RU2235563C1 - Method for increasing working capacity - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves administering gas product inhaled as gas mixture comprising xenon and oxygen in mass proportions of (5-50):(95-50). Inhalation is carried out with narcosis apparatus facemask or manual inhaler until euphoria manifests but not longer than 5 min.

EFFECT: enhanced effectiveness in restoring human organism after extreme loading.

5 cl

Description

The invention relates to medicine and can be used in sports medicine to achieve record results and in rehabilitation practice to increase the functionality and resistance of the human body with adaptive stress.

The abnormal emotional load in somatically and mentally healthy people leads, through activation of the hypothalamic-pituitary and adrenal systems, to the formation of energy-consuming phases of the general adaptation syndrome - acute and chronic stress, which ultimately leads to depletion of the body's energy reserves. These changes increase progressively with the time of the action of the stressful stimulus. The invention can be most effectively used in situations of situational anxiety when preparing athletes for competitions, students for exams, graduate students to defend a dissertation, pilots for sorties. In addition, the method can be used in cases of decreased performance, professional reliability and changes in the psychophysiological state of a person associated with overstrain and depletion of the compensatory capabilities of the body in divers, stuntmen, miners, etc. in extreme conditions, in particular during physical exertion. The invention can also be used in clinical rehabilitation, physical exhaustion, hypovitaminosis and vitamin deficiency, to reduce side effects in the treatment of antibiotics and chemotherapeutic agents, under adverse environmental conditions (increased radiation, air pollution, etc.), etc.

A known method of restoring and improving the health of athletes, including oral administration of the combined multivitamin preparation Supradin, 1 capsule 2 times a day for 3-4 weeks in the training period and 2-3 days in the competitive period (1).

However, this method requires a lot of time to obtain a visible result, is not effective enough, does not allow to shorten the recovery period after intense physical activity, and constantly requires correction with the help of other drugs.

A known method of increasing efficiency by exposure to a gaseous product (2).

The disadvantages of this method are the duration and complexity of the process of its implementation, the complexity of the equipment used and the conditions of use, the possibility of an uncomfortable state of a person exposed, low levels of increased efficiency (usually not more than 10%), low efficiency in preparing for extreme loads, slow recovery after extreme loads.

An object of the invention is to create an effective and safe way to increase efficiency and expand the arsenal of ways to increase efficiency.

The technical result that provides the solution of the problem lies in eliminating stressful phenomena and anxiety in the period preceding the extreme load, providing the necessary motor concentration, increasing the performance indicators, providing the necessary attention, shaping the training reaction and eliminating the stress response, simplifying the set of actions during implementation method, simplifying the equipment used, providing the possibility of using long-term ha a product, ensuring a comfortable state of the person exposed, ensuring a harmless combination with any kind of food and medicine, expanding the possible conditions of use, eliminating the narcotic effect and negative effects on the human body, eliminating the stress trace reaction in the form of excitement, high blood pressure, fatigue, which must be removed to restore body reserves after extreme stress.

The essence of the invention lies in the fact that the method of increasing efficiency by exposure to a gaseous product provides during preparation for extreme loads 5-6 hours before the extreme load is performed, exposure by inhalation with a gas mixture of xenon and oxygen in a mass ratio (5-50) :( 95- 50), with the amount of the gas mixture not more than 0.1 l per 1 kg of body weight.

Preferably, inhalation of the mixture is performed until a state of euphoria occurs, but not more than 5 minutes, additional inhalation of the mixture is repeated after completion of the extreme load, after 30-50 minutes, and inhalation is carried out using the face mask of the anesthesia apparatus or using a manual inhaler .

At the same time, the achievement of a technical result is influenced by the experimentally confirmed prolonged action and chemical inertness of xenon, its ability to combine with any drugs and with oxygen for breathing, the ability of neuroendocrine regulation of life processes, the ability to stabilize hemodynamics and gas exchange, increase the glucose content in peripheral blood, and reduce the content cortisol by 20-30%, insulin and pituitary hormones to the level of physiological norm indicators, directly influence n and the release of serotonin, a decrease in the stress of catabolytic processes, the speed of distribution in the lungs. It was experimentally established that the effect provided by the claimed method causes an operative (after 60 min) change in hormonal status, characterized by a decrease in the level of STH, cortisol, T ₄ , T ₃ . Reducing the content of cortisol produced by the adrenal glands and destroying proteins, fats and carbohydrates under stress (extreme load) contributes to the accelerated restoration of the equilibrium state of the body.

The solubility of xenon blood / gas is 0.14. Inhalation does not suppress the emotional-volitional sphere of a person and the procedure takes place on positive emotions, without going to the stage of anesthesia (anesthesia, accompanied by a loss of consciousness). The mechanism of the effect of xenon on the human body is currently under study, the achievement of the specified technical result has been established empirically (experimentally confirmed).

Information confirming the possibility of carrying out the invention.

