BACKGROUND: Little is known about the joint effect of iodine deficiency and radiation exposure on the risk of thyroid cancer. No epidemiological studies have been published assessing the modifying effect of iodine deficiency on radiation-induced thyroid cancer following the Chernobyl accident. METHODS: A population sample of 3070 individuals (2590 ages 6-18, and 480 adults) from 75 settlements in the most highly contaminated regions of the Bryansk Oblast of Russia was identified and sampled for urinary iodine measurements in 1996, and iodine deficiency in each geopolitical unit (raion) was estimated. All cases of thyroid cancer were identified in those born 1968-1986 who were resident in the study area in May-June 1986 (34 histologically confirmed cases). The risk of thyroid cancer was examined in relation to population estimates of thyroid radiation dose and urinary iodine excretion level. RESULTS: The excess relative risk (ERR) of thyroid cancer was significantly associated with increasing thyroid radiation dose, and was inversely associated with urinary iodine excretion levels. There was a joint effect of radiation exposure and iodine deficiency. At 1 gray (Gy), the ERR in territories with severe iodine deficiency was approximately two times that in areas of normal iodine intake. CONCLUSIONS: These findings suggest that elimination of iodine deficiency in areas affected by Chernobyl may be important in reducing the effects of radiation exposure on the thyroid. If confirmed by studies based on individuals, they may have implications for the use of stable iodine in the case of population exposure to radioactive iodine.
BACKGROUND: Little is known about the joint effect of iodinedeficiency and radiation exposure on the risk of thyroid cancer. No epidemiological studies have been published assessing the modifying effect of iodine deficiency on radiation-induced thyroid cancer following the Chernobyl accident. METHODS: A population sample of 3070 individuals (2590 ages 6-18, and 480 adults) from 75 settlements in the most highly contaminated regions of the Bryansk Oblast of Russia was identified and sampled for urinary iodine measurements in 1996, and iodine deficiency in each geopolitical unit (raion) was estimated. All cases of thyroid cancer were identified in those born 1968-1986 who were resident in the study area in May-June 1986 (34 histologically confirmed cases). The risk of thyroid cancer was examined in relation to population estimates of thyroid radiation dose and urinary iodine excretion level. RESULTS: The excess relative risk (ERR) of thyroid cancer was significantly associated with increasing thyroid radiation dose, and was inversely associated with urinary iodine excretion levels. There was a joint effect of radiation exposure and iodine deficiency. At 1 gray (Gy), the ERR in territories with severe iodine deficiency was approximately two times that in areas of normal iodine intake. CONCLUSIONS: These findings suggest that elimination of iodine deficiency in areas affected by Chernobyl may be important in reducing the effects of radiation exposure on the thyroid. If confirmed by studies based on individuals, they may have implications for the use of stable iodine in the case of population exposure to radioactive iodine.
Authors: Angela M Leung; Andrew J Bauer; Salvatore Benvenga; Alina V Brenner; James V Hennessey; James R Hurley; Stacey A Milan; Arthur B Schneider; Krishnamurthi Sundaram; Daniel J Toft Journal: Thyroid Date: 2017-06-21 Impact factor: 6.568
Authors: Stephen S Yoo; Timothy J Jorgensen; Ann R Kennedy; John D Boice; Alla Shapiro; Tom C-C Hu; Brian R Moyer; Marcy B Grace; Gary J Kelloff; Michael Fenech; Pataje G S Prasanna; C Norman Coleman Journal: J Radiol Prot Date: 2014-04-14 Impact factor: 1.394
Authors: E Dillwyn Williams; Alexander Abrosimov; Tatiana Bogdanova; Evgeny P Demidchik; Masahiro Ito; Virginia LiVolsi; Evgeny Lushnikov; Juan Rosai; Mikola D Tronko; Anatoly F Tsyb; Sarah L Vowler; Geraldine A Thomas Journal: Thyroid Date: 2008-08 Impact factor: 6.568