V.I. Grishin1, E.E. Sigaleva2, E.I. Matsnev3, M.N. Simonenko4, V.V. Pyatenko5, S.B. Popov6, O.A. Zabedovskaya7

1–5 State Research Center of the Russian Federation Institute of Biomedical Problems of the Russian Academy of Sciences (Moscow, Russia)
6 LLC «Medical Systems» (Rostov-on-Don, Russia)
7 FGBU FCCC VMT FMBA of Russia (Moscow Region, Khimki, Russia)
1 v985363@yandex.ru

Increasing the adaptive potential of the body to extreme physical and psycho-emotional stress, adverse environmental factors, as well as optimizing the processes of restoring functional systems after stress, stress and disease, remain urgent tasks of modern medicine. This is especially important for people in dangerous professions who work in conditions of extreme exposure, where maintaining a high level of adaptation is necessary for the successful fulfillment of professional duties while maintaining health and prolonging professional longevity. One of the effective modern methods of increasing the adaptive capabilities of the body is the use of normobaric interval hypoxic training (IGT) and inhalation using technologies based on the use of modified atmospheric air with reduced and increased oxygen content. In addition, inhalation with mixtures of oxygen and inert gases is increasingly being used in world practice, which is also accompanied by the effects of increasing the nonspecific resistance of the body and the effectiveness of restoring the functional systems of the body. To develop a concept and implement a software and hardware package (PAK) for normobaric IGT and inhalation using oxygen-inert gas respiratory mixtures designed to develop the body's long-term adaptive capabilities to the effects of extreme physical and psycho-emotional stress and adverse environmental factors, as well as to restore the body's functional systems after stress, stress, and disease with minimization risks of side effects. New opportunities are opening up for activating the adaptive mechanisms of the body when combined with the effects of IGT and the effects of inhalation with mixtures of oxygen and inert gases. This is achieved by replacing the modified composition of air currently used in traditional IGP technologies with a mixture of oxygen and inert gases. A software and hardware complex has been developed, the functionality of which makes it possible to introduce and integrate into medical practice an innovative medical technology of normobaric IGT and inhalation using respiratory mixtures of oxygen with inert gases, which is highly effective in achieving long-term adaptive capabilities of the body to the effects of extreme physical and psycho-emotional stress and adverse environmental factors, as well as restoring the body's functional systems after transferred loads, stresses, illnesses, while minimizing the risks of adverse reactions of the body.

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