RU2610561C2 - Method for increasing person's workability - Google Patents

Abstract

FIELD: medicine, sport.

SUBSTANCE: invention relates to medicine, namely to physiotherapy and sport physiology, and can be used to increase person's workability. Influence on compensatory-adaptive reactions of their organs and systems is performed. For this purpose 30 minutes before beginning physical exercise neuropeptide for intranasal impact is introduced. After that, breathing with hyperoxic oxygen-helium mixture, containing 30-70% of oxygen is performed one time. Simultaneously 15-minute impact with pulse rectangle-shaped electric current on frontomastoid zone of head is performed. Pulse duration constitutes 0.2-0.3 ms, electric current is 1-2 mA, and pulse repetition rate is 1200-1500 Hz.

EFFECT: method provides expressed and fast improvement of organism/s functional state, mental and physical workability due to the total effect of the provided impact.

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Description

The invention relates to the field of physiology of sports and can be used to urgently increase and restore the working capacity of athletes, military personnel and people of other professions associated with significant physical and mental stress.

Currently, various methods are being used to increase human performance, including pharmacological preparations, hyperbaric oxygenation, physiotherapeutic methods, hypoxic training, etc.

The disadvantages of these methods are the need for their long-term use from 10 to 20 days to increase efficiency by an average of 5-8% [1, 2, 3, 4]. It should be borne in mind that some pharmacological preparations can cause side effects, and hyperbaric and hypobaric effects require pressure chambers that cannot be used in stadiums and gyms.

A known method of improving human health [5], which is closest to the claimed technical solution and selected as a prototype, which consists in correcting the functional state and human health by influencing the compensatory-adaptive reactions of his organs and systems using rectangular pulsed electric current on the fronto-mastoid region and oxygen respiration, while the effect is carried out by taking the neuropeptide Semax two drops in each nasal the course of the subsequent exposure by a pulsed electric current to the fronto-mastoid region with a pulse of 0.2 ms duration, a current of 0.8 mA and a pulse repetition rate of 800 Hz for 40 minutes in combination with at least 10 sessions of hyperbaric oxygenation at a pressure of 1 , 6 atm.

The disadvantage of this method is the duration of its application to obtain the desired effect of increasing efficiency. In addition, this method cannot be used in the gym to accelerate the recovery processes of body functions and an emergency increase in performance before the competition.

The task that the claimed invention solves is to increase the efficiency of the method and expand its functionality.

This problem is solved due to the fact that in the known method of increasing a person’s working capacity by influencing the compensatory-adaptive reactions of his organs and systems with the help of a rectangular pulsed electric current on the fronto-mastoid region of the head and the intranasal effect of the neuropeptide, the effect on the compensatory-adaptive reactions of organs and human systems are carried out 30 minutes before the start of physical activity, while the neuropeptide is first used for intranasal exposure , then they breathe once with a hyperoxic oxygen-helium mixture containing 30-70% oxygen, in combination with a simultaneous exposure to a pulsed electric current for 15 minutes, while the pulse duration is 0.2-0.3 ms, the current strength is 1-2 mA, pulse repetition rate 1200-1500 Hz.

In the proposed method, a person breathes a hyperoxic oxygen-helium mixture (CGS) containing 30-70% oxygen for 15 minutes 30 minutes before the competition and 15 minutes in between competitions.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find a source characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the analogue, allowed us to establish a set of essential distinguishing features in relation to the technical result perceived by the applicant in the claimed method set forth in the claims. Therefore, the claimed invention meets the condition of "novelty."

To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed method from the prototype. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention is not revealed from the prior art determined by the applicant to achieve a technical result.

Improving the health of a person in the proposed method is as follows.

30 minutes before the start of physical activity, the neuropeptide (cortexin or semax) is instilled into the athlete while lying or sitting. Before the intranasal exposure to the drug substance, the athlete’s nasal cavity is carefully prepared (using a handkerchief to clear the nasal cavity of mucous secretions). Then a neuropeptide solution is instilled. Immediately after the introduction of the drug, the athlete massages the wings of the nose with light movements for 30-40 seconds, after holding them with the thumb and forefinger.

