Preview

Клиническая и экспериментальная тиреоидология

Расширенный поиск

ЧЕРНОБЫЛЬ: ДВАДЦАТЬ ЛЕТ СПУСТЯ

https://doi.org/10.14341/ket2006225-14

Об авторах

G A Gerasimov



D Figge



Список литературы

1. Figge J., Jennings T., Gerasimov G. et al. Radiation and Thyroid Cancer. In: Thyroid Cancer. A comprehensive Guide to Clinical Management. 2nd Edition. (L.Wartofsky and D. Van Norstrand, Eds.) Humana Press. 2006. Р. 63-84.

2. Cardis E. et al. Risk of Thyroid Cancer After Exposure to 131I in Childhood // J. National Cancer Institute. 2005. V. 97. N. 10. Р. 724-732.

3. Balonov M., Jacob P., Likhtarev I., Minenko V. Pathways, levels and trends of population exposure after the Chernobyl accident. In Karaoglou A., Desmet G., Kelly G.N., Menzel H.G., editors. The radiological consequences of the Chernobyl accident. Brussels: European Commission. 1996. Р. 235-249.

4. Balter M. Children Become the First Victims of Fallout // Science. 1996. V. 272. P. 357-360.

5. World Health Organization. International programme on the health effects of the Chernobyl accident. Geneva: World Health Organization. 1993.

6. Stsjazhko V.A., Tsyb A.F., Tronko N.D., Souchkevitch G., Baverstock K.F. Childhood thyroid cancer since accident at Chernobyl // BMJ. 1995. V. 310. P. 801.

7. Герасимов Г.А. Влияние ионизирующей радиации на щитовидную железу // Пробл. эндокринол. 1991. T. 37, № 4. C. 64-67.

8. Shore R.E. Issues and epidemiological evidence regarding radiation-induced thyroid cancer // Radiat Res. 1992. V. 131. P. 98-111.

9. Schneider A.B., Ron E., Lubin J. et al. Dose-response relationships for radiation-induced thyroid cancer and nodules: evidence for the prolonged effects of radiation on the thyroid // J. Clin. Endocrinol. Metab. 1993. V. 77. P. 362-369.

10. Ron E., Modan B., Preston D. et al. Thyroid neoplasia following low-dose radiation in childhood // Radiat Res. 1989. V. 120. P. 516-531.

11. Ron E., Lubin J.H., Shore R.E. et al. Thyroid cancer after exposure to external radiation: a pooled analysis of seven studies // Radiat Res. 1995. V. 141. P. 259-277.

12. Gavrilin Y., Khrouch V., Shinkarev S. et al. Estimation of thyroid doses received by the population of Belarus as a result of the Chernobyl accident. In Karaoglou A., Desmet G., Kelly G.N., Menzel H.G., editors. The radiological consequences of the Chernobyl accident. Brussels: European Commission. 1996. P. 1011-1020.

13. Jacob P., Kenigsberg Y., Zvonova I. et al. Childhood exposure due to the Chernobyl accident and thyroid cancer risk in contaminated areas of Belarus and Russia // Br J. Cancer. 1999. V. 80. P. 1461-1469.

14. Sobolev B., Likhtarev I., Kairo I. et al. Radiation risk assessment of the thyroid cancer in Ukrainian children exposed due to Chernobyl. In Karaoglou A., Desmet G., Kelly G.N., Menzel H.G., editors. The radiological consequences of the Chernobyl accident. Brussels: European Commission. 1996. P. 741-748.

15. Likhtarev I.A., Sobolev B.G., Kairo I.A. et al. Thyroid cancer in the Ukraine // Nature. 1995. V. 375. P. 365.

16. Zvonova I., Balonov M.I. Radioiodine dosimetry and prediction of thyroid effects on inhabitants of Russia following the Chernobyl accident. In Merwin S.E., Balonov M.I., editors. The Chernobyl papers. V. I: Doses to the Soviet population and early health effects studies. Richland, WA: Research Enterprises. 1993. P. 71-126.

17. Baverstock K., Egloff B., Finchera A. et al. Thyroid cancer after Chernobyl // Nature. 1992. V. 359. P. 21-22.

18. Williams E.D., Tronko N.D. Molecular, cellular, biological characterization of childhood thyroid cancer. Brussels: European Commission. 1996.

19. Furmanchuk A.W., Averkin J.I., Egloff B. et al. Pathomorphological findings in thyroid cancers of children from the Republic of Belarus: a study of 86 cases occurring between 1986 (“post-Chernobyl”) and 1991 // Histopathology. 1992. V. 21. P. 401-408.

