Problems of Social Hygiene, Public Health and History of MedicineProblems of Social Hygiene, Public Health and History of Medicine0869-866X2412-2106Joint-Stock Company Chicot210810.32687/0869-866X-2023-31-s2-1213-1218Научная статьяMANAGEMENT SOLUTIONS USING DIGITAL TECHNOLOGIES IN THE HEALTHY MOSCOW PAVILIONSBezymyannyA. S.GrininV. M.MingazovR. N.MingazovaE. N.0212202331\S21213121805082025Copyright © 1970,1970The digital transformation of healthcare is an integral part of the priorities in modern healthcare. A striking example of the practical implementation of compliance with the basic principles of digital healthcare is the Healthy Moscow project, which has been implemented since 2021, which has become a real breakthrough in Russia in ensuring accessibility and convenience in providing medical care to the population. The aim of the project is the early prevention of chronic non-communicable diseases, the formation of a healthy lifestyle and the improvement of the well-being of Moscow residents, as well as the development of a conscious attitude to taking care of their health. Pavilions in the park areas of Moscow are an integral part of the modern medical infrastructure, providing convenient conditions for obtaining medical advice and information. The article provides information on the types of digital technologies and basic equipment that the pavilions (large and small) are equipped with as part of the Healthy Moscow project, it is shown that the introduction of digital healthcare technologies is one of the key tasks of the national strategy of Russia, which contributes significantly contribution to the successful implementation of the Healthy Moscow project.digital technologies, digital medicine, prevention, promotion of a healthy lifestyle, clinical examination, Healthy Moscow projectцифровые технологии, цифровая медицина, профилактика, формирование здорового образа жизни, диспансеризация, проект «Здоровая Москва»1.Global strategy on digital health 2020—2025. Geneva: World Health Organization. 2021; 60 p.2.Butcher C. J., Hussain W. Digital healthcare: the future. Future Healthc J. 2022; 9(2): 113—117. doi: 10.7861/fhj.2022—00463.Attia Z. I., Harmon D. M., Behr E. R., Friedman P. A. Application of artificial intelligence to the electrocardiogram. Eur Heart J. 2021; 42(46): 4717—4730. doi: 10.1093/eurheartj/ehab6494.Asselbergs F. W., Fraser A. G. Artificial intelligence in cardiology: the debate continues. Eur Heart J Digit Health. 2021; 2(4): 721—726. doi: 10.1093/ehjdh/ztab0905.Siontis K. C., Noseworthy P. A., Attia Z. I., Friedman P. A. Artificial intelligence-enhanced electrocardiography in cardiovascular disease management. Nat Rev Cardiol. 2021; 18(7): 465—478. doi: 10.1038/s41569-020-00503-26.Attia Z. I., Kapa S., Lopez-Jimenez F., et al. Screening for cardiac contractile dysfunction using an artificial intelligence-enabled electrocardiogram. Nat Med. 2019; 25(1): 70—74. doi: 10.1038/s41591-018-0240-27.Nelson A., Herron D., Rees G., Nachev P. Predicting scheduled hospital attendance with artificial intelligence. NPJ Digit Med. 2019; 2: 26. doi: 10.1038/s41746-019-0103-3