initial disturbance of metabolic alkalosis is an increased HCO3 concentration, followed by a compensatory response of increased Pco2. • All renal tubular defects result in metabolic alkalosis, except for Fanconi syndrome. ABG picture • pH : Elevated • PCO2: Expected compensatory response: ↑ • HCO3: Elevated Compensation mechanism • Hypoventilation is an immediate compensatory response to metabolic alkalosis. • ↑ Arterial and CSF pH (with ↑ HCO3-) → ↓ stimulation of the medullary chemoreceptors → ↓ respiratory rate and/or tidal volume (hypoventilation) → ↑ CO2 retention → ↑ PCO2 Causes • Vomiting / aspiration (e.g. peptic ulcer leading to pyloric stenos, nasogastric suction) • Diuretics • Liquorice, carbenoxolone • Hypokalaemia • Bulimia nervosa Mechanism of metabolic alkalosis • The main mechanisms of metabolic alkalosis in the setting of vomiting are increased H+ excretion in the distal tubule and increased bicarbonate reabsorption in the proximal tubule. ECF depletion (vomiting, diuretics) → Na+ and Cl- loss → activation of reninangiotensin II-aldosterone (RAA) system → ↑aldosterone →reabsorption of Na+ in exchange for H+ in the distal convoluted tubule • In hypokalaemia, K+ shift from cells to ECF, alkalosis is caused by shift of H+ into cells to maintain neutrality A patient with liver cirrhosis develops metabolic alkalosis. What is the most likely pathological mechanism? →Reduced urea synthesis A patient in the intensive care unit following liver transplant surgery has a metabolic alkalosis. What is the most likely cause? Diuretic-induced volume depletion  Cirrhosis →hypoalbuminaemia → low colloid osmotic pressure →Relative volume depletion →↑aldosterone, (which is not adequately metabolised by an impaired liver).  Furosemide use in the post-operative period further exacerbates alkalosis driven by hyperaldosteronism . Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Primary hyperaldosteronism Liddle syndrome Con syndrome • Cushing's syndrome • Bartter's syndrome • Gitelman syndrome • Congenital adrenal hyperplasia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Aetiology of metabolic alkalosis Mechanism Causes Chloride-responsive metabolic alkalosis (urine chloride < 25 mEq/L) Gastrointestinal losses: due to vomiting, nasogastric suction, or diarrhea Renal losses: due to loop or thiazide diuretics Cystic fibrosis Chloride-resistant metabolic alkalosis (urine chloride > 40 mEq/L) Severe magnesium deficiency Extreme hypercalcemia, hypokalemia High alkali load (e.g., due to antacid use, alkalization therapy) Loop or thiazide diuretics Other (less common causes)  Associated with low or normal blood pressure Bartter syndrome Gitelman syndrome  Associated with high blood pressure Hyperaldosteronism Cushing syndrome Liddle syndrome Licorice ingestion  Ingestions or drugs (Laxative abuse, ampicillin, penicillin)  Recovery from starvation  Hypoalbuminemia Prognosis • when the pH is greater than 7.65 → mortality rate is 80% Treatment • Chloride-responsive metabolic alkalosis Start isotonic saline to increase urinary bicarbonate excretion and correct extracellular volume loss • Chloride-resistant metabolic alkalosis Consider bicarbonate excess as a potential cause and administer acetazolamide. Acetazolamide is a diuretic used to alkalinize the urine or treat metabolic alkalosis as it inhibits carbonic anhydrase. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Respiratory acidosis Causes Mechanism Causes Acute respiratory acidosis Acute lung disease (e.g., pneumonia , pulmonary edema) Acute exacerbation of chronic obstructive airway disease (e.g., COPD, asthma) CNS depression due to:  Head trauma  Postictal state  Drug toxicity (e.g., from opiates, barbiturates, benzodiazepines)  Central sleep apnea Chronic respiratory acidosis Airway obstruction (e.g., COPD, asthma) Respiratory muscle weakness, e.g., due to:  Myasthenia gravis  ALS  Guillain-Barré syndrome  Poliomyelitis  Multiple sclerosis  Severe hypokalemia Features Signs and symptoms of respiratory acidosis Central nervous system Respiratory system Cardiovascular system Cerebral vasodilation Breathlessness Flushing, bounding pulse Increased intracranial pressure Cyanosis Cor pulmonale Headache, confusion, agitation Pulmonary hypertension Systemic hypotension Hallucinations, transient psychosis Arrhythmias Myoclonic jerks, flapping tremor, extensor plantars, depressed reflexes Initially good cardiac output, then decreases Papilloedema, constricted pupils Seizures, coma Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Mechanism • Alveolar hypoventilation → CO2 retention ABG picture • pH : low • PCO2: elevated • HCO3: Expected compensatory response: ↑ Treatment • Consider noninvasive or invasive mechanical ventilation. Respiratory alkalosis Mechanism • ↑ Respiratory rate and/or tidal volume → alveolar hyperventilation → CO2 washout Causes • Anxiety leading to hyperventilation (Hyperventilation will result in carbon dioxide being 'blown off', causing an alkalosis.) →high PH , low PCO2 , normal PO2. not associated with hypoxia. • pulmonary embolism • Acute severe asthma associated with hypoxia and normal or rising CO2 • Drugs (salicylates, progesterone) salicylate overdose leads to a mixed respiratory alkalosis and metabolic acidosis.  Early stimulation of the respiratory centre leads to a respiratory alkalosis whilst later the direct acid effects of salicylates (combined with acute renal failure) may lead to an acidosis. • CNS disorders: stroke, subarachnoid haemorrhage, encephalitis • High altitude • Pregnancy • Pain • Excessive mechanical ventilation. • Hepatic failure ABG picture • pH : elevated • PCO2: low • HCO3: Expected compensatory response: ↓ Differential diagnosis of respiratory alkalosis with type 1 respiratory failure (low pO2 and low pCO2.): • Chronic venous thromboembolism (most likely). • Pulmonary fibrosis (but basal crackles may be expected). Calcium metabolism see endocrinology Hypercalcaemia see endocrinology Hypocalcaemia see endocrinology Vitamin D see endocrinology Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hyperkalaemia Definition • Serum potassium level > 5 mEq/L Regulation • Plasma potassium levels are regulated by a number of factors including:  Aldosterone acid-base balance insulin levels. • Metabolic acidosis is associated with hyperkalaemia as hydrogen and potassium ions compete with each other for exchange with sodium ions across cell membranes and in the distal tubule. Causes • Potassium excess: due to altered K+ metabolism or intake Reduced excretion: acute and chronic kidney disease Endocrine causes: hypocortisolism, hypoaldosteronism Drugs: potassium-sparing diuretics, ACE inhibitors, angiotensin receptor blockers, NSAIDs, and trimethoprim-sulfamethoxazole Type IV renal tubular acidosis Increased intake  High potassium diet, e.g., bananas, oranges, kiwi fruit, avocado, spinach, tomatoes  K+ containing IV fluids • Extracellular shift Acidosis → ↑ extracellular H+ → inhibition of the Na+/H+ antiporter → ↓ intracellular Na+ → ↓ sodium gradient inhibits the Na+/K+-ATPase → ↑ extracellular K+ concentration  Hyperkalemia → ↑ extracellular K+ concentration → ↑ potassium gradient stimulates the Na+/K+-ATPase → ↑ extracellular Na+ → ↑ sodium gradient stimulates the Na+/H+ antiporter → ↑ extracellular H+ → acidosis  Exceptions: In renal tubular acidosis and acetazolamide toxicity, findings include hypokalemia and metabolic acidosis. Hyperosmolality Insulin deficiency (manifests with hyperglycemia) Drugs  Beta blockers  Succinylcholine: (esp. when given with preexisting burns and/or muscle trauma) ,  Digoxin: inhibits the Na+/K+-ATPase → ↑ extracellular K+ concentration • Extracellular release Pathological cell lysis  Rhabdomyolysis  Tumor lysis syndrome  Hemolysis High blood cell turnover: e.g., thrombocytosis, erythrocytosis, leukocytosis Pseudohyperkalaemia: resulting from iatrogenic red blood cell lysis  Blood drawn from the side of IV infusion or a central line without previous flushing  Prolonged use of a tourniquet Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm  Fist clenching during blood withdrawal  Delayed sample analysis Features • May be asymptomatic • Nausea, vomiting, diarrhea • Cardiac: Arrhythmias (e.g., atrioventricular block, ventricular fibrillation) • Neuromuscular: Muscle weakness, paralysis, paresthesia, ↓ Deep tendon reflexes Weakness and fatigue are the most common complaints • ECG changes Early changes (typically seen at a serum potassium level of 5.5-6.5 mEq/L)  tall, peaked T waves  shortened QT interval  ST-segment depression. At a serum potassium level of 6.5-8.0 mEq/L, in addition to peaked T waves:  Decreased or disappearing P wave  Prolonged PR interval  Widening of the QRS  Amplified R wave Treatments Immediate treatment principles include: Providing calcium salts to reduce the risk of arrhythmia (‘protect the heart’); Administering intravenous glucose and insulin (‘shift potassium into cells’); Reducing intake and increasing output of potassium (‘remove potassium from the body’). When K+ shifts out of the cell, it's a BAD LOSS! – Beta blockers, Acidosis, Digoxin, Lysis, hyperOsmolality, high Sugar, Succinylcholine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Precipitating factors should be addressed (e.g. acute renal failure) and aggravating drugs stopped (e.g. ACE inhibitors). • Mild chronic hyperkalaemia (eg: 5.6 mmol/l) is well tolerated and not a cause for concern. If serum potassium rise to >6.0 mmol/l, standard practice would be to stop the ACEi and - if K >6.0 mmol/l were to persist - to advise a low potassium diet. • Stabilisation of the cardiac membrane intravenous 10 ml 10% calcium gluconate (or calcium chloride) The effects of intravenous calcium occur within 1 to 3 minutes but last for only 30 to 60 minutes. • Short-term shift in potassium from extracellular to intracellular fluid compartment Combined insulin/dextrose infusion: The most effective agent . In hyperglycaemic patients (serum glucose >15 mmol/L) insulin may be given without additional intravenous glucose. The dose: 10 units of soluble insulin Nebulised salbutamol  Less effective than iv insulin and glucose (not recommended as monotherapy)  Patients prescribed beta blockers may be ‘resistant’ to the hypokalaemic effects of salbutamol. • Removal of potassium from the body Calcium resonium (orally or enema) Loop diuretics Dialysis May 2020 exam: H/O muscle weakness and lethargy. K+ = 6.3 mmol/l. What is the most appropriate initial treatment to lower the serum potassium level? Insulin/dextrose infusion Pseudohyperkalaemia Causes • Haemolysis during venepuncture • Delay in the processing of the blood specimen • Abnormally high numbers of platelets, leukocytes, or erythrocytes (such as myeloproliferative disorders or essential thrombocytosis) • Familial causes Management • Re-check a fresh sample at the hospital • Measuring an arterial blood gas will give a quick and accurate measure of true serum potassium. Hypokalaemia and acid-base balance Definition • Serum potassium (K+) level < 3.5 mEq/L Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Causes Hypokalaemia with alkalosis • Vomiting • Diuretics • Cushing's syndrome • Conn's syndrome (primary hyperaldosteronism) Hypokalaemia with acidosis • Diarrhoea • Renal tubular acidosis • Acetazolamide • Partially treated diabetic ketoacidosis Drug induced hypokalaemia • Intracellular shifts of potassium with normal total body potassium, for example: theophylline β-agonists caffeine insulin Other causes • Loss of potassium stores, for example: chronic diuretic use • Magnesium deficiency may also cause hypokalaemia. In such cases, normalizing the potassium level may be difficult until the magnesium deficiency has been corrected In hyperthermia, as body temperature increases, what is the earliest biochemical abnormality? Hypokalaemia  As body temperature increases, such as occurs in hyperthermia due to heatstroke, the earliest abnormality is hypokalaemia.  This is thought to be due to increased K+ uptake by muscles as catecholamines stimulate the NA-K-ATPase transporter.  As the body temperature rises further, hyperkalaemia can develop with rhabdomyolysis and lactic acidosis.  The acid-base picture is of metabolic acidosis with compensatory respiratory alkalosis. Features • Cardiovascular : cardiac arrhythmias • Neuromuscular: o Muscle cramps and spasms o Muscle weakness K+ acts like H+: Hypokalemia leads to alkalosis and vice versa Hypomagnesemia can lead to refractory hypokalemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad o Decreased deep tendon reflexes • Gastrointestinal: Constipation ECG findings in hypokalemia • Mild to moderate hypokalemia T-wave flattening or inversion ST depression Prolonged PR interval • Moderate to severe hypokalemia QT prolongation Presence of U waves Treatment • If K >2.5 with no symptoms or ECG changes →oral potassium • If K <2.5 with symptoms or ECG changes →IV potassium • In life-threatening cases →1L IV 0.9% NaCL with 40 mmol/l KCl infused over four hours Cardiac monitoring. Potassium should be given in NaCl. Concentration should not exceed 40 mmol/l No more than 10-20 mmol/hour should be given. Daily maintenance requirements (NICE guidelines): • Water →1500-2500 ml/ day (25-30 ml/kg/day) • Potassium, Sodium and Chloride →1 mmol/kg/day Sodium →70 mmol potassium →(40-80 mmol/day) In the absence of kidney disease or hyperkalaemia (around 1 mmol/kg per day) Estimation of total body potassium loss: • a drop in 1 mmol/L K+ of serum potassium in approximately equivalent to a 200 mmol K+ total body loss. In patients with hypokalemia, avoid solutions containing dextrose, which can increase insulin secretion and worsen hypokalemia. Chapter 14 Basicsciences Biochemistry&metabolsm Hypernatraemia Hypernatraemia associated with hypovolaemia occurs due to a free water deficit. Common causes include reduced water intake (e.g. elderly), GI losses (e.g. vomiting and diarrhoea), skin losses (e.g. burns), and renal losses (e.g. osmotic diuresis) Hypernatraemia associated with hypervolaemia can occur due to hypertonic saline, hypertonic sodium bicarbonate, excess salt in diet, or hyperaldosteronism Causes • Insufficient water • free water loss: renal (diabetes insipidus, diuretics, osmotic diuresis as with hyperglycaemia), GI (diarrhoea, vomiting), skin (sweating, burns) • Salt overload e.g. acute salt poisoning (hypertonic saline, hypertonic sodium bicarbonate), hyperaldosteronism Treatment • Treatment is aimed at the underlying cause. • Hypernatraemia should be corrected with great caution. • Although brain tissue can lose sodium and potassium rapidly, lowering of other osmolytes (and importantly water) occurs at a slower rate, predisposing to cerebral oedema, resulting in seizures, coma and death. • acute hypernatraemia can be corrected quickly but if chronic (>24hours) then it should be corrected at <0.5mmol/L/hr. • Fluid resuscitation should involve oral water, 0.45% saline or 5% dextrose IV. Hyponatraemia (serum sodium less than 135 mEq/L) Mechanisms of causes Water excess Sodium depletion. Pseudohyponatraemia: hyperlipidaemia (increase in serum volume) hyperproteinemia (e.g: myeloma) taking blood from a drip arm. Cause of hyponatraemia Urinary sodium > 20 mmol/l Urinary sodium < 20 mmol/l Sodium depletion, renal Patient often euvolaemic loss (patient often hypovolaemic) • diuretics • Addison's • diuretic stage of renal failure • SIADH (urine osmolality > 500 mmol/kg) • hypothyroidism Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sodium depletion, Water excess (patient often hypervolaemic and extra-renal loss (hypovolaemic) oedematous) • secondary hyperaldosteronism: heart failure, cirrhosis • reduced GFR: renal failure • IV dextrose, psychogenic polydipsia • diarrhoea, vomiting, sweating • burns, adenoma of rectum Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Fatigue • Muscle weakness • Gait disturbance • Falls • Disorientation • Cerebral oedema • Seizures Investigations • Urinary sodium and osmolarity levels aid making a diagnosis. urinary sodium  Reduced urinary sodium excretion [less than 30 mmol/l] may indicate total body sodium depletion even if plasma sodium levels are normal.  may be misleading in the presence of renal impairment or diuretic therapy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Management • It is important with hyponatraemia to ascertain volume status as this will determine management. • The management of each is as follows: Hypovolaemic hyponatraemia  Diagnosis may supported by an elevated urea suggesting dehydration.  rehydration with sodium chloride 0.9% or a balanced crystalloid (Hartmann's)  avoid rapid correction of sodium in order to reduce the risk of osmotic complications such as central pontine myelinolysis The rate of correction of hyponatremia should not exceed eight mEq/L per day. Euvolaemic hyponatraemia  check urine and serum osmolality. Does the patient meet the criteria for SIADH?  treat the underlying cause where possible in SIADH  fluid restriction (500-750mls/day)  monitor fluid balance and perform daily weights  consider demeclocycline or tolvaptan (under specialist supervision). Both inhibit the action of antidiuretic hormone. Hypervolaemic hyponatraemia  fluid and salt restriction  consider diuretics  treat the underlying cause (e.g. cardiac failure) Hyponatraemia: correction Acute hyponatraemia • predisposing factors to acute hyponatraemia: Over consumption of fluids, prolonged race duration and inadequate training • Pathophysiology When hyponatraemia develops over a short duration the ability of the brain to adapt is exceeded and cerebral oedema can result which may lead to confusion, seizures and coma. As a result patients may die from brain herniation. • Treatment The correct treatment to give is hypertonic saline. Decompressive craniotomy would help alleviate raised intracranial pressure due to cerebral oedema however is not an appropriate first line treatment. A small, quick increase in the serum sodium is required in order to decrease intracranial pressure. Hypertonic saline (3%) boluses are the most appropriate treatment to improve neurological status in such patients. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Hyponatremia in patients with advanced cirrhosis • Mechanism systemic vasodilation,( The most important factor) which leads to activation of endogenous vasoconstrictors including antidiuretic hormone (ADH); ADH promotes the water retention that is responsible for the fall in serum sodium. • Tolvaptan (Vasopressin receptor antagonists ) should not be used in patients with cirrhosis, because of its known potential for hepatotoxicity. Central pontine demyelinolysis Central pontine myelinolysis (CPM): • Due to rapid correction of hyponatraemia • the classical presentation is spastic quadriparesis, pseudobulbar palsy, and emotional lability (pseudobulbar affect) ( locked in syndrome.) • Definition: damage to the myelin sheath of the white matter in the CNS caused by a sudden rise in serum osmolality (rapid correction of chronic hyponatremia) • Affects the central region of the pons • Pathophysiology: rapid sodium correction →Sudden rises in plasma osmolarity →fluid shift from the cerebral intracellular space to the extravascular space (loss of water from the intracellular compartment) →cerebral shrinking and demyelination →end result is central pontine myelinolysis (CPM). • Features Symptoms first develop several days after the correction of hyponatremia. Central pontine myelinolysis  Altered level of consciousness, including coma  Locked-in syndrome  Impaired cranial nerve function: dysarthria, dysphagia, and diplopia  Worsening quadriparesis • Diagnosis: MRI brain • Treatment: supportive care • Prevention: Avoid hypernatremia Many authorities recommend that increases in serum sodium of <12 mmol/24 hours are likely to be safe for the majority of patients. Certain patients with hypokalaemia, liver disease, poor nutritional state or burns are at higher risk of demyelination and should have a rate of sodium correction of <8 mmol/24 hours. "Saline depletion, for example due to excessive diuretic exposure, is best managed with a balanced electrolyte solution such as Hartmann's." Osmolar gap • Osmolar gap is the difference between the calculated osmolarity and the measured osmolality. • The normal value is 10-15 but may be increased in the presence of unmeasured 'abnormal' osmotically active ions in the plasma. • An elevated osmolar gap provides indirect evidence for the presence of an abnormal solute that may be present in significant amounts. • Ethanol, ethylene glycol (anti-freeze), acetone and methanol are solutes that will cause elevation of the osmolar gap in this way. • Calculated osmolarity = 2 (Na + K) + Glucose + Urea (all in mmol/L). • Normal serum osmolarity is 285-295 mOsm/L. • Osmolality is measured in the laboratory using an osmometer. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Hypomagnesaemia Definition • Low magnesium below 0.7 mmol/L . Overview • Normal plasma magnesium (0.7-0.9 mmol) • The thick ascending limb (TAL) of the loop of Henle is the major site of reabsorption (60-70%) (unlike most ions, those reabsorbed in the proximal convoluted tubule) • In the TAL, magnesium is passively reabsorbed. In the distal convoluted tubule, magnesium is reabsorbed via an active, transcellular TRPM6 channel . Uses for magnesium include: • polymorphic ventricular tachycardia (torsade de pointes), • acute asthma • prevention/treatment of seizures in pre-eclampsia. • Magnesium salts can be given as laxatives Causes of low magnesium • Inadequate intake: Malnutrition, and Alcohol dependence. Hypomagnesemia is the most common electrolyte abnormality observed in alcoholic patients Total parenteral nutrition • Malabsorption: Inflammatory bowel disease Long term PPI therapy Gluten enteropathy Intestinal bypass, and Radiation enteritis. • Renal tubular disease: Hyperaldosteronism Hyperparathyroidism Obstructive uropathy Potassium depletion, and Drugs (including diuretics, amphotericin, cisplatin, ciclosporin, amikacin, gentamicin, laxatives, and tacrolimus). • Intracellular shift: Post myocardial infarction Post parathyroidectomy Recovery from diabetic ketoacidosis (K+ and PO4- also enter cells) Refeeding syndrome (PO4- also enters cells), Acute pancreatitis. • Drugs: cisplatin diuretics cyclosporine cardiac glycosides Colorectal cancer treatment with cetuximab/panitumumab (EGF receptor inhibitors) ↓ TRPM6 hypomagnesemia. Omeprazole hypomagnesaemia hypoparathyroidism hypocalcaemia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Diarrhoea • Metabolic acidosis Chronic metabolic acidosis ↓renal TRPM6 expression in the DCT ↓Mg reabsorption ↓serum Mg. • Hypercalcaemia Hypercalcemia activation of calcium-sensing receptor (CaSR) ↓Mg reabsorption • Hypokalaemia, hypocalcaemia • Genetic diseases Features • General lack of appetite. Lethargy fatigue • neuromuscular hyper-excitability muscle weakness including fasciculations changes in personality paraesthesia tetany seizures • cardiac • arrhythmias • ECG features similar to those of hypokalaemia • The ECG change most typically associated with hypomagnesaemia is QT prolongation. • exacerbates digoxin toxicity • decreased PTH secretion → hypocalcaemia • Hypokalemia ( in 40-60%) Associations with hypomagnesemia • Hypoparathyroidism ↓Mg ↓magnesium-dependent adenyl cyclase generation of cyclic adenosine monophosphate (cAMP) ↓PTH hypoparathyroidism • DM (↓Mg ↓insulin sensitivity and secretion) • Cardiac: CAD, Hypertension (Mg plays a role in BP regulation), cardiac arrhythmia (prolongation of the QT interval , Torsade de pointes) Investigation • blood magnesium levels can guide but do not accurately reflect total body magnesium status. Attempts to find a marker of cellular magnesium status include measuring erythrocyte or monocyte Mg but these are not generally available. • Urine Mg excretion is a useful guide. When there is inadequate intake or malabsorption, the kidneys would normally conserve Mg, giving urine Mg concentrations <7 mmol/24 hours. The reference range is around 2-7 mmol/24 hours. Treatment • <0.4 mmol/l intravenous replacement is commonly given. An example regime would be 40 mmol of magnesium sulphate over 24 hours • 0.4 mmol/l oral magnesium salts (10-20 mmol orally per day) diarrhoea can occur with oral magnesium salts Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Hypermagnesaemia Overview • Hypermagnesaemia is much less common than hypomagnesaemia and is often iatrogenic in cause. Causes of hypermagnesaemia • Iatrogenic: Treatment with magnesium sulphate to prevent/treat seizures in patients with eclampsia or pre-eclampsia Treatment with Mg containing antacids Use of citrate-glucuronic acid solutions to dissolve renal calculi either through bladder irrigation or via a nephrostomy tube Over-zealous IV treatment of hypomagnesaemia Chronic use of Mg-containing enemas. • Other causes: Acute or chronic renal failure  release of Mg from tissues,  Mg in dialysate,  Mg in phosphate binding drugs Familial hypocalciuric hypercalcaemia. Lithium can cause hypermagnesaemia Features • Mild hypermagnesemia often asymptomatic • Nausea, Lethargy • Reduced deep tendon reflexes • Blurry vision • Cardiac: Vasodilatation, Hypotension, Bradycardia • ECG changes: ↑ PR interval, ↑ QRS duration, ↑ QT interval • Blurry vision • Hypocalcemia • Severe hypermagnesemia Muscle paralysis (flaccid quadriplegia) Bradycardia, Cardiac arrest Respiratory failure Treatment • If mild/moderate and iatrogenic, often it is enough to identify and stop the cause. • In an emergency, dialysis or administration of IV calcium glucuronate (10 ml of 10%) will reduce the effects of hypermagnesaemia. 072 - Pages 1776-1800 072 Pages 1776-1800 Hypophosphataemia Definition • serum phosphate level of less than 2.5 mg/dL (0.8 mmol/L). Causes Causes Consequences • alcohol excess • acute liver failure • diabetic ketoacidosis • refeeding syndrome • primary hyperparathyroidism • osteomalacia • Hyperventilation Mechanisms • The three major mechanisms of hypophosphataemia are: Redistribution of extracellular phosphate into cells  hyperventilation respiratory alkalosis activating phosphofructokinase moves phosphate into cells stimulates intracellular glycolysis.  Glycolysis leads to phosphate consumption as phosphorylated glucose precursors are produced.  Any cause of hyperventilation (eg, sepsis, anxiety, pain, heatstroke, alcohol withdrawal, diabetic ketoacidosis [DKA], hepatic encephalopathy, salicylate toxicity, neuroleptic malignant syndrome [NMS]) can precipitate hypophosphatemia. Decreased intestinal absorption,  chronic diarrhea,  malabsorption syndromes,  severe vomiting,  nasogastric (NG) tube suctioning. Depletion due to increased urinary loss.  the most common cause of hypophosphatemia primary and secondary hyperparathyroidism. Osmotic diuresis, such as seen in hyperosmolar hyperglycemic syndrome (HHS)  Fanconi syndrome (proximal tubule dysfunction) X linked hypophosphataemic rickets Oncogenic hypophosphataemic osteomalacia MRCPUK- part-1-Sep 2017: what is the mechanism of Hypophosphataemia during treatment of DKA? Shift from extracellular to intracellular space Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • red blood cell haemolysis • white blood cell and platelet dysfunction • muscle weakness and rhabdomyolysis • central nervous system dysfunction Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm MRCPUK-part-1-Sep 2017: what is the mechanism of Hypophosphataemia in alcoholic patients after hospital admission ? Shift from extracellular to intracellular space  The alcoholic patient often has chronic phosphate depletion, and, after admission to the hospital, is prone to severe hypophosphatemia resulting from redistribution of extracellular phosphate into the cells.  Two factors may contribute to this shift: I.V therapy with dextrose-containing solutions or refeeding ↑Glucose ↑ insulin release ↑ phosphate uptake by the cells alcohol withdrawal hyperventilation acute respiratory alkalosis intracellular alkalosis stimulates intracellular phosphofructokinase ↑ glycolysis movement of phosphate into cells Hyperphosphataemia Overview • The healthy adult usually ingests about 8400 mg per week of phosphate through their diet • Absorption occurs mainly in the jejunum • Renal reabsorption: the majority (70%) of filtered phosphate is reabsorbed by type 2a sodium phosphate cotransporters located on the apical membrane of the renal proximal tubule. • The normal adult range for phosphorus is 2.5-4.5 mg/dL (0.81-1.45 mmol/L). • Renal excretion : About 5400 mg of phosphate is excreted per week through the kidneys. Causes • Usually iatrogenic • ↓calcium + ↑phosphate levels seen in (decreased phosphate excretion) renal failure hypoparathyroidism, and pseudohypoparathyroidism • ↑calcium + ↑phosphate seen in vitamin D intoxication (↓PTH + ↑vitamin D) milk-alkali syndrome (↓PTH + ↓vitamin D) • Disorder that shifts intracellular phosphate to extracellular space Tumor lysis Rhabdomyolysis • Increased phosphate intake (e.g., phosphate-containing enemas) Laxative (Phospho-soda) abuse Foods that are characteristically rich in phosphate include: dairy products, (Cheddar cheese ), fibre rich foods, chocolate, and processed meats. Features • Often asymptomatic • High PO43- levels cause the formation of an insoluble compound with calcium, which can lead to: Hypocalcemia → hypocalcemic symptoms (muscle cramps, tetany, and perioral numbness or tingling). Nephrolithiasis Calcifications in the skin Management • Treat the underlying cause. • Discontinue phosphate intake (dietary or medication). • Give phosphate binders (e.g., aluminium hydroxide, calcium carbonate). • Consider dialysis (especially in severe cases of hyperphosphatemia in patients with renal failure). Collagen Types Types of collagen Tissue distribution Related conditions Type I Bone (produced by osteoblasts), skin, tendons, collagen ligaments, fascia, dentin, cornea, internal organs, scar (90% of tissue (late stages of wound healing) body collagen) Type II Cartilage (including hyaline), vitreous humor of the eye, collagen intervertebral discs (nucleus pulposus) Type III Reticular fibers in skin, blood vessels, granulation tissue, collagen uterus, scar tissue (early stages of wound healing), fetal (reticulin) tissue in early embryos and throughout embryogenesis Type IV Basement membranes, lens Alport syndrome: collagen Type V Bone, skin, fetal tissue, placenta Ehlers-Danlos syndrome collagen Vitamin B3 (Niacin) deficiency Causes • Malnutrition • Heavy drinking (more common in alcoholics) • Conditions associated with tryptophan deficiency Hartnup disease: decreased renal and intestinal tryptophan absorption Carcinoid syndrome (if metabolically active): increased tryptophan metabolism • Vitamin B6 deficiency (e.g., due to treatment with isoniazid): decreased niacin synthesis from tryptophan. