Radiation protection considerations in the cardiac catheterization laboratory

Published on Sep 1, 1975
J.H. Dunlap1
Estimated H-index: 1
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1974
5 Authors (R.E. Gross, ..., W.S. Snyder)
1974
5 Authors (H.G. Sewcz, ..., P. Taschner)
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#1tBrian BurryH-Index: 1
Staff working in cardiac catheterization laboratories receive radiation exposures from primary radiation (if any part of their body is placed within the X-ray beam) or from secondary radiation due to scatter from the patient and image intensifier and to leakage from the X-ray tube. As a result, the radiation exposure distribution over a staff member's body is expected to be non-uniform. In order to evaluate the radiation somatic risk to be assigned to an individual, and to assess the efficacy of...
3 Citations
#1Brian J. McParlandH-Index: 2
#2Josip NosilH-Index: 1
Last. Brian BurryH-Index: 1
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Staff working in cardiac catheterization laboratories receive radiation exposures from primary radiation (if any part of their body is placed within the X-ray beam) or from secondary radiation due to scatter from the patient and image intensifier and to leakage from the X-ray tube. As a result, the radiation exposure distribution over a staff member's body is expected to be non-uniform. In order to evaluate the radiation somatic risk to be assigned to an individual, and to assess the efficacy of...
34 CitationsSource
Abstract The doses delivered to some critical organs of patients and staff during cerebral angiography, X-ray computer assisted tomographic scanning and 99Tcm brain scanning have been measured or assessed. The results show that doses received by staff and by the patients' gonads are generally quite low. However, patients having two or more of the investigations could receive skin and orbit doses in excess of 25 rad.
1 CitationsSource