Full-body scan

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Full-body scan, also known as a full-body CT scan, involves a CT scan of the patient's entire body to support the diagnosis and treatment of specific illnesses.

Contents

[edit] History and overview

CT scans were first used in medicine in the 1970s,[1] and they now play an important role in diagnosis in medicine. Controversy arises from the use of CT scans in the screening of patients who have not been diagnosed with a disease, or who do not have symptoms suggestive of a disease,[2] due to the low rate of finding disease, and the inconclusiveness of the cause of abnormalities seen.[3][4]

As with any test that screens for disease, the risks of full-body CT scans, (including radiation, incidental or wrong diagnosis, and a false sense of security in a test with error), need to be weighed against the benefit of identifying a treatable disease at an early stage.[5] One of the risks of a full body CT scan is the relatively high doses of radiation.[6] Conventional CT scanners may expose patients to 10 mSv of radiation, or over a hundred times that of a chest x-ray.[7] However, the radiation risk of CT scanners used for screening may be less than this, and depends upon the mathematical model used for calculation.[6][8] Additional risks include the possible identification of incidental abnormalities of unclear significance.[3] This may lead to further unnecessary testing, which may be invasive.

Cost is an additional disadvantage; at a cost of US$600 to $3000 full-body scans are expensive, and are rarely covered by insurance.[9][10] However, in December 2007, the IRS stated that full-body scans qualify as deductible medical expenses, without a doctor's referral. This will likely lead employer-sponsored, flexible-spending plans to make the cost of the scans eligible for reimbursement.[11]

[edit] Other scans

Other CT scans may be used in screening for disease in high risk groups. These scans are more localized and are identical to those used in the course of treating a disease, the only difference being that these scans are done before any disease is found.

Low-dose CT scanning of the lungs may be done to screen for lung cancer, but it has showed varied success.[12][13] CT colography, or virtual colonoscopy is a CT scan that looks for polyps that may develop into colon cancer. It has shown detection rates for polyps of size greater or equal to 8 mm that are comparable to traditional or "optical" colonoscopy. One of the downsides of imaging is that although they provide comparable detection rates, they have no inherent capability of treatment. For example, if polyps are found on virtual colonoscopy the next step is to perform a traditional colonoscopy to remove the polyps.[14]

Other types of scans include Heart, Brain, Bone density, Angiogram, Carotid artery.[1][2]

Magnetic resonance imaging (MRI) scans are associated with a lesser radiation risk than CT scans, and are being evaluated for their use in screening.[15]

[edit] See also

[edit] References

  1. ^ Hounsfield GN. (Sept 1976). "Historical notes on computerized axial tomography". J Can Assoc Radiol 27 (3): 135–142. PMID 789383. 
  2. ^ U.S Food and Drug Administration Whole body CT scans, DHHS Publication No: (FDA) 03-0001 (March 2003). Retrieved on August 30, 2006.
  3. ^ a b Brant-Zawadzki MN (Nov 2005). "The role of computed tomography in screening for cancer.". Eur Radiol 15 Suppl 4: 52–54. PMID 16479647. 
  4. ^ Berlin L (Feb 2003). "Potential legal ramifications of whole-body CT screening: taking a peek into Pandora's box.". AJR Am J Roentgenol 180 (2): 317–322. PMID 12540423. 
  5. ^ MacLean CD (Jan 1996). "Principles of cancer screening". Med Clin North Am 80 (1): 1–14. doi:10.1016/S0025-7125(05)70423-5. PMID 8569290. 
  6. ^ a b McCauley TR (Feb 2003). "Radiation risk of screening CT". AJR Am J Roentgenol 180 (2): 540–541. PMID 12540469. 
  7. ^ Radiologyinfo: Safety Radiation Exposure in X-ray Examinations. Retrieved on August 30, 2006.
  8. ^ Prokop M (Nov 2005). "Cancer screening with CT: dose controversy.". Eur Radiol 15 Suppl 4: 55–61. PMID 16479648. 
  9. ^ Meyer M. (October 2002). Behind the Body Scan Craze. Retrieved on August 30, 2006.
  10. ^ Whole-body Scans More Marketing Than Science, Say Medical Physicists. American Institute of Physics. (August 26, 2002). Retrieved on August 30, 2006.
  11. ^ Diagnosis? It's Deductible.
  12. ^ Diederich S, Wormanns D. (Aug 2004). "Impact of low-dose CT on lung cancer screening". Lung Cancer 45 suppl 2: 13–19. doi:10.1016/j.lungcan.2004.07.997. PMID 15552777. 
  13. ^ Kashiwabara K, Kohshi S. (Sep 2006). "Outcome in patients with lung cancer invisible on chest roentgenograms but detected only by helical computed tomography.". Respirology 11 (5): 592–597. doi:10.1111/j.1440-1843.2006.00903.x. PMID 16916332. 
  14. ^ Pickhardt PJ, Choi JR, Hwang I, Butler JA, Puckett ML, Hildebrandt HA, Wong RK, Nugent PA, Mysliwiec PA, Schindler WR. (Mar 2003). "Computed tomographic virtual colonoscopy to screen for colorectal neoplasia in asymptomatic adults.". New England Journal of Medicine 349 (23): 2191–2200. doi:10.1056/NEJMoa031618. PMID 14657426. 
  15. ^ Lauenstein TC, Semelka RC. (August 2006). "Emerging techniques: Whole-body screening and staging with MRI.". J Magn Reson Imaging 24 (3): 489–498. doi:10.1002/jmri.20666. PMID 16888774.