Problems of Social Hygiene, Public Health and History of Medicine

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The mortality of adult population from after-troubles of cerebrovascular diseases in the Russian Federation: the territorial differences

Starodubov

Vladimir Ivanovich

starodubov@mednet.ruVaisman

David Shunevich

dv55@mail.ruEnina

Ekaterina Nikolaevna

eninaen@bk.ruStupak

Valery Semenovich

stupak@mednet.ru

The Federal State Budget Institution The Central Research Institute for Health Organization and Informatics of Minzdrav of Russia, 127254, Moscow, Russia

29042025

332

05052025

2025

The purpose of the study is to investigate trends in adult population mortality from consequences of cerebrovascular diseases (CVD) as primary cause of death in the Subjects of the Russian Federation and the Federal Okrugs (FO) before and during the COVID-19 pandemic. The data from statistical collections The Demographic Yearbook of Russia and The Medical and Demographic Indicators of the Russian Federation for 20192022 was involved into analysis. The statistical and analytical methods were applied. The indicators of the dynamic range were calculated. In the Russian Federation, in 20192022 was noted tendency of decreasing mortality of adult population from aftermaths of cerebrovascular diseases from 30.8 to 23.5 per 100 thousand of corresponding population (the rate of decline 23.7%). The same trend was observed in seven Federal Okrugs (decrease of 20.0% on average), with exception of the North Caucasus Federal Okrug (the growth rate was 8.9%). In the year of the pandemic onset (2020) in the Russian Federation, mortality from consequences of CVD increased by 1,9%. The North Caucasian, Volga, Urals, Siberian, Far Eastern Federal Okrugs demonstrated average increase in mortality up to 12.6%. The Central, North-Western and Southern Federal Okrugs registered average decrease up to 11.9%. The highest mortality of adult population from CVD aftermaths in 2022 was observed in the Amur Oblast (125.3 per 100,000 of the corresponding population) and the Ivanovo Oblast (119.8 per 100,000 of the corresponding population). The lowest value was established in the Republic of Ingushetia (1.7 per 100,000 of corresponding population) and in the Astrakhan Oblast (4.1 per 100,000 of corresponding population). The results of the study demonstrated that before and during the COVID-19 pandemic (20192022) there were territorial differences in the mortality of adult population from CVD aftermaths that may become a prerequisite in further search for decreasing mortality from controllable causes. During the pandemics, decrease of mortality of adult population from CVD was noted only in three Federal Okrugs out of eight (Central, North-Western and Southern). The differences in regions of the Russian Federation can be associated with different approaches in choosing initial cause of death. This fact is to be considered while auditing quality of medical care provision in the Subjects of the Russian Federation and in formation of educational programs for medical personnel involved in drawing up mortality certificates.

mortality statisticscauses of deathICD-10cerebrovascular disease outcomecodinginitial cause of deathregional differences

статистика смертностипричины смертиМКБ-10последствия цереброваскулярных болезнейкодированиевыбор первоначальной причины смертирегиональные различия

Stupak V. S., Zubko A. V., Manoshkina E. M., Kobyakova O. S., Deev I. A., Enina E. N. Health care of Russia during the COVID-19 pandemic: challenges, systemic problems and solution of priority tasks. Preventive Medicine. 2022;25(11):21–7. doi: 10.17116/profmed20222511121 (in Russian).

Boytsov S. A., Golukhova E. Z., Drapkina O. M., Zayratyanets O. V., Samorodskaya I. V., Semyonov V. Yu. Population mortality from various diseases of the circulatory system in Moscow and St. Petersburg in 2015 and 2018. Russian Cardiologic Journal. 2021;26(1):4048. doi: 10.15829/1560-4071-2021-4048 (in Russian).

Byzov N. S., Nozhkina N. V. Modern issues of medical and demographic consequences and health saving in cerebrovascular diseases. In: Demographic and Family Policy in the Context of Sustainable Development Goals. Collection of articles of the IX Ural Demographic Forum: in 2 volumes. Vol. 1. Institute of Economics. Yekaterinburg: Ural Branch of the Russian Academy of Sciences; 2018. P. 494–505 (in Russian).

Kurmangulov A. A., Bachurina M. Yu., Gadzhiev N. A. Dynamics of statistical indicators of cerebrovascular diseases against the background of pandemic coronavirus infection. Bulletin of Surgut State University. Medicine. 2023;16(2):52–8. doi: 10.35266/2304-9448-2023-2-52-58 (in Russian).

Danilov A. V., Kobzar I. I., Nagibin O. A., Panfilova M. S., Filippov E. V., Hominets V. V., Yakushin S. S. Morbidity and mortality from cardiovascular diseases in the Ryazan region: 2014–2018 years. Science of The Young (Eruditio Juvenium). 2019;7(3):439–49 (in Russian).

Potapova D. G., Zaripova T. V., Nozhkina N. V., Byzov N. S. Mortality from cerebrovascular diseases in the context of municipalities of the Sverdlovsk region. In: Actual issues of modern medical science and public health. Proceedings of the IV International (74 All-Russian) Scientific and Practical Conference of Young Scientists and Students, All-Russian Forum of Medical and Pharmaceutical Universities, dedicated to the 100th anniversary of the rector of the Sverdlovsk State Medical Institute, Professor Vasily Nikolaevich Klimov. Vol. 3. Yekaterinburg; 2019. P. 550–5 (in Russian).

Karpova O. B., Zagoruichenko A. A. Problems of morbidity and mortality from diseases of the circulatory system of the adult population in the Siberian Federal District. Bulletin of the N. A. Semashko National Research Institute of Public Health. 2023;(2):89–94. doi: 10.25742/NRIPH.2023.02.013 (in Russian).

Samorodskaya I. V., Andreev E. M., Zaratyants O. V. Mortality rates of the population over 50 years of age from cerebrovascular diseases over a 15-year period in Russia and the United States. Neurology, Neuropsychiatry, Psychosomatics. 2017;9(2):15–24. doi: 10.15829/1560-4071-2017-6-100-107 (in Russian).

Yumaguzin V. V., Vinnik M. V. Assessment of the quality of mortality statistics by cause in the regions of Russia. Monitoring of Public Opinion: Economic and Social Changes. 2023;(2):282–303. doi: 10.14515/monitoring.2023.2.2368 (in Russian).

10.

Moseeva M. B., Azizova T. V., Grigorieva E. S., Bagaeva Ya. P., Kazachkov E. L., Sychugov G. V. Structure of mortality from cerebrovascular diseases in the cohort of workers exposed to occupational radiation in dynamics over the entire period of observation. Pediatrics. 2017;5(149):114–20 (in Russian).

11.

International statistical classification of diseases and related health problems. 10th revision. 5th ed. Geneva: WHO; 2016. Vol. 2. Instruction manual.

12.

Zayratyants O. V., Vasilieva E. Yu., Mikhaleva L. M., Olenev A. S., Cherkasov S. N., Chernyaev A. L., Shamalov N. A., Shpektor A. V. Rules for formulation of pathologoanatomic diagnosis, selection and coding of causes of death according to ICD-10. Class IX. Diseases of the circulatory system. Methodical recommendations. Moscow: Moscow City Health Department; 2019. 66 p. (in Russian).

13.

Weissman D. S. Manual on the use of the International Classification of Diseases in the practice of a doctor: in 2 volumes. 2nd ed. Moscow: RRHF; 2022. Vol. 1–2. 514 с. ISBN 978-5-94116-068-6 (in Russian).