UA78097C2 - Method for increasing compensatory capabilities of body - Google Patents

Abstract

The invention relates to the medicine, namely to the methods for increasing compensatory capabilities of the body with the aim of attaining top results in the sports. According to the invention, the method comprises the alternate exposure to hypoxic and hyperoxic breathing mixtures in the normobaric conditions as well as the exposure to the endogenous metabolic hypercapnic mixture.

Description

Description of the invention

The invention relates to the field of medicine and can be used for the prevention, treatment and rehabilitation of a wide range of diseases, to increase the compensatory capabilities of the body, as well as in sports to achieve high results.

The well-known "Method of increasing the compensatory capabilities of the organism" |1), which is achieved by exposure in normobaric conditions (at normal atmospheric pressure) to a gaseous respiratory mixture with an oxygen content of 15-1095 and a nitrogen content of 85-9095, while the oxygen concentration during the course of 5-40 days constantly decreases from 15 to 1095, and the effect of this action on the body constantly increases from 30 to 120 minutes.

The well-known "Method of increasing the non-specific resistance of the organism" |) by exposure to the organism in normobaric conditions with a breathing mixture containing 9.0-9.595 oxygen and 91.0-90.595 nitrogen for 3-5 minutes, alternating with breathing atmospheric air for 3- 5 minutes according to the developed cyclic method.

In both of these methods, an adaptation effect is achieved, which consists in the mobilization and compensatory 72 inclusion of the body's adaptive reactions.

The disadvantages of these methods include the fact that they use the effect on the body exclusively of hypoxia (gas breathing mixture with less oxygen content than in atmospheric air, in which it is 21965).

The well-known "Carbon dioxide inhaler" |Z| is intended for general improvement, prevention and rehabilitation, which provides for the partial use of exhaled air for the next breath. Thus, breathing with hypoxic and hypercapnic (with increased carbon dioxide content) mixtures is achieved.

The disadvantage of the inhaler is that - the acting factor on the body is simultaneously a hypoxic and hypercapnic mixture; - the concentration of these breathing mixtures in the breathing cycle is an insufficient stimulus for stimulating processes in the body. with

The method of increasing compensatory capabilities of the body" (9 4) is the closest in terms of the set of features. It includes the alternating respiratory effect of a hypoxic breathing mixture in normobaric conditions and the additional effect of a hyperoxic (gaseous breathing mixture with a higher oxygen content than in atmospheric air) gas breathing mixture with an oxygen content of 30-3595 and a nitrogen content of 70-6595, alternating with the effect of a mixture with an oxygen content of 10-10,595 and a nitrogen content of 90-89,595, for 9-12 minutes in a cycle in the amount of 3-4 cycles each - day for 15-20 days, while starting the cycle by inhaling a mixture with a higher oxygen content.

A significant drawback of this method is that it does not use a hypercapnic respiratory mixture, which is the main physiological stimulus of the respiratory center. at

The invention is based on the task of stimulating the method and increasing its efficiency. with

The task is accomplished by the fact that with the help of a gas-separation treatment plant, gaseous respiratory mixtures (hypoxic and hyperoxic) are formed at the 3rd molecular level (membrane gas separation), which alternately affect the body. The effect of the hypoxic mixture on the body is known for its physiological increase in non-specific reactivity and resistance of the body to numerous potentially negative factors.

A hyperoxic gas breathing mixture is used in this method in the form of a fraction with an oxygen content of 30-3590 " to enhance the hypoxic stimulus and to ensure tissue hypoxia at a compensatory-subcompensatory level. When breathing a hypoxic mixture with a low oxygen content (10-11905) no) s, decompensatory (unwanted!) tissue hypoxia may occur, which leads to damage to body tissues

And" (5). Therefore, after breathing with the first hypoxic fraction, breathing with the hyperoxic fraction is carried out, which transfers the state of tissue hypoxia from decompensatory to compensatory.

Carbonic acid (CO»5) is a unique stimulator of the central nervous system, vascular tone, 42 hemodynamics. Dissolving in the arterial blood, molecular CO 5 becomes the main factor in the regulation and function of external respiration and the gas composition of the body. Biological and metabolic value of CO 5 for humans

Ge | manifests itself in the fact that CO plays the role of a catalyst in the metabolic reaction and is a strong regulator of the activity of many enzymes (6EEI. The increased content of CO in the respiratory mixture, i.e. hypercapnia, is especially useful for the body in its endogenous metabolic form. Then it is not perceived as a foreign substance (Te) 20 for the body and manifests its effect on the body directly and quickly without any phase transformations. combined with a rubber bag (Douglas bag).

