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RADIATION HORMESIS: PRIMUM NON NOCERE
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RADIATION HORMESIS: PRIMUM NON NOCERE
Rubrics: DISCUSSION
Yargin S. 1
Authors:
1.  Peoples’ Friendship University (Associate Professor)
employee

Moscow, Russian Federation
Type:
Article
DOI:
https://doi.org/10.12737/1024-6177-2021-66-3-88
Pages:
from 88 to 88
Status:
Published
Received:
20.07.2021
Accepted:
20.07.2021
Published:
20.07.2021
Subject area:
UDK 61 Медицина. Охрана здоровья
GRNTI 76.33 Гигиена и эпидемиология
GRNTI 76.03 Медико-биологические дисциплины
OKSO 31.06.2001 Клиническая медицина
OKSO 31.08.08 Радиология
OKSO 32.08.12 Эпидемиология
OKSO 14.04.02 Ядерные физика и технологии
BBK 534 Общая диагностика
BBK 51 Социальная гигиена и организация здравоохранения. Гигиена. Эпидемиология
TBK 5712 Медицинская биология. Гистология
TBK 5734 Медицинская радиология и рентгенология
TBK 6212 Радиоактивные элементы и изотопы. Радиохимия
TBK 5708 Гигиена и санитария. Эпидемиология. Медицинская экология
Language:
Russian
Keywords:
radiaciya, gormezis, mutaciya, kancerogenez
Abstract and keywords
Abstract (English):
V obzore doktorov biologicheskih nauk A.N. Koterova i A.A. Vaynsona na temu o radiacionnom gormezise [1] citirovano 145 istochnikov, odnako ne upomyanuty nedavnie stat'i [2-4], gde, krome prochego, obsuzhdalis' sleduyuschie voprosy. Izvestno, chto mnogie faktory, dlya kotoryh harakterna dvuhfaznaya zavisimost' doza–effekt po tipu gormezisa, prisutstvuyut v estestvennoy srede obitaniya: veschestva i himicheskie elementy, raznye vidy stressa, ul'trafioletovoe i ioniziruyuschee izluchenie. Dlya prirodnyh faktorov gormezis ob'yasnim vvidu adaptacii zhivyh organizmov k opredelennomu urovnyu vozdeystviya, chto kasaetsya takzhe estestvennogo radiacionnogo fona, kotoryy snizhalsya za vremya suschestvovaniya zhizni na Zemle

Keywords:
radiaciya, gormezis, mutaciya, kancerogenez
References

1. Koterov A.N., Wainson A.A. Radiation Hormesis and Epidemiology: ‘Never the Twain Shall Meet’. Medical Radiology and Radiation Safety 2021;66(2):36-52(In Russian).

2. Jargin SV. Radiation safety and hormesis. Front Public Health. 2020;8:278. DOI:https://doi.org/10.3389/fpubh.2020.00278.

3. Jargin SV. Hormesis and radiation safety norms: Comments for an update. Hum Exp Toxicol. 2018;37(11):1233-1243. DOI:https://doi.org/10.1177/0960327118765332.

4. Jargin SV. Hormetic use of stress in gerontological interventions requires a cautious approach. Biogerontology. 2016;17(2):417-420. DOI:https://doi.org/10.1007/s10522-015-9630-8.

5. Karam PA, Leslie SA. Calculations of background beta-gamma radiation dose through geologic time. Health Phys. 1999;77(6):662-667. DOI:https://doi.org/10.1097/00004032-199912000-00010.

6. Calabrese EJ, Baldwin LA. Radiation hormesis: its historical foundations as a biological hypothesis. Hum Exp Toxicol. 2000;19(1):41-75. DOI:https://doi.org/10.1191/096032700678815602.

7. Vaiserman A, Cuttler JM, Socol Y. Low-dose ionizing radiation as a hormetin: experimental observations and therapeutic perspective for age-related disorders. Biogerontology. 2021;22(2):145-164. DOI:https://doi.org/10.1007/s10 522-020-09908-5.

8. Tanaka S, Tanaka IB 3rd, Sasagawa S, Ichinohe K, Takabatake T, Matsushita S, et al. No lengthening of life span in mice continuously exposed to gamma rays at very low dose rates. Radiat Res. 2003;160(3):376-379. DOI:https://doi.org/10.1667/rr3042.

9. Caratero A, Courtade M, Bonnet L, Planel H, Caratero C. Effect of a continuous gamma irradiation at a very low dose on the life span of mice. Gerontology. 1998;44(5):272-276. DOI:https://doi.org/10.1159/000022024.

10. Crump KS, Duport P, Jiang H, Shilnikova NS, Krewski D, Zielinski JM. A meta-analysis of evidence for hormesis in animal radiation carcinogenesis, including a discussion of potential pitfalls in statistical analyses to detect hormesis. J Toxicol Environ Health B Crit Rev. 2012;15(3):210-231. DOI:https://doi.org/10.1080/10937404.2012.659140.

11. Duport P, Jiang H, Shilnikova NS, Krewski D, Zielinski JM. Database of radiogenic cancer in experimental animals exposed to low doses of ionizing radiation. J Toxicol Environ Health B Crit Rev. 2012;15(3):186-209. DOI:https://doi.org/10.1080/10937404.2012.659136.

12. Dreicer M. Book review. Chernobyl: Consequences of the catastrophe for people and the environment. Environ Health Perspect 2010;118:A500. DOI:https://doi.org/10.1289/ehp.118-a500.

13. Richardson DB, Cardis E, Daniels RD, Gillies M, O’Hagan JA, Hamra GB, et al. Risk of cancer from occupational exposure to ionising radiation: retrospective cohort study of workers in France, the United Kingdom, and the United States (INWORKS). BMJ. 2015;351:h5359. DOI: 10.1136/ bmj.h5359.

14. Little JB. Low-dose radiation effects: interactions and synergism. Health Phys. 1990;59(1):49-55. DOI:https://doi.org/10.1097/00004032-199007000-00005.

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