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Osteogenesis imperfecta type I: decreased production Achondrogenesis (type II) Ehlers-Danlos syndrome (vascular type): decreased production decreased production Goodpasture syndrome: autoantibodies target type IV collagen (classic type) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm • Chronic consumption of grains that have not been processed by nixtamalization (common cause in developing countries) Features • Atrophic glossitis the tongue is pink or red appears glossy and smooth due to the atrophy of papillae. can be painful. • Pellagra (caused by severe deficiency) Characteristic dermatitis  Circular broad collar rash on the neck (Casal necklace); affects dermatomes C3 and C4  Hyperpigmented skin lesions in sun-exposed areas (especially on the limbs) Diarrhea and vomiting Neurologic symptoms (e.g, dementia, hallucinations, anxiety, insomnia, encephalopathy) itamin C (ascorbic acid) (scurvy) • Vitamin C is a water soluble vitamin. • Dehydroascorbic acid, the oxidative product of ascorbic acid metabolism, passively penetrates cellular membranes and is the preferred form for erythrocytes and leukocytes. Functions • Antioxidant (Ascorbic acid provides electrons needed to reduce molecular oxygen. These anti-oxidant capabilities also stabilize vitamin E and folic acid. ) • It is a cofactor for reduction of folate to dihydro-and-tetrahydrofolate. Therefore macrocytic anaemia in scurvy may occur due to two reasons:  oxidative hemolysis and  folate metabolism defects. • collagen synthesis: acts as a cofactor for enzymes that are required for the hydroxylation proline and lysine in the synthesis of collagen Vitamin C deficiency (scurvy) leads to defective synthesis of collagen resulting in capillary fragility (bleeding tendency) and poor wound healing • facilitates iron absorption • cofactor for norepinephrine synthesis • cofactor for reduction of folate to dihydro-and-tetrahydrofolate. Causes • occurs in people with poor dietary intake, who eat little or no fruit and vegetables, commonly alcoholics and elderly people existing on a ‘tea and toast’ diet. • Pregnancy, lactation and thyrotoxicosis increase ascorbic acid requirements and may precipitated scurvy. Features vitamin C deficiency • gingivitis, loose teeth • poor wound healing Pellagra The classical features are the 3 D's - Dermatitis, Diarrhoea and Dementia. Caused by nicotinic acid (niacin) deficiency. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • bleeding from gums, haematuria, epistaxis • general malaise • anaemia macrocytic anaemia in scurvy may occur due to two reasons: oxidative hemolysis and folate metabolism defects. normochromic, normocytic anaemia reflects bleeding into tissues Continued deficiency leads to: • Anaemia • Myalgia • Bone pain • Bruising • Petechial and perifollicular haemorrhages • Corkscrew hairs • Mood changes • Fragility • scleral icterus (late, probably secondary to haemolysis), and • pale conjunctiva. • Fractures, dislocations and tenderness of bones are common in children. • Bleeding into muscles and joints may be seen Late stages can lead to: • Generalised oedema • Severe jaundice • Haemolysis • Haemorrhage • Neuropathy • Convulsions, and • Death. The classical skin manifestations of scurvy are: • perifollicular hyperkeratotic papules • perifollicular haemorrhages • purpura, and • ecchymoses. Treatment • vitamin C supplementation, • recovery is usually complete within three months. Vitamin B12 deficiency Overview • Vitamin B12 is mainly used in the body for red blood cell development and also maintenance of the nervous system. • It is absorbed after binding to intrinsic factor (secreted from parietal cells in the stomach) and is actively absorbed in the terminal ileum. • A small amount of vitamin B12 is passively absorbed without being bound to intrinsic factor. Approximately 1 percent of a large oral dose of vitamin B12 is absorbed by this second mechanism. This pathway is important in relation to oral replacement. • Once absorbed, vitamin B12 binds to transcobalamin II and is transported throughout the body. • Exhaustion of vitamin B12 stores usually occurs after 12 to 15 years of absolute vitamin B12 deficiency. Causes • Malabsorption ↓ Intrinsic factor (IF)  Atrophic gastritis due to Autoimmune atrophic gastritis: most common cause of vitamin B12 deficiency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm H. pylori infection  Gastrectomy Reduced uptake of IF-vitamin B12 complex in terminal ileum due to:  Alcohol use disorder  Crohn disease, celiac disease  Pancreatic insufficiency  Surgical resection of the ileum  Diphyllobothrium latum (tapeworm) infection  Bacterial overgrowth  Enteritis  Achlorhydria • Malnutrition Strict vegan diets: occurs only after years of a strict diet that excludes all animal products (unlike folate deficiency, which occurs within a few months of insufficient intake) • Increased demand: e.g., during pregnancy, breastfeeding, fish tapeworm (Diphyllobothrium latum) infection • Metformin (Chronic metformin use results in vitamin B12 deficiency in 30% of patients) Features • Macrocytic anaemia • Sore tongue and mouth • Neurological symptoms: Peripheral neuropathy Subacute combined degeneration of spinal cord The neurological symptoms can occur without anemia • Autonomic dysfunction: impotence and incontinence • Psychiatric disorders symptoms: including impaired memory, irritability, depression, dementia and, rarely, psychosis • Cardiovascular effect: Similar to folic acid deficiency, vitamin B12 deficiency produces hyperhomocysteinemia, which is an independent risk factor for atherosclerotic disease. Serum high concentrations of homocysteine and low levels of folic acid and vitamin B12 are significantly correlated with the categories of coronary artery diseases Investigations • Serum cobalamin levels are the initial test  A normal serum cobalamin level does not exclude cobalamin deficiency. • Diagnosis of vitamin B12 deficiency is typically based on measurement of serum vitamin B12 levels; however, about 50 percent of patients with subclinical disease have normal B12 levels. • A more sensitive method of screening for vitamin B12 deficiency is measurement of serum methylmalonic acid and homocysteine levels, which are increased early in vitamin B12deficiency. elevated methylmalonic acid level is more specific for vitamin B12 deficiency than an elevated homocysteine level. Vitamin B12 or folic acid deficiency can cause the homocysteine level to rise, so folic acid levels also should be checked in patients with isolated hyperhomocysteinemia. two enzymatic reactions are known to be dependent on vitamin B12. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad methylmalonic acid is converted to succinyl-CoA using vitamin B12 as a cofactor. Vitamin B12 deficiency, therefore, can lead to increased levels of serum methylmalonic acid. 2. homocysteine is converted to methionine by using vitamin B12 and folic acid as cofactors. In this reaction, a deficiency of vitamin B12 or folic acid may lead to increased homocysteine levels. Management • if no neurological involvement 1 mg of IM hydroxocobalamin 3 times each week for 2 weeks, then once every 3 months oral vitamin B12 has been shown to have an efficacy equal to that of injections in the treatment of pernicious anemia and other B12 deficiency states.  Although the daily requirement of vitamin B12 is approximately 2 mcg, the initial oral replacement dosage consists of a single daily dose of 1,000 to 2,000 mcg. This high dose is required because of the variable absorption of oral vitamin B12 in doses of 500 mcg or less. • if a patient is also deficient in folic acid then it is important to treat the B12 deficiency first to avoid precipitating subacute combined degeneration of the cord Large amounts of folic acid can mask the damaging effects of vitamin B12 deficiency by correcting the megaloblastic anemia caused by vitamin B12 deficiency without correcting the neurological damage that also occurs Sep 2017 part 1: Which structure in the body are able to synthesize vitamin B12? gut bacteria  It is synthesized by gut bacteria in humans, but humans cannot absorb the B12 made in their guts, as it is made in the colon which is too far from the small intestine, where absorption of B12 occurs.  Therefore diet is the only source of vit B12. Vitamin B1 (Thiamine) deficiency Overview • the biologically active form of this vitamin is thiamine pyrophosphate (TPP) • the most important biochemical reactions requiring the availability of thiamine includes glycolysis and tricarboxylic acid (TCA) cycle. • There are three enzymes that require the presence of thiamine pyrophosphate as a cofactor: a-ketoglutarate dehydrogenase branched chain amino acid dehydrogenase pyruvate dehydrogenase Causes • Heavy alcohol drinking • Malnutrition, starvation • Malabsorption • Malignancy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Pathophysiology • Thiamine deficiency → impaired glucose breakdown → ATP depletion → tissue damage that primarily affects highly aerobic tissues (e.g., brain, heart) • High-dose glucose infusions lead to increased ATP depletion, which can trigger Wernicke encephalopathy. In malnourished individuals and chronic alcohol users/heavy drinkers, thiamine should be administered before glucose infusions. Features • Beriberi: inadequate thiamine uptake due to malnutrition, heavy drinking, or increased demand (e.g., hyperthyroidism, pregnancy) Dry beriberi  Symmetrical peripheral neuropathy (sensory and motor)  Progressive muscle wasting  Paralysis  Confusion Wet beriberi  Oedema  High-output cardiac failure (dilated cardiomyopathy) • Wernicke encephalopathy The triad of: Encephalopathy, Ataxia and Oculomotor dysfunction (usually nystagmus) • Korsakoff's psychosis characterised by both anterograde and retrograde amnesia with confabulation What happens if you do not give the thiamine first before starting an intravenous glucose infusion? • ATP failing to be adequately generated • The inability of pyruvate to enter the TCA cycle → accumulate of pyruvate → pyruvate converted to lactate in order to be able to maintain glycolysis →↑acidosis. • Inability of the pentose phosphate pathway to protect the cell from reactive oxygen species that damage cellular structures, results in either cell death or activation of apoptosis. Vitamin function as a co-factors: Biotin for carboxylase reactions. Thiamine for dehydrogenase reactions B9 (folate) for transferases. Vit C for hydroxylases. Vitamin E deficiency Active form: tocopherol Function • Lipid-soluble antioxidant in the glutathione peroxidase pathway removes the free radical intermediates protects cell membranes from oxidation by reacting with lipid radicals produced in the lipid peroxidation chain reaction. Therapeutic uses → Nonalcoholic steatohepatitis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Neurologic dysfunction Demyelination of the posterior column and spinocerebellar tract → ↓ proprioception and vibration sensation; ataxia Neurologic symptoms are similar to vitamin B12 deficiency, except that vitamin E deficiency does not lead to hypersegmented neutrophils, megaloblastic anemia, and increased methylmalonic acid levels. • Hemolytic anemia; increased fragility of erythrocytes and membrane breakdown • Acanthocytosis • Muscle weakness Hypervitaminosis E • interfere with vitamin K metabolism →vitamin K deficiency →increased tendency to bleed. Vitamin K Deficiency Sources of vitamin K • Leafy green vegetables (vitamin K1) • Synthesized in small amounts by intestinal bacteria Functions • Cofactor for γ-carboxylation of glutamate residues on vitamin-K-dependent proteins involved in: Coagulation: maturation of factors II (prothrombin), VII, IX, and X, protein C, protein S Bone formation: osteocalcin (bone Gla protein), matrix Gla protein Causes • Liver failure • Fat malabsorption • Prolonged broad-spectrum antibiotic therapy • Vitamin K antagonists (e.g., warfarin) Features • Hemorrhage (e.g., petechiae, ecchymoses) • Vitamin K deficiency bleeding (VKDB) ↑ PT and aPTT, normal bleeding time Postnatal prophylaxis: vitamin K injection at birth Vitamin A deficiency Over view of vitamin A • Active forms: Retinal and Retinoic acid • Sources Plant sources; yellow and leafy vegetables Animal sources: in storage form; liver Causes • Disorders associated with fat malabsorption: inflammatory bowel disease (e.g., Crohn disease), celiac disease, cystic fibrosis, pancreatic insufficiency Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Features • Ocular manifestations Night blindness (nyctalopia) Xerophthalmia Keratomalacia Bitot spots: gray, triangular, dry patches on the bulbar conjunctiva, covered by a layer with a foamy appearance  Typical sign of vitamin A deficiency  Caused by squamous cell metaplasia and keratinization of the conjunctiva • Keratinizing squamous metaplasia of the bladder (pearl-like plaques on cystoscopy) • Xerosis cutis (dry skin) • Immunosuppression 0BVitamin A toxicity Causes: increased intake via supplements or drugs Acute toxicity: Nausea, vomiting, Vertigo, Blurred vision Chronic toxicity:  Alopecia, Dry skin, scaling  Arthralgias  Hepatosplenomegaly, hepatic toxicity  Pseudotumor cerebri Which substances in vitamin A is most likely to be maximally involved in correcting the visual disturbance? Retinaldehyde  Retinaldehyde is derived from the oxidation of retinol What would you give the patient who taking long term steroids to help his wound heal faster? Vitamin A  Vitamin A is believed to counteract the effect of steroids on slowing wound healing by stimulating TGF-beta and IGF-I, as well as collagen production. However, high levels (which can accumulate because vitamin A is fat soluble) can also be toxic and inhibit collagen synthesis, such as in the skin. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Vitamin deficiency The table below summarises vitamin deficiency states Vitamin Chemical name Deficiency state A Retinoids Night-blindness (nyctalopia). dry skin. B1 Thiamine Beriberi • polyneuropathy, Wernicke-Korsakoff syndrome • heart failure (dilated cardiomyopath) B2 (riboflavin) Angular stomatitis, cheilosis, corneal vascularization B3 Niacin Pellagra • dermatitis • diarrhoea • dementia B6 Pyridoxine Anaemia, irritability, seizures B7 Biotin Dermatitis, seborrhoea B9 Folic acid Megaloblastic anaemia, deficiency during pregnancy - neural tube defects B12 Cyanocobalamin Megaloblastic anaemia, peripheral neuropathy C Ascorbic acid Scurvy • gingivitis • bleeding • poor wound healing D Ergocalciferol, cholecalciferol Rickets, osteomalacia E Tocopherol, tocotrienol ↑ fragility of RBCs. Mild haemolytic anaemia in newborn infants, ataxia, peripheral neuropathy K Naphthoquinone Haemorrhagic disease of the newborn, bleeding diathesis Selenium Selenium Keshan disease (cardiomyopathy). Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 14 Basicsciences Biochemistry&metabolsm Zinc deficiency Features • perioral dermatitis: red, crusted lesions • (rough and dry skin) • acrodermatitis • alopecia • short stature (dwarfism) • hypogonadism • hepatosplenomegaly • geophagia (ingesting clay/soil) • cognitive impairment Treatment • Zn supplementation has been shown to improve neuropsychological function in Chinese children. • Zn deficiency is associated with adverse pregnancy outcomes. Pyruvate kinase • Pyruvate kinase is the rate-limiting step in glycolysis and gluconeogenesis • It catalyses the transfer of a phosphate group from phosphoenolpyruvate to ADP, yielding a molecule of pyruvate and a molecule of ATP • Deficient pyruvate kinase activity may result in the development of hereditary haemolytic anaemias Which biochemical processes is likely to contribute most to energy creation in long distance running? Fatty acid oxidation Third edition Notes & Notes For MRCP part 1 & 11 By Dr. Yousif Abdallah Hamad Basic sciences Immunology Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Human leukocyte antigen (HLA) Overview • The human leukocyte antigen (HLA) is a gene complex that encodes the major histocompatibility complex (MHC) proteins. • MHC proteins play a vital role in initiating immune responses as they present antigen fragments to T cells and bind T-cell receptors. • Found on chromosome 6 • 2 classes: Class I → HLA A , B, C  expressed on all cells, except erythrocytes and trophoblasts  interact with CD8+ class II → HLA DP, DQ, DR  expressed on B cells, dendritic cells, and monocytes  most important in transplant → (DR) MRCP- part-1-2018: Which HLA subtypes is usually implicated with respect to matching for avoiding hyperacute rejection? HLA-C  Anti-HLA-C IgG antibodies are usually implicated in hyperacute rejection; specifically,  HLA-CW5 subtype antibodies have been implicated most in hyperacute rejection of renal transplant. MHC I-associated loci (HLA-A/-B/-C) only have 1 letter after the hyphen, while MHC IIassociated loci (HLA‑ DR/‑ DP/‑ DQ) have 2 letters. HLA associations • The most important HLA associations are listed below: Associated diseases HLA type Hemochromatosis HLA-A3 Behcet's disease HLA B51 is a split of B5 HLA-B5 21-hydroxylase deficiency HLA-B47 Psoriasis HLA-CW6 Diabetes mellitus type 1(but more with HLA-DR4) HLA-DR3 + DR4 combined steroid-responsive nephrotic syndrome HLA-DR7 HLA-DR2 HLA-DR4 HLA-B27 HLA-DR3 Cluster of Differentiation (CD Markers) Function and usage of CDs: • The CD system is commonly used as cell markers in immuno-phenotyping, allowing cells to be defined based on what molecules are present on their surface. • often acting as receptors or ligands (the molecule that activates a receptor) • cell signaling: Errors in cellular information processing are responsible for diseases such as cancer, autoimmunity, and DM • Cell adhesion: essential for the pathogenesis of infectious organisms, eg: HIV has an adhesion molecule termed gp120 that binds to its ligand CD4, which is expressed on lymphocyte. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Narcolepsy Goodpasture's hay fever, systemic lupus erythematosus, multiple sclerosis. Felty's syndrome (90% ) →most common Rheumatoid arthritis (70%) Diabetes mellitus type 1 (> DR3) Drug-induced SLE IgA nephropathy HOCM Ankylosing spondylitis Post-gonococcal arthritis Reiter's syndrome (reactive arthritis) Acute anterior uveitis Autoimmune hepatitis Primary biliary cirrhosis Coeliac disease (95% associated with HLA-DQ2) Diabetes mellitus type 1 Primary Sjögren syndrome Dermatitis herpetiformis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology The table below lists the major clusters of differentiation (CD) molecules Cluster of differentiation Function CD1 MHC molecule that presents lipid molecules CD2 Found on thymocytes, T cells, and some natural killer cells that acts as a ligand for CD58 and CD59 and is involved in signal transduction and cell adhesion CD3 The signalling component of the T cell receptor (TCR) complex CD4 Found on helper T cells. Co-receptor for MHC class II Used by HIV to enter T cells CD5 Found in the majority of mantle cell lymphomas CD8 Found on cytotoxic T cells. Co-receptor for MHC class I Found on a subset of myeloid dendritic cells CD14 Cell surface marker for macrophages CD15 Expressed on Reed-Sternberg cells (along with CD30) CD 21 Epstein-Barr virus uses the CD21 receptor to invade B cells. CD28 Interacts with B7 on antigen presenting cell as costimulation signal CD95 Acts as the FAS receptor, involved in apoptosis Clusters of differentiation • CD4 Found on helper T cells. Co-receptor for MHC class II Used by HIV to enter T cells  GP120 →fuses to CD4 →allow GP41 to penetrate the cell membrane • CD 8 Found on cytotoxic T cells. Co-receptor for MHC class I Found on a subset of myeloid dendritic cells • CD14 →Cell surface marker for macrophages • CD18 →the absence of it causes Leukocyte adhesion deficiency GP41 play a role in the initial step for HIV entry into cells Gp120 fuses to the CD4 receptor, this then allows GP41 to penetrate the cell membrane Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Complement pathways • Activation may occur via three pathways: Classical pathway:  Activated by IgM or IgG complexes binding to the pathogen  C1q, C1r, and C1s activation → C1 complex → split of C4 into C4a and C4b and C2 into C2a and C2b → formation of C3 convertase (C4b2b) from C4b and C2b  C2 is involved in activation via the classical pathway Alternative pathway:  Activated directly by pathogen surface molecules rather than by antigenantibody complexes  C3 is split into C3a and C3b → binding of factor B → formation of C3 convertase (C3bBb).  Generates early innate response that does not require antibody for activation. Lectin pathway:  Activated by mannose or other sugars on pathogen surface  Mannose-binding lectin (MBL) binds to mannose → formation of the C1-like complex, which cleaves C4 into C4a and C4b → C4b binding C2 and splitting of C2 into C2a and C2b → formation of C3 convertase (C4b2b). • All complement pathways have one final common pathway at C3. IgG and IgM activate the classic pathway Chapter 15 Basic sciences Immunology Hypersensitivity The Gell and Coombs classification divides hypersensitivity traditionally divides reactions into 4 types: Type Mechanism Examples Type I - Anaphylactic Antigen reacts with IgE bound to mast cells (IgE-mediated ) Type II - Cell bound IgG or IgM binds to antigen on cell surface (antibodymediated) Type III - Immune complex Free antigen and antibody (IgG, IgA) combine (Immune complex deposition) Type IV - Delayed hypersensitivity T-cell mediated (cell-mediated) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Anaphylaxis • Atopy (e.g. asthma, eczema and hayfever) Diagnosed by plasma tryptase (protease released from mast cell). • Autoimmune haemolytic anaemia • ITP • Goodpasture's syndrome • Pernicious anaemia • Acute haemolytic transfusion reactions • Rheumatic fever • Pemphigus vulgaris / bullous pemphigoid • Serum sickness • Systemic lupus erythematosus • Post-streptococcal glomerulonephritis • Extrinsic allergic alveolitis (especially acute phase) • Tuberculosis / tuberculin skin reaction • Graft versus host disease • Allergic contact dermatitis • Scabies • Extrinsic allergic alveolitis (especially chronic phase) • Multiple sclerosis • Guillain-Barre syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad In recent times a further category has been added: Type Mechanism Examples Type V Antibodies that recognise and bind to the cell surface receptors. This either stimulating them or blocking ligand binding • Graves' disease • Myasthenia gravis What is the hallmark signs of mast cell degranulation? • Classical wheal and flare Anaphylaxis Definition • a severe type 1 hypersensitivity reaction that can cause life-threatening and multisystem effects due to IgE-mediated mast cell activation Pathophysiology • Immunoglobulin E is the most common immunoglobulin involved in the pathogenesis of anaphylaxis. • Anaphylaxis (type I hypersensitivity reaction) or anaphylactoid reactions → degranulation of mast cells → massive histamine release → systemic vasodilation → increased capillary leakage → anaphylactic shock • Mediators involved in the development of anaphylaxis include: Tryptase, histamine, leukotrienes, prostaglandins, IL4, IL13 , Heparin and platelet aggregating factor, which are generated by mast cell degranulation. • Triggers for anaphylactic reactions: heat, cold, sexual activity, exercise Causes Anaphylaxis (IgE mediated): Food (e.g. Nuts) - the most common cause in children Drugs  The most common IgE-mediated triggers are drugs, typically penicillin or other beta-lactam antibiotics.  Neuromuscular blocking agents (eg vecuronium) are responsible for 6070% of allergic reactions related to anaesthesia. Latex Venom (e.g. Wasp sting) Anaphylactoid (non-IgE mediated). The reactions that produce the same clinical picture as anaphylaxis but are not IgE mediated.’ plasma proteins or compounds, which act directly on the mast cell membrane, such as  Vancomycin Chapter 15 Basic sciences Immunology  Quinolone antibiotics  Aspirin or other non-steroidal anti-inflammatory drugs  Opiates  Colloid plasma expanders  Radiographic contrast media Anaphylaxis following a blood transfusion can be due to immunoglobulin A deficiency. Anaphylaxis VS Anaphylactoid Is it anaphylactic OR anaphylactoid reaction? (IgE-mediated anaphylactic Is sensitization required? Yes No Can reaction occur in first exposure? How much exposure is needed very little (dose independent) usually more than for to elicit reaction? Is reaction predicted by skin allergy test? Which feature is the most important predictor of anaphylaxis in asthmatic patient with peanut allergy? Poorly controlled asthma  Poorly controlled asthma is an important risk factor for fatal anaphylaxis in this situation.  Patients such as this should have their asthma well controlled and have ready access to, and knowledge of how to use, self-injectable adrenaline. Features (Usually takes 15-30 minutes from the time of exposure to the antigen) • Skin or mucous membranes: Flushing, erythema, pruritus, Swelling of the eyelids, angioedema • Respiratory: hoarseness, Chest tightness, Dyspnea (due to bronchospasm or laryngeal edema), tachypnea, Stridor, wheezing, Hypoxia, cyanosis • Gastrointestinal: Nausea, vomiting (especially in food allergies), Abdominal pain, diarrhea • Cardiovascular: Hypotension, Tachycardia Investigations • Serum mast-cell tryptase: if elevated, supports the diagnosis of anaphylaxis has a half-life of 2 h, peaking at 1 h after anaphylaxis onset and return to baseline by 6 hours. Both sensitivity and specificity to confirm diagnosis is 95% Normal tryptase results do not exclude anaphylaxis • Complement C4 levels: can be low in hereditary angioedema • Total serum IgE level is non-specific and unhelpful. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Anaphylactic Anaphylactoid (Non IgE-mediated reactions) anaphylactic reactions) No Yes anaphylaxis Yes No Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Management • Airway assessment and management: Rapid sequence intubation (RSI) for airway compromise • Adrenaline the most important drug in anaphylaxis and should be given as soon as possible. The dose for adult and child > 12 years : 500 micrograms (0.5ml 1 in 1,000) The best site for IM injection is the anterolateral aspect of the middle third of the thigh. Adrenaline can be repeated every 5 minutes if necessary. • Hydrocortisone 200 mg • Chlorphenamine 10 mg • IV fluids Evidence from a large randomised controlled trial (RCT) suggests there is no difference between normal saline and Hartmann’s solution [also known as Ringer’s lactate] for resuscitation of critically ill patients. • Observation: It is recommended to observe patients after resolution of an anaphylactic episode for 24 hours for possible second-phase reactivation. Late-phase reaction In IgE mediated reactions such as asthma or anaphylaxis what therapy inhibits the important late-phase reaction? steroids • The late phase reaction is due to attraction of T cell, release of leukotrienes and prostaglandins often characterised by asthma • prevented by the administration of steroids (Hydrocortisone). • Approximately 30% of deaths related to anaphylaxis occur as a consequence of this late-phase reaction Exercised induced anaphylaxis Definition • a rare disorder in which anaphylaxis occurs after physical activity. Features • usually occur around 10 minutes after exercise and follow a sequence of pruritus, widespread urticaria and then subsequently respiratory distress and vascular collapse. Epinephrine injections for anaphylaxis should always be given intramuscularly in a concentration of 1:1,000 (as opposed to the 1:10,000 solution used in cardiac arrest). Injecting the 1:1,000 solution into a vein can lead to cardiac arrhythmia/arrest. Antihistamines and steroids should be administered in anaphylaxis only after the initial resuscitation measures (IM epinephrine, fluids and/or vasopressors) have been given. A lack of response to epinephrine, antihistamines, and steroids should raise suspicion of differential diagnoses such as bradykinin-mediated angioedema, which requires its own specific treatment Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Pathophysiology • may be related to endorphin release during exercise → excessive histamine release from mast cells in susceptible individuals. Associations • Co-factors such as foods, alcohol, temperature, drugs (eg, aspirin and other nonsteroidal anti-inflammatory drugs), humidity, seasonal changes, and hormonal changes are important in the precipitation of attacks. • most associated with wheat ingestion. • The foods most commonly implicated in food-dependent exercise-induced anaphylaxis are wheat, shellfish, tomatoes, peanuts, and corn. • The patients can usually eat the causative food without problems so long as they do not exercise afterwards. Treatment • managed in the same manner as anaphylaxis. • usually resolves on stopping exercise • Reducing physical activity to a lower level may diminish the frequency of attacks. • Patients should be instructed on the proper use of emergency injectable epinephrine and have one available at all times. • Patients should wear a medical alert bracelet with instructions on the use of epinephrine. Anaphylactic reactions associated with anaesthesia Risk factors • Neuromuscular blocking drugs and latex appear to cause anaphylaxis more commonly in female patients • Individuals with a history of atopy, asthma or allergy to some foods appear to be at increased risk of latex allergy but not anaphylaxis to neuromuscular blocking drugs or antibiotics • Patients with asthma or taking b-blocking drugs may suffer a more severe reaction. Causes • Neuromuscular blocking agents (NMBAs) Most common cause 60% of cases of anaesthesia-related anaphylaxis are due to neuromuscular blocking agents. 80% of NMBA reactions occur without prior exposure Quaternary ammonium ions (QAI) are proposed to be the allergenic epitopes in NMBAs. Common environmental chemicals such as toothpastes, washing detergents, shampoos, and cough medicines share these allergenic epitopes with the NMBAs, predisposed individual to become sensitised to QAIs and thus be at risk of developing anaphylaxis to NMBAs during anaesthesia. succinylcholine is the NMBA most likely to be associated with allergic anaphylaxis (carries the highest risk) • Latex Latex hypersensitivity is the second most common cause of anaesthesia related anaphylaxis in many studies (up to 20% of cases). But now decreased due to decline in the use of latex gloves. • Antibiotics Approximately 15% of anaesthesia-related anaphylactic episodes are due to antibiotics.  