First, exhalation fills the bag. With a small respiratory volume, you need to make 2-3 exhalations into the bag. 29 Then a normal breathing cycle is carried out rerespiratory in a closed circuit (lungs-sac-lungs). At

HF) that is, if the content of CO" at the initial inhalation was 0.0395 (in atmospheric air), then during the first portions of exhalation into the bag it is already 3.6-3.895, and after several breathing cycles the content of CO" increases to 4-60 , that is, the bag contains a hypercapnic mixture, which the patient breathes in a closed circuit.

The exposure to hypercapnia depends on the individual characteristics of the body, the level of its health, the level of its compensatory capabilities. Its validity lasts until the appearance of uncomfortable phenomena when feeling well: lack of air, suffocation, a feeling of heat on the face, hands, feet, and throughout the body. It is necessary that these uncomfortable phenomena appear, be recorded, but not deepen in the future. Upon reaching this position, the patient removes the breathing mask and switches to breathing with a hypoxic mixture or atmospheric air. The exposure of breathing to a hypercapnic mixture is on average 1-5 minutes. The procedure of breathing with a hypercapnic mixture is safe. At the appearance of the first uncomfortable phenomena, the patient can independently interrupt this procedure and start breathing ordinary atmospheric air.

In August-November 2004, the described "Method of stimulation of the body's compensatory capabilities" was tested in the Zhytomyr Medical and Health Center Elbrus, which was conducted by the Institute of Surgery and Transplantology of the Academy of Medical Sciences of Ukraine. To compare the results in the Geteriv sanatorium "JSC Ukrprofozdvornytsia" in November 2004. there was treatment and rehabilitation of a similar group of patients according to the method according to the patent

Ukraine Mo485 (4) - control group. The test was conducted on patients with diseases of the broncho-pulmonary, endocrine, cardiovascular systems, and diseases of the digestive organs. The course lasted 11-20 sessions. An increase in the positive effect was noted when applying the proposed "Process of stimulation of the compensatory capabilities of the 7/o body" on: - bronchial patency on exhalation by 50...450 ml/s in (97--4.5)95 cases; - on bronchial patency on while breathing by 50...150 ml/s in (90-2.0)95 cases; - by increasing the respiratory volume of the lungs by 500 ml in (75--1.9)95 cases; - intracellular respiration was activated in 795 cases; - the body's compensatory capabilities increased by 3.5 times according to the Stange test and 3.2 times according to the Teich test.

During the trial period, none of the patients took any pharmacological drugs.

Source of information: 1. A.E. USSRMo950406, MKY? Ab1M16/02, 1982, Bull. Mo30 A method of increasing the compensatory capabilities of the organism". Chizhov A.Ya., Karash Yu.M., Filimonov V.G., Strelkov R.B. 2. AS. USSR Mo1264949, MKY" Ab1c10/00, 1986, Byul.Mo39. "Method of increasing the non-specific resistance of the body". Karash Yu.M., Chizhov A.Ya., Egorova E.B. and other.

Z. Patent of Ukraine Mo35853, MKIE db1Mm16/00, 2001, Byul. MoZ3. carbon dioxide inhaler". I.V. Kryachko, Lubak

I.V., Rudenko V.V. and other. Section 4. Patent of Ukraine Mo485, MKI? Ab1010/02, 1993, Bull. Mo1. A method of increasing the compensatory capabilities of the organism". Bogatyrchuk L.M., Bogatyrchuk L.V. (o) 5. Kolchinskaya A.Z. Adaptation to hypoxia - an effective means of increasing performance, prevention, treatment and rehabilitation. In the book hypoxytherapy". Detail!

Academy of hypoxia problems, M., 1997, pp. 126-145. M b. Aghadzhanyan N.A., Polunin I.N., Stepanov V.K., Polyakov V.N. "A person in hypocapnic and hypercapnic conditions." Astrakhan-Moscow, 2001, 340p. Ge) "c)

Claims (1)

The formula of the invention is the process of stimulation of the compensatory capabilities of the body by respiratory alternating exposure in - normobaric conditions of hypoxic - 10-10.5 96 2 and 90-89.5 95 M" and hyperoxic - 30-3595 02 and 70-6595 Mo breathing mixtures, which differs in that the patient is additionally affected by an endogenous hypercapnic fraction according to the scheme: a hypoxic mixture with an oxygen content of 10-10.5 95 is affected for 10 minutes; with a hyperoxic mixture with an oxygen content of 30-35 90 - for 5 minutes; with a hypoxic mixture with an oxygen content of ЗзЗ 70 10-10.5 milk - for 10 minutes; endogenous hypercapnic mixture - for 1-5 minutes; hypoxic with a mixture with an oxygen content of 10-10,595 - for 5 minutes; endogenous hypercapnic mixture - for 1-5 1" minutes, and the course of treatment is 15-20 days. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated 75 microcircuits", 2007, M 2, 15.02.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (ee) («c) at 50 what F) name) 60 b5