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http://dx.doi.org/10.14407/jrpr.2021.00066

Age-Specific Thyroid Internal Dose Estimation for Koreans  

Kwon, Tae-Eun (National Radiation Emergency Medical Center, Korea Institute of Radiological and Medical Sciences)
Yoon, Seokwon (National Radiation Emergency Medical Center, Korea Institute of Radiological and Medical Sciences)
Ha, Wi-Ho (National Radiation Emergency Medical Center, Korea Institute of Radiological and Medical Sciences)
Chung, Yoonsun (Department of Nuclear Engineering, Hanyang University)
Jin, Young Woo (National Radiation Emergency Medical Center, Korea Institute of Radiological and Medical Sciences)
Publication Information
Journal of Radiation Protection and Research / v.46, no.4, 2021 , pp. 170-177 More about this Journal
Abstract
Background: The International Commission on Radiological Protection is preparing to provide reference dose coefficients for environmental radioiodine intake based on newly developed age-specific biokinetic models. However, the biokinetics of iodine has been reported to be strongly dependent on the dietary intake of stable iodine; for example, the thyroidal uptake of iodine may be substantially lower in iodine-rich regions than in iodine-deficient regions. Therefore, this study attempted to establish a system of age-specific thyroid dose estimation for South Koreans, whose daily iodine intakes are significantly higher than that of the world population. Materials and Methods: Korean age-specific biokinetic parameters and thyroid masses were derived based on the previously developed Korean adult model and the Korean anatomical reference data for adults, respectively. This study complied with the principles used in the development of age-specific biokinetic models for world population and used the ratios of baseline values for each age group relative to the value for adults to derive age-specific values. Results and Discussion: Biokinetic model predictions based on the Korean age-specific parameters showed significant differences in iodine behaviors in the body compared to those predicted using the model for the world population. In particular, the Korean age-specific thyroid dose coefficients for 129I and 131I were considerably lower than those calculated for the world population (25%-76% of the values for the world population). Conclusion: These differences stress the need for Korean-specific internal dose assessments for infants and children, which can be achieved by using the data calculated in this study.
Keywords
Thyroid Dose; Koreans; Age-Specific; Biokinetic Model; Internal Dosimetry;
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1 Wayson MB. Computational internal dosimetry methods as applied to the University of Florida series of hybrid phantoms. Gainesville, FL: University of Florida; 2012.
2 International Commission on Radiological Protection. Age-dependent doses to members of the public from intake of radionuclides, Part 1 (ICRP Publication 56). Ottawa, Canada: International Commission on Radiological Protection; 1990.
3 Leggett RW. A physiological systems model for iodine for use in radiation protection. Radiat Res. 2010;174(4):496-516.   DOI
4 Leggett R. An age-specific biokinetic model for iodine. J Radiol Prot. 2017;37(4):864-882.   DOI
5 Paquet F, Bailey MR, Leggett RW, Lipsztein J, Marsh J, Fell TP, et al. ICRP Publication 137: Occupational Intakes of Radionuclides: Part 3. Ann ICRP. 2017;46(3-4):1-486.
6 Kim S, Kwon YS, Kim JY, Hong KH, Park YK. Association between iodine nutrition status and thyroid disease-related hormone in Korean adults: Korean National Health and Nutrition Examination Survey VI (2013-2015). Nutrients. 2019;11(11):2757.   DOI
7 International Commission on Radiological Protection. Human respiratory tract model for radiological protection (ICRP Publication 66). Ottawa, Canada: International Commission on Radiological Protection; 1994.
8 Lee HS, Min H. Iodine intake and tolerable upper intake level of iodine for Koreans. Korean J Nutr. 2011;44(1):82-91.   DOI
9 Kwon TE, Chung Y, Jin YW. Korean-specific biokinetic model for iodine in radiological protection. J Radiol Prot. 2021;41(2):162-178.   DOI
10 International Atomic Energy Agency. Compilation of anatomical, physiological and metabolic characteristics for reference Asian man. Wien, Austria: International Atomic Energy Agency; 1998.
11 International Commission on Radiological Protection. Human alimentary tract model for radiological protection (ICRP Publication 100). Ottawa, Canada: International Commission on Radiological Protection; 2006.
12 International Commission on Radiological Protection. Basic anatomical and physiological data for use in radiological protection: reference values: a report of age- and gender-related differences in the anatomical and physiological characteristics of reference individuals (ICRP Publication 89). Ottawa, Canada: International Commission on Radiological Protection; 2002.
13 Ahn YC, Kim YH, Cho WS, Bae WK, Kim IY. Prenatal sonographic measurement of the fetal thyroid gland. J Korean Soc Med Ultrasound. 2001;20(1):65-69.
14 Zanzonico PB. Age-dependent thyroid absorbed doses for radiobiologically significant radioisotopes of iodine. Health Phys. 2000;78(1):60-67.   DOI
15 Suzuki S, Midorikawa S, Fukushima T, Shimura H, Ohira T, Ohtsuru A, et al. Systematic determination of thyroid volume by ultrasound examination from infancy to adolescence in Japan: the Fukushima Health Management Survey. Endocr J. 2015;62(3):261-268.   DOI
16 Bromley B, Frigoletto FD Jr, Cramer D, Osathanondh R, Benacerraf BR. The fetal thyroid: normal and abnormal sonographic measurements. J Ultrasound Med. 1992;11(1):25-28.   DOI
17 Choi C, Yeom YS, Nguyen TT, Lee H, Han H, Shin B, et al. Korean anatomical reference data for adults for use in radiological protection. J Korean Phys Soc. 2018;72(1):183-191.   DOI