Skin testing is only approximately 60% predictive of clinical hypersensitivity. Penicillins and Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  cephalosporins which share the b-lactam ring are responsible for approximately 70% of antibiotic-induced anaphylaxis.  There is a higher rate of antibiotic allergy in smokers • Anaesthetic induction agents Anaphylaxis to propofol is very uncommon Anaphylaxis to thiopental has become extremely uncommon, probably reflecting the decline in its use. • Antiseptics and disinfectants Reactions to chlorhexidine have come into greater prominence in recent years. Anaphylaxis has occurred when chlorhexidine was used as an antiseptic for urological and gynaecological procedures as well as insertion of central venous and epidural catheters. Allowing chlorhexidine to dry before beginning a procedure may reduce the risk of reaction. Anaphylaxis to other antiseptics is rare. Diagnosis • Timings Type I reactions typically occur within seconds to minutes after i.v. exposure. An insidious or delayed onset may occur (e.g. with latex, antibiotics, and colloids and a tourniquet may delay onset until after surgery). • History of atopy and asthma has a clear link with latex allergy. Allergy tests Skin prick test • Most commonly used test as an easy to perform and inexpensive. • the first line for detection of allergen-specific IgE • Drops of diluted allergen are placed on the skin after which the skin is pierced using a needle. • A large number of allergens can be tested in one session. • Normally includes a histamine (positive) and sterile water (negative) control. • A wheal will typically develop if a patient has an allergy. • Can be interpreted after 15 minutes • Useful for food allergies and also pollen. It is a reliable way of excluding IgE-mediated food allergies, although the positive predictive value is around 50% or less (the sensitivity of a negative skin prick test to foods is high) • It can induce anaphylaxis, and must therefore be done in an environment where resuscitation facilities are available. Radioallergosorbent test (RAST) • Determines the amount of IgE that reacts specifically with suspected or known allergens, for example IgE to egg protein. • Results are given in grades from 0 (negative) to 6 (strongly positive) • Useful for food allergies, inhaled allergens (e.g. Pollen) and wasp/bee venom • Blood tests may be used when skin prick tests are not suitable, for example if there is extensive eczema or if the patient is taking antihistamines Skin patch testing • Useful for contact dermatitis. • Around 30-40 allergens are placed on the back. • Irritants may also be tested for. • The patches are removed 48 hours later with the results being read by a dermatologist after a further 48 hours Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology If a history of anaphylaxis is given it would not be appropriate to perform a skin prick test, thus Radioallergosorbent test (RAST) is the most appropriate first-line test to investigate the cause of the reaction Reasons for a false negative RAST test • Immediately following anaphylaxis / allergic reaction (transient drop in IgE) • Waning of allergen-specific IgE with time following a reaction. • Unstable allergens in the RAST substrates (especially food allergens) Only IgE-mediated allergic reactions can be tested by skin prick testing The wheal size resulting from the skin prick test is an excellent predictor of a positive food challenge to peanuts Latex allergy Definition • A type I or type IV hypersensitivity to latex-based products (e.g., exam gloves, condoms) Epidemiology • 8–12% of health care workers are affected • NHS trusts in the UK have moved away from the routine use of latex gloves precisely because of the risk of allergy. As a result, latex allergy in hospital is now very rare in the UK. • Latex allergy is more common in children with myelomeningocele spina bifida. Pathophysiology • Sensitivity to latex may cause several problems: type I hypersensitivity (anaphylaxis)  it is very unlikely that a latex allergy would explain an anaphylaxis during anaesthetic induction (latex allergies typically used to commence when a surgeon began handling internal organs). type IV hypersensitivity (allergic contact dermatitis)  Type 4 hypersensitivity is usually due to accelerators or chemicals used in the manufacturing process, whereas type 1 hypersensitivity is due to the latex proteins themselves irritant contact dermatitis Latex-fruit syndrome • It is recognised that many people who are allergic to latex are also allergic to fruits, particularly banana, pineapple, avocado, chestnut, kiwi fruit, mango, passion fruit and strawberry. However, bananas are the most commonly associated with latex/rubber allergy MRCPUK part-1-May 2016 exam: A nurse who is known to have an allergy to latex develops a widespread urticarial rash and facial oedema shortly after eating lunch. Which food is she most likely to have consumed? Banana Latex allergy can be associated with certain foods such as bananas, avocado, kiwi and melon. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Serum Sickness Definition • Serum sickness is a classic example of a type III hypersensitivity reaction, which usually develops as a complication of antitoxin or antivenom administration. Aetiology • Antivenom or antitoxin containing animal proteins • Medications most frequently antibiotics (e.g., penicillin, amoxicillin, cefaclor, trimethoprimsulfamethoxazole) • Infections: Hepatitis B virus Pathophysiology • exposure to an antigen (e.g., antivenom, drug) → formation of antibodies → deposition of antibody-antigen complexes in tissue → activation of the complement cascade → tissue damage and systemic inflammation Features • Symptoms appear 1–2 weeks following initial exposure (because antibodies take several days to form), and usually resolve within a few weeks after discontinuation of the offending agent. • Fever • Rash (urticarial or purpuric) • Arthralgias • Lymphadenopathy Subtypes and variants: serum sickness-like reaction • much more common than actual serum sickness • Aetiology: similar to that of serum sickness • Infections (e.g., hepatitis B, rabies) • Medications that can act as haptens (e.g., allopurinol, cephalosporins, penicillin). Diagnostics: Urinalysis may show mild proteinuria. Treatment: Stop the offending agent. 073 - Chapter 15 073 Chapter 15 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Immune system response Innate VS Adaptive immune response Innate (non-specific system) Adaptive (acquired system) Components Anatomical and physiological barriers Inflammatory response with leakage of antibacterial serum proteins (acute-phase proteins) and phagocytic cells Phagocytosis by neutrophils and macrophages Complement system Components Cell-mediated response effected by T cells Humeral immune response effected by B cells Properties Rapid: responds within minutes to infection No antigenic specificity, i.e. the same molecules and cells respond to range of pathogens No memory, i.e. the response does not change after repeated exposure Preformed or rapidly formed components Properties Slow: response over days to weeks Antigenic specificity i.e. each cell is a programmed genetically to respond to a single antigen Immunological memory, i.e. on repeated the response is faster, stronger and qualitatively different Diversity: ability to recognize and respond to a vast number of different antigens Self/non-self-recognition: i.e. lack of response (tolerance) to self-antigens but response to foreign antigens Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Overview of blood cell types involved in the innate immune response Cell type Functions and properties Neutrophil Primary phagocytic cell in acute inflammation Granules contain myeloperoxidase and lysozyme Most common type of white blood cell Multi-lobed nucleus Basophil Releases histamine during allergic response Granules contain histamine and heparin Expresses IgE receptors on the cell surface Bi-lobed nucleus Mast cell Present in tissues and are similar in function to basophils but derived from different cell lines Granules contain histamine and heparin Expresses IgE receptors on the cell surface Eosinophil Defends against protozoan and helminthic infections Bi-lobed nucleus Monocyte Differentiates into macrophages Kidney shaped nucleus Macrophage Involved in phagocytosis of cellular debris and pathogens Acts as an antigen presenting cell Major source of IL-1 Natural killer cell Induce apoptosis in virally infected and tumour cells Dendritic cell Acts as an antigen presenting cell, but have no cytotoxic potential. Macrophages Overview • Macrophages are a type of antigen-presenting cell, defined as a lymphocyte that is able to phagocytose debris, toxins, cells or pathogens. • Origin: Monocytes migrate to tissue and differentiate into macrophages. • Activated by γ-interferon. • Has a long life in tissues, which differentiates it from a circulating blood monocyte • Important cellular component of granulomas (eg, TB, sarcoidosis), where they may fuse to form giant cells. Tissue-specific subtypes • Osteoclasts (bone) • Kupffer cells (liver) • Microglia (brain and spinal cord) • Histiocytes (connective tissue) A patient undergoes liver biopsy, which shows ↑ phagocytes with kidney-shaped nuclei. What are these cells called? Kupffer cells (the names of macrophages can differ in each tissue) What signaling molecule activates macrophages? γ-interferon Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Important macrophage forms in various Diseases • Lipid laden macrophage (Foam cells) = Hyperlipidemia & Atherosclerotic plaques. • Hemosiderin laden macrophage(Heart failure cells) = CHF. • Macrophages containing debris from ingested Lymphocytes ( Tingible body macrophage) = Benign reactive lymphadenitis. • Macrophages containing PAS +ve, gram +ve rod shaped bacilli within Lamina propria in small intestine = Whipple Disease. • Iron trapped in Macrophages in Bone marrow = Anemia of chronic disease. • Macrophages containing Carbon pigment along pleural lymphatics = Anthracosis. • Tissue paper like macrophage = Gaucher disease. Pathogenesis of atherosclerosis Chronic stress on the endothelium Endothelial dysfunction, which leads to Invasion of inflammatory cells (mainly monocytes and lymphocytes) through the disrupted endothelial barrier Adhesion of platelets to the damaged vessel wall → platelets release inflammatory mediators (e.g., cytokines) and platelet-derived growth factor (PDGF) PDGF stimulates migration and proliferation of smooth muscle cells (SMC) in the tunica intima and mediates differentiation of fibroblasts into myofibroblasts Inflammation of the vessel wall Macrophages and SMCs ingest cholesterol from oxidized LDL and transform into foam cells. Foam cells accumulate to form fatty streaks (early atherosclerotic lesions). Lipid-laden macrophages and SMCs produce extracellular matrix (e.g., collagen) → development of a fibrous plaque (atheroma) Inflammatory cells in the atheroma (e.g., macrophages) secrete matrix metalloproteinases → weakening of the fibrous cap of the plaque due to the breakdown of extracellular matrix → minor stress ruptures the fibrous cap Calcification of the intima (the amount and pattern of calcification affect the risk of complications) Plaque rupture → exposure of thrombogenic material (e.g., collagen) → thrombus formation with vascular occlusion or spreading of thrombogenic material Foam cells • Foam cells are a feature of atherosclerotic plaques and are essentially lipid-laden macrophages. • They may also be seen as a reaction to: silicone leakage around breast implants, and inhaled organic antigens. MRCPUK exam- Jan-2018: You are examining tissue biopsied from around a leaking silicone breast implant. It is rich in foam cells. What is the cell lineage of foam cells? • Macrophage The lipid A component of bacterial lipopolysaccharide (LPS) binds to CD14 on macrophages, which can trigger septic shock Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Fibroblasts • The most common cell type in connective tissue • Origin: derived from mesenchymal stem cells • Found in the interstitial spaces of organs. • Histological features: spindle-shaped cells arranged in a branching pattern • Function: synthesis and organization of the extracellular matrix (ECM) and collagen plays a critical role in wound healing play a critical role in an immune response to a tissue injury. They are early players in initiating inflammation in the presence of invading microorganisms. Tissue damage stimulates fibrocytes and induces the mitosis of fibroblasts. Responsible for forming the cap over an atherosclerotic plaque. • Pathologic fibrosis is characterized by uncontrolled fibroblast activation that results in exaggerated and persistent ECM accumulation and remodeling. Immunoglobulins The table below summarises the characteristics of the 5 types of immunoglobulin found in the body: Type Frequency Shape Notes IgG 75% Monomer • comprises the majority of circulating antibody in serum • the major antibody produced in the secondary immune response. • Enhance phaGocytosis of bacteria and viruses • half-life: 7-23 days • Fixes classical complement • can bind to NK cells for antibody-dependent cytotoxicity (ADCC). • the only antibody that can cross the placenta and enter the fetal circulation • Most abundant isotype in blood serum • Gamma is the type of heavy chain found in IgG. IgA 15% Monomer/ dimer • Found in secretions such as saliva, tears and mucous • made primarily in the mucosal-associated lymphoid tissues (MALT). • Provides localized protection on mucous membranes • The Fc portion of secretory IgA binds to components of mucous and contributes to the ability of mucous to trap microbes. • Most commonly produced immunoglobulin in the body (but blood serum concentrations lower than IgG) • half-life ≈ 5 days • Transported across the interior of the cell via transcytosis • can activate the alternative complement pathway. (IgA ≈ Alternate) • Low levels of IgA are associated with an increased incidence of Coeliac Disease. • Alpha is the type of heavy chain found in IgA. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Type Frequency Shape Notes IgM 10% Pentamer • First immunoglobulins to be secreted in response to an infection (primary response) • Fixes classical complement pathway (most efficient) • Anti-A, B blood antibodies (note how they cannot pass to the fetal circulation, which could of course result in haemolysis) • Monomeric forms of IgM are found on the surface of Blymphocytes as B-cell receptors or sIg. • half-life: about 5 days • Mu is the type of heavy chain found in IgM. IgD 1% Monomer • Involved in activation of B cells (as a surface receptor on B cells) • may play a role in eliminating B-lymphocytes generating selfreactive autoantibodies. • Delta is the type of heavy chain found in IgD. • Hyper-lgD is associated with periodic fever (attacks of fever every 4-8 weeks, with each attack lasting 3-7 days) IgE 0.1% Monomer • produced by plasma cells • Mediates type 1 hypersensitivity reactions • Binds to Fc receptors found on the surface of mast cells and basophils • Provides immunity to parasites such as helminths • Least abundant isotype in blood serum • half-life of 2 days • IgE may protect external mucosal surfaces by promoting inflammation, enabling IgG, complement proteins, and leucocytes to enter the tissues. • Cross linking of cell-bound IgE by antigen triggers the release of vasodilators for an inflammatory response. • The Fc portion of IgE made against parasitic worms and arthropods can bind to eosinophils enabling opsonization. This is a major defense against parasitic worms and arthropods. • Epsilon is the type of heavy chain found in IgE. • Raised IgE levels are a normal finding in 2.5% Blood transfusion • Rhesus antibodies are IgG , whereas ABO antibodies are IgM Commonly recognized immunoglobulin changes in liver disease (usually accompanied by a decrease in albumin) are: • lgG ↑in: chronic active hepatitis, cryptogenic cirrhosis • lgM ↑in: 1° biliary cirrhosis, alcoholic cirrhosis • lgA ↑in: alcoholic cirrhosis. Each day an average adult produces approximately 3gm of antibodies, about two-thirds of this IgA Acute organ rejection is due to anti-IgG antibodies to the human leukocyte antigen (HLA) incompatible tissues with primary activation of T cells. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Immunoglobulins (antibodies) have two functional parts: the Fc region and the Fab region • Fc region Contains the constant region Formed by heavy (H) chains Recognizes and binds complement (IgG, IgM) • Fab region Contains the variable region Formed by light (L) chains and heavy (H) chains Recognizes and binds to antigens Immunoglobulins and complement fixation • IgA can fix complement via the alternative pathway • IgG and IgM can fix complement via the classical pathway through the Fc portion of the immunoglobulin Protein analysis: Gamma globulins • Hypergammaglobulinaemia Causes of polyclonal hypergammaglobulinaemia  Artefactual, e.g. prolonged venous stasis before venepuncture  Haemoconcentration secondary to dehydration  Chronic infection, e.g. TB, infective endocarditis, leishmaniasis  Autoimmune disease, e.g. SLE, rheumatoid arthritis  Ulcerative colitis and Crohn's disease  Sarcoidosis  Hepatic disease. Causes of monoclonal hypergammaglobulinaemia  Multiple myeloma, Waldenstrom's macroglobulinaemia and heavy chain disease  Leukaemia, lymphoma or carcinoma  Bence Jones proteinuria  'Benign' paraproteinaemia  Amyloidosis. • Agammaglobulinemia (e.g., Bruton agammaglobulinemia) • Hypogammaglobulinemia (low IgG) Nephrotic syndrome Drug-induced reactions Acquired humoral and congenital immunodeficiencies Immunoglobulins: therapeutics Basics • formed from large pool of donors (e.g. 5,000) • IgG molecules with a subclass distribution similar to that of normal blood • half-life of 3 weeks Uses • primary and secondary immunodeficiency • idiopathic thrombocytopenic purpura Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology • myasthenia gravis • Guillain-Barre syndrome • Kawasaki disease • toxic epidermal necrolysis • pneumonitis induced by CMV following transplantation • low serum IgG levels following haematopoietic stem cell transplant for malignancy • dermatomyositis • chronic inflammatory demyelinating polyradiculopathy Leukotrienes Overview • mediators of inflammation and allergic reactions • secreted by leukocytes • formed from arachidonic acid by action of lipoxygenase • it is thought that the NSAID induced bronchospasm in asthmatics is secondary to the express production of leukotrienes due to the inhibition of prostaglandin synthetase Function • cause bronchoconstriction, • mucous production (an important consideration in the pathophysiology of bronchial asthma) • increase vascular permeability, attract leukocytes • leukotriene D4 has been identified as the SRS-A (slow reacting substance of anaphylaxis) which causes bronchial wall and intestinal smooth muscle contraction Acute phase proteins Acute phase proteins • CRP • procalcitonin • ferritin • fibrinogen • alpha-1 antitrypsin • caeruloplasmin • serum amyloid A, serum amyloid P • haptoglobin • complement Negative acute phase proteins • During the acute phase response, the liver decreases the production of other proteins (sometimes referred to as negative acute phase proteins). Examples include: albumin transthyretin (formerly known as prealbumin) transferrin retinol binding protein cortisol binding protein Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad ANCA • There are two main types of anti-neutrophil cytoplasmic antibodies (ANCA): cytoplasmic (cANCA) and perinuclear (pANCA) • For the exam, remember: cANCA - Wegener's granulomatosis pANCA - Churg-Strauss syndrome + others (see below) cANCA • most common target serine proteinase 3 (PR3) • some correlation between cANCA levels and disease activity • Wegener's granulomatosis, positive in > 90% In Wegener's, the level of PR3 antibody and ANCA titre are related to disease activity and the antibodies typically disappear when the disease is in remission. • microscopic polyangiitis, positive in 40% pANCA • most common target is myeloperoxidase (MPO) • cannot use level of pANCA to monitor disease activity • associated with immune crescentic glomerulonephritis (positive in c. 80% of patients) • microscopic polyangiitis, positive in 50-75% • Churg-Strauss syndrome, positive in 60% • primary sclerosing cholangitis, positive in 60-80% • Wegener's granulomatosis, positive in 25% • Other causes of positive ANCA (usually pANCA) inflammatory bowel disease (UC > Crohn's) connective tissue disorders: RA, SLE, Sjogren's autoimmune hepatitis MRCP-part-1-Jan-2018 exam: Which one of the following statements is true regarding cytoplasmic anti-neutrophil cytoplasmic antibodies (cANCA)? • Associated with Wegener's granulomatosis Rheumatoid factor (see rheumatology) Antibodies and immunological markers Marker Associated condition Antinuclear antibodies (ANA) • Younger women often have low (ANAs) • increase with age • ANA positivity with antiphospholipid antibody syndrome (APL) suggests secondary APL, ie in association with a connective tissue disease. • The common tests used for detecting and screening ANAs are indirect immunofluorescence and enzyme-linked Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Marker Associated condition immunosorbent assay (ELISA). • Although positive titres of 1:160 or higher are strongly associated with autoimmune disorders, they are also found in 5% of healthy individuals • Positive titres of less than 1:160 are present in up to 20% of the healthy population, especially the elderly. Anti-Ro (SS-A) and anti-La (SS-B) Anti-Ro Sjögren's syndrome (50–70%) SLE with cutaneous involvement (30%) anti-Ro can cross the placenta and cause neonatal lupus in babies. Anti-Smith (Anti-Sm) very specific marker for SLE (99%) sensitivity (20%) not associated with disease activity. Anti-nuclear ribonucleoprotein (anti-nRNP) also known as anti-U1RNP highly associated with mixed connective tissue disease. SLE (30 – 40%) Anti-double stranded DNA (anti-dsDNA) very specific marker for SLE, (nearly 100%). sensitivity (85%). Correlate with disease activity in SLE. also linked with lupus nephritis. Anti-histone drug induced lupus (75–95%) idiopathic SLE (75%) Unlike anti-dsDNA, these antibodies do not fix complement. anti-glycoprotein210 (anti-gp210) and anti-nucleoporin 62 (anti-p62) primary biliary cirrhosis (PBC) (25–30%). Anti-centromere limited cutaneous systemic sclerosis, also known as CREST syndrome, primary biliary cirrhosis Thyroid autoantibodies (microsomal and thyroglobulin) Hashimoto's thyroiditis (70-90% microsomal: 75-95% thyroglobulin) Pernicious anaemia (55% microsomal) Anti-Scl-70 diffuse cutaneous scleroderma (40%), limited cutaneous involvement (10%). SLE (5%) The antigenic target of anti-Scl-70 antibodies is topoisomerase I Antireticulin Coeliac disease (37%) Crohn's disease (24%) Gastric parietal cell antibody Pernicious anaemia (>90%) Atrophic gastritis( 60%) Autoimmune thyroid disease (33%) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Marker Associated condition Anti-mitochondrial antibody Primary biliary cirrhosis (60-94%) Anti-smooth muscle antibody Chronic active hepatitis (40-90%) Primary biliary cirrhosis (30-70%) Idiopathic cirrhosis (25-30%) Viral infections (80%) Anti-sp100 primary biliary cirrhosis (PBC) (20–30%). very specific marker of the disease. Anti-PM-Scl polymyositis/systemic sclerosis (PM/SSc) overlap syndrome (50%). Anti-Hu small-cell lung cancer, neuroblastoma and prostatic cancer Intrinsic factor antibodies pernicious anaemia, and hence (subacute combined degeneration of the spinal cord) secondary to vitamin B12 deficiency Anti-Ri neuroblastoma (children) and fallopian or breast cancer (adults), resulting in paraneoplastic opsoclonus myoclonus ataxia (POMA). Anti-Yo gynaecological tumours and breast cancer, Anti-Tr Hodgkin's disease, resulting in cerebellar degeneration. Anti-Ta (Ma2) testicular tumours, and can lead to limbic or brain stem encephalomyelitis. Anti-endomysial / gliadin / transglutaminase coeliac disease, and related vitamin B-1 deficiency may lead to Wernicke's encephalopathy and Korsakoff's psychosis Tissue transglutaminase antibody ('tTGA') & Endomysial antibody ('EMA') The most accurate blood tests for coeliac disease double-stranded DNA (ds-DNA) AntidsDNA highly specific for SLE. Antibodies that bind single-stranded denatured DNA (ssDNA) present in 90% of patients with SLE, but also in drug-induced lupus and other connective tissue disorders. Anti-Jo Polymyositis Rheumatoid factor Rheumatoid arthritis, Sjogren’s (90%), SLE (30%) 5% of normal population The only two auto-antibodies which have a role in monitoring disease activity (there is correlation between levels and disease activity) Anti-ds DNA antibodies in systemic lupus erythematosus (SLE) Circulating anti-neutrophil cytoplasmic antibody (cANCA) in Wegener's granulomatosis. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Interleukins Definition • Interleukin are a group of signaling proteins expressed by leukocytes that regulate immune response as well as cellular proliferation and differentiation. Production • The majority of interleukins are synthesized by helper CD4 T lymphocytes, as well as through monocytes, macrophages, and endothelial cells. Function • The function of the immune system depends in a large part on interleukins, • They promote the development and differentiation of T and B lymphocytes, and hematopoietic cells. Overview of interleukins Cytokine Main sources Functions IL-1 Macrophages Acute inflammation Induces fever IL-2 Th1 cells Stimulates growth and differentiation of T cell response IL-3 Activated T helper cells Stimulates differentiation and proliferation of myeloid progenitor cells IL-4 Th2 cells Stimulates proliferation and differentiation of B cells (Stimulates switching to IgE and IgG.) IL-5 Th2 cells Stimulates proliferation and differentiation of B cells (Stimulates switching to IgA.) Stimulate production of eosinophils IL-6 Macrophages, Th2 cells Stimulates differentiation of B cells Induces fever stimulates production of acute phase proteins. IL-8 Macrophages Neutrophil chemotaxis IL-10 Th2 cells Inhibits Th1 cytokine production Also known as human cytokine synthesis inhibitory factor and is an 'anti-inflammatory' cytokine IL-12 Dendritic cells, macrophages, B cells Activates NK cells. stimulates differentiation of naive T cells into Th1 cells Other cytokines Cytokine Main sources Functions Tumour necrosis factor-α Macrophages Induces fever Neutrophil chemotaxis Interferon-γ Th1 cells Activates macrophages Both cytokine overexpression and underexpression can be pathogenic: Production of IL-1, IL-6 and TNF due to endotoxin stimulation of macrophages following Gram-negative infection → Septic shock Chagas' disease (Trypanosoma cruzi infection) → reduced expression of IL-2 receptor → marked immune suppression. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Mnemonic Hot T-Bone stEAk IL-1: fever (Hot) IL-2: stimulates T lymphocytes IL-3: stimulates Bone marrow IL-4: stimulates IgE IL-5: stimulates IgA Interleukin 1 (IL-1) • Produced by macrophages and monocytes • Action Endogenous pyrogen (one of the mediators of shock in sepsis): promotes  Fever (Along with IL-6 and TNF, it acts on the hypothalamus causing pyrexia)  Vasodilation → edema  Adhesion and diapedesis of inflammatory cells via cytokines, e.g. WBCs Co-stimulator of T cell and B cell proliferation. (Stimulation of acute phase response) Hematopoietic growth factor  Stimulates proliferation of granulocytes in the bone marrow and lymphocytes in the spleen  Inhibits hematopoiesis Induces expression of adhesion molecules in the endothelium Promotes differentiation of Th17 cells involved in autoimmunity Also known as osteoclast-activating factor: Dysregulation of IL‑ 1 in cartilage leads to damage and osteoarthritis. Play a role in the formation of the atherosclerotic plaque  The uptake of oxidized low-density lipoproteins (LDL) by vascular endothelial cells results in →IL-1 expression →stimulates the production of plateletderived growth factor. Interleukin-2 (IL-2) • Produced by Th1 cells (mainly CD4+ cells) • Functions Stimulates proliferation and differentiation of T cells (helper, cytotoxic, regulatory T cells, and natural killer cells) Activates macrophages IL-2 is part of the body's natural response to microbial infection, and in discriminating between foreign ("non-self") and "self". there is some evidence that IL-2 may be involved in itchy psoriasis • Therapeutic use High-dose interleukin-2 can produce a high rate of response and durable remissions in patients with metastatic renal cancer. IL-2 analog (aldesleukin): metastatic melanoma and renal cell carcinoma IL-2 antagonists (e.g., basiliximab): prevention of renal transplant rejection Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Interferon Overview • Interferons (IFN) are cytokines released by the body in response to viral infections and neoplasia. • Are a part of the innate immune system • Have antiviral, antimicrobial, and antiproliferative properties • Used in the treatment of chronic infections (hepatitis B and C, chronic granulomatous diseases), immune-mediated diseases (multiple sclerosis), and even tumors (leukemia, Kaposi sarcoma) • They are classified according to cellular origin and the type of receptor they bind to. • IFN-alpha and IFN-beta bind to type 1 receptors whilst IFN-gamma binds only to type 2 receptors. Types • IFN-alpha Produced by leucocytes Function: Antiviral action (Inhibits viral protein synthesis by activating ribonuclease L) Therapeutic use: Hepatitis B & C, Kaposi's sarcoma, metastatic renal cell cancer, hairy cell leukaemia • IFN-beta Produced by fibroblasts Function: Antiviral action Therapeutic use: Multiple sclerosis → Reduces the frequency of exacerbations in patients with relapsing-remitting MS • IFN-gamma (γ) The only member of the type II class of interferons Produced by Th1 cell Function  Activates macrophages to increase phagocytosis  Activates the expression of Class II major histocompatibility complex (MHC) molecules  Weaker antiviral action Therapeutic use  Chronic granulomatous diseases (e.g., leprosy, leishmaniasis, toxoplasmosis) Side effects of interferon • Flu-like symptoms (fever, chills) • Depression • Myopathy • Neutropenia • Interferon-induced autoimmunity Interferon-γ is responsible for activating macrophages To remember the use of interferon-γ, think “Interferon gamma for granulomatous diseases!” Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad What is the MOA of Toxic Shock Syndrome Toxin (TSST-1) from Staphylococcus aureus? • Bringing of MHC II and T-cell receptors in proximity to outside of the antigen binding site, thereby causing overwhelming release of IFN-gamma and IL-2 The relation between IL-12 and IFN-gamma: How do IFN-gamma levels change in IL-12 Receptor Deficiency? Decrease  IL-12 →Th1 cell activation →release IFN-gamma →activates macrophages.  No IL-12 action = no IFN-gamma release from Th1 cells Tumour necrosis factor (TNF) Overview • Tumour necrosis factor (TNF) is a pro-inflammatory cytokine with multiple roles in the immune system • TNF is secreted mainly by macrophages • Act mainly in a paracrine fashion Function • Activates macrophages and neutrophils, acts as co-stimulator for T cell activation • Increased acute phase proteins • Similar properties to IL-1 , induced pyrexia • TNF is important in the pathogenesis of rheumatoid arthritis. TNF blockers (e.g. infliximab, etanercept) are now licensed for treatment of severe rheumatoid • A key cytokine in the pathogenesis of multi-organ failure , a Key mediator of bodies response to Gram negative septicaemia. High concentrations of TNF induce shock-like symptoms • Exerts an interferon-like effect against viruses • Enhanced HLA class I expression • Anti-tumour effect (e.g. phospholipase activation) • TNF-alpha binds to both the p55 and p75 receptor. These receptors can induce apoptosis. It also cause activation of NFkB • Endothelial effects include increase expression of selectins and increased production of platelet activating factor, IL-1 and prostaglandins • Promotes the proliferation of fibroblasts and their production of protease and collagenase. • the prolonged exposure to low concentrations of TNF can result in cachexia, a wasting syndrome. This can be found, for example, in cancer patients. • Raised levels lead to increased insulin resistance TNF blockers • Used to treat IBD, rheumatoid arthritis, ankylosing spondylitis and psoriasis. • Examples Infliximab: monoclonal antibody, IV administration Etanercept: fusion protein that mimics the inhibitory effects of naturally occurring soluble TNF receptors, subcutaneous administration Adalimumab: monoclonal antibody, subcutaneous administration • Adverse effects of TNF blockers reactivation of latent tuberculosis demyelination Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology • Contraindications of usage of TNF- alpha antagonist Active infection Active TB MS (Multiple sclerosis) Heart failure (NYHA grade 3-4). Pregnancy and Breast feeding Nitric oxide (NO) Overview • It is formed from L-arginine and oxygen by nitric oxide synthetase (NOS). • An inducible form of NOS has been shown to be present in macrophages. • Nitric oxide has a very short half-life (seconds), being inactivated by oxygen free radicals • Nitric oxide generates cyclic guanosine monophosphate (cGMP) as the second messenger • Can freely diffuse across cell membranes, so NO can act as an intracellular and extracellular signaling molecule Effects • Acts on guanylate cyclase leading to raised intracellular cGMP levels and therefore decreasing Ca2+ levels • Causes smooth muscle relaxation and subsequent dilation of blood vessels • Inhibits platelet aggregation Clinical relevance • Underproduction of NO is implicated in hypertrophic pyloric stenosis • Lack of NO is thought to promote atherosclerosis • In sepsis increased levels of NO contribute to septic shock • Organic nitrates (metabolism produces NO) is widely used to treat cardiovascular disease (e.g. angina, heart failure) • Sildenafil is thought to potentiate the action of NO on penile smooth muscle and is used in the treatment of erectile dysfunctions • N2O, also known as 'laughing gas', is often used in obstetrics and trauma for pain relief Nitric oxide (NO) Has a half-life of only a few seconds. It is not stored by the body but is synthesized as a result of activation. Nitrate drugs stimulate the formation and release of NO. Relaxation of smooth muscle cells in vessel walls leads to the dilation of coronary arteries, pulmonary arteries, and peripheral veins. Peripheral vasodilation leads to a decrease in cardiac preload. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Endothelin-1 (ET-1) • A 21-amino-acid polypeptide • Endothelin-1 is a potent vasoconstrictor that is encoded by the EDN1 gene and produced by vascular endothelial cells. • It is a highly potent vasoconstrictor and plays a part in the modulation of vascular tone • It may have a role in diseases such as Raynaud's phenomenon • Its levels increase when the endothelium is stressed, for example in trauma or oxidative stress • Clinical significance Long term ET-1 exposure has been associated with hypertrophic cardiomyopathy. Endothelin-1 receptor antagonists (Bosentan) are used in the treatment of pulmonary hypertension. Inhibition of these receptors prevents pulmonary vasculature constriction and thus decreases pulmonary vascular resistance. Kinins Overview • Kinins are mostly produced at inflamed or injured tissue of the body • kinins are potent vasoactive basic peptides involved in the inflammatory response • Their activation leads to release of chemotactic cytokines Functions • increase vascular permeability • cause vasodilation, pain, and the contraction of smooth muscle • stimulate arachidonic acid metabolism Erythrocyte sedimentation rate (ESR) Overview • The ESR is a non-specific marker of inflammation and depends on both the size, shape and number of red blood cells and the concentration of plasma proteins such as fibrinogen, alpha2-globulins and gamma globulins Causes of a high ESR • temporal arteritis • myeloma • other connective tissue disorders e.g. systemic lupus erythematosus • other malignancies • infection • other factors which raise ESR: increasing age, female sex, anaemia Causes of a low ESR • polycythaemia • afibrinogenaemia/ hypofibrinogenaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Leukocyte alkaline phosphatase Raised in Low in • Myelofibrosis • Leukemoid reactions • Polycythemia rubra vera • Infections • Steroids, Cushing's syndrome • Pregnancy, oral contraceptive pill • Chronic myeloid leukemia • Pernicious anemia • Paroxysmal nocturnal hemoglobinuria • Infectious mononucleosis Thymus Embryology: Thymus epithelium arises from the 3rd pharyngeal pouch (endoderm). Function: Maturation and differentiation of T lymphocytes Location: The thymus is a gland composed of two identical lobes, located in the superior anterior superior mediastinum, in front of the heart and behind the sternum. Clinical significance • Thymic hypoplasia or aplasia: DiGeorge syndrome, SCID • Thymoma: tumor of thymic epithelial cells: Seen in myasthenia gravis, pure red cell aplasia, immunodeficiency with thymoma Thymic cortex and medulla • The cortex is the area of the thymus that is dense and full of immature T cells. • The medulla is the area of the Thymus that is pale and full of mature T cells B cells (B lymphocytes) Origin: Originate and mature in the bone marrow Function • Major component of the adaptive immune system: The humoral immune response of the adaptive immune system mainly consists of B cells and antibodies. • After activation, B cells differentiate into plasma cells that produce and secrete antibodies Surface proteins • B cells express numerous proteins on their surface: CD19, CD20 , CD21 (used by EBV), and CD40 MHC II IgG B7 Plasma cells T cells = Thymus B cells = Bone marrow The Thymus arises from the Third pharyngeal pouch • Plasma cells are fully differentiated cells from B-cells and hence lack these features (i.e. they lack surface-bound IgG and MHC class II and cannot undergo somatic hypermutation or isotype switching). • plasma cells do not have surface-bound IgG (unlike B-cells). • plasma cells cannot undergo somatic hypermutation (unlike B-cells). • plasma cells cannot undergo isotype switching (unlike B-cells). B lymphocytes VS T lymphocytes B lymphocytes T lymphocytes Site of production bone marrow. germinal centre of lymph nodes and spleen. produced in the bone marrow but mature in the thymus Paracortical region of lymph nodes and spleen. Functions Humoral immunity antibody production (immunoglobulins) control of pyogenic bacteria prevention of blood-borne infections. neutralization of toxins. % of total lymphocytes: 12% mainly fixed. T cells (T lymphocytes) Origin • Originate from lymphoid progenitor cells in the bone marrow and mature in the thymus. Distribution • T lymphocytes compose the majority of circulating lymphocytes in plasma. • Lymph nodes:  The paracortical areas contain T cells and accessory cells.  B cells are found within the cortex in follicles, which have central areas known as germinal centres.  The medulla contains large blood vessels and sinuses, and medullary cords that contain plasma cells secreting antibody. Function • A major component of the adaptive immune response • Essential for cell-mediated immunity T lymphocytes are involved in cell-mediated acquired immune responses, whereas B lymphocytes are involved in humoral immunity and produce immunoglobulins. Mechanism of action • T cells recognise antigen only when presented by (self) MHC molecules on an antigen presenting cell (Co-operation with other cell types is required for T cell recognition of antigen) • Patients with HIV have a deficiency of T-cells (CD4 T-cell lymphocytes) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Cell-mediated immunity; protection against intracellular organisms, protozoa and fungi; graft rejection; control of neoplasms. 70-80% (the majority of circulating lymphocytes in plasma). mainly circulating; long-lived memory cells. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology T cell subtypes • T cells are largely divided into cytotoxic T cells (CD8+), T helper cells (CD4+), and regulatory T cells. What is the predominant site in the lymph node that contains T cells? Paracortex T-Helper cells (CD4+) • Activated via antigen presentation by MHC class II receptors • There are two major subsets of T-Helper cells: Th1  involved in the cell mediated response and delayed (type IV) hypersensitivity  Immune response to intracellular pathogens (viruses, intracellular bacteria)  secrete IFN-gamma, IL-2, IL-3 Th2  involved in mediating humoral (antibody) immunity e.g. stimulating production of IgE in asthma  Immune response to extracellular pathogens (bacteria, parasites)  secrete IL-4, IL-5, IL-6, IL-10, IL-13 • An increase in the Th1:Th2 ratio is associated with a reduction in the risk of allergic/hypersensitivity reactions. MRCP-part-1-Jan- 2018 exam: What is most commonly secreted agent by T-helper cells subset 2 (Th2 cells) ? Interleukin 4 CD8 proteins on the surface of cytotoxic T cells interact with MHC I receptors, while CD4 proteins on the surface of T-helper cells interact with MHC II receptors. Rule of 8: MHC I x CD 8 = 8. MHC II x CD 4 = 8. Primary immunodeficiency Disorders may be classified according to which component of the immune system they affect. Neutrophil disorders Disorder Underlying defect Notes Caused by a failure of intracellular killing (no respiratory burst). Causes recurrent pneumonias and abscesses, particularly due to catalase-positive bacteria (e.g. Staphylococcus aureus and fungi (e.g. Aspergillus) Negative nitroblue-tetrazolium test Screening is by the nitroblue tetrazolium (NBT) test Abnormal dihydrorhodamine flow cytometry test Chronic granulomatous disease Lack of NADPH oxidase reduces ability of phagocytes to produce reactive oxygen species ChediakHigashi syndrome Microtubule polymerization defect which leads to a decrease in phagocytosis Affected children have 'partial albinism' and peripheral neuropathy. Recurrent bacterial infections are seen Giant granules in neutrophils and platelets Leukocyte adhesion deficiency Defect of LFA-1 integrin (CD18) protein on neutrophils Recurrent bacterial infections. Delay in umbilical cord sloughing may be seen Absence of neutrophils/pus at sites of infection B-cell disorders Disorder Underlying defect Notes Common variable immunodeficiency CVID Many varying causes Hypogammaglobulinemia is seen. May predispose to autoimmune disorders and lymphona Bruton's (x-linked) congenital agammaglobulinaemia Defect in Bruton's tyrosine kinase (BTK) gene that leads to a severe block in B cell development Selective immunoglobulin A deficiency Maturation defect in B cells Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad X-linked recessive. Recurrent bacterial infections are seen Absence of B-cells with reduce immunoglogulins of all classes • Most common primary antibody deficiency. • Recurrent sinus and respiratory infections • Associated with coeliac disease and may cause false negative coeliac antibody screen Chapter 15 Basic sciences Immunology T-cell disorders Disorder Underlying defect Notes DiGeorge syndrome 22q11.2 deletion, failure to develop 3rd and 4th pharyngeal pouches Combined B- and T-cell disorders Combined B- and T-cell disorders: SCID WAS ataxic (SCID, Wiskott-Aldrich syndrome, ataxic telangiectasia) Disorder Underlying defect Notes Most common (Xlinked) due to defect in the common gamma chain, a protein used in the receptors for IL-2 and other interleukins. Other causes include adenosine deaminase deficiency Severe combined immunodeficiency Ataxia telangiectasia Defect in DNA repair enzymes Wiskott-Aldrich syndrome Defect in WAS gene X-linked recessive. Features include recurrent bacterial infections, eczema, thrombocytopaenia. Low IgM levels Increased risk of autoimmune disorders and malignancy Selective IgA deficiency The history of mucosal infections (sinus and gastrointestinal) and the family history of immune cytopenia and coeliac disease are suggestive of selective IgA deficiency. Definition • Most common primary immunodeficiency that is characterized by a near or total absence of serum and secretory IgA Features Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Common features include congenital heart disease (e.g. tetralogy of Fallot), learning difficulties, hypocalcaemia, recurrent viral/fungal diseases, cleft palate Recurrent infections due to viruses, bacteria and fungi. Reduced T-cell receptor excision circles Stem cell transplantation may be successful • Autosomal recessive. • Features include: cerebellar ataxia, telangiectasia (spider angiomas), 3. recurrent chest infections 4. and 10% risk of developing malignancy, lymphoma or leukaemia Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Often asymptomatic • Recurrent infections May manifest with sinusitis or respiratory infections (S. pneumoniae, H. influenzae) Chronic diarrhea, partially due to elevated susceptibility to parasitic infection (e.g. by Giardia lamblia) • Associated with autoimmune diseases (e.g., gluten-sensitive enteropathy, inflammatory bowel disease, immune thrombocytopenia) and atopy 10-fold increased risk of coeliac disease Pernicious anaemia and hence gastric carcinoma ↑ Adverse reactions to blood products  Patients with selective IgA deficiency should be tested for the presence of anti-IgA antibodies prior to transfusion with blood products. • Anaphylactic reaction to products containing IgA (e.g., intravenous immunoglobulin) • Associated with IgG2 deficiency They are more likely than the general population to have an IgG2 deficiency, leading to recurrent bacterial infections The possibility of lgG2 deficiency should always be investigated in IgAdeficient individuals with a history of recurrent bacterial infections, but Staphylococcus aureus is the exception Diagnosis • low serum IgA level, with normal IgG and IgM levels • False-positive pregnancy tests Treatment • No specific treatment • Prophylactic antibiotics • Intravenous infusion of IgA is not recommended because of the risk of anaphylactic reactions (caused by the production of anti-IgA antibodies). IgG subclass deficiency Overview • A decrease of one of IgG subclass (IgG1, IgG2, IgG3 or IgG4) in a patient whose total IgG concentration is normal. IgG1 deficiency • Almost always presents as hypogammaglobulinemia, since IgG1 normally makes up about 70 percent of total IgG. Therefore, only those patients with IgG1 deficiency with normal total IgG should be diagnosed with selective IgG1 deficiency. lgG2 deficiency • More common in children • Infections with Streptococcus pneumoniae, Haemophilus influenzae type b, and Neisseria meningitidis are characteristic, since IgG2 comprises most of the antibody response against To prevent transfusion reactions, IgA-deficient patients must be given washed blood products without IgA or obtain blood from an IgA-deficient donor. The Six A's of selective IgA deficiency: Asymptomatic, Airway infections, Anaphylaxis to IgA-containing products, Autoimmune diseases, Atopy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology polysaccharide capsular antigens → multiple presentations with otitis media and respiratory tract infections. • If these patients are vaccinated with Pneumovax, they are still unable to mount a response to S. pneumoniae antigens lgG3 deficiency • More common in adults. • Infections with Moraxella catarrhalis and S. pyogenes are typical → frequent chronic sinusitis IgG4 deficiency • May or may not be associated with symptomatic sinopulmonary infections. Isolated IgD deficiency • IgD are surface receptors of B lymphocytes • No specific signs or symptoms • increased viral respiratory tract infections, IgE deficiency leads to both viral and parasitic infections • IgA, IgG and IgM levels are entirely normal • Isolated IgD deficiency has been identified amongst people of Basque origin, hence the link to northern Spain • Not require any specific treatment Common variable immunodeficiency (CVID) Definition • primary immunodeficiency with low serum levels of all immunoglobulins despite phenotypically normal B cells Epidemiology • The most common clinically significant primary immunodeficiency is CVID. IgA deficiency is more common, but most are asymptomatic. • Sex: ♀ = ♂ • Onset: present later than other B cell defects (usually 20–35 years of age) Pathophysiology • Most cases are sporadic with no known family history (No clear pattern of inheritance) • B cells are phenotypically normal but are unable to differentiate into Ig-producing cells,( Bcell dysfunction) resulting in low immunoglobulins of all classes. Features • Recurrent pyogenic respiratory infections, e.g., sinopulmonary infections (in rare cases, enteroviral meningitis) • Associated with a high risk of lymphoma, gastric cancer, bronchiectasis, and autoimmune disorders (e.g., rheumatoid arthritis, autoimmune hemolytic anemia, immune thrombocytopenia, vitiligo) Investigations • Quantitative immunoglobulin levels: low levels of IgG, IgA, and IgM • Decreased number of plasma cells • Flow cytometry shows subsets of normal B and T cells • Poor response to immunizations Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Intravenous immunoglobulin (IVIG) replacement therapy (first line), the best option to prevent recurrent chest infections. • Prophylactic antibiotics CVID →B-cell Cannot differentiate into plasma cells →low immunoglobulins but normal or decreased B cells. Bruton's → Pre-B lymphocytes are increased because there's a maturation defect. MRCP-part-1-May-2018 H/O recurrent Giardia lamblia diarrhea and multiple upper respiratory infections since birth. serum analysis reveals normal levels of mature B lymphocytes. What other finding on serum analysis predisposes the patient to recurrent diarrheal infections? Deficiency in IgA  The patient has common variable immunodeficiency disorder (CVID)  IgA prevent the binding of pathogens to the epithelial cells; thus, preventing protozoa like Giardia lamblia from causing inflammation. Its absence, therefore, leads to the increased likelihood of repeat infection of the GI mucosa Bruton's agammaglobulinemia (X-linked agammaglobulinemia) Pathophysiology • X-linked recessive disease caused by a mutations in the gene coding for Bruton tyrosine kinase (BTK) leads to complete deficiency of B lymphocytes • The most common genetic event is a missense mutation (substitution in one amino acid in a protein). Epidemiology: occurs mainly in boys Features • Symptoms develop between 3 and 6 months of age when maternal IgG levels in fetal serum start to decrease. • Hypoplasia of lymphoid tissue (e.g., tonsils, lymph nodes) • Recurrent, severe, pyogenic infections (e.g., pneumonia, otitis media), especially with encapsulated bacteria (S. pneumoniae, N. meningitidis, and H. influenzae) • Hepatitis virus and enterovirus (e.g., Coxsackie virus) infections Diagnosis • Flow cytometry Absent or low levels of B cells (marked by CD19, CD20, and CD21) Normal or high T cells • Low immunoglobulins of all classes • Absent lymphoid tissue, i.e., no germinal centers and primary follicles Treatment • IV immunoglobulins • Prophylactic antibiotics Live vaccines (e.g., MMR) are contraindicated in patients with Bruton agammaglobulinemia. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Severe combined immunodeficiency disease (SCID) Overview • Numerous genetic mutations → Combined B- and T-cell disorder → immunodeficiency • X-linked recessive mutations → defective IL-2R gamma chain receptor linked to JAK3 (most common SCID mutation) • Autosomal recessive → Adenosine deaminase deficiency (it aid in breakdown of deoxyadenosine, which is a breakdown product of DNA) → Accumulation of toxic metabolites (deoxyadenosine and dATP) (Deoxyadenosine is toxic to lymphocytes, thus accumulation of this leads to apoptosis of lymphocytes) Features (usually manifests in the first year of life) • Recurrent infections • Diarrhea • Dermatitis • Failure to thrive • Lymph nodes and tonsils may be absent Diagnosis • Flow cytometry: absent T cells , abnormal function of B-cells • CXR: absent thymic shadow • Lymph node biopsy: absent germinal centers • ↓ Lymphocyte count (< 3000/μL) Treatment • Bone marrow transplantation (the best initial curative treatment) Prognosis • Without intervention, SCID usually results in severe infection and death in children by age 2 years. DiGeorge syndrome Definition • A syndrome characterized by defective development of the third and fourth pharyngeal pouches leading to hypoplastic thymus and parathyroids Pathophysiology • Autosomal dominant; microdeletion at chromosome 22 → Abnormal development of the third and fourth pharyngeal pouches →thymic aplasia and defective parathyroid → T-cell deficiency and dysfunction → primary immunodeficiency The thymus arises from the 3rdpharyngeal pouch, the parathyroid glands receive contribution from both 3rd and 4th pouches. • It is an example of a microdeletion syndrome. Features • Thymus aplasia/hypoplasia → Recurrent infections (viral/fungal/PCP pneumonia) due to Tcell deficiency • Parathyroid gland hypoplasia → hypocalcaemic tetany SCID is due to either a deficiency in IL-2R gamma chain (most common, X-linked) or deficiency in adenosine deaminase (autosomal recessive) 074 - Pages 1826-1850 074 Pages 1826-1850 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Cardiac anomalies: (e.g., tetralogy of Fallot, VSD, ASD) • Facial abnormalities: Cleft palate Micrognathia (small lower jaw) and/or retrognathia Dysplastic ears High and broad nasal bridge Investigations • Chest X-ray shows absence of the thymic shadow. • Low levels of serum calcium (Ca2+) and parathormone (PTH) • ↓ Absolute T-lymphocyte count • Delayed hypersensitivity skin testing • Fluorescence in situ hybridization (FISH) → Detection of 22q11.2 deletion MRCP-part-1- May 2019 exam: In a patient having DiGeorge syndrome, which infection is he most at risk from, secondary to his immune system dysfunction? Cryptococcus neoformans (T-cell dysfunction →↑↑risk from recurrent viral and fungal infections) Wiskott-Aldrich syndrome (WAS) Definition • Wiskott-Aldrich syndrome (WAS) is defined as an X-linked hereditary disorder associated with adaptive and innate immunodeficiency, micro-thrombocytopenia, eczema, and an increased risk of autoimmune disorders and malignancy. Pathophysiology • "Loss-of-function" mutation in WASP gene (X-linked recessive inheritance) → combined B- and T-cell dysfunction and thrombocytopenia Epidemiology: occurs primarily in males Features • Classic tetrad Purpura (bleeding diathesis) Eczema (high risk of atopic disorders) Recurrent bacterial, viral, and fungal infections (e.g., chest, otitis media) Increased risk of autoimmune diseases and hematological malignancies (e.g., lymphoma, leukemia) Investigations • Thrombocytopenia with small platelets • Low IgM and IgG levels • ↑ IgE and IgA • Genetic analysis (confirmatory test): mutated WASp gene Prognosis • The disease has variable penetrance, which means that life expectancy can range from 6 - 30 years. Wiskott-Aldrich syndrome: Classic tetrad of: Purpura (bleeding diathesis) Eczema (high risk of atopic disorders) Recurrent bacterial, viral, and fungal infections (e.g., chest, otitis media) ↑Risk of autoimmune diseases and hematological malignancies Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology Complement deficiencies C3 deficiency is associated with recurrent bacterial infections, C5 deficiency is more characteristically associated with disseminated meningococcal infection Deficiencies of the classical complement pathway such as C1 and C4 deficiencies are strongly associated with the development of systemic lupus erythematosus; deficiencies of the alternative pathway, such as C3 and C5–9, are associated with increased risk of recurrent pyogenic infections. Overview • Complement is a series of proteins that circulate in plasma and are involved in the inflammatory and immune reaction of the body. • Complement proteins are involved in chemotaxis, cell lysis and opsonisation. • Most of complement deficiencies are inherited in autosomal recessive fashion; the exception being properdin deficiency, which is usually described as having an X-linked inheritance pattern. C1 inhibitor (C1-INH) protein deficiency • causes hereditary angioedema • C1-INH is a multifunctional serine protease inhibitor • probable mechanism is uncontrolled release of bradykinin resulting in oedema of tissues C1q, C1rs, C2, C4 deficiency (classical pathway components) • predisposes to immune complex disease • e.g. SLE, Henoch-Schonlein Purpura, vasculitidies • mechanism complement activity is associated with clearance of circulating immune complexes If immune complexes are not cleared, they undergo tissue deposition where an inflammatory process is triggered, leading to SLE C3 deficiency • causes recurrent bacterial infections • Deficiencies of C3 is more commonly associated with haemolytic uraemic syndrome C5 deficiency • predisposes to Leiner disease • recurrent diarrhoea, wasting and seborrhoeic dermatitis C5-9 deficiency • encodes the membrane attack complex (MAC) • particularly prone to Neisseria meningitidis infection • Absent classical and alternate pathway activity Membrane attack complex (MAC) • Formed by C5b, C6, C7, C8, and multiple copies of C9 complement proteins on pathogen cell membranes • Function →lyses pathogens • Inhibited by CD59 This exists on body cells to protect them from MAC. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad paroxysmal nocturnal haemoglobinuria, results in red cells that lack CD59. These red cells can, therefore, be lysed by MAC. Decay-accelerating factor (DAF) deficiency is associated with Paroxysmal nocturnal haemoglobinuria (PNH). Diagnosis • CH50 assay screening test MRCPI-part-1-jan-2017: Post splenectomy what type of immunodeficiency is occurs? Humoral  Post splenectomy there is increased susceptibility to H. Influenzae, N. Meningitidis and Strep pneumonia which are encapsulated organisms due to the loss of splenic macrophages which are part of the humoral response. MRCPUK-pat-1-May 2019 exam: A 23-year-old man is admitted with sepsis. Blood cultures are reported as Neisseria gonorrhoeae. Which complement protein is the patient most likely to deficient in? • C5-9 Hereditary angioedema Overview • Hereditary angioedema is an autosomal dominant condition associated with low plasma levels of the C1 inhibitor (C1-INH) protein. • C1-INH is a multifunctional serine protease inhibitor Pathophysiology • Deficiency of C1 esterase inhibitor leads to persistent activation of the classical complement pathway and C4 levels are frequently low secondary to activation and consumption. ↓C1 inhibitor allow C1 to act on C4 and C2 • Mechanism of attacks : uncontrolled release of bradykinin resulting in oedema of tissues. Investigation • C1-INH level is low during an attack • Low C2 and C4 levels are seen, even between attacks. • Serum C4 is the most reliable and widely used screening tool • Angioedema does not readily cause a rise in mast cell tryptase. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 15 Basic sciences Immunology otes & Notes for MRCP By Dr. Yousif Abdallah Hamad Features • Painless, non-pruritic swelling of subcutaneous/submucosal tissues urticaria is not usually a feature attacks may be proceeded by painful macular rash • May affect upper airways, skin, genital or abdominal organs (can occasionally present as abdominal pain and vomiting due to visceral oedema) • Triggers include stress, infection and menstruation Management • Acute: IV C1-inhibitor concentrate (1000-1500 units given intravenously over 20-30 min), fresh frozen plasma (FFP) if this is not available • Prophylaxis: Anabolic steroid, synthetic androgen: Danazol may help Aminocaproic acid Complication • If treatment fails to normalise the C4 levels and they remain persistently low, these patients are at an increased risk of developing SLE. Other Causes of angioedema • Bradykinin-mediated angioedema Hereditary angioedema (inherited C1 inhibitor deficiency) Acquired angioedema (acquired C1 inhibitor deficiency)  Often associated with lymphoproliferative diseases and B-cell malignancies ACE inhibitor-induced (rarely ARB-induced): impaired bradykinin breakdown  Can occur within days to 2 years after starting ACE inhibitor • Histamine-mediated angioedema (mast cell-mediated angioedema) Usually coexist with urticaria Salicylate- and/or aspirin-associated angioedema Moxonidine is a centrally acting antihypertensive and is associated with angioedema • Idiopathic angioedema: Possible triggers: cold, heat, stress, and exercise Granulomatous inflammation Definition • A pattern of chronic inflammation. Can be induced by persistent T-cell response to certain infections (eg ,TB), immune-mediated diseases, and foreign bodies. • A granuloma is a collection of macrophages: giant cells as a nidus of chronic inflammation Mechanism • Macrophages →↑cytokine secretion (eg, TNF) → formation of epithelioid macrophages and giant cells Types of granuloma and causes • Caseating granulomas Granulomas with central necrosis Found in infections e.g., tuberculosis, fungal infections, tertiary syphilis, Bartonella henselae (cat scratch disease) • Noncaseating granulomatous inflammation Granulomas without central necrosis Found in immune-mediated diseases (e.g., sarcoidosis, Crohn disease), sarcoidosis, vasculitis, and foreign body exposure TNF-α is important for maintaining the granuloma. It is essential to test patients for latent TB before initiating anti-TNF therapy because the drug causes breakdown of the granuloma and can result in disseminated TB. Third edition Notes & Notes For MRCP part 1 & 11 By Dr. Yousif Abdallah Hamad Basic sciences Genetics Updated Chapter 16 Basic sciences Genetics Autosomal dominant conditions Autosomal recessive conditions are often thought to be 'metabolic' as opposed to autosomal dominant conditions being 'structural', notable exceptions: • some 'metabolic' conditions such as Hunter's and G6PD are X-linked recessive whilst others such as hyperlipidaemia type II and hypokalaemic periodic paralysis are autosomal dominant • some 'structural' conditions such as ataxia telangiectasia and Friedreich's ataxia are autosomal recessive The following conditions are autosomal dominant: • Achondroplasia • Acute intermittent porphyria • Adult polycystic disease • Antithrombin III deficiency • Ehlers-Danlos syndrome • Familial adenomatous polyposis • Hereditary haemorrhagic telangiectasia • Hereditary spherocytosis • Hereditary non-polyposis colorectal carcinoma • Huntington's disease • Hyperlipidaemia type II • Hypokalaemic periodic paralysis As an autosomal dominant condition, two affected parents can expect: • 1 in 4 chance of an unaffected child • 1 in 2 chance of an affected heterozygous child • 1 in 4 chance of an affected homozygous child. Which disease demonstrates autosomal co-dominant inheritance? Alpha-1-antitrypsin deficiency *type 3 von Willebrand's disease (most severe form) is inherited as an autosomal recessive trait. Around 80% of patients have type 1 disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Malignant hyperthermia • Marfan's syndromes • Myotonic dystrophy • Neurofibromatosis • Noonan syndrome • Osteogenesis imperfecta • Peutz-Jeghers syndrome • Retinoblastoma • Romano-Ward syndrome • Tuberose sclerosis • Von Hippel-Lindau syndrome • Von Willebrand's disease* Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Achondroplasia Aetiology • Mutation in fibroblast growth factor receptor 3 gene (FGFR3) → reduced endochondral ossification activation of fibroblast growth factor receptor 3 on chromosome 4, resulting in inhibited chondrocyte proliferation. • autosomal dominant • The homozygous form is usually fatal. Epidemiology • Most common type of skeletal dysplasia and disproportionate short stature (1:40,000 children worldwide affected) Risk factor • The incidence increases with paternal age. Pathophysiology • Epiphyseal growth cartilage fails, • there is normal bone formation and repair. Therefore, NO increased risk of fracture. Features becomes obvious within the first year with disparity between a large skull, normal trunk length and short limbs. • short stature • short limbs (rhizomelia) with shortened fingers (brachydactyly) The fingertips may only come down to the iliac crest, and the shortness of the limbs is often most marked proximally. short stature due to shortening of the limbs, but spinal length is maintained. The limbs appear broad with deep creases. • large head (Macrocephaly) with frontal bossing • midface hypoplasia with a flattened nasal bridge • 'trident' hands • lumbar lordosis • Normal intelligence Complications • Small foramen magnum compression of the cervical medulla • Spinal canal stenosis and radiculopathy (of the lower back) low back and leg pain, paresthesias, dysesthesia, incontinence • Secondary scoliosis • Recurrent otitis media • Cardiopulmonary complications (due to a small chest wall) Diagnostics • X-ray It may be diagnosed radiographically at birth, Lateral skull  midface hypoplasia,  frontal prominence pelvis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics  narrow in anteroposterior diameter with deep sacroiliac notches and short iliac wings. Spine  progressive narrowing of the interpedicular distance from top to bottom (reverse of normal). abnormally narrow interpedicular distance → spinal canal stenosis; scoliosis Extremities  bones are short and broad;  short fingers  metaphyseal irregularity,  flaring in the long bones,  late-appearing irregular epiphyses. Management • medical Early administration of growth hormone (1–6 years) • Surgical corrections: spinal stenosis, secondary scoliosis, genu varum, foramen magnum decompression Osteogenesis imperfecta (“brittle bone disease”) Pathophysiology • Autosomal dominant mutation in COL1A1 or COL1A2 genes → ↓ synthesis of normal type I collagen → impaired bone matrix formation (osteogenesis) Features • Growth retardation • Skeletal deformities, brittle bones, and recurrent fractures from minimal trauma • Blue sclerae due to visible choroidal pigment. • Progressive hearing loss secondary to otosclerosis • Brittle, opalescent teeth (dental imperfections) due to a lack of dentin formation. Types • type 1:The most common, and milder form. • Type II: most severe form; lethal perinatally or within the first year Diagnostics • DNA test • Ultrasonography before birth and radiographic skeletal survey afterwards (fractures, callus, deformities) • Bone or skin biopsy type 1 collagen mutation Therapy • No cure available • Bisphosphonates; decrease the risk of fractures • Surgery for functional improvement Individuals with osteogenesis imperfecta can't BITE: Bones (recurrent fractures), I (“eye” = blue sclerae), Teeth (dental abnormalities), Ears (hearing loss). MRCPUK-part-1-May-2009 exam: A pregnant woman is known to have polycystic kidney disease. What is the chance her child will also have the disease? 50% (Polycystic kidney disease is usually inherited in an autosomal dominant fashion and hence 50% of her children will be affected, regardless of gender) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Down's syndrome (trisomy 21) Epidemiology and genetics • the most common autosomal abnormality Risk of Down's syndrome with increasing maternal age Age (years) Risk 1 in 1,500 1 in 800 1 in 270 1 in 100 1 in 50 or greater One way of remembering this is by starting at 1/1,000 at 30 years and then dividing the denominator by 3 (i.e. 3 times more common) for every extra 5 years of age Cytogenetics Mode % of cases Risk of recurrence Non-disjunction 94% 1 in 100 if under mother < 35 years Robertsonian translocation (usually onto 14) 5% 10-15% if mother is translocation carrier 2.5% if father is translocation carrier Mosaicism 1% • The chance of a further child with Down's syndrome is approximately 1 in 100 if the mother is less than 35 years old. If the trisomy 21 is a result of a translocation the risk is much higher. • Down syndrome have one of the two karyotypes: 47,XX,+21 (trisomy 21): more common 46,XY,der(14;21): characterized by the presence of two normal chromosomes 21, one normal chromosome 14 and a product of Robertsonian translocation between chromosomes 14 and 21 (der(14;21); der stands for derivative). The general risk of trisomy 21 increases with maternal age. This does not, however, apply to translocation trisomies Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Features • face: upslanting palpebral fissures, epicanthic folds, Brushfield spots in iris, protruding tongue, small ears, round/flat face • flat occiput • single palmar crease, pronounced 'sandal gap' between big and first toe • hypotonia • congenital heart defects (40-50%, see below) • duodenal atresia can be diagnosed by U/S at gestation double bubble sign • Hirschsprung's disease Associations • ↑↑ risk for developing acute myeloid leukemia (AML) (approximately 1-2% of children with Down syndrome develop AML, the great majority < 5 y) rather than acute lymphoblastic leukemia (ALL), which is a more common form of leukemia in children. • Other haematological disorders associated with Down's syndrome include: Fanconi's anaemia, Patients with learning disabilities may be prone to lead poisoning due to pica. Cardiac complications • 50% of children with Down's syndrome have a cardiac defect. • multiple cardiac problems may be present • endocardial cushion defect (c. 40%, also known as atrioventricular septal canal defects) • ventricular septal defect (c. 30%) • secundum atrial septal defect (c. 10%) • tetralogy of Fallot (c. 5%) • isolated patent ductus arteriosus (c. 5%) Later complications • subfertility: Males are almost always infertile due to impaired spermatogenesis. Females are usually subfertile, and have an increased incidence of problems with pregnancy and labour • learning difficulties • short stature • repeated respiratory infections (+hearing impairment from glue ear) • acute lymphoblastic leukaemia • hypothyroidism • Alzheimer's • atlantoaxial instability Diagnosis Screening tests (Prenatal) • Combined test (first trimester) (11–13 weeks) Maternal serum  ↑ Beta human chorionic gonadotropin (β-hCG)  ↓ Pregnancy-associated plasma protein A (PAPP-A) To remember the most important features associated with Down syndrome, think of the 5 A's: Advanced maternal age, duodenal Atresia, Atrioventricular septal defect, AML/ALL, early onset of Alzheimer disease. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Ultrasound  Nuchal translucency; increases due to the large amount of fluid collecting behind the neck  Short neck, thickened nuchal fold  Absent or hypoplastic nasal bone  Shortened middle phalanges of the fifth digits with clinodactyly  Shortened long bones (humerus, femur) • Quadruple test (second trimester) (15–18 weeks) ↓ Free estriol ↓ Alpha-fetoprotein (AFP) ↑ Inhibin A ↑ β-hCG Diagnostic tests (confirmatory test) • Prenatal → Fetal karyotyping Chorionic villus sampling (9–14 weeks) Amniocentesis (15–22 weeks) Percutaneous umbilical cord sampling (18–22 weeks) • Postnatal → Chromosome analysis Noonan’s syndrome Overview • Relatively common, autosomal-dominant inherited disorder. • Caused by activating mutations in multiple genes in the Ras/mitogen-activated protein kinase (RAS-MAPK pathway). • The most commonly implicated gene is PTPN11. on chromosome 12 • Often thought of as the 'male Turner's', • In contrast to Turner's syndrome, the karyotype is normal • The majority of patients lead normal lives Feature • features similar to Turner's syndrome: short stature, webbed neck, chest (pectus) deformity  widely-spaced nipples,  pectus carinatum and excavatum, • characteristic features: cardiac: (occurs in 50% to 80%)  typically, pulmonary valve stenosis  atrial septal defect (ASD)  occasionally hypertrophic cardiomyopathy easy bruising or bleeding (due to coagulation factor deficiency or platelet dysfunction),  coagulation problems: factor XI deficiencies facial features,  triangular-shaped face  hypertelorism (increased distance between the eyes) In the quadruple test, hCG and Inhibin A are both HIgh up (↑) and Estriol and αfEtoprotein are both dEficient (↓). Chapter 16 Basic sciences Genetics  downslanting eyes  vivid blue or blue-green irides  low-set, posteriorly rotated ears  ptosis Boys frequently present with cryptorchidism and manifest delayed puberty. learning disabilities,  Mild cognitive impairment is found in up to 33%  Intellectual development may be delayed, but by adulthood intelligence is normal in ⅔ of patients. Autosomal recessive conditions Autosomal recessive conditions are 'metabolic' - exceptions: inherited ataxias Autosomal dominant conditions are 'structural' - exceptions: hyperlipidaemia type II, hypokalaemic periodic paralysis The following conditions are autosomal recessive: • Albinism • Ataxia telangiectasia • Congenital adrenal hyperplasia • Cystic fibrosis • Cystinuria • Familial Mediterranean Fever • Fanconi anaemia • Friedreich's ataxia • Glycogen storage disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Two copies of the defective gene (one inherited from each parent) are required in order to be born with the disorder. Autosomal recessive conditions are often thought to be 'metabolic' as opposed to autosomal dominant conditions being 'structural', notable exceptions: • some 'metabolic' conditions such as Hunter's and G6PD are X-linked recessive whilst others such as hyperlipidemia type II and hypokalemic periodic paralysis are autosomal dominant • some 'structural' conditions such as ataxia telangiectasia and Friedreich's ataxia are autosomal recessive • Haemochromatosis • Homocystinuria • Lipid storage disease: Tay-Sach's, Gaucher, Niemann-Pick • Mucopolysaccharidoses: Hurler's • PKU • Sickle cell anaemia • Thalassaemias • Wilson's disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad MRCPUK-part-1-May 2012 exam: A man diagnosed as having hereditary hemochromatosis. His wife is not a carrier. What is the chance his child will develop haemochromatosis? 0% (Haemochromatosis is an autosomal recessive condition. If one of the parents has haemochromatosis (i.e. is homozygous) and the other is not a carrier/affected, then all the children will inherit one copy of the gene from the affected parent and hence will be carriers) Ehlers–Danlos syndrome (EDS) • Ehlers-Danlos syndrome is a disorder of faulty collagen synthesis most commonly affecting collagen type III and V. • Inheritance patterns and type of collagen affected vary (can be autosomal dominant or recessive) • Collagen deficiencies in Ehlers-Danlos syndrome are often caused by problems with crosslinking. • Hypermobile Ehlers-Danlos syndrome (EDS) is the most common of 13 subtypes. Most hypermobile people are not aware of the fact and assume that everyone is as flexible as they are. Most cases of hypermobile EDS, are inherited in an autosomal dominant manner. associated with hypermobile joints, but skin features are much less prominent Systemic features may include increased propensity to asthma, mild valve regurgitation and gastrointestinal (GI) symptoms, including constipation and hiatus hernia. • The most severe form of Ehlers-Danlos syndrome is the vascular type. deficiencies in type III collagen.  Type III collagen also known as reticulin, and is found primarily in granulation tissue, artery walls, skin, intestines and the uterus. involves vascular and organ rupture due to type III collagen deficiency. • The classical type of Ehlers-Danlos syndrome has deficiencies in type V collagen. in which joint and skin manifestations predominate  associated with much more severe dermatological features, including hyperelastic skin that splits easily and marked propensity to bruising. • Kyphoscoliotic EDS is usually inherited in autosomal recessive fashion. Features Cardiovascular • Features of heart valve defects (particularly mitral valve prolapse) • Features of aneurysms/dissections of the iliac, splenic, renal arteries, or the aorta • Berry/saccular aneurysms of the cerebral arteries → features of subarachnoid hemorrhage Musculoskeletal • Joint hypermobility with tendency to dislocate • Skeletal abnormalities (e.g., scoliosis) • features of chronic pain syndrome and marfanoid habitus Skin • Tendency to bruise easily • Skin hyperextensibility • Frequent skin lacerations and poor skin healing (e.g., following surgery) Other • Hernias • Features of organ rupture (e.g., shock, local pain), especially in vascular EDS The classic presentation of EDS involves hyperextensible skin, joint hypermobility, and a tendency to bleed easily. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Elbow region of a female patient of Ehlers-Danlos syndrome: The skin of the elbow is hyperelastic (cutis hyperelastica), but rapidly returns to its initial position when released. Diagnosis • Definitive diagnosis for all subtypes of EDS, except hypermobile EDS, can be made by molecular genetic testing. • The genetic basis of hypermobile EDS remains unknown and the diagnosis is made by clinical criteria only. • A baseline echocardiogram with views of the aortic arch and aorta and regular reevaluations should be obtained to evaluate for mitral valve prolapse and any signs of aortic enlargement. Prognosis • Life expectancy is typically normal with the exception of vascular EDS, which has a reduced life expectancy of ∼50 years. Pseudoxanthoma elasticum (PXE) • inherited condition (usually autosomal recessive*) connective tissue disorder involves the elastic fibres of the eye, skin and cardiovascular system. *there are reports of autosomal dominant inheritance in a minority of cases • caused by mutations in the ABCC6 gene lack of functional ABCC6 protein leads to ectopic mineralization that is most apparent in the elastic tissues of the skin, eyes and blood vessels. Features • Eye retinal angioid streaks  due to dystrophic calcification of Bruch's membrane Visual loss can occur by infarction of the visual pathways and is likely to explain the chronic changes of optic disc atrophy • Skin 'plucked chicken skin' appearance - small yellow papules on the neck, antecubital fossa and axillae  The first clinical sign • Cardiac mitral valve prolapse, increased risk of ischaemic heart disease Due to loss of elastic tissue, patients have an increased incidence of mitral regurgitation, aortic regurgitation and aortic dissection. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Gastrointestinal haemorrhage • CNS Cerebral ischaemia in PXE is caused by small vessel occlusive disease. Intracranial aneurysms Subarachnoid and intracerebral haemorrhages Progressive intellectual deterioration Mental disturbances, and Seizures. Phenylketonuria (PKU) Overview • Autosomal recessive condition • Caused by a disorder of phenylalanine (an essential amino acid) metabolism. usually due to defect in phenylalanine hydroxylase, an enzyme which converts phenylalanine to tyrosine . In a small number of cases the underlying defect is a deficiency of the tetrahydrobiopterin-deficient cofactor, e.g. secondary to defective dihydrobiopterin reductase. • The gene for phenylalanine hydroxylase is located on chromosome 12. • The incidence of PKU is around 1 in 10,000 live births. • High levels of phenylalanine lead to problems such as learning difficulties and seizures. • The sequence of phenylalanine metabolism is the following: phenylalanine →tyrosine →LDopa →dopamine →norepinephrine →epinephrine. the neurological symptoms are most likely caused by a reduction in which neurotransmitters? Norepinephrine Features • usually presents by 6 months e.g. with developmental delay, seizures, typically infantile spasms • child classically has fair hair and blue eyes • learning difficulties. Even with dietary treatment some degree of cognitive impairment is seen • Microcephaly, prominent maxilla, growth retardation and wide-spaced teeth are found in untreated children. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics • Eczema • partial albinism due to decreased tyrosine production. • 'musty' odour to urine and sweat secondary to phenylacetate, a phenylketone Diagnosis • Diagnosis of classic PKU requires raised Phe levels, increased urinary Phe metabolites and normal cofactor (tetrahydrobiopterin) concentrations. plasma levels of tyrosine are difficult to measure, and have diurnal variation. Whilst the levels are often low in patients with PKU, the levels can be normal depending on what time of the day the sample is taken and whether or not the patients are being treated. • Guthrie test: the 'heel-prick' test done at 5-9 days of life - also looks for other biochemical disorders such as hypothyroidism • hyperphenylalaninaemia • phenylpyruvic acid in urine Management • Low phenylalanine and high tyrosine diet Prognosis • Excellent with normal life expectancy diagnosed early and blood phenylalanine (phe) levels remain within the therapeutic range. Alkaptonuria The black discoloration of sclera and urine becoming black on standing should alert you to the likelihood of Alkaptonuria. Pathophysiology • Autosomal recessive disorder of phenylalanine and tyrosine metabolism • Caused by a deficiency of homogentisic acid oxidase responsible for the degradation of homogentisic acid produced from phenylalanine and tyrosine. • Accumulation of homogentisic acid causes pigmentation of the urine, sclera and connective tissues. • Alkaptonuria is generally a benign and often asymptomatic condition. Features • Pigmented sclera • Urine turns black if left exposed to the air • Deposition in the joints causes cartilage pigmentation (ochronosis) and degeneration. Patients develop arthritis at 40 years of age. intervertebral disc calcification may result in back pain The knees and spine are commonly affected. The sacroiliac joint may be spared. • Renal stones • Homogentisic acid is a reducing agent, therefore it gives a false positive Glucostix test but normal Clinitest. Treatment • High-dose vitamin C • Dietary restriction of phenylalanine and tyrosine Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad X-linked recessive • The abnormal gene is carried on the X chromosome, and in the carrier female, the normal allele on her other X chromosome protects her from the disease. Since the male does not have this protection, he manifests the disease. • only males are affected. An exception to this seen in examinations are patients with Turner's syndrome, who are affected due to only having one X chromosome. • Females only occasionally show mild sign of disease • X-linked recessive disorders are transmitted by heterozygote females (carriers) and maleto-male transmission is not seen. • Affected males can only have unaffected sons and carrier daughters. • heterozygous female carrier  50% of male children are affected 50% of female children are carrier • The possibility of an affected father having children with a heterozygous female carrier is generally speaking extremely rare. However, in certain Afro-Caribbean communities G6PD deficiency is relatively common and homozygous females with clinical manifestations of the enzyme defect are seen. • Many of the inherited eye disorders such as retinitis pigmentosa and ocular albinism are inherited in an x-linked recessive pattern. • The following conditions are inherited in a X-linked recessive fashion: Androgen insensitivity syndrome Becker muscular dystrophy Colour blindness Duchenne muscular dystrophy Fabry's disease G6PD deficiency Haemophilia A,B Hunter's disease Lesch-Nyhan syndrome Nephrogenic diabetes insipidus Ocular albinism Retinitis pigmentosa Wiskott-Aldrich syndrome Fragile X syndrome • The following diseases have varying patterns of inheritance, with the majority being in an X-linked recessive fashion: Chronic granulomatous disease (in > 70%) X-linked conditions: Duchenne/Becker, haemophilia, G6PD X-linked recessive conditions - there is no male-to-male transmission. Affected males can only have unaffected sons and carrier daughters. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics What is the most common genetic disorder ? Sex-linked disorder  The most common genetic disorder is actually a relatively minor one, red-green colour blindness, which is seen in 2–4% of men.  Other examples of more significant sex-linked disorders include haemophilia A and B. X-linked dominant disorders No carrier (the carrier of a defective gene associated with a disorder, will have the disorder) affected woman Half of the daughters and sons are affected male will have worse symptoms than female (because women carry two X) affected father all his daughters are affected but none of his sons. • The gene responsible for a genetic disorder is located on the X chromosome, and only one copy of the allele is sufficient to cause the disorder when inherited from a parent who has the disorder. • X linked dominant disorders are rare (for example, vitamin D-resistant rickets). • They affect both sexes but females more than males. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Males can only get an X chromosome from their mother whilst females get an X chromosome from both parents. As a result, females tend to show higher prevalence of X-linked dominant disorders because they have more of a chance to inherit a faulty X chromosome. • Homozygous mother →All children are affected. • An affected mother with the trait →half the sons and half the daughters inherit the disorder • when the mother alone is the carrier ; she herself will have the disorder. 50% Of her daughters and sons will have the disorder, 50% will be unaffected. • Affected females will transmit the condition to 50% of their children, whether male or female. • When the father alone is the carrier of a defective gene associated with a disorder, he too will have the disorder. 100% Of his daughters will have the disorder, since all of his daughters will receive one copy of his single X chromosome. none of his sons will have the disorder; sons do not receive an X chromosome from their father. affected father all his daughters are affected but none of his sons. Vitamin D-resistant rickets Overview • Vitamin D-resistant rickets is a X-linked dominant condition affected female will transmit the disease to 50% of her sons and 50% of her daughters. affected male will transmit the condition to all of his daughters but none of his sons. • usually presents in infancy with failure to thrive. • caused by impaired phosphate reabsorption in the renal tubules Features • failure to thrive • normal serum calcium, low phosphate, elevated alkaline phosphotase • x-ray changes: cupped metaphyses with widening of the epiphyses Diagnosis • made by demonstrating increased urinary phosphate Management • high-dose vitamin D supplements • oral phosphate supplements Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Mitochondrial diseases • Whilst most DNA is found in the cell nucleus, a small amount of double-stranded DNA is present in the mitochondria. It encodes protein components of the respiratory chain and some special types of RNA Characteristics: Mitochondrial inheritance has the following characteristics: • inheritance is only via the maternal line as the sperm contributes no cytoplasm to the zygote • all children of affected males will not inherit the disease • all children of affected females will inherit it • generally, encode rare neurological diseases • poor genotype: phenotype correlation - within a tissue or cell there can be different mitochondrial populations - this is known as heteroplasmy) Histology • muscle biopsy classically shows 'red, ragged fibres' due to increased number of mitochondria Examples • Leber's optic atrophy Cyanocobalamin (a form of B12) should be avoided as it may lead to blindness in Leber's disease patients. • MELAS syndrome: mitochondrial encephalomyopathy lactic acidosis and stroke-like episodes • MERRF syndrome: myoclonus epilepsy with ragged-red fibres generalised myoclonus (60%), Mitochondrial diseases follow a maternal inheritance pattern Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad epilepsy, optic atrophy (20%), short stature (10%), ataxia, cognitive decline encephalopathy (EEG findings of generalised slow waves) sensorineural hearing loss impaired glucose tolerance. • sensorineural hearing loss Myoclonic epilepsy with ragged red fibres (MERRF) A young patient presenting with cognitive impairment developing after a period of normal development, seizures, myoclonic jerks, Wolff-Parkinson White syndrome and worsening vision (consistent with optic atrophy). Diagnosis → (MERRF), which is a mitochondrial DNA disorder diagnosed by →ragged red fibres on muscle biopsy. Kearns-Sayre syndrome Overview • mitochondrial DNA mutation. • onset in patients < 20 years old Features • external ophthalmoplegia Ptosis • retinitis pigmentosa • heart conduction defect • sensorineural hearing loss is almost universal in those who survive into the fourth decade of life; this may not be fully corrected with hearing aids. • Other associated features: cerebellar ataxia, raised cerebrospinal fluid (CSF) proteins, proximal myopathy. short stature multiple endocrinopathies including diabetes mellitus, hypoparathyroidism, and Addison disease. Kearns-Sayre syndrome: Mitochondrial inheritance Onset < 20-years-old Triad of: External ophthalmoplegia Retinitis pigmentosa and Heart block. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Diagnosis • Muscle biopsy may reveal ragged red fibers. • Muscle histochemistry reveals deficiency of cytochrome c oxidase (mitochondrial respiratory chain enzyme). Prognosis • Patients rarely live beyond their 40s and there are no therapeutics currently available. Kallman's syndrome Overview • Kallman's syndrome is a recognised cause of delayed puberty secondary to hypogonadotrophic hypogonadism. • It is usually inherited as an X-linked recessive trait. • Caused by failure of GnRH-secreting neurons to migrate to the hypothalamus → gonadotrophin releasing hormone (GnRH) deficiency • May arise due to abnormalities of the KAL-1 or KAL-2 gene (encoding anosmin-1 and FGF1). • There is isolated gonadotrophic deficiency (may be evidenced by a normal prolactin). • The clue given in many questions is lack of smell (anosmia) in a boy with delayed puberty Incidence • 1 in 10,000 males • More common in men: male to female ratio of 4:1. Features • Hypogonadotrophic hypogonadism Sex hormone levels are low LH, FSH levels are inappropriately low/normal Lack of development of secondary sexual characteristics Primary amenorrhoea. • Infertility In male individuals: cryptorchidism and low sperm count In female individuals: primary amenorrhea • Cryptorchidism (Cryptorchidism is more suggestive of Kallman's than Klinefelter's syndrome) Cryptorchidism is the absence of one or both testes from the scrotum (undescended testis). • Anosmia present in 75% (Lack sense of smell) due to failure of the olfactory bulb to develop, leading to loss of gonadotropin releasing hormones. • Patients are typically of normal or above average height • No mental retardation • Delayed puberty: (e.g., absent thelarche in female individuals, decreased growth spurt) Kallman's – LH & FSH low – normal Klinefelter's – LH & FSH – raised Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • Associated disorders Renal agenesis Cleft lip/cleft palate Visual defects : colour blindness Deafness Diagnosis • Diagnostic test →Fluorescent in situ hybridisation (FISH) is currently the best means of a genetic diagnosis • Absent olfactory bulbs are present on 75% of MRI scans in these patients. The appearance on cerebral MRI →Absent olfactory bulbs Treatment • For a male who begin a relationship with a woman Pulsed (NOT Continuous) GnRH treatment is needed to restore LH and FSH release.  