20. Abelin T., Egger M., Ruchti C. Belarus increase was probably caused by Chernobyl // BMJ. 1994. V. 309. P. 1298.

21. Demidchik Y.E., Demidchik E.P. Thyroid carcinomas in Belarus 16 years after the Chernobyl disaster. In: Proceedings of symposium of Chernobyl-related health effects. Nov. 27-28, 2002; Tokyo, Japan. Tokyo: Radiation Effects Association: 2002.

22. Tronko N., Bogdanova T., Komissarenko I. et al. Thyroid cancer in children and adolescents in Ukraine after the Chernobyl accident. In Karaoglou A., Desmet G., Kelly G.N., Menzel H.G., editors. The radiological consequences of the Chernobyl accident. Brussels: European Commission. 1996. P. 683-690.

23. Tsyb A.F., Parshkov E.M., Ivanov V.K. et al. Disease indices of thyroid and their dose dependence in children and adolescents affected as a result of the Chernobyl accident. In Nagataki S, editor. Amsterdam: Elsevier Science. 1994. 9-19.

24. Ron E., Lubin J., Schneider A.B. Thyroid cancer incidence //Nature. 1992. V. 360. P. 113.

25. Astakhova L.N., Anspaugh L.R., Beebe G.W. et al. Chernobyl-related thyroid cancer in children of Belarus: a case-control study // Radiat Res. 1998. V.150. P. 349-356.

26. Jacob P., Goulko G., Heidenreich W.F. et al. Thyroid cancer risk to children calculated // Nature. 1998. V. 392. P. 31-32.

27. Shakhtarin V.V., Tsyb A.F., Stepanenko V.F. et al. Iodine deficiency, radiation dose, and the risk of thyroid cancer among children and adolescents in the Bryansk region of Russia following the Chernobyl power station accident // Int J. Epidemiol. 2003. V. 32. P. 584-591.

28. Niedziela M., Korman E., Breborowicz D. et al. A prospective study of thyroid nodular disease in children and adolescents in western Poland from 1996 to 2000 and the incidence of thyroid carcinoma relative to iodine deficiency and the Chernobyl disaster // Pediatr Blood Cancer. 2004. V. 42. P. 84-92.

29. Герасимов Г.А. Йододефицитные заболевания (ЙДЗ) в Российской Федерации: политика в области профилактики и тенденция в эпидемиологической ситуации (1950-2002 гг.). М., 2003. 50 с.

30. Герасимов Г.А., Гутекунст Р. Эндемический зоб и йодная обеспеченность в Гомельской области: Тез. докл. 3-й Респ. научно-практ. конф. врачей. Минск, 1992. Ч. 2. 137 с.

31. Gerasimov G., Alexandrova G., Arbuzova M. et al. Iodine defficiency disorders (IDD) in regions of Russia affected by Chernobyl. In Karaoglou A., Desmet G., Kelly G.N., Menzel H.G., editors. The radiological consequences of the Chernobyl accident. Brussels: European Commission. 1996. P. 813-815.

32. Mityukova T., Astakhova L., Asenchyk L. et al. Urinary iodine excretion in Byelarus children // Eur J. Endocrinol. 1995. V. 133. P. 216-217.

33. Дедов И.И., Юденич О.Н., Герасимов Г.А Эндемический зоб. Проблемы и решения // Пробл. эндокринол. 1992. T. 38. № 3. С. 61-62.

34. Jackson R.., DeLozier D., Gerasimov G. et al. Chernobyl and Iodine Deficiency in the Russian Federation: An Environmental Disaster Leading to a Public Health Opportunity // J. Public Health Policy. 2001. V. 23. N 4. P. 53-470.

35. Eheman C., Garbe P., Tuttle M. Autoimmune thyroid disease associated with environmental thyroid irradiation // Thyroid. 203. V. 13. P. 453-464.


Рецензия

Для цитирования:


Gerasimov G.A., Figge D. ЧЕРНОБЫЛЬ: ДВАДЦАТЬ ЛЕТ СПУСТЯ. Клиническая и экспериментальная тиреоидология. 2006;2(2):5-14. https://doi.org/10.14341/ket2006225-14

For citation:


, ChERNOBYL': DVADTsAT' LET SPUSTYa. Clinical and experimental thyroidology. 2006;2(2):5-14. (In Russ.) https://doi.org/10.14341/ket2006225-14

Просмотров: 369


ISSN 1995-5472 (Print)
ISSN 2310-3787 (Online)