Affiliation:
1. Institute of Industrial Ecology of the Ural Branch of the Russian Academy of Sciences
Abstract
Introduction. Mortality from lung cancer is more than 20% of all deaths from malignant neoplasms (MN). The mortality rate from respiratory diseases in the Chelyabinsk region for many years exceeds the average in Russia. There is convincing evidence confirming the increase in mortality from respiratory diseases in the population living in radioactively contaminated areas
Materials and methods. The study of mortality from respiratory diseases in two cities: Kasli and Kyshtym, and four districts: Kasli, Argayash, Krasnoarmeysky, and Kunashaksky over a 50-year period from 1947 to 1996.
Results. An increase in the mortality in the male and female population from MN of the trachea, bronchi, lungs, and larynx was found. The most significant excess over the control was observed in the population of Kasli, Kyshtym, in Kasli and Argayash districts. During the entire studied period, the male population experienced an increase in mortality at rates exceeding the changes in the control territories. Among the female population, the highest mortality rates both in cities and in districts were recorded in the 1960s - 1970s. In addition to the increase in mortality rates in radioactively contaminated areas in the elderly and old age, an increase in mortality was found at the ages of 30–39, 40–49 years.
Limitations. The study period is limited to 1996 due to the inability to collect data for a later period.
Conclusion. The mortality rates of the male population from respiratory diseases in the cities of Kasli, Kyshtym, Kasli, and Argayash districts almost constantly exceeded the control values. There is an increase in mortality at young ages: 30–39, 40–49 years. Both men and women have recorded a wave-like nature
of mortality, periods of growth, as a rule, following 5–10 years after the next radiation incident.
Publisher
Federal Scientific Center for Hygiene F.F.Erisman
Reference22 articles.
1. Merabishvili V.M., Dyatchenko O.T. Lung cancer statistics (morbidity, mortality, survival). Prakticheskaya onkologiya. 2000; 1(3): 3–7. https://elibrary.ru/pzgpkx (in Russian)
2. Babanov S.A., Budash D.S., Baykova A.G., Ryzhova N.S. Occupational malignant tumors of the lungs and other organs and potentially dangerous industrial carcinogens. Consilium Medicum. 2017; 19(11): 39–46. https://doi.org/10.26442/2075-1753_19.11.39-46 https://elibrary.ru/ymlckv (in Russian)
3. Mukhambetzhan A.Zh., Urazaeva S.T., Urazaev O.N., Tusupkalieva K.Sh., Begalin T.B., et al. Current understanding of the epidemiology and risk factors for lung cancer. Literature review. Nauka i zdravookhranenie. 2020; 22(2): 27–37. https://doi.org/10.34689/SH.2020.22.2.003 https://elibrary.ru/swmkkv (in Russian)
4. Yarmoshenko I.V., Malinovskiy G.P., Vasil’ev A.V. Generalization of oncoepidemiological studies of the association of lung cancer with radon. Meditsina truda i promyshlennaya ekologiya. 2019; 59(2): 92–6. https://doi.org/10.31089/1026-9428-2019-59-2-92-96 https://elibrary.ru/zbbasd (in Russian)
5. Dvoyrin V.V., Trapeznikov N.N. Lung cancer statistics in Russia. Vestnik Onkologicheskogo nauchnogo tsentra Rossiyskoy akademii meditsinskikh nauk. 1996; 7(2): 3–12. https://elibrary.ru/hnluwy (in Russian)