It needs to be continued for as long as fertility is required.  As natural GnRH release is pulsatile, continuous therapy fails to lead to LH and FSH release.  Once his family is complete, switching to testosterone therapy may be more convenient for him.  Although Testosterone supplementation will restores secondary sexual characteristics, it doesn’t restore fertility and is therefore not appropriate here.  FSH can be used to induce fertility, but it is less effective than pulsed GnRH therapy. • If fertility is not required, there is no need to stimulate spermatogenesis with (GnRH) or gonadotropins; only testosterone replacement is required. • LH can be used in conjunction with FSH to induce fertility in women with Kallmann syndrome. • For a woman who wants to start a family: HCG to drive production of gonadal steroid hormones, FSH to drive ovulation, harvesting of eggs, and IVF. This process is most effective in achieving successful pregnancy. Klinefelter's syndrome Overview • Klinefelter's syndrome is associated with male phenotype and 47, XXY karyotype • the commonest form of which is XXY, is the result of chromosomal non-dysjunction; as such, it does not follow a mendelian pattern of inheritance. Klinefelter's? - do a karyotype Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics • it is the most common chromosomal disorder associated with male hypogonadism and infertility. • Incidence: between 1 in 500 and 1 in 1000. • The rate of chromosomal non-dysjunction increases with increasing maternal age and increasing paternal age, each parent contributing 50% of the risk. Around 60% of Klinefelter cases do not survive the fetal period. • has no specific genetic pattern of inheritance  chances of inheriting the disorder < 1% Features • often taller than average • lack of secondary sexual characteristics • small, firm testes • infertile, azoospermia • gynaecomastia increased incidence of breast cancer (20 times higher than a normal male). • elevated gonadotrophin levels ( ↑↑LH/FSH) due to testicular failure  Leydig cell dysfunction ↓testosterone ↑LH ↑estrogen. dysgenesis of seminiferous tubules ↓ inhibin B ↑ FSH. • Low testosterone levels • Low HDL cholesterol, elevated triglyceride ,normal or increased (LDL) • increased cardiovascular risk due to lipid abnormality. • decrease libido • decrease bone mineral density increased risk of osteoporotic fractures. Investigation • Diagnosis is by chromosomal analysis • the most appropriate investigation in suspected cases FSH, LH Both FSH and LH are raised in Klinefelter syndrome, and elevation would be a strong pointer to confirming the underlying diagnosis.  more useful than Testosterone (wouldn’t indicate whether the defect was at the level of the pituitary or the testes) Treatment → Testosterone • Testosterone is known to improve bone mineralization and is the treatment of choice Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Turner's syndrome Overview • affects around 1 in 2,500 females. • caused by either the presence of only one sex chromosome (X) or a deletion of the short arm of one of the X chromosomes. • denoted as 45,XO or 45,X Features • short stature • shield chest, widely spaced nipples • webbed neck • cardiac defects: bicuspid aortic valve (15%), coarctation of the aorta (5-10%)  hypertension and systolic murmur Turner's syndrome - most common cardiac defect is bicuspid aortic valve 075 - Chapter 16 075 Chapter 16 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics • primary amenorrhoea • associated absent uterus and streak ovaries • cystic hygroma (often diagnosed prenatally) • high-arched palate • short fourth metacarpal • multiple pigmented naevi • keloid scars • lymphoedema in neonates (especially feet) • Horseshoe kidney is strongly associated with Turner’s syndrome often initially presents with stone disease, pelviureteric junction (PUJ) obstruction, trauma, infections and tumors. In a pediatric patient with multiple urinary tract infections or renal stones, imaging must be performed to rule out this congenital anomaly. Which anatomical structures is responsible for horseshoe kidney anomaly during normal embryological development? Inferior mesenteric artery occurs when the isthmus of the kidney becomes trapped behind the inferior mesenteric artery as the kidneys ascend during embryonic life. Associated conditions • autoimmune diseases: autoimmune thyroiditis (hypothyroidism (much more common in Turner’s) ) and Crohn's disease • Hypertension is quite common in Turner syndrome (10%) and is typically idiopathic - essential. In a small proportion causes can include: coarctation of the aorta and renal dysfunction due to horsehoe kidney. • metabolic abnormalities (dyslipidaemia and glucose intolerance) • recurrent otitis media. • Diabetes mellites Although the incidence of diabetes mellitus is increased in patients with Turner syndrome, it is thought to be driven by insulin resistance and is very responsive to weight loss. Diagnosis • karyotype →identification of 45X0 . Prognosis • What condition is responsible for most of the excess mortality associated with Turner syndrome? Thoracic aortic aneurysm rupture Marfan's syndrome Overview • autosomal dominant connective tissue disorder. • caused by a defect in the fibrillin-1 gene on chromosome 15 Mutation of FBN1 that encodes Fibrillin-1. Marfan's syndrome is caused by a mutation in a protein called fibrillin-1 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • affects around 1 in 3,000 people. • may occur as a spontaneous mutation, (1/3rd of cases), and this occurs more commonly to offspring of older males. Features • Skeletal tall stature with arm span to height ratio > 1.05 high-arched palate arachnodactyly pectus excavatum pes planus scoliosis of > 20 degrees crowded teeth. Dural ectasia:  ballooning of the dural sac at the lumbosacral level  Dural ectasia affects around 60% of patients with Marfan's syndrome.  It may cause lower back pain associated with neurological problems such as bladder and bowel dysfunction. ligamentous/joint laxity resulting in multiple joint dislocations, hypermobile joints • Heart: Dilation of the aortic sinuses (seen in 90%) which may lead to aortic aneurysm, aortic dissection, aortic regurgitation, mitral valve prolapse (75%). • Lungs: repeated pneumothoraxes • Eyes: Upwards lens dislocation (superotemporal ectopia lentis) seen in 50% of patients Retinal detachment Blue sclera, myopia, early glaucoma, and early cataracts. Diagnosis • Unfortunately, DNA testing for fibrillin gene mutations, whilst helpful, cannot exclude a diagnosis of Marfan because a number of mutations exist (at least 130). • Hence diagnosis is made on the major and minor features associated with the syndrome. Prognosis & treatment : • The life expectancy of patients used to be around 40-50 years. • With the advent of regular echocardiography monitoring and beta-blocker/ACE-inhibitor therapy this has improved significantly over recent years. Treatment with β-blockers reduces the rate of aortic dilatation and the risk of rupture • Aortic dissection and other cardiovascular problems remain the leading cause of death however. • Pregnancy is associated with increased risk of aortic rupture. A mutation of which gene is most closely associated with Marfan's syndrome? FBN-1 mutation  FBN-1 gene mutation →Defect in fibrillin →Marfan's Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Homocystinuria Overview • Autosomal recessive disease • Caused by deficiency of cystathionine beta synthase results in an accumulation of homocysteine cystathionine beta synthase is responsible for converting homocysteine to cystathionine. Cystathionine is later converted to cysteine,  so, patients who have this enzyme deficiency need to supplement their diets with exogenous cysteine.  Levels of homocysteine and methionine accumulate Types • Homocystinuria type 1 →a defect in cystathionine synthetase is responsible. • Homocystinuria type 2 →defects in methylene tetrahydrofolate reductase However, individuals with this condition rarely survive the neonatal period or, if they survive longer than this, they often have more severe mental retardation. Features • fine, fair hair • musculoskeletal: may be similar to Marfan's - arachnodactyly etc • neurological: learning difficulties, mild to moderate mental handicap ,seizures • ocular: downwards (inferonasal) dislocation of lens The sudden visual deterioration could either be due to a thrombotic episode or to the lens dislocation associated with this condition. • increased risk of arterial and venous thromboembolism (atherosclerosis, thrombosis, MI) the most common cause of death. • malar flush, • livedo reticularis Diagnosis • made by the cyanide-nitroprusside test, which is also positive in cystinuria addition of sodium nitroprusside to urine → urine changes color to an intense red • Guthrie test is used for screening the neonates for the presence of homocystinuria. Treatment • Dietary modification aim to: reduce intake of methionine and increase intake of cysteine. • vitamin B6 (pyridoxine) supplements 50% of patients respond to large doses of pyridoxine (vitamin B6) • Folate and vitamin B12 supplements facilitate the conversion of homocysteine to methionine. homocysteine levels (homocysteinemia) are more commonly tested in diagnosis of Vitamin B12 Deficiency. Marfanoid skeletal abnormalities (tall and thin, elongated limbs, arachnodactyly) + mental retardation Homocystinuria Homocystinuria VS Marfan's homocystinuria Marfan's syndrome inheritance autosomal recessive autosomal dominant lens dislocation downward lens dislocation upward lens dislocation aortic incompetence heart rarely affected aortic incompetence may occur intellectual development mental retardation (nearly 50%) normal seen due to the venous thrombosis in the small vessels of the skin livedo reticularis osteoporosis, recurrent thromboembolism; characteristic laboratory features: other principle features plasma methionine and homocystine levels are elevated, homocystine is excreted in the urine, plasma cystine levels are reduced, positive urine cyanide-nitroprusside test; response to treatment with pyridoxine Fragile X syndrome Overview • Fragile X syndrome is a disorder affecting the methylation and expression of the fragile X mental retardation 1 gene. • genetic inheritance X-linked dominant with variable penetration • Patients affected by fragile X syndrome usually have over 200 CGG trinucleotide repeats. Features • moderate to severe mental retardation • prognathism • face: (long face, prominent forehead, large jaw (prognathism) and large ears • macro-orchidism In post pubertal males, abnormally large testes are a distinctive feature. • speech delays • double-jointedness • autistic symptoms, • occasional self-mutilation. • Otitis media, strabismus, and dental problems may be present • hyperextensible joints • hypotonia, • heart problems, including mitral valve prolapse. Management • Treatment focused on preventing common medical problems such as gastroesophageal reflux, sinusitis, and otitis media,+ • speech, occupational, and physical therapy. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad NO flat feet, herniae, scoliosis; there is a 50% reduction in life expectancy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Trinucleotide repeat disorders Definition • Trinucleotide repeat disorders are genetic conditions caused by an abnormal number of repeats (expansions) of a repetitive sequence of three nucleotides. • These expansions are unstable and may enlarge which may lead to an earlier age of onset in successive generations - a phenomenon known as anticipation. In most cases, an increase in the severity of symptoms is also noted • Friedreich's ataxia is unusual in not demonstrating anticipation Examples ( note dominance of neurological disorders): • Fragile X (CGG) • Huntington's (CAG) • myotonic dystrophy (CTG) CTG repeats in the DMPK gene • Friedreich's ataxia* (GAA) (*Friedreich's ataxia is unusual in not demonstrating anticipation) • spinocerebellar ataxia • spinobulbar muscular atrophy • Kennedy disease, also known as 'X-linked bulbospinal neuronopathy' • dentatorubral pallidoluysian atrophy Genetic anticipation • Definition: The 'classic' definition of anticipation is earlier onset in successive generations. However, in most cases, an increase in the severity of symptoms is also noted. If both options (earlier onset and sever symptoms) are presented, then the earlier onset should be chosen • Example: A man aged 33 presents with features of Huntington’s disease (depression, weight loss and choreiform movements). He informs you that his father had similar symptoms aged 50, his grandfather aged 75 and both deteriorated in terms of mobility and mental state, and eventually died. • Occur in: Huntington’s disease Myotonic dystrophy Fragile X syndrome Anticipation: successive generations present with symptoms at an earlier age Trinucleotide repeat disorders mnemonic: Try (trinucleotide) hunting for my fried eggs (X). Anticipation in trinucleotide repeat disorders = earlier onset in successive generations Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Polygenic diseases • Definition: genetic disorder that is caused by the combined action of more than one gene. Because such disorders depend on the presence of several genes, they are not inherited as simply as are single-gene diseases. • Examples: hypertension, coronary heart disease, diabetes  Amyotrophic lateral sclerosis (ALS) Lysosomal storage diseases Definition • Lysosomal storage diseases are a group of inherited metabolic disorders caused by a deficiency of specific enzymes. This causes an accumulation of abnormal substances that are usually degraded within lysosomes, resulting in cell damage and death. Risk factors • Ashkenazi ethnicity • Male sex Fabry's disease is X-linked, but heterozygous females typically (>75%) do have symptoms, although less severe, more variable in expression, and at a later age of onset. Key features • Hyperacusis →Characteristic of Tay-Sachs disease. • Optic atrophy or retinitis pigmentosa are seen in juvenile form of Tay-Sachs disease. • hx of renal failure →Found in adult Fabry's disease. • Hepatosplenomegaly →common in Gaucher's disease • onset in adulthood (Fabry's, Gaucher's type 1, Pompe's) Diagnosis • Enzyme assay (1st investigations to order) Gaucher's disease Gaucher • Glucocerebrosidase deficiency • Glucocerebroside accumulation Features involve multiple systems: Blood (pancytopaenia , anaemia, recurrent infections,) bones, hepatosplenomegaly, lung (cough) →think of Gaucher's disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Pathophysiology • Autosomal recessive mutation in the glucocerebrosidase (GBA) gene located on chromosome 1 → Deficiency of β-glucocerebrosidase → accumulation of glucocerebroside (sphingolipid found in cell membranes that can accumulate in the lysosome of macrophages) in the brain, liver, spleen, and bone marrow (i.e., Gaucher cells). Epidemiology • Gaucher's disease is the most common lysosomal storage diseases. • About one in 100 people in the United States are carriers of the most common type of Gaucher disease (type I). • The carrier rate among Ashkenazi Jews is 8.9% while the birth incidence is one in 450. Consequences • Parkinson's disease is more common in Gaucher's disease patients (the most commonly known genetic risk factor for Parkinson's) • Cancer risk may be increased, particularly myeloma. Types • GD type I (Chronic non-neuropathic; adult Gaucher disease) Most common form Associated with a normal lifespan • GD type II (Acute neuropathic; infantile Gaucher disease) typically begins within 6 months of birth Symptoms include progressive brain damage, spasticity and seizures. carries the worst prognosis, affected children usually die by age two. • GD type III (Subacute neuropathic; juvenile Gaucher disease) can begin at any time in childhood or even in adulthood characterized by slowly progressive, but milder neurologic symptoms compared to type II.  Patients often live into their early teen years and adulthood Features • Hepatosplenomegaly (massive splenomegaly) • Bone pathology (bone crises, osteoporosis, aseptic necrosis) the chief complaint is of bone pain in an adult. • Blood abnormalities: anemia, thrombocytopenia • diffuse infiltrative pulmonary disease • Growth delays • Yellowish-brown skin and scleral pigmentation (Characteristic yellow or yellow-brown papules (pingueculae) develop at the sclerocorneal junctions). Diagnosis • Enzyme analysis (Enzyme studies of blood leucocytes) → Reduced glucocerebrosidase activity in leukocytes or fibroblasts • Accumulation of glucocerebroside in leukocytes or fibroblasts • Gaucher cell: lipid-rich macrophages with an enlarged cytoplasm with inclusions that resemble crumpled tissue paper on microscopy Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Treatment • Recombinant glucocerebrosidase. The slide shows yellow papules (pingueculae) in the cornea; these are characteristic of Gaucher disease. Common exam questions • Features of anaemia, recurrent pneumonia, bone pain and hepatosplenomegaly. Which of the following is the most likely diagnosis? Gaucher’s disease • Features of anaemia, recurrent pneumonia, bone pain and hepatosplenomegaly .Which of the following is the most likely enzyme deficiency found in this patient? Glucocerebrosidase Fabry's disease Pathophysiology (a lysosomal storage disorder) • X-linked recessive mutation → α-Galactosidase A deficiency → accumulation of trihexoside ceramide (a glycolipid found in multiple body tissues) in the endothelium of vessels, in the epithelium of many organs, and in smooth muscle cells → disorder affecting many organ systems. Epidemiology • Typical onset is during childhood but may also appear in 60–80-year-old adults • Mainly affects boys Features • Early features Peripheral neuropathy: Periodically occurring dysesthesia in the hands and feet caused by small fiber neuropathy , which manifests as burning pain (Fabry crises) Anhidrosis or hypohidrosis (decreased sweating) Angiokeratomas (warty skin lesions with telangiectasia and hyperkeratinized covering) Corneal clouding Cataract Gaucher disease causes massive splenomegaly Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics • Late features Restrictive cardiomyopathy Cerebrovascular lesions (TIA and stroke) Fabry nephropathy, causing progressive renal failure ( the first manifestation of renal insufficiency in Fabry disease is proteinuria.) The disorder has three distinct clinical entities: Classical presentation in the male homozygote with early presentation in childhood - angiokeratomas, heart failure, cataracts and renal disease Male homozygotes with atypical presentation in adulthood with proteinuria, acroparaesthesia, angiokeratomas and cardiomegaly Female heterozygotes can present again in adulthood with similar mild symptoms.  An X linked recessively inherited condition can exist in female carriers who may exhibit mild to moderate symptoms. This is due to variable expression according to random X inactivation of the affected gene in embryogenesis most common symptoms →peripheral neuropathy, angiokeratomas, and hypohidrosis. Diagnosis • Absent or deficient levels of alpha-galactosidase A in leucocytes, plasma or cultured fibroblasts. • Gene analysis of alpha-galactosidase A (GLA) gene (the gold standard for the diagnosis) • Slit-lamp examination of the cornea → microscopic lipid deposits • Microscopy of the spun urine sediment may demonstrate 'Maltese cross' lipid globules In Fabry disease, tissue accumulation of which is most likely to occur? Trihexosyl ceramide Treatment • Enzyme replacement therapy with α-galactosidase A Mucopolysaccharidoses (MPS) (Hurler's & Hunter's syndromes) Pathophysiology • Mutations in lysosomal enzymes → impaired breakdown of glycosaminoglycans → Accumulation of glycosaminoglycans, i.e., heparan sulfate (HS) and dermatan sulfate (DS) Features • Occur in both conditions (typically milder in Hunter syndrome): Developmental delay Facial dysmorphism: frontal bossing, elongated skull , flattened nasal bridge, broad nasal tip, thickened gingiva, anteverted nostrils, constant nasal discharge, spaced and protruded eyes. Airway obstruction Hepatosplenomegaly Diagnosis • Increased urinary levels of dermatan sulfate (DS) and heparan sulfate (HS) • Enzyme assay to confirm specific enzyme deficiency (definitive test) Treatment • Enzyme replacement therapy • Bone marrow transplantation Hurler syndrome (mucopolysaccharidosis type I) Hunter syndrome (mucopolysaccharidosis type II) Inheritance Autosomal recessive X-linked recessive Pathophysiology Deficiency of α-L-iduronidase (enzyme responsible for the hydrolysis of glycosaminoglycans) Features Corneal clouding Inguinal hernia Which feature suggests a diagnosis of Hurler's syndrome rather than Hunter's syndrome? Cloudy cornea. Hunter syndrome presents as Hurler syndrome, but patients with Hunter syndrome have normal vision and aggressive behavior. Glycogen storage disorders (GSD) Key feature of glycogen storage disorders: • Tay-Sachs commonly has a 'cherry red spot' macula • Pompe disease leads to cardiomyopathies • McArdle's disease leads to rhabdomyolysis after exercise and lactic acidaemia • Von Gierke disease leads to hypoglycaemia and hepatomegaly Pompe trashes the Pump (heart) Glycogen • Glycogen is the storage form of carbohydrate, found predominantly in muscle and liver. • Chains of glucose residues are linked by alpha-1,4 glycosidic bonds, i.e. between the first carbon of one glucose and the fourth carbon of the next. Branches occur about every ten residues, and are formed by alpha-1,6 glycosidic linkages. • Glycogen synthesis and degradation occur at the tips of branches, with the branching structure increasing the number of sites at which glucose residues can be added or removed. Pompe's disease or acid maltase deficiency (glycogen storage disorder type 2): is a deficiency in alpha-glucosidase. It produces a myopathy , restrictive cardiomyopathy and hepatomegaly. Glycogen storage disorders: • Muscle involvement (muscle glycogenoses): Types II, III, IV, V • Liver involvement (liver glycogenoses): Types I, III, IV • Types III and IV (late-onset type) may present with both muscle and liver involvement • NO liver involvement V Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Deficiency of iduronate-2-sulfatase Aggressive behavior, Hyperactivity No corneal clouding Carpal tunnel syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics • Autosomal recessive • All types of glycogen storage diseases result in abnormal metabolism and product accumulation within cells. • Type IV (Andersen's disease) is the only one GSD involved in Glycogen Synthesis. The rest are involved in Glycogen degradation. Diagnosis • Periodic acid-Schiff stain is helpful in diagnosing glycogen storage disorders. Type I (Von Gierke's disease) • Relative frequency: ∼25% • Deficient enzyme Type 1a → Glucose-6-phosphatase  Role of the enzyme →Hydrolysis of glucose-6-phosphate to glucose and inorganic phosphate Type 1b → Glucose-6-phosphate translocase  Role of the enzyme →Transport of glucose-6-phosphate into the endoplasmic reticulum where it is hydrolyzed by glucose-6-phosphatase • Characteristic features Hepatomegaly Severe fasting hypoglycemia, mild ketosis Severe hyperlipidemia → doll-like facies Hyperuricemia Lactic acidosis Anemia Failure to thrive Type II (Pompe's disease) • Relative frequency: ∼15% • Deficient enzyme: Lysosomal acid maltase deficiency • Role of the enzyme: Glycogenolysis within the lysosome • Characteristic features Hypertrophic cardiomyopathy and/or conduction blocks Proximal myopathy Macroglossia Failure to thrive Type III (Cori's disease) • Relative frequency: ∼25% • Deficient enzyme: debranching enzyme (alpha-1,6-glucosidase). • Role of the enzyme: Glycogenolysis • Characteristic features Generalized muscle weakness and/or cramps Hepatomegaly Possibly cirrhosis (ascitis, splenomegaly) Mild, fasting hypoglycemia and ketosis Hyperlipidemia Type IV (Andersen's disease) • Relative frequency: ∼3% • Deficient enzyme: Glycogen branching enzyme • Role of the enzyme: Glycogenesis • Characteristic features Proximal myopathy Hepatomegaly Possibly cirrhosis (ascites, splenomegaly) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Type V (McArdle's disease) • Relative frequency: ∼2% • Deficient enzyme: Muscle phosphorylase (myophosphorylase) • Role of the enzyme: Glycogenolysis • Characteristic features Generalized muscle weakness, exercise intolerance (with a second wind phenomenon) , Rhabdomyolysis and myoglobinuria McArdle's disease (Type V glycogen storage disease) Pathophysiology • Autosomal recessive mutation in myophosphorylase (PYGM) gene on chromosome 11 → myophosphorylase deficiency (myophosphorylase is involved in the breakdown of glycogen to glucose) → unable to release glucose from glycogen in muscle (decreased muscle glycogenolysis). Features • Muscle pain and stiffness following exercise (reversible) in the first few minutes of activity. Characterised by 'second wind' phenomenon  after about 8 minutes most patients achieve a 'second wind' and can then continue exercise with less difficulty.  Second wind is a phenomenon in distance running, such as marathons (an athlete who is too tired to continue suddenly finds the strength to press on at top performance with less exertion).  Mechanism →metabolic switch When non-aerobic glycogen metabolism is insufficient to meet energy demands, physiologic mechanisms utilize alternative sources of energy such as fatty acids and proteins via aerobic respiration. muscle fibers use fat as a source of energy. Investigations • Creatine kinase levels are elevated in more than 90% • NO increase in venous lactic acid levels following exercise testing. • Urine study →Myoglobinuria following exercise • Muscle and/or liver biopsy →↑glycogen→ PAS-positive granules (initial tests) • DNA testing for the gene defects (Gene sequencing): the gold standard for the diagnosis Often presents in adolescence with exercise intolerance, cramps and weakness A history of painful muscle cramps that occur within a few minutes of initiating activity and which subside rapidly with rest, in conjunction with a raised serum CK, is highly suggestive of McArdle's disease Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Management • No specific treatment • Dietary therapy (e.g., uncooked corn starch, glucose preparations) with the aim of preventing hypoglycemia and/or muscle symptoms • Foods rich in fructose and galactose should be avoided in patients with GSD type I • Advised to ingest snacks containing sucrose before exercise. • Tourniquets should not be used during operative procedures The exertional thigh cramps, the presence of myoglobin and change in colour of urine after exercise suggests glycogen storage disease type V - McArdle's syndrome. the next most appropriate investigation → Muscle biopsy which reveals subsarcolemmal deposits of glycogen appearing at the periphery of fibres. Linkage disequilibrium • Linkage disequilibrium is the non-random association of alleles at different loci in a given population. • Loci are said to be in linkage disequilibrium when the frequency of association of their different alleles is higher or lower than what would be expected if the loci were independent and associated randomly. • Consider the scenario of two separate genetic loci A and B, where each locus carries two possible alleles. If these two loci A and B are in linkage disequilibrium →An individual with locus A is likely to have locus B • Linkage disequilibrium almost always, occurs between alleles at genetic loci that are closely linked in the genome. Imprinting Definition • imprinting is a phenomenon by which certain genes are expressed in a parent-of-originspecific manner. the term 'imprinting' refers to →Differential expression of alleles contingent on their parental origin  If the allele inherited from the father is imprinted, it is thereby silenced, and only the allele from the mother is expressed.  If the allele from the mother is imprinted, then only the allele from the father is expressed. Mechanism • poorly understood but does involve DNA methylation. • Disease may occur as a result of a defect in one allele if the other allele is imprinted and hence not expressed. Examples • diseases involving genomic imprinting include:  Prader–Willi syndrome (paternally imprinted) Angelman syndrome (maternally imprinted) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Prader-Willi syndrome Overview • Prader-Willi syndrome is an example of genetic imprinting where the phenotype depends on whether the deletion occurs on a gene inherited from the mother or father: Prader-Willi syndrome if gene deleted from father Angelman syndrome if gene deleted from mother • Prader-Willi syndrome is associated with the absence of the active Prader-Willi gene on the long arm of chromosome 15 , this may be due to: Microdeletion of paternal 15q11-13 (70% of cases) Maternal uniparental disomy of chromosome 15 • The mode of inheritance is →Non-Mendelian Features • Hypotonia during infancy • Dysmorphic features • Short stature (Growth hormone deficiency ) • Hypogonadism and infertility (risk factor for osteoporosis) • Cryptorchidism (undescended testis) • Learning difficulties • Childhood obesity due to Hyperphagia (abnormally desire for food →overeating → obesity) • Behavioural problems in adolescence • Associated with elevated ghrelin Ghrelin is a hormone produced in the fundus of the stomach and in the pancreas Ghrelin levels increase before meals and decrease afterwards  Receptors for ghrelin are found in the arcuate nucleus and the hypothalamus Treatment • Administration of growth hormone and sex hormones (testosterone) is the treatment of choice • Calorie restriction MRCPUK-part-1-September 2017 exam: Which one of the following is the most common genetic cause of Prader-Willi syndrome? Microdeletion of the paternal 15q11-13 Chromosome 15 is implicated in Prader-Willi, Angelman, and Marfan syndromes. Deletion of chromosome 15 Prader-Willi – paternal Angelman syndrome - maternal Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics Angelman syndrome Overview • Angelman syndrome is a genetic condition characterized by a mutation on the maternal copy of chromosome 15. • occurs as a result of a phenomena known as genomic imprinting. • The imprinted copy of the gene is silenced through methylation or histone modification. • Normally, certain paternal alleles on chromosome 15 are silenced and only the maternal alleles are expressed. However, in Angelman syndrome, the maternal alleles are mutated. Hence, the patient will have disease since only the mutated maternal alleles are active. Features • Developmental delay • Intellectual disability • Seizures, Ataxia • Unprovoked laughter • Large mouth with tongue protrusion. • Hypo-pigmentation with blond hair Diagnosis • genetic studies showing loss of function of the UBE3A gene. Mutations • Missense mutation substitution in one amino acid in a protein e.g: glutamic acid is substituted by valine in sickle-cell disease • Nonsense mutation the altered DNA sequence prematurely signals the cell to stop building a protein. This type of mutation results in a shortened protein that may function improperly or not at all. • Insertion mutation changes the number of DNA bases in a gene by adding a piece of DNA. As a result, the protein made by the gene may not function properly. • Frameshift mutation insertions or deletions of nucleotides e.g: cystic fibrosis • Point mutation a change in a single nucleotide e.g: C282Y mutation responsible for haemochromatosis • Splicing mutation results in larger nonfunctional protein e.g: β-thalassemia • Large Segment Deletion Unequal crossover at meiosis results in loss of large segment of DNA Loss of function mutation e.g., α-thalassemia (deletion of α-globin gene) • Termination mutation generation of a premature stop codon e.g: Hurler syndrome Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chromosome abnormality • Chromosome anomalies usually occur when there is an error in cell division following meiosis or mitosis. Types • Numerical disorders called aneuploidy (an abnormal number of chromosomes), occurs when an individual either is:  missing a chromosome from a pair (monosomy) e.g: Turner syndrome, (born with only one sex chromosome, an X).  