Example 1

Athlete, 24 years old, a swimmer who had a control time of 4 minutes 10 s when swimming at a distance of 400 m (personal record). Body weight 67.3 kg. An alarming sleep before the start - woke up 3 times, the level of reactive anxiety on the Spielberg-Khanin scale is 39, i.e. corresponds to high values. 6 hours before the experimental swim, the athlete received an inhalation of a mixture of xenon with molecular oxygen in a mass ratio of 45:55 for 3.5 minutes using a mask from the Polynarcon-2P anesthesia device for 3.5 minutes, until signs of euphoria, relaxation, moderate dilated pupil appeared the appearance of horizontal nystagmus. 5.95 L of a mixture of xenon with oxygen was consumed. Blood cholesterol levels changed from 4.31 mmol / L to 3.92 mmol / L. After that, a 400-meter swim in 4 minutes 6 seconds is performed. After a day, the swim is repeated with a result of 4 minutes 7 seconds. The sleep is good, there is no anxiety state, the level of reactive anxiety on the Spielberg-Khanin scale is 29, i.e. corresponds to average values.

In general, it was found that no later than 60 minutes after inhalation with a mixture of xenon and oxygen, the level of anxiety decreased, sleep returned to normal, working capacity increased, which resulted in an improvement in swimming time by 4 s. A day after inhalation, the athlete felt and did not have signs of extreme stress, i.e. the subnarcotic effects of a single inhalation of a gas mixture of xenon and oxygen after 24 hours retain positive changes in compensatory-adaptive reactions, characterized by an increase in the physiologically justified phases of the general adaptation syndrome and the rapid formation of emotional stability.

Example 2

Drivers (7 people) of practically healthy men aged 28-46 years, with a body weight of 59-73 kg, determined resistance to stress factors of a long trip (motion sickness, static and dynamic physical activity) and the state of the visual analyzer in its initial state, after inhalation of a mixture of xenon with oxygen in a mass ratio of 30:70 for 3.5-4 minutes The consumption of a mixture of xenon with molecular oxygen averaged 5.3 liters per person.

Resistance to motion sickness increased after inhalation on average 2 times; an increase in the "reserve time" of travel time - an average of 1.7 times, while maintaining a positive effect for 20 ± 2 days.

Inhalation also increased the reserve capabilities of the external respiration apparatus and physical performance: VC increased by 6-10%, MVL by 15-20%, the duration of breath holding by 17-25%, and the efficiency of muscle work by 15%. The level of functioning of the visual analyzer also increased: the throughput increased by 10-12 with a simultaneous decrease in the thresholds of brightness sensitivity by 25-43%. During the experiment, each subject filled out a self-assessment questionnaire, which was then analyzed. 6 out of 7 evaluations of experimental results were high.

Example 3

Two groups (control and experimental), each of 7 people, composed of practically healthy tunnel workers of the railway / men from 23 to 47 years old with a body weight of 57.5-76 kg /, who were inhaled a mixture of xenon with oxygen in bulk 20:80 ratio for 4.5-5 minutes using a mask-type apparatus. The consumption of a mixture of xenon with oxygen averaged 5.125 liters per person, which does not allow the transition to the stage of anesthesia proper. Inhalations were carried out in a production dispensary twice a day (5 hours before the start of the shift and 30 minutes after it) daily for 3 days. In the control group, phytoaeroins were introduced by inhalation, which are a finely dispersed electrically charged aerosol - an aqueous emulsion of essential oils.

The effectiveness of the compared methods with respect to improving performance was evaluated before and after a course of procedures according to the generally accepted method (3) - a test of physical performance with measurement of load power in watts. As a result, the following data were obtained: in the “control group” / using phytoaeroin inhalations / after a course of procedures, an increase in working capacity by 8.3% was detected, which amounted to an average of 19.5 watts. In the "experimental" group (using inhalations of a xenon-oxygen mixture) after a course of procedures, an increase in working capacity by 20.1% was revealed, which amounted to an average of 49.3 watts. In the “experimental” group, after taking several procedures, the predominant reaction to extreme loads was the training reaction, which takes place with less pronounced stress and requires less energy from the body compared with the usual reactions of activation, tension and stress. Not a single case of stress syndrome or the formation of personal anxiety has been identified.

Thus, an effective and safe way to increase efficiency was created and the arsenal of ways to increase efficiency was expanded.

At the same time, the speed of exposure and achievement of increased performance indicators was increased, the set of actions during the implementation of the method was simplified, the equipment used was simplified, the gaseous product was able to be used for a long time, the person being exposed was comfortable, a harmless combination with any kind of food and medicine was provided, and possible conditions of use, negative effects on the human body are excluded, recovery after kstremalnyh loads.

Sources of information

1. Seyfullina R.D., Ankudinova I.A. “Doping Monster”, Pharmacology of Sports, M., 1996, p. 153.

2. SU No. 1776401, 1992 (prototype).

3. “Instrumental methods for the study of the cardiovascular system” ./ Ed. Vinogradova T.C., M., Medicine, 1986, pp. 397-401.

Claims (5)

1. A way to improve performance by exposure to a gaseous product, characterized in that during preparation for extreme loads 5-6 hours before the extreme load is performed, they are exposed by inhalation of a xenon-oxygen gas mixture in a mass ratio (5-50) :( 95- 50), with the amount of the gas mixture not more than 0.1 l per 1 kg of body weight. 2. The method according to claim 1, characterized in that the inhalation of the specified mixture is performed until a state of euphoria, but not more than 5 minutes 3. The method according to any one of claims 1 and 2, characterized in that the additional inhalation of the specified mixture is repeated after completion of the extreme load, after 30-50 minutes 4. The method according to any one of claims 1 and 2, characterized in that the inhalation is performed using the facial mask of the anesthesia apparatus. 5. The method according to any one of claims 1 and 2, characterized in that the mixture is inhaled using a manual inhaler.