Literature DB >> 15038762

A cohort study of thyroid cancer and other thyroid diseases after the Chornobyl accident: objectives, design and methods.

Valentin A Stezhko1, Elena E Buglova, Larissa I Danilova, Valentina M Drozd, Nikolaj A Krysenko, Nadia R Lesnikova, Victor F Minenko, Vladislav A Ostapenko, Sergey V Petrenko, Olga N Polyanskaya, Valery A Rzheutski, Mykola D Tronko, Olga O Bobylyova, Tetyana I Bogdanova, Ovsiy V Ephstein, Iryna A Kairo, Olexander V Kostin, Ilya A Likhtarev, Valentin V Markov, Valery A Oliynik, Viktor M Shpak, Valeriy P Tereshchenko, Galina A Zamotayeva, Gilbert W Beebe, Andre C Bouville, Aaron B Brill, John D Burch, Daniel J Fink, Ellen Greenebaum, Geoffrey R Howe, Nickolas K Luckyanov, Ihor J Masnyk, Robert J McConnell, Jacob Robbins, Terry L Thomas, Paul G Voillequé, Lydia B Zablotska.   

Abstract

The thyroid gland in children is one of the organs that is most sensitive to external exposure to X and gamma rays. However, data on the risk of thyroid cancer in children after exposure to radioactive iodines are sparse. The Chornobyl accident in Ukraine in 1986 led to the exposure of large populations to radioactive iodines, particularly (131)I. This paper describes an ongoing cohort study being conducted in Belarus and Ukraine that includes 25,161 subjects under the age of 18 years in 1986 who are being screened for thyroid diseases every 2 years. Individual thyroid doses are being estimated for all study subjects based on measurement of the radioactivity of the thyroid gland made in 1986 together with a radioecological model and interview data. Approximately 100 histologically confirmed thyroid cancers were detected as a consequence of the first round of screening. The data will enable fitting appropriate dose-response models, which are important in both radiation epidemiology and public health for prediction of risks from exposure to radioactive iodines from medical sources and any future nuclear accidents. Plans are to continue to follow-up the cohort for at least three screening cycles, which will lead to more precise estimates of risk.

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Year:  2004        PMID: 15038762     DOI: 10.1667/3148

Source DB:  PubMed          Journal:  Radiat Res        ISSN: 0033-7587            Impact factor:   2.841


  58 in total

1.  Screening effects in risk studies of thyroid cancer after the Chernobyl accident.

Authors:  Jan Christian Kaiser; P Jacob; M Blettner; S Vavilov
Journal:  Radiat Environ Biophys       Date:  2009-02-12       Impact factor: 1.925

2.  RET/PTC and PAX8/PPARγ chromosomal rearrangements in post-Chernobyl thyroid cancer and their association with iodine-131 radiation dose and other characteristics.

Authors:  Rebecca J Leeman-Neill; Alina V Brenner; Mark P Little; Tetiana I Bogdanova; Maureen Hatch; Liudmyla Y Zurnadzy; Kiyohiko Mabuchi; Mykola D Tronko; Yuri E Nikiforov
Journal:  Cancer       Date:  2013-02-21       Impact factor: 6.860

3.  Non-thyroid cancer in Northern Ukraine in the post-Chernobyl period: Short report.

Authors:  M Hatch; E Ostroumova; A Brenner; Z Federenko; Y Gorokh; O Zvinchuk; V Shpak; V Tereschenko; M Tronko; K Mabuchi
Journal:  Cancer Epidemiol       Date:  2015-03-18       Impact factor: 2.984

4.  Comparative Histopathologic Analysis of "Radiogenic" and "Sporadic" Papillary Thyroid Carcinoma: Patients Born Before and After the Chernobyl Accident.

Authors:  Tetiana I Bogdanova; Vladimir A Saenko; Alina V Brenner; Liudmyla Yu Zurnadzhy; Tatiana I Rogounovitch; Ilya A Likhtarov; Sergii V Masiuk; Leonila M Kovgan; Victor M Shpak; Geraldine A Thomas; Stephen J Chanock; Kiyohiko Mabuchi; Mykola D Tronko; Shunichi Yamashita
Journal:  Thyroid       Date:  2018-07       Impact factor: 6.568

5.  Goodness of Fit Tests for Linear Mixed Models.

Authors:  Min Tang; Eric V Slud; Ruth M Pfeiffer
Journal:  J Multivar Anal       Date:  2014-04-05       Impact factor: 1.473

6.  Karyopathological traits of thyrocytes and exposure to radioiodines in Belarusian children and adolescents following the accident at the Chernobyl nuclear power plant.

Authors:  Eldar Nadyrov; Alexander Rozhko; Viacheslav Kravtsov; Kiyohiko Mabuchi; Maureen Hatch; Nori Nakamura; Sergey Nikonovich; Sergey Aleksanin
Journal:  Radiat Environ Biophys       Date:  2012-03-01       Impact factor: 1.925

7.  30 years After the Chernobyl Nuclear Accident: Time for Reflection and Re-evaluation of Current Disaster Preparedness Plans.

Authors:  Lydia B Zablotska
Journal:  J Urban Health       Date:  2016-06       Impact factor: 3.671

8.  Mathematical modeling of a survey-meter used to measure radioactivity in human thyroids: Monte Carlo calculations of the device response and uncertainties.

Authors:  Arkady Khrutchinsky; Vladimir Drozdovitch; Semion Kutsen; Victor Minenko; Valeri Khrouch; Nickolas Luckyanov; Paul Voillequé; André Bouville
Journal:  Appl Radiat Isot       Date:  2011-12-29       Impact factor: 1.513

9.  ETV6-NTRK3 is a common chromosomal rearrangement in radiation-associated thyroid cancer.

Authors:  Rebecca J Leeman-Neill; Lindsey M Kelly; Pengyuan Liu; Alina V Brenner; Mark P Little; Tetiana I Bogdanova; Viktoria N Evdokimova; Maureen Hatch; Liudmyla Y Zurnadzy; Marina N Nikiforova; Ning J Yue; Miao Zhang; Kiyohiko Mabuchi; Mykola D Tronko; Yuri E Nikiforov
Journal:  Cancer       Date:  2013-12-10       Impact factor: 6.860

10.  Influence of the external and internal radioactive contamination of the body and the clothes on the results of the thyroidal 131I measurements conducted in Belarus after the Chernobyl accident-Part 2: Monte Carlo simulation of response of detectors near the thyroid.

Authors:  Semion Kutsen; Arkady Khrutchinsky; Victor Minenko; Paul Voillequé; André Bouville; Vladimir Drozdovitch
Journal:  Radiat Environ Biophys       Date:  2019-05-03       Impact factor: 1.925
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