has more than two chromosomes of a pair (trisomy, tetrasomy, etc.). e.g: Down syndrome (trisomy 21) Unbalanced autosomal translocation  most likely to cause a severe phenotype  As a rule, the clinical effects of a chromosome abnormality reflect the amount of imbalance of genetic material. For example: all autosomal monosomies and most autosomal trisomies are incompatible with life, the exceptions being trisomy 13 (Patau syndrome), trisomy 18 (Edward syndrome) and trisomy 21 (Down syndrome); only the last of these carries a reasonable life expectancy. Sex chromosome aneuploidy:  This is associated with comparatively less severe phenotypes, e.g. Klinefelter syndrome (XXY) and Turner syndrome (XO). • Structural abnormalities: e.g: Duplications:  A portion of the chromosome is duplicated, resulting in extra genetic material.  e.g: Charcot-Marie-Tooth disease type 1A, caused by duplication of the gene encoding peripheral myelin protein 22 (PMP22) on chromosome 17. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 16 Basic sciences Genetics List of common Chromosomal disorders: Chromosome disorders Chromosome 1 variegate porphyria chromosome 3 von Hippel Lindau (VHL) Chromosome 4 Polycystic Kidney Disease (PKD2) Huntington's disease Achondroplasia Chromosome 6 hereditary haemochromatosis Chromosome 7 Cystic Fibrosis Chromosome 9 Fredrich's ataxia Chromosome 11 Sickle Cell Disease Beta-Thalassemia Chromosome 12 Phenylketonuria von Willebrand’s disease Chromosome 13 Patau Syndrome. Wilson Disease. retinoblastoma Chromosome 15 Marfan’s Syndrome Angelman Syndrome Prader-Willi Syndrome Tay-Sachs Disease. Chromosome 16 Polycystic Kidney Disease (PKD1) alpha- Thalassemia Chromosome 17 Celiac Disease. Charcot-Marie-Tooth Disease. Neurofibromatosis (NF1) Chromosome 18 Edward Syndrome Chromosome 19 Myotonic Dystrophy Chromosome 21 Down Syndrome Chromosome 22 DiGeorge Syndrome. Neurofibromatosis (NF2) McCune–Albright syndrome (MAS) McCune-Albright syndrome: • Triad of patchy skin pigmentation, bone abnormalities, and endocrine abnormalities. • McCune-Albright syndrome is a form of mosaicism • Due to a mutation in the GNAS1 gene Notes & Notes For MRCP part 1 & 11 By Dr. Yousif Abdallah Hamad Basic science Biostatistics & EBM Updated Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Significance tests Null hypothesis (H0) • A null hypothesis (H0) states that two treatments are equally effective (and is hence negatively phrased). • A significance test uses the sample data to assess how likely the null hypothesis is to be correct. • The null hypothesis is always that there is no difference between the variables we would like to test for a difference. • For example: 'there is no difference in the prevalence of colorectal cancer in patients taking low-dose aspirin compared to those who are not' The alternative hypothesis (H1) • is the opposite of the null hypothesis, i.e. There is a difference between the two treatments P value • The p value is the probability of obtaining a result by chance at least as extreme as the one that was actually observed, assuming that the null hypothesis is true. • It is therefore equal to the chance of making a type I error (see below). • the p-value is the probability of obtaining the observed results or results which are more extreme if the null hypothesis is true • Example: if p=0.03. What does ‘p=0.03’ mean? • It means the probability that a difference between the two sample groups occurred by chance is 3% Statistical errors • Two types of errors may occur when testing the null hypothesis type I:  the null hypothesis is rejected when it is true, ‘the null hypothesis is falsely rejected’. i.e. Showing a difference between two groups when it doesn't exist, a false positive.  This is determined against a preset significance level (termed alpha).  As the significance level is determined in advance the chance of making a type I error is not affected by sample size.  It is however increased if the number of end-points are increased. For example if a study has 20 end-points it is likely one of these will be reached, just by chance. i.e. the result is just a statistical fluke. type II:  the null hypothesis is accepted when it is false, ‘the null hypothesis is falsely accepted’.- i.e. Failing to spot a difference when one really exists, a false negative.  The probability of making a type II error is termed beta.  It is determined by both sample size and alpha. This can happen if the sample size is too small. Increasing the sample size reduces the standard error, meaning the estimate is more precise and the probability of a type-2 error is reduced.  This type of error can be avoided by making explicit power calculations before embarking on any study. This will answer the question ‘if I am studying an Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad outcome that occurs in (say) 20% of a conventionally treated group and want to show a (say) halving in the rate of this outcome, then how many patients do I need to study?’ Study accepts H0 Study rejects H0 Reality H0 Type 1 error (alpha) Reality H1 Type 2 error (beta) Power (1 - beta) Error: type I (alpha) vs. type II (beta) Type I (Alpha) Error: "There Is An Effect" where in reality there is none. The power • The power of a study is the probability of (correctly) rejecting the null hypothesis when it is false, i.e. the probability of detecting a statistically significant difference power = 1 - the probability of a type II error power can be increased by increasing the sample size • As the power decreases, type II error (= 1-power) will increase. Therefore, the chance of type II error will increase if the same sample size is used. • The statistical power will decrease if the standard deviation increases. • Power of the study' refer The probability of a statistically significant treatment effect if the true treatment difference is at a prespecified level • Power is determined by sample size, effect size, and its standard error. • The statistical significance of a result is the probability ('p value') that the observed relationship (eg between variables) or a difference (eg between means) in a sample occurred by pure chance and that in the population from which the sample was drawn, no such relationship or differences exist • The sample size can be reduced if the level of significance is increased. • The power increases with the set level of significance, if other variables remain the same. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Significance tests: types Correlation • parametric (normally distributed): Pearson's coefficient • non-parametric: Spearman's coefficient • The type of significance test used depends on whether the data is parametric (something which can be measured, usually normally distributed) or non-parametric Parametric tests (the data follow normal distribution) (quantitative variables)  Student's t-test - paired or unpaired*  Pearson's product-moment coefficient (Pearson correlation coefficient) used to assess correlation (strength of association) between two variables Non-parametric tests  Mann-Whitney U test - unpaired data used to compare medians or rank orders of two groups with nonnormal distribution.  Wilcoxon signed-rank test: compares two sets of observations on a single sample The data in the study is non-parametric, paired and comes from the same population.  chi-squared test: used to compare proportions or percentages (eg: prevalence) between two categorical variables for example, comparing the proportion of children developing measles between a group receiving a new measles vaccine and a group not given the vaccine Should be used for 2 independent samples.  Spearman, Kendall rank: measures the correlation between the ranks of two variables which do not follow a normal distribution. compares ranks and not values, such as the perception of pain (ranked on a scale of 1-10) • Paired data refers to data obtained from a single group of patients, e.g. Measurement before and after an intervention. Unpaired data comes from two different groups of patients, e.g. Comparing response to different interventions in two groups In a scenario looks at whether the values are correlated, and the data is non-parametric, (e.g: pain scale), Spearman's rank correlation coefficient should be used. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Choosing the appropriate test • Choosing of a test to examine a statistical problem depends upon the scale of measurement (nominal, ordinal, interval, ratio) and the type of question being asked • a non-parametric test would give less power Student's t- test • Paired t test Compares a single measure (variable) recorded on a single group of individuals on two different occasions.  Is used to compare means in a single sample, for example, before and after treatment. comparing means (not proportions) in the same subjects paired t-test is used to compare post-treatment and pre-treatment result of a single group. eg: the same subject measured before and after a process change, or the same subject measured at different times. As both sets of measurements were made on the same patients, the measurements are not independent • Unpaired t-test (independent sample t-test)  is the most appropriate statistical test to compare means of two independent samples.  compare the means of two different populations An independent sample t-test may be used in a study of two independent treatment groups, and the sample sizes are relatively large (>30 in each group) and the variable is Normally distributed. eg: Blood pressure is a continuous variable which is normally distributed; as such Student's t test is the most appropriate way to test for differences in the mean BPs between the two groups. For example, suppose we are evaluating the effect of a medical treatment, and we enroll 100 subjects into our study, then randomly assign 50 subjects to the treatment group and 50 subjects to the control group. In this case, we have two independent samples and would use the unpaired form of the t-test. eg: 2 groups (treatment group & placebo group) In a randomised controlled trial of drug A for treatment of hypercholesterolemia Log-rank test • Is the most appropriate test to compare two survival curves with censored data. • Log-rank test should be used to compare survival data between two groups, but not compare median survival. Mean survival is not known unless all patients have died. • If a question presented survival data and some observations are censored(ex: not came for follow up) and the outcomes are not known. We need to use survival analysis for such data and the log-rank test is the appropriate test to use to compare survivals in two independent groups. • can be used to test the difference in relapse rate between the two groups McNemar's test • is applied to binary data, but is only applicable to paired data, used to compare proportions • McNemar's test is used to compare paired samples - either case control studies where each case is matched to a control, or to studies where two treatments are given to matched subjects. • It cannot be used where the sample size differs. • is used to test for agreement of repeated observations. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Regression techniques • are used to predict the value of one variable based on the other • Multiple regression is used to analyse the relationship between one dependent variable and one or more independent variables • Logistic regression (Log regression analysis) It is used to describe the relationship between one dependent binary variable and one or more metric independent variables. It is commonly used to assess plasma concentrations of a drug as it allows examination of the relationship between possible confounding factors such as renal function or age. This would allow us to determine whether one variable is dependent on another, ex: in case whether drug concentration was dependent on body surface area.  ANOVA (analysis of variance) is an example of logistic regression analysis. is a statistical test which tests for co-variance between populations and is useful when variables such as age, sex or race may be expected to affect the treatment's effectiveness. tests for a difference in mean values between a number of groups Is the most appropriate to compare the means of more than two groups. (used for more than two means) One-way analysis of variance is identical mathematically to the unpaired Student t-test when just two groups are being compared. The one-way (analysis of variance) (ANOVA) compares the means of the groups The means should be presented with confidence intervals to give the reader an idea of whether the differences between the groups were significant • The Cox (proportional odds) regression (Cox proportional hazards regression): this method was devised specifically for the type of study in which many patients fail to reach the end-point (ie in statistical terms, are 'censored') and in which follow-up time varies. Cox regression is designed specifically for the analysis of time to an event occurring. Parametric tests and analogous nonparametric procedures Analysis Type Example Parametric Procedure Nonparametric Procedure Compare means between two distinct/independent groups Is the mean systolic blood pressure (at baseline) for patients assigned to placebo different from the mean for patients assigned to the treatment group? Compare two quantitative measurements taken from the same individual Was there a significant change in systolic blood pressure between baseline and the six-month followup measurement in the treatment group? Compare means between three or more distinct/independent groups If our experiment had three groups (e.g., placebo, new drug #1, new drug #2), we might want to know whether the mean systolic blood pressure at baseline differed among the three groups?. Estimate the degree of association between two quantitative variables Is systolic blood pressure associated with the patient’s age? • Categorical variables are not continuous, e.g. drug / placebo, dead / alive. They should be described as percentages or proportions and compared with a Chi-squared test. • Normally distributed continuous data should be described as mean and standard deviation and compared with a Student’s t-test. • Skewed continuous data should be described as median and range and compared using a test such as the Wilcoxon rank-sum test or the Mann-Whitney U-test. MRCPUK-part-1-May-2017 exam: A study is designed to assess severity of snoring before and after using a new mandibular device. What is the most appropriate statistical test to apply to this data? Wilcoxon signed-rank test Normal distribution • The normal distribution is also known as the Gaussian distribution or 'bell-shaped' distribution. It describes the spread of many biological and clinical measurements • Properties of the Normal distribution symmetrical i.e. Mean = mode = median 68.3% of values lie within 1 SD of the mean 95.4% of values lie within 2 SD of the mean 99.7% of values lie within 3 SD of the mean this is often reversed, so that within 1.96 SD of the mean lie 95% of the sample values the range of the mean - (1.96 *SD) to the mean + (1.96 * SD) is called the 95% confidence interval, i.e. If a repeat sample of 100 observations are taken from the same group 95 of them would be expected to lie in that range Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Two-sample t-test Wilcoxon ranksum test Paired t-test Wilcoxon signedrank test Analysis of variance (ANOVA) Kruskal-Wallis test Pearson coefficient of correlation Spearman’s rank correlation Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM MRCPUK-part-1-January 2019 exam: A study is designed to assess the efficacy of a new antihypertensive drug. Two groups of patients are randomly assigned, one to take the established drug for 3 months whilst the other takes the new drug for 3 months. blood pressure is measured before and 3 months .After period off medication the drug swapped around and again, blood pressure is measured before and 3 months later. Which one of the following significance tests is it most appropriate to apply? Student's paired t-test (comparing parametric data from the same patients (they swapped medication halfway through the study)) Standard deviation SD = square root (variance) Remember that around two-thirds of values lie within 1 SD of the mean, one-third will therefore lie outside 1 SD, and half of these (one-sixth) will be less than 1 SD below the mean • the standard deviation (SD) is a measure of how much dispersion exists from the mean • It is a measure of the spread of the sample distribution • SD = square root (variance) • The standard deviation is a sort of average of the deviations of each observation from the mean, whereas the range is simply the difference between the largest and smallest observations. • The standard deviation is affected by outliers and would be larger than expected if outliers are present • If the data are skewed, the standard deviation will tend to overestimate the spread in the data • If the standard deviation is reduced, the sample size required is smaller. • If SD increased the power of study is reduced . • The standard deviation would give the best estimate of a spread of a measurement about the mean • Variance is the square of standard deviation. Standard deviation is the square root of variance. 076 - Pages 1876-1898 076 Pages 1876-1898 Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Skewed distributions Skewed distributions • alphabetical order: mean - median - mode • '>' for positive, '<' for negative • Normal (Gaussian) distributions: mean = median = mode (bell-shaped) • Positively skewed distribution: mean > median > mode • Negatively skewed distribution mean < median < mode • To remember the above note how they are in alphabetical order, think positive going forward with '>', whilst negative going backwards '<' • Mean, median and mode are measures of central tendency • Descriptive statistics provide mean, median and mode values for a distribution Example: The annual numbers of reported cases of leptospirosis in the USA over the 5-year period from 1985 to 1990 were: 2, 1, 3, 4, 1, . What was the mean, median and modal number of cases per year? Answer: • The mean is found by summing all the values and dividing by 5; this gives a mean = 11/5=2.2 The mean is the average value of observations, and therefore very sensitive to extreme values in a distribution If the mean is greater than the median, this indicates a positive skew. • For the median and mode rewrite the values in ascending order: ie 1,1,2,3,4, • The median is the middle value when the values are placed in order = 2 For an even number of values it is halfway between the two middle values, If you forgot to sort the values before looking for the middle value, you will have got the incorrect answer = 3 The median is the observation that divides the frequency distribution by half and is equal to the 50th centile (lies exactly between each end of a range of values) It responds to the number of extreme observations but not their value, and therefore is useful as a measure of central tendency in extremely skewed distributions In a normal distribution the median equals the mean • The mode is the most common value; this is 1 , which occurs twice, whereas all other values occur only once mode is the most commonly observed value Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM • The distribution sample means will be normally distributed even if the population values are not normally distributed. • The random sampling distribution of means would always tend to be normal, irrespective of the population distribution for which the samples were drawn. Hence, even if the population distribution is skewed or in any non-normal distribution, the sample means would be normally distributed.' • the mean of the random sampling distribution of means is equal to the mean of the original population. • In a distribution skewed by the presence of a number of positive outliersMean increases, median may increase, mode remains the same Confidence interval and standard error of the mean • Definition of confidence interval a range of values for a variable of interest constructed so that this range has a specified probability of including the true value of the variable. The specified probability is called the confidence level, and the end points of the confidence interval are called the confidence limits* in simpler terms: a range of values within which the true effect of intervention is likely to lie • A confidence interval is needed for almost all statistical estimates, including sensitivity or specificity of a diagnostic test. • If the confidence interval includes the number 1,the trial did not find a statistically significant difference between the variables (this does not mean there was no difference) This means the association is not statistically significant and therefore the p value should be above 0.05. Key point • A 95% confidence interval: Most commonly, the 95% confidence level is used What is the best interpretation of the 95% confidence interval?  We are 95% confident that the mean in the value is between confidence limits confidence interval at the 95% confidence level means that the confidence interval should contain the true effect of intervention 95% of the time. Standard error of the mean = standard deviation / square root (number of patients) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad A 95% confidence interval means that there is only a 5% chance that the true mean value for the variable lies outside the ranges quoted The 95% confidence limits will be the mean plus or minus 1.96 standard errors  lower limit = mean - (1.96 * SEM)  upper limit = mean + (1.96 * SEM) For example, in a study the mean height in a sample taken from a population is 183cm. You know that the standard error (SE) (the standard deviation of the mean) is 2cm. This gives a 95% confidence interval of 179-187cm (+/- 2 SE). meaning that there is a 5% chance that the true population mean is not included in this range, in other words a 95% chance that the true population mean is included within this range If the 95% confidence interval does not include 0 (zero), the difference is statistically significant If the p value is less than 0.05, statistically significant the 95% confidence interval should not include 0. • Standard error of the mean (SEM) The standard error of the mean (SEM) is a measure of the spread expected for the mean of the observations - i.e. how 'accurate' the calculated sample mean is from the true population mean SEM = SD / square root (n)  where SD = standard deviation and n = sample size  therefore, the SEM gets smaller as the sample size (n) increases standard error of the meanGets smaller as the sample size increases Increasing the sample size will reduce the standard error of the mean and the width of the confidence interval. The standard error is Smaller than the standard deviation Assessment of significance (is the result statistically significant?) • If confidence interval does not include 1, this means the association is statistically significant and therefore the p value should be below 0.05. • A narrow confidence interval emphasises the significance of the result, but it is the pvalue that describes significance, not the confidence interval around it. • If there is no significant P-value given in the question, we can conclude that the association in the question is significant if the 95% confidence interval is very narrow (its range does not include the value 0). (e.g: 95% confidence interval 2 to 8) Confounding variable • Is an extraneous variable in a statistical model that correlates (directly or inversely) with both the dependent variable and the independent variable. • To give a hypothetical example of a confounding variable: • A study shows that wearing sunglasses and putting on sun cream are linked - increases in sun cream sales are higher when sales of sunglasses increase. It could be that sun cream makes individuals wear sunglasses or that wearing sunglasses reminds people that they need to put on sun cream. However, there is a third "confounding" variable that affects Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM BOTH sales of sunglasses and sun cream - the weather. It could be that hot, sunny weather makes people both put on sunglasses and apply sun cream. • Another example: In a case-control study on the association between cola drinking and type 2 diabetes => BMI is likely to be a confounding variable • In general, a randomised controlled trial eliminates confounding by known and unknown factors. • Stratified analysis eliminates the confounding of the stratified data. • Multivariable logistic regression can control and minimise confounding by simultaneous adjustment for multiple factors. Correlation and linear regression Overview • The terms correlation and regression are related but are not synonymous. • Correlation is used to test for association between variables (e.g. whether salary and IQ are related). • Once correlation between two variables has been shown regression can be used to predict values of other dependent variables from independent variables. • Regression is not used unless two variables have firstly been shown to correlate. Correlation • The degree of correlation is summarised by the correlation coefficient (r). This indicates how closely the points lie to a line drawn through the plotted data. In parametric data this is called Pearson's correlation coefficient and can take any value between -1 to +1. • The value of 'r' (coefficient of variation) ranges from -1 to +1 • For example  r = 1 - strong positive correlation (e.g. systolic blood pressure always increases with age)  r = 0 - no correlation (e.g. there is no correlation between systolic blood pressure and age)  r = - 1 - strong negative correlation (e.g. systolic blood pressure always decreases with age) • Whilst correlation coefficients give information about how one variable may increase or decrease as another variable increases they do not give information about how much the variable will change. They also do not provide information on cause and effect. • Correlation is summarised when using parametric variables by Pearson's correlation coefficient (represented by a small r). • In the situation of non parametric variables, Spearman's correlation coefficient is used. Spearman's correlation coefficient is usually represented by the Greek letter p (rho), or by rs. • In the case of dichotomous variables logistic regression is used. • Linear (or simple linear) regression is used when looking for association between two continuous variables, and multiple regression is used when looking for association between more than two continuous variables. Linear regression • In contrast to the correlation coefficient, linear regression may be used to predict how much one variable changes when a second variable is changed. • A regression equation may be formed, y = a + bx, where: Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad  y = the variable being calculated  a = the intercept value, when x = 0  b = the slope of the line or regression coefficient. Simply put, how much y changes for a given change in x  x = the second variable Correlation coefficient • The correlation coefficient measures the strength (and direction, if linear) of the relationship between two variables. • Correlation coefficient does not follow normal distribution. • Calculation of correlation coefficient does not need to assume normal distribution. • If there is perfect linear relationship with positive slope between the two variables, the correlation coefficient is 1. • If there is a perfect linear relationship with negative slope between the two variables, the correlation coefficient is -1. • A correlation coefficient of 0 means that there is no linear relationship between the variables. • The correlation is not necessarily linear • Correlation coefficient describes the linear relationship between two variables. If the relationship between them is not linear, it can be misleading and should not be used. • The correlation coefficient does not depend on sample size. Increasing the sample size will not change the correlation coefficient as its value does not depends on sample size. • The correlation coefficient can be a negative number. • The correlation coefficient can range from -1 to +1. • Correlation and regression are different.  Correlation describes how closely two variables are associated.  