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http://dx.doi.org/10.14407/jrpr.2022.00052

Bias-corrected Hp(10)-to-Organ-Absorbed Dose Conversion Coefficients for the Epidemiological Study of Korean Radiation Workers  

Jeong, Areum (Department of Radiation Emergency Medicine, Korea Institute of Radiological and Medical Sciences)
Kwon, Tae-Eun (Division of Cancer Epidemiology and Genetics, National Cancer Institute, National Institute of Health)
Lee, Wonho (College of Health and Environmental Science, Korea University)
Park, Sunhoo (Department of Radiation Emergency Medicine, Korea Institute of Radiological and Medical Sciences)
Publication Information
Journal of Radiation Protection and Research / v.47, no.3, 2022 , pp. 158-166 More about this Journal
Abstract
Background: The effects of radiation on the health of radiation workers who are constantly susceptible to occupational exposure must be assessed based on an accurate and reliable reconstruction of organ-absorbed doses that can be calculated using personal dosimeter readings measured as Hp(10) and dose conversion coefficients. However, the data used in the dose reconstruction contain significant biases arising from the lack of reality and could result in an inaccurate measure of organ-absorbed doses. Therefore, this study quantified the biases involved in organ dose reconstruction and calculated the bias-corrected Hp(10)-to-organ-absorbed dose coefficients for the use in epidemiological studies of Korean radiation workers. Materials and Methods: Two major biases were considered: (a) the bias in Hp(10) arising from the difference between the dosimeter calibration geometry and the actual exposure geometry, and (b) the bias in air kerma-to-Hp(10) conversion coefficients resulting from geometric differences between the human body and slab phantom. The biases were quantified by implementing personal dosimeters on the slab and human phantoms coupled with a Monte Carlo method and considered to calculate the bias-corrected Hp(10)-to-organ-absorbed dose conversion coefficients. Results and Discussion: The bias in Hp(10) was significant for large incident angles and low energies (e.g., 0.32 for right lateral at 218 keV), whereas the bias in dose coefficients was significant for the posteroanterior (PA) geometry only (e.g., 0.79 at 218 keV). The bias-corrected Hp(10)-to-organ-absorbed dose conversion coefficients derived in this study were up to 3.09- fold greater than those from the International Commission on Radiological Protection publications without considering the biases. Conclusion: The obtained results will aid future studies in assessing the health effects of occupational exposure of Korean radiation workers. The bias-corrected dose coefficients of this study can be used to calculate organ doses for Korean radiation workers based on personal dose records.
Keywords
Conversion Coefficient; Organ-Absorbed Dose; Bias Quantification; Monte Carlo Method; Epidemiological Study;
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Times Cited By KSCI : 1  (Citation Analysis)
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