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RAS PresidiumДоклады Российской академии наук. Науки о жизни Doklady Biological Sciences

  • ISSN (Print) 2686-7389
  • ISSN (Online) 3034-5057

Association of Daily Dynamics of Myocardial Infarction Cases with Distribution of Spikes in TiNi Detector Readings

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PII
S30345057S2686738925040148-1
DOI
10.7868/S3034505725040148
Publication type
Article
Status
Published
Authors
G.Ts. Dambaev
  • Affiliation: Siberian State Medical University
V.Ya. Erofeev
  • Affiliation: Institute for Monitoring of Climate and Ecological Systems SB RAS
A.A. Garganeeva
  • Affiliation: Cardiology Research Institute, Tomsk National Research Medical Center, Russian Academy of Sciences
E.A. Kuzheleva
  • Affiliation: Cardiology Research Institute, Tomsk National Research Medical Center, Russian Academy of Sciences
S.A. Okrugin
  • Affiliation: Cardiology Research Institute, Tomsk National Research Medical Center, Russian Academy of Sciences
Volume/ Edition
Volume 523 / Issue number 1
Pages
462-468
Abstract
A comparison of the incidence of myocardial infarction during the day was made with the daily distribution of spikes in TiNi-detector readings. Based on long-term monitoring data, it has been shown that the maximum number of bursts on the TiNi detector graphs is observed between 07:00 and 10:00 local time. It is known that a similar daily pattern occurs in the case of cardiovascular complications. Based on the analysis of synchronism effects previously discovered using the TiNi detector, the properties of the factor acting on the detector, capable of influencing both the behavior of the TiNi system and the state of living organisms, have been determined. This approach allows us to obtain new data on the mechanisms of the impact of external factors on the state of the biosphere.
Keywords
инфаркт миокарда регистр сердечно-сосудистые осложнения детекторы TiNi-детектор эффекты синхронизма факторы воздействий
Date of publication
15.06.2025
Year of publication
2025
Number of purchasers
0
Views
94

References

  1. 1. Расулова В.В. Влияние климатических условий на возникновение острого инфаркта миокарда // Тверской медицинский журнал. 2023:1:1135–1161.
  2. 2. Kuzmenko N.V., Tsyrlin V.A., Pliss M.G., Galagudza M.M. // Egypt Heart J. 2022:74(1):84.
  3. 3. Bruno R.M., Taddei S. // European Heart Journal. 2015; 36:1152–1154.
  4. 4. Русак С.Н., Еськов В.В., Молягов Д.И. и др. // Экология человека. 2013; 11:1–6.
  5. 5. Козловская И.Л., Булкина О.С., Лопухова В.В. и др. // Тер. Архив. 2015; 9:84–90.
  6. 6. Ерофеев В.Я., Кабанов М.В., Выборнов П.В., Комаров А.И. // ДАН. 2015. Т. 465. № 6. С. 727–731.
  7. 7. Ерофеев В.Я., Кабанов М.В. // ДАН. 2019. Т. 484. № 6. С. 682–685.
  8. 8. Gurevich A.V., Karashtin A.N. // Phys. Rev. Lett. 2013. V. 110. 185005.
  9. 9. Erofeev V.Ya. // IOP Conf. Ser.: Earth and Environmental Science. 2021. 840:012022.
  10. 10. Sidorenkov N.S. // Astronomical and Astrophysical Transactions. 2018. V. 30, N 2. P. 249–260.
  11. 11. Erofeev V.Ya., Kabanov M.V. // IOP Conf. Ser.: Materials Science and Engineering. 2019:698(4):0044045.
  12. 12. Владимирский Б.М. Космическая погода и биосфера – история исследований и современность. М.: URSS, 2016. 172 с.
  13. 13. Panza J.A., Epstein S.E., Quyyumi A.A. // New England Journal of Medicine 325 (1991). Р. 986–990.
  14. 14. Гарганеева А.А., Округин С.А., Борель К.Н. // Сибирский медицинский журнал (г. Томск). 2015. Т. 30. № 2. С. 125–130.
  15. 15. Eisenberg M.S., Bergner L., Hallstrom A.P., Cummins R.O. // Scientific American 254 (May 1986). Р. 37–&.
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