Neuropeptides have a specific mechanism of influence on the central nervous system. They have nootropic properties and are completely devoid of hormonal activity. With the introduction of the drug, the functions of the cerebral cortex improve, the body's level of adaptation to hypoxia and physical performance increase. The introduction of the drug is practically non-toxic, does not exhibit allergic, embryotoxic and mutagenic effects with a single and prolonged administration. Absorption of the drug occurs from the mucous membrane of the nasal cavity, while up to 60-70% of the active substance is absorbed. The neuropeptide is rapidly distributed to all organs and tissues, it is also able to cross the blood-brain barrier. When it enters the bloodstream, this drug undergoes rather rapid cleavage and excretion from the body [1, 2]. The drug is approved for use by order of the Ministry of Health of the Russian Federation No. 294 of December 20, 1994, according to which the neuropeptide was registered in the Russian Federation and approved for medical use and industrial production (registration certificate No. 94/294/10).

Immediately after the introduction of the neuropeptide, the athlete takes a sitting position. The athlete's forehead and skin over the mastoid process in the neck are wiped with a degreasing solution. Paired electrodes with the help of a headband are fixed in the forehead (bifurcated cathode) and above the mastoid process in the neck (bifurcated anode). Under the electrodes place gauze pads moistened with saline. Direct contact of the electrodes with the skin must be avoided. Then the athlete goes into a prone position. Electrical stimulation is carried out in a prone position for 15 minutes. The pulse current has a rectangular shape.

Impulse electric current when exposed to the brain creates a focus of Catholic depression in the cerebral cortex, the nerve centers absorb the imposed rhythm (the frequency of the healthy neuron is 1-2 kHz according to the works of N.P. Bekhtereva), biologically active substances are produced in the hypothalamus and thalamus (pituitary hormones, opoid peptides, gamma-aminobutyric acid (GABA) serotonin, dopamine and other substances).

After instillation of the neuropeptide and almost simultaneously with the action of current, one-time breathing is performed with hyperosic oxygen-helium mixtures containing 30-70% oxygen. Breathing KGS is carried out from a cylinder of 2 l with a gas mixture under a pressure of 150-180 kg s / cm ² . The mixture is supplied from a gas cylinder by opening the valve. Breathing is carried out using a standard breathing machine, which minimizes the contact of the respiratory system with the external environment.

Special mixtures of oxygen and inert gases (helium, argon, krypton, xenon) exhibit physiological activity under normal barometric pressure and are widely used as new non-pharmacological means of healing and therapeutic effects on the human body, including in extreme conditions. The density of helium is 7 times lower than that of nitrogen, the main component in air, thermal conductivity is 5.8 times higher than that of nitrogen, and the solubility in fats is 4.5 times lower than that of nitrogen at normal barometric pressure, form at respiration specific physiological effects of oxygen-helium respiratory gas mixtures [7, 8]. Helium improves gas exchange, normalizes the blood gas composition and acid-base balance, reduces the work of the respiratory muscles and optimizes the activity of the respiratory center. Oxygen-helium breathing gas mixture, in comparison with air, improves oxygen diffusion through the alveolocapillary membrane, reduces breathing resistance, relaxes smooth muscles, reduces the load on the respiratory muscles [6, 7].

The greatest effect of increasing efficiency was obtained with the combined action of a pulsed electric current, the effects of a neuropeptide and the inhalation of oxygen-helium mixtures.

The effect of the combined use of KGS, VIET and neuropeptide lies in the peculiarities of the action of each of these methods individually. The high oxygen content in the gas mixture leads to the well-known vascular spasm of the peripheral vessels of the skin and muscles.

At the same time, the saturation of internal organs with oxygen increases significantly.

Exposure to pulsed electric current not only improves neurohumoral regulation, but also reduces vascular spasm, thereby increasing the saturation of peripheral tissues with oxygen.

The neuropeptide of the brain due to the mechanisms of its action significantly improves the regulatory function of the brain and accelerates the adaptation of the body to physical activity.

