Percutaneous transhepatic cholangiography

This is an invasive technique in which the bile ducts are cannu lated percutaneously . The main indication is to drain intra- hepatic ducts when strictures cannot be accessed at ERCP . The procedure is undertaken after conﬁrming normal coagulation parameters; antibiotics should be given prior to the procedure Under ﬂuoroscopic or sonographic control, a slender (Chiba or Okuda) needle is introduced percutaneously into the liver substance. Successful entry into the bile duct is conﬁrmed by contrast injection or aspiration of bile. Water-soluble contrast medium is injected to visualise the biliary system and images are taken to demonstrate strictures or obstruction ( Figure 71.16 Bile can be sent for cytology . This technique enables place ment of a catheter into the bile ducts to provide external or internal biliary drainage and insertion of indwelling stents. in situ for a number of days The drainage catheter can be left and the track dilated su ﬃ ciently for the introduction of a ﬁne ﬂexible choledochoscope to diagnose strictures, take biopsies and remove stones. Summary box 71.1 Radiological investigation of the biliary tree /uni25CF /uni25CF /uni25CF /uni25CF /uni25CF /uni25CF /uni25CF /uni25CF Kunio Okuda , 1921–2003, Professor of Medicine, Chiba University , Chiba, Japan. Peroperative cholangiography During open or laparoscopic cholecystectomy , a catheter can be placed in the cystic duct and contrast injected directly into the biliary tree. The technique deﬁnes the anatomy and is used mainly to exclude the presence of stones within the bile ducts ( Figures 71.17–71.19 ). A radiographic plate or image intensiﬁer can be used to obtain and review the images intra - operatively . The operating table should be tilted head-down by tic ducts. approximately 20° to facilitate ﬁlling of the intrahepa Care should be taken when injecting contrast not to intro - duce air bubbles into the system as these may mimic the appearance of stones. Operative biliary endoscopy (choledochoscopy) At operation, a ﬂexible ﬁbreoptic endoscope can be passed either via the cystic duct or directly via a choledochotomy (open or laparoscopic) into the CBD, enabling stone identiﬁ - cation and removal under direct vision. After exploration of - . ). -

Plain radiograph: calci /f_i cation, air within the biliary system USG: stones and biliary dilatation MRCP: anatomy and stones CT scan: anatomy, and liver, biliary and pancreatic cancer Radioisotope scanning (HIDA scan): function ERCP: anatomy, stones and biliary strictures, with or without cholangioscopy PTC: anatomy and biliary strictures EUS: anatomy, stones

Angle to 20º Radiographic /f_i lm Figure 71.17 Peroperative cholangiography using a radiolucent table- top. Figure 71.18 Peroperative cholangiography. Technique of introducing contrast.

the bile duct, a tube can be left in the cystic duct remnant or in the CBD (T tube) and drainage of the biliary tree established. After 7–10 days, a track will be established. This track can be used subsequently for the passage of a choledochoscope or radiologically guided stone retrieval catheter (Burhenne technique) to remove residual stones. Laparoscopic ultrasonography At laparoscopy , a laparoscopic ultrasound probe can be used to closely image the extrahepatic biliary system. This technique is useful in biliary and pancreatic tumour staging as it can determine the relationship of the tumour to major vessels such as the hepatic artery , superior mesenteric artery , portal vein and superior mesenteric vein.

Figure 71.19 Peroperative cholangiography. (a) Gentle infusion of contrast, passing with

out hindrance into the duodenum. A normal duct. (b) Dilated duct containing multiple stones; there is a delay in contrast passing into the duodenum.

AVO I DA B L E FAC TO R S T H AT COMPOUND THE RESP

AVO I DA B L E FAC TO R S T H AT COMPOUND THE RESPONSE TO

Agonists and antagonists an uncertain balance

Alterations in hepatic protein metabolism the acu

Alterations in hepatic protein metabolism the acute-phase protein response

Alterations in skeletal muscle protein metabolism

C A a n

CHANGES IN BODY COMPOSITION FOLLOWING INJURY

ENHANCED RECOVERY AFTER SURGERY

FURTHER READING

Homeostasis

Hypothermia

INJURY

Immobilisation

Immobility

Introduction

Learning objectives

MANAGING THE CATABOLIC STRESS RESPONSE

MEDIATORS OF THE METABOLIC RESPONSE TO INJURY Tiss

MEDIATORS OF THE METABOLIC RESPONSE TO INJURY Tissue damage and inﬂammation

METABOLIC CHANGES AFTER SURGERY AND TRAUMA

Modern surgical care

Neuroendocrine response to injury

RESPONSE

Starvation

Systemic inﬂammation and tissue

Tissue oedema

Volume loss

b b o

l i i

s s m m

t a a

underperfusion

Analgesia

DEFINITION

DISCHARGE FROM HOSPITAL

Direct robotic systems and hybrid robotic surgery

Disadvantages of robotic surgery

Drains

Endoluminal endoscopy and natural oriﬁce surgery

Endoscopic surgery

FURTHER DEVELOPMENTS Augmented reality and minimal access surgical adjuncts

FURTHER DEVELOPMENTS Augmented reality and minimal

GENERAL INTRAOPERATIVE PRINCIPLES

History of minimal access surgery

History of robotic surgery

Hybrid minimal access surgery

Introduction

LIMITATIONS OF MINIMAL ACCESS SURGERY

Learning objectives

MINIMAL ACCESS APPROACHES Laparoscopy

Mobility and convalescence

Operative problems

Oral feeding

Oral ﬂuids

Orogastric or nasogastric tube

PERIOPERATIVE PLANNING FOR MINIMAL ACCESS SURGERY

POSTOPERATIVE CARE

Perivisceral endoscopy

Port site pain and numbness

Preparation of the patient

Principles of electrosurgery during laparoscopic s

Principles of electrosurgery during laparoscopic surgery

ROBOTIC SURGERY

SURGICAL TRAUMA IN OPEN, MINIMALL Y INVASIVE AND R

SURGICAL TRAUMA IN OPEN, MINIMALL Y INVASIVE AND ROBOTIC SURGERY

Shoulder tip pain

Single-incision minimal access surgery

Skin sutures

THE FUTURE

THEATRE SET-UP AND TOOLS

Thoracoscopy

Uptake of robotic surgery

Urinary catheter

surgery

ACKNOWLEDGEMENTS

ASSESSMENT Light microscopy

AUTOPSY

BRAF V600E mutation

Basic methods in diagnostic molecular pathology