Computed tomography

Computed tomography

This investigation is the best test for assessing bone anatomy . Three-dimensional reconstructions are often useful for the assessment of congenital spinal deformity . However, one should remember that a typical CT of the lumbar spine will expose the patient to an e ff ective dose of 5–10 millisieverts (mSv), which would be equivalent to 2.5–5 years of natural background radiation; those who travel on 7-hour flights (0.05 /uni00A0 mSv per 7-hour flight) would need to make 100–200 journeys in their lifetime to be exposed to the same e ff ective dose. Computed tomography

This investigation is the best test for assessing bone anatomy . Three-dimensional reconstructions are often useful for the assessment of congenital spinal deformity . However, one should remember that a typical CT of the lumbar spine will expose the patient to an e ff ective dose of 5–10 millisieverts (mSv), which would be equivalent to 2.5–5 years of natural background radiation; those who travel on 7-hour flights (0.05 /uni00A0 mSv per 7-hour flight) would need to make 100–200 journeys in their lifetime to be exposed to the same e ff ective dose. Computed tomography

This investigation is the best test for assessing bone anatomy . Three-dimensional reconstructions are often useful for the assessment of congenital spinal deformity . However, one should remember that a typical CT of the lumbar spine will expose the patient to an e ff ective dose of 5–10 millisieverts (mSv), which would be equivalent to 2.5–5 years of natural background radiation; those who travel on 7-hour flights (0.05 /uni00A0 mSv per 7-hour flight) would need to make 100–200 journeys in their lifetime to be exposed to the same e ff ective dose.