Abstract
Conventional approaches to computed tomography (CT) dosimetry include the specification of the absorbed dose at given locations in the radiation field (Shope et al, 1982), the use of dose descriptors such as the Computed Tomography Dose Index (CTDI) (Shope et al, 1981), estimates of the total energy imparted in the CT examination (Huda, 1984) and an explicit evaluation of the somatic and genetic stochastic radiation risks associated with a given CT examination (Huda & Sandison, 1985). A problem with all these approaches is the difficulty of comparing the radiation risks associated with the CT procedure with the comparable risks associated with other diagnostic procedures that use ionising radiation. It is also difficult to compare the non-uniform radiation doses encountered in CT examinations with the whole-body dose-equivalent* limits imposed for non-medical exposures for members of the public (5 mSv/year) and for radiation workers (50 mSv/year), or with the risks from more familiar everyday activities s...
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