Synapse - Dosimetry for the study of medical radiation workers with a focus on the mean absorbed dose to the lung, brain and other organs

Dosimetry for the study of medical radiation workers with a focus on the mean absorbed dose to the lung, brain and other organs Journal Article

Authors:	Yoder, R. C.; Dauer, L. T.; Balter, S.; Boice, J. D., Jr.; Grogan, H. A.; Mumma, M. T.; Passmore, C. N.; Rothenberg, L. N.; Vetter, R. J.
Article Title:	Dosimetry for the study of medical radiation workers with a focus on the mean absorbed dose to the lung, brain and other organs
Abstract:	Background: The reconstruction of lifetime radiation doses for medical workers presents special challenges not commonly encountered for the other worker cohorts comprising the Million Worker Study. Methods: The selection of approximately 175,000 medical radiation workers relies on using estimates of lifetime and annual personal monitoring results collected since 1977. Approaches have been created to adjust the monitoring results so that mean organ absorbed doses can be estimated. Results: Changes in medical technology and practices have altered the radiation exposure environments to which a worker may have been exposed during their career. Other temporal factors include shifts in regulatory requirements that influenced the conduct of radiation monitoring and the changes in the measured dose quantities. Conclusions: The use of leaded aprons during exposure to lower energy X rays encountered in fluoroscopically based radiology adds complexity to account for the shielding of the organs located in the torso when dosimeters were worn over leaded aprons. Estimating doses to unshielded tissues such as the brain and lens of the eye become less challenging when dosimeters are worn at the collar above the apron. The absence of leaded aprons in the higher energy photon settings lead to a more straightforward process of relating dosimeter results to mean organ doses. © Copyright © 2019 Taylor & Francis Group LLC.
Keywords:	dosimetry; epidemiology; personal monitoring
Journal Title:	International Journal of Radiation Biology
Volume:	98
Issue:	4
ISSN:	0955-3002
Publisher:	Taylor & Francis Group Ltd.
Date Published:	2022-01-01
Start Page:	619
End Page:	630
Language:	English
DOI:	10.1080/09553002.2018.1549756
PUBMED:	30451566
PROVIDER:	scopus
PMCID:	PMC9465996
DOI/URL:	https://www.scopus.com/inward/record.uri?eid=2-s2.0-85059909204&doi=10.1080%2f09553002.2018.1549756&partnerID=40&md5=1e8e5b8de8c7febf1c31c79789a9fd4f
Notes:	Article -- Export Date: 25 April 2022 -- Source: Scopus

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36 Rothenberg

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