Regression allows you describe one variable with respect to the other in terms of an equation. Screening test statistics Sensitivity = true positives / (true positives + false negatives) Specificity = true negatives / (true negatives + false positives) The rule of thumb is that a high sensitivity helps to rule out disease (SnOut) and a high specificity helps to rule in (SpIn) disease (Mnemonic "spin and snout") Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Contingency tables • also known as 2 * 2 tables, are used to illustrate and calculate test statistics such as sensitivity. • TP = true positive; FP = false positive; TN = true negative; FN = false negative Disease present Disease absent Test positive TP FP Test negative FN TN The table below lists the main statistical terms used in relation to screening tests: Measure Formula Plain English Sensitivity TP / (TP + FN ) Proportion of patients with the condition who have a positive test result Specificity TN / (TN + FP) Proportion of patients without the condition who have a negative test result Positive predictive value TP / (TP + FP) The chance that the patient has the condition if the diagnostic test is positive Negative predictive value TN / (TN + FN) The chance that the patient does not have the condition if the diagnostic test is negative Likelihood ratio for a positive test result sensitivity / (1 - specificity) How much the odds of the disease increase when a test is positive Likelihood ratio for a negative test result (1 - sensitivity) / specificity How much the odds of the disease decrease when a test is negative Sensitivity and specificity • Essentially a knowledge of the sensitivity/specificity is based on the disease state itself, whereas predictive values are based on the test result. • Sensitivity and specificity will not change with sample size. They will change only with: composition of the sample (especially if subjects in the sample have different risks of disease) performance of the test diagnostic threshold, and The "gold standard" to be compared with. • The reliability of estimates of sensitivity, specificity, positive and negative predictive value will all increase with increasing sample size, which will reduce their confidence intervals. • Increasing the cut-off of a positive test result will decrease the number of false positives and hence increase the specificity. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Positive and negative predictive values • Positive and negative predictive values are prevalence dependent. The positive predictive value will increase and negative predictive value will decrease if the prevalence of the disease increases. Likelihood ratios • Likelihood ratios are not prevalence dependent. • If the sensitivity increases, the likelihood ratio of a positive test will increase. If the specificity decreases, the likelihood ratio of a positive test will decrease. • The likelihood ratio of negative test will increase if the specificity of the test is decreased. • The lower the likelihood ratio of a negative test, the less likely is the presence of disease • The likelihood ratio of a positive test helps to rule in disease and the likelihood ratio of a negative test helps to rule out disease. Posterior probability • Posterior probability = posterior odds / (1 + posterior odds) Posterior odds of having disease = prior odds × likelihood ratio. Prior odds of having disease = Prevalence(P) / (1 − P) Precision • quantifies a tests ability to produce the same measurements with repeated tests. MRCPUK-part-1-September 2009 exam: What is the correct formula to calculate the negative predictive value of a screening test? TN / (TN + FP) Incidence and prevalence Incidence is the number of new cases per population in a given time period. Prevalence is the total number of cases per population at a particular point in time. • These two terms are used to describe the frequency of a condition in a population. • The incidence is the number of new cases per population in a given time period. • For example, if condition X has caused 40 new cases over the past 12 months per 1,000 of the population the annual incidence is 0.04 or 4%. • The prevalence is the total number of cases per population at a particular point in time. • For example, imagine a questionnaire is sent to 2,500 adults asking them how much they weigh. If from this sample population of 500 of the adults were obese then the prevalence of obesity would be 0.2 or 20%. Relationship • prevalence = incidence * duration of condition • in chronic diseases the prevalence is much greater than the incidence • in acute diseases the prevalence and incidence are similar. For conditions such as the common cold the incidence may be greater than the prevalence Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Relative risk Relative risk ratio (RRR) = EER / CER • Relative risk (RR) is the ratio of risk in the experimental group (experimental event rate, EER) to risk in the control group (control event rate, CER). EER = rate at which events occur in the experimental group CER = rate at which events occur in the control group • For example, if we look at a trial comparing the use of paracetamol for dysmenorrhoea compared to placebo we may get the following results Total number of patients Experienced significant pain relief Paracetamol Placebo • Experimental event rate, EER = 60 / 100 = 0.6 Control event rate, CER = 20 / 80 = 0.25 Therefore the relative risk ratio = EER / CER = 0.6 / 0.25 = 2.4 • If the risk ratio is > 1 then the rate of an event (in this case experiencing significant pain relief) is increased compared to controls. It is therefore appropriate to calculate the relative risk increase if necessary (see below). • If the risk ratio is < 1 then the rate of an event is decreased compared to controls. The relative risk reduction should therefore be calculated (see below). • The relative risk is always positive • Relative risk reduction (RRR) or relative risk increase (RRI) is calculated by dividing the absolute risk change by the control event rate Using the above data, RRI = (EER - CER) / CER = (0.6 - 0.25) / 0.25 = 1.4 = 140% • Relative risk reduction = 1 − relative risk Remember that risk and odds are different. If 20 patients die out of every 100 who have a myocardial infarction, then the risk of dying is 20 / 100 = 0.2 whereas the odds are 20 / 80 = 0.25. Numbers needed to treat and absolute risk reduction • Numbers needed to treat (NNT) is a measure that indicates how many patients would require an intervention to reduce the expected number of outcomes by one. • Example: if a study for stroke reveals that 20 patients need to be treated to prevent one event. • That means, if you treat a 1000 patients then you will expect to have 50 fewer strokes NNT= 1/absolute risk reduction Absolute risk reduction = (Control event rate) - (Experimental event rate) Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • It is calculated by 1/(Absolute risk reduction) Experimental event rate (EER) = (Number who had particular outcome with the intervention) / (Total number who had the intervention) • Control event rate (CER) = (Number who had particular outcome with the control/ (Total number who had the control) • Absolute risk reduction = CER-EER or EER-CER • ARR = risk in control group - risk in treated group. For example: If a drug reduces the incidence of heart attacks from 12% to 8% then:  The control event rate (CER) is 12%  The experimental event rate (EER) is 8%  The relative risk reduction (RRR) is 33% ([EER-CER/CER] x 100)  The absolute risk reduction (ARR) is 4% (CER-EER)  The number needed to treat (NNT) is 25 ([1/ARR] x 100) Number needed to harm • For many studies now, papers quote the number needed to harm. This uses the same principle to establish the difference in absolute risk of an adverse event occurring between two treatment strategies, calculating a number needed to harm by dividing 100 by the absolute risk. Hazard ratio • The hazard ratio (HR) is similar to relative risk but is used when risk is not constant to time. It is typically used when analysing survival over time • Example: A study is performed comparing two chemotherapy regimes for patients with small cell lung cancer. The end point of the study is survival time. Which one of the following types statistical measures is it most appropriate to compare survival time with?  Hazard ratio Odds and odds ratio Odds - remember a ratio of the number of people who incur a particular outcome to the number of people who do not incur the outcome NOT a ratio of the number of people who incur a particular outcome to the total number of people • Odds are a ratio of the number of people who incur a particular outcome to the number of people who do not incur the outcome. The odds ratio may be defined as the ratio of the odds of a particular outcome with experimental treatment and that of control. Odds vs. probability In contrast, probability is the fraction of times you'd expect to see an event in many trials. When expressed as a single number probability is always between 0 and 1. So, if we take the example of rolling a dice: • the probability of rolling a six is 1/6 or 0.166666 • the odds of rolling a six is 1/5 or 0.2 • Odds ratios are the usual reported measure in case-control studies. It approximates to relative risk if the outcome of interest is rare. For example, if we look at a trial comparing the use of paracetamol for dysmenorrhoea compared to placebo we may get the following results Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Total number of patients Achieved = 50% pain relief Paracetamol Placebo The odds of achieving significant pain relief with paracetamol = 40 / 20 = 2 The odds of achieving significant pain relief with placebo = 30 / 60 = 0.5 Therefore the odds ratio = 2 / 0.5 = 4 Pre- and post- test odds and probability Pre and post-test odds • Pre-test odds The odds that the patient has the target disorder before the test is carried out Pre-test odds = (pre-test probability/[1 – pre-test probability]). • Post-test odds The odds that the patient has the target disorder after the test is carried out Post-test odds = (pre-test odds x likelihood ratio). the likelihood ratio for a positive test result = sensitivity / (1 - specificity). Pre and post-test probability • Pre-test probability the proportion of people with the target disorder in the population at risk at a specific time (point prevalence) or time interval (period prevalence). For example, the prevalence of rheumatoid arthritis in the UK is 1%. • Post-test probability The proportion of patients with that particular test result who have the target disorder Post-test probability = (post-test odds/[1 + post-test odds]). Screening: Wilson and Junger criteria The condition should be an important public health problem There should be an acceptable treatment for patients with recognised disease Facilities for diagnosis and treatment should be available There should be a recognised latent or early symptomatic stage The natural history of the condition, including its development from latent to declared disease should be adequately understood There should be a suitable test or examination The test or examination should be acceptable to the population There should be agreed policy on whom to treat The cost of case-finding (including diagnosis and subsequent treatment of patients) should be economically balanced in relation to the possible expenditure as a whole 10.Case-finding should be a continuous process and not a 'once and for all' project Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad R-values • A positive R-value means that as one variable increases, so does the other • A negative R-value means that as one variable decreases, the other increases ie the correlation is inversed (A negative R-value indicates an inverse association) • association or lack of association is indicated by how close the value of R is to zero • statistical significance is denoted by its p-value • P-values < 0.05 are considered to be significant Scales of measurement Data always come in one of the four scales of measurement: Nominal Data are divided into qualitative groups, such as hot/cold, with no implication of order. Ordinal Data are placed in an order (hot/hotter/hottest), although the absolute levels are unknown and no conclusion can be made about the size of the interval. Interval dividing a continuous measurement into groups (eg age groups).Data are placed in an order; and the exact value of the measurement is given, usually in measured quantities representing the difference between two measurements (81-90/91-100/101-110 °C). That is, differences between arbitrary pairs of measurements can be meaningfully compared. Ratios between numbers of the scale are not meaningful, so operations such as multiplication and division cannot be carried out directly. But ratios of differences can be expressed; for example, one difference can be twice Another lf the measurement scale does not have an absolute zero (ie no numbers exist below the zero) this is called interval data. Ratio Here, there is a value of 0 kelvin, and it isn't possible to get below this (ie absolute zero), therefore, the ratio between the values is meaningful, eg 271-280/281-290/291300 kelvin. Select Study Design to Match the Research Goals Objective Study design Describe of disease or spectrum Case series or report Cross sectional study Determine operating characteristics of a new diagnostic test Cross sectional study Describe prognosis Cohort study Determine cause-effect Cohort study Case control study Compare new interventions Randomised clinical trial summarize literature Meta-analysis Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Select Study Design Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad The following table highlights the main features of the main types of study: Study type Key features Randomised controlled trial Participants randomly allocated to intervention or control group (e.g. standard treatment or placebo) Practical or ethical problems may limit use Cohort study Observational and prospective. Two (or more)are selected according to their exposure to a particular agent (e.g. medicine, toxin) and followed up to see how many develop a disease or other outcome. The usual outcome measure is the relative risk. Examples include Framingham Heart Study Case-control study Observational and retrospective. Patients with a particular condition (cases) are identified and matched with controls. Data is then collected on past exposure to a possible causal agent for the condition. The usual outcome measure is the odds ratio. Inexpensive, produce quick results Useful for studying rare conditions Prone to confounding Cross-sectional survey Provide a 'snapshot', sometimes called prevalence studies Provide weak evidence of cause and effect Systematic review (meta-analysis) • a study of studies. • statistical (quantitative) combination of results from two or more studies addressing the same research question. • Metanalysis= systematic reviews + Quantitative measures. • Usually used to treatment studies. • A 'meta-analysis' would look at combining all previous data,. This is likely to be the quickest option to complete, and also produces the highest level of evidence. • rapid and efficient • Publication bias might be present (positive results are published more often than the negative ones). • Publication bias can be examined by funnel plots if a sufficient number of studies is found. • Non-randomised or other studies may or may not be included. • However, randomised controlled trials usually have lower risk of bias and hence give us more confidence about validity of results and are preferred primary sources for systematic review. • Critical appraisal is an important part of systematic review and it has to be objectively performed using well-defined criteria or appraisal tools. Funnel plots - show publication bias in meta-analyses Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM • Meta-analysis, that is, combining results numerically in a statistically appropriate way, though desirable, is not always feasible, depending on the availability of usable data and heterogeneity. (Meta-analysis is not always performed ) • The search strategy in systematic review should be comprehensive involving electronic databases and other sources and using well-defined search terms. • Case-control studies are not usually included in the search of literature in systematic review • The research question is always focused • there are at least two authors to independently appraise the search results and primary studies. • It is not mandatory to exclude studies with missing data. • The effect size should not affect the weight of each study, although it will affect the final result. • Trial quality is usually not incorporated into meta-analysis nowadays since the weightings can be subjective and arbitrary. • The weight of each study should depend on the sample size • Funnel plots show publication bias in meta-analyses • Forest plot The most appropriate way of graphically depicting the results of metaanalysis. Fixed vs random effect model for meta-analysis The fixed effect model The random effects model the most commonly used model for meta-analysis. Provides the best estimate of the treatment effect attempts to provide one single best estimate of treatment effect. attempts to find an average treatment effect. assumes there is no heterogeneity between the trials. assumes heterogeneity assumes a single treatment effect allows multiple treatment effects. Randomised controlled trial (RCT) Overview • The purpose of randomisation is to prevent systematic differences (bias) between treatment groups. Aim: to determine the possible effect of a specific intervention on a given population Advantages • Minimizes bias • Can demonstrate causality Disadvantages • Cannot be used to evaluate rare diseases Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad For rare diseases and exposures, case control studies are the best option. Although cohort studies are good for rare exposures, they are not good for rare diseases. • Cannot be used when treatments have well-known adverse side effects • Expensive and time-consuming Uses • the 'gold standard' for evaluating a new intervention • May be used to test an efficacy of a drug Study method • Randomization: Study participants are randomly allocated to either the treatment/intervention group or the control group to ensure that both groups have approximately the same baseline characteristics. • Blinding: the practice of not informing an individual or group about which study participants are part of the control group and which are part of the treatment group (used to reduce bias) • Classic errors in randomisation Consecutive sampling, which may well not be representative if the study time is short. Convenience sampling: strong potential for bias, with volunteers generally healthier than others. Judgmental sample: including those that you want only. The potential for systematic error is enormous. Methods of analysis for randomized controlled trials • Intention to treat analysis (ITT) Intention to treat analysis is a method of analysis for randomized controlled trials in which all patients randomly assigned to one of the treatments are analysed together, regardless of whether or not they completed or received that treatment. Include the patients who drop out in the final data set Intention to treat analysis is done to avoid the effects of crossover and drop-out, which may affect the randomization to the treatment groups. ITT helps to reduce bias by sticking to the original allocation of treatment and analysing the patient in that treatment group even if they do not receive the treatment ITT is considered to be the analysis which is least subject to bias. Considered the most robust • Per protocol analysis A per protocol analysis may exclude patients who suffered an event but then did not follow the protocol accurately, for example, a patient treated with the diabetes agent who was admitted to hospital, but missed one to two doses of medication. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Case-control study Aim • to study if an exposure (i.e., a risk factor) is associated with an outcome (i.e., disease) Study method • Researchers begin by selecting patients with the disease (cases) and individuals without the disease (controls). • Controls are selected from the same source population and ideally have similar characteristics (e.g., gender, age) to the cases to reduce potential confounding. • The odds ratio is then determined between these groups. Advantages • Can be used to study rare diseases • Can be used to study diseases with long latency periods • A wide range of risk factors can be investigated • There is no loss to follow up • They are relatively cheap and quick to perform. Disadvantages • Recall and/or survivorship bias occurs in retrospective studies (have the greatest problems with recall bias) • Cannot be used to determine prevalence or incidence Example • A group of patients with histologically confirmed cervical cancer (cases) is compared to otherwise similar patients without histologically confirmed cervical cancer (controls) for the presence of human papillomavirus (exposure). Cohort study Aim • To study the incidence rate and whether a given exposure is associated with the outcome of interest A case-control study generally examines a small population group over a short period of time (less cost-intensive) and evaluates the association between multiple exposures and one outcome. A cohort study generally examines a large population over a long period of time (more cost-intensive) and determines how one exposure is associated with multiple outcomes In cohort studies, the study sample is selected based on exposure to a risk factor. In case-control studies, the study sample is selected according to having a disease or not, and then it is determined which participants were exposed to a risk factor. Study method • The researchers gather a group of study participants who have common characteristics. • Participants are then classified into two groups: exposed and unexposed. • The incidence of the outcome of interest is compared between the two groups. Advantages • Less susceptible to recall bias than case-control studies. • Helps determine whether a given exposure plays a role in the development of a disease • Allows for the calculation of relative risk • Helps determine incidence • Can be used for rare exposures Disadvantages • When the outcome of interest is rare a very large sample size is needed (Insufficient for rare disease) • Prospective cohort studies are high-cost and time-consuming • In retrospective cohort studies, some data on predictors and confounders may be missing because the data was collected in the past. • Only assesses the exposures determined at the beginning of the study Types Types of cohort studies Prospective cohort study Retrospective cohort study Description Study begins before the groups develop an outcome of interest Exposure Study participants are categorized into an exposed group and an unexposed group. Outcome The participants are followed prospectively for a period of time to see whether there is a difference in the rate at which the exposed and unexposed groups develop the outcome of interest. Example Individuals with a smoking history of ≥ 1 pack of cigarettes a day (exposed group) are compared to individuals who are non-smokers to see if there is a difference in the proportion of patients in each group that develop lung cancer (e.g., the outcome) within a specific follow-up period. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Study begins after the exposure and outcome of interest have already occurred Study participants are categorized into a group that was previously exposed to a given risk factor (exposed; e.g., smoking) and a group that was not (unexposed). Data previously collected about the participants is compared to see whether there was a difference in the rate at which the exposed and unexposed groups developed the outcome of interest (e.g., lung cancer) over a period of time. Individuals with a smoking history of ≥ 1 pack of cigarettes a day (exposed group) 5 years ago are compared to individuals who were non-smokers 5 years ago to see if there is a difference in the proportion of patients in each group that eventually develop Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Observational study • Disadvantages From association in an observational study, we cannot infer cause and effect Biological assays • Biological assays are designed to measure the relative potency of different preparations. Sequential trial • a trial in which the data are analysed after each participant's results become available and the trial continues until a clear benefit is seen in one of the comparison groups, could also be used to assess efficacy, but there would have to be a large expected difference from placebo. • 'Sequential' trial would be comparing one therapy to another sequentially (usually with wash out periods in between). Crossover trial The principle of a crossover design is that a patient has one drug or treatment, then a washout period, and then another drug, and the effect is compared between the two in a single individual. For this reason it is a good study design for treatment of chronic conditions (eg: comparing analgesics in arthritis) but not appropriate for acute conditions. • In a crossover trial, the patient (who usually has a chronic stable disease) receives one drug (or placebo) and then the other drug after a washout period • Each patient will usually receive all drugs within the study • In this way, confounding can be greatly reduced • If a drug had long-lasting effects it may not be easy to see which of the trial drugs was having an effect • A self-limiting illness is difficult to study in this way • Because each person is acting as their own control, it is usually possible to use smaller numbers to get the same power. • If any treatment in a cross-over trial is a disease-modifier (in the most extreme case, kills or cures the patient), then the interpretation of results in any subsequent period becomes impossible. This is because disease modification implies that one course of the drug will permanently change the future timecourse of that patient's disease in some way, making a cross-over study un-interpretable. In this case a parallel trial is the only appropriate option. Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Sampling • Sampling error arises when only a portion of the population is studied • Random sampling implies that the sample has been selected from a sampling frame in such a way that every individual has the same chance of being selected • The standard error of the mean is the standard deviation divided by the square root of the sample size, hence it must always be smaller than the standard deviation • Inference is the process of drawing conclusions about the population using the sample information • a sample statistic is a point estimate of a population parameter Bias (Systematic error) Definition • An error in the study design or the way in which the study is conducted that causes systematic deviation of findings from the true value Types • Selection bias occurs when the study population is different from the population to whom the results will be applied and there is therefore said to be • Allocation bias occurs when patients are not randomly assigned to a particular treatment. • Assessment bias occurs when the observer knows which treatment the subject is taking. • Observer bias is when one observer consistently under or over reports a particular variable. • Recall bias applies to case-control studies when a patient is more likely to remember a particular detail of exposure if they go on to develop the disease. Study design: evidence and recommendations Levels of evidence • Ia - evidence from meta-analysis of randomised controlled trials • Ib - evidence from at least one randomised controlled trial • IIa - evidence from at least one well designed controlled trial which is not randomised • IIb - evidence from at least one well designed experimental trial • III - evidence from case, correlation and comparative studies • IV - evidence from a panel of experts Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad Chapter 17 Basic science Biostatistics & EBM Grading of recommendation • Grade A - based on evidence from at least one randomised controlled trial (i.e. Ia or Ib) • Grade B - based on evidence from non-randomised controlled trials (i.e. IIa, IIb or III) • Grade C - based on evidence from a panel of experts (i.e. IV) Study design: new drugs Superiority trial a large sample size is required to demonstrate a significant difference When a new drug is launched there are a number of options available in terms of study design. One option is a placebo-controlled trial. Whilst this may provide robust evidence it may be considered unethical if established treatments are available and it also does not provide a comparison with standard treatments. Compare a new drug to an existing treatment • The statistician need to decide whether the trial is intended to show superiority, equivalence or non-inferiority: • Superiority one problem is the large sample size needed to show a significant benefit over an existing treatment • Equivalence an equivalence margin is defined (-delta to +delta) on a specified outcome. If the confidence interval of the difference between the two drugs lies within the equivalence margin then the drugs may be assumed to have a similar effect • Non-inferiority similar to equivalence trials, but only the lower confidence interval needs to lie within the equivalence margin (i.e. -delta). Small sample sizes are needed for these trials. Once a drug has been shown to be non-inferior large studies may be performed to show superiority • It should be remembered that drug companies may not necessarily want to show superiority over an existing product. If it can be demonstrated that their product is equivalent or even non-inferior then they may compete on price or convenience. Phases of new drug development phase goal notes Animal trial Safety for testing the drug in humans Phase I • Initial safety most frequent side effects How the drug is Phase II Effectiveness The number of subjects ranges from a few dozen to about 300. Phase III Comparative efficacy (Effectiveness compared to commonly used treatment) ( RCTs) • The number of subjects ranges from several hundred to about 3,000 • The best study for phase 3 is a randomised control study. Phase IV (post marketing) Side effects Enrolls a large number of patients, typically several thousands. Graphical representation of data Charts and diagrams Quantitative data Qualitative data Histogram Scatter diagram The interpretation of novel findings in a published clinical research study • The trustworthiness of a study should depend solely on its scientific validity, that is, whether it is free of bias. • The conclusion should be treated with skepticism even if it is extensively peerreviewed Notes & Notes for MRCP By Dr. Yousif Abdallah Hamad • conducted in healthy volunteers. • The number of subjects ranges from 20 to 80. metabolized and excreted. Bar diagram Pie diagram