The method was tested with the participation of 10 judoka fighters with a level of skill candidates and masters of sports. The studies used a complex of psychophysiological, clinical and physiological methods, as well as tests to evaluate direct performance indicators.

As a result of the studies, it was revealed that the wrestlers significantly improved the functional state of the central nervous system (CNS), in particular static endurance, reflecting the functional state of the cortical section of the motor analyzer. Her rate increased by an average of 5 seconds. The functioning of the cortical section of the visual analyzer significantly improved, the critical flicker fusion frequency (CFSM) significantly increased to 39 Hz. Favorable changes were noted in the cerebral cortex, the main nervous processes, so the latent period of complex sensorimotor reactions (SSMP) decreased on average from 325 ms to 249 ms (P <0.005). All this indicates a high lability, mobility and balance of the main nervous processes. Significantly in the Gencha test increased resistance to hypoxia (P <0.005). These indicators are presented in table 1.

The use of the proposed method to improve human performance for 15 minutes has improved hemodynamic parameters. The cardiovascular system began to work in a more economical mode. The frequency of cardiovascular contractions (HR) from 74.6 ± 1.65 beats per minute decreased to 68.0 beats / min (P <0.005). The already high initial level of physical performance (according to the step test) increased, on average, to 118.9 ± 0.216 units. Blood pressure indicators both at rest and under load corresponded to standard values, in accordance with table 2.

Thus, an improvement in the functional state of the central nervous system, cardiovascular system and an increase in physical performance were noted.

In the proposed method, due to the combined effect of a neuropeptide, a pulsed electric current and an oxygen-helium mixture, it was possible to obtain a pronounced and rapid improvement in the functional state of the body, mental and physical performance.

With the combination of these interactions on the body, breathing processes improve, oxygen saturation of the body tissues increases, the vessels of the brain and muscles expand, the neurohumoral reaction, the hormonal system are activated. The cumulative effect of these effects is to further increase efficiency.

The expansion of the functionality of the method is ensured due to the fact that it can be used in a competition environment, i.e. both immediately before physical activity, and during a break. For its implementation, expensive equipment (a pressure chamber) is not needed, it is absolutely safe and allows for an emergency increase in performance compared to similar methods.

It is known that special mixtures of oxygen and inert gases, in particular helium, exhibit physiological activity under conditions of normal barometric pressure. Helium density, which is almost 7 times lower than that of nitrogen, the main component in air, thermal conductivity is 5.8 times higher than that of nitrogen, and solubility in fats is 4.5 times lower than that of nitrogen, at normal barometric pressure form specific physiological effects of oxygen-helium breathing gas mixtures during breathing [6, 7, 9]. Helium improves gas exchange, normalizes the blood gas composition and acid-base balance, reduces the work of the respiratory muscles and optimizes the activity of the respiratory center. Oxygen-helium breathing gas mixture in comparison with air improves oxygen diffusion through the alveolocapillary membrane, reduces breathing resistance, relaxes smooth muscles, reduces the load on the respiratory muscles [6, 7, 9].

An increase in oxygen content enhances metabolic processes in nerve cells, muscle fibers and other organ systems. Therefore, the action of CGS can improve both the functional state of the central nervous system (CNS) and physical performance.

As confirmation of the improvement of the functional state of the body and indirect performance indicators, we present the data of direct performance indicators based on tests developed at the Department of Wrestling of NSU named after P.F. Lesgaft, professor of the department of wrestling, doctor of pedagogical sciences, chairman of the college of judges of the Russian Judo Federation, winner of the sixth Dan in judo, master of sports of the USSR, Honored trainer of Russia A. Levitsky [10, 11].

Throughout the experiment, a clear qualitative increase in the level of physical fitness (p≤0.05) was observed among the subjects in terms of: speed qualities, maximum strength, speed and strength qualities of the muscles of the shoulder girdle and legs, as well as an increase in the level of special fitness.

Given the effect of a 15-minute breathing of CHS with the simultaneous use of pulsed electric current and a neuropeptide, it can be used to urgently increase the efficiency of fighters. Athletes in the control group showed no significant improvement in results. The actual material for testing wrestlers is presented in table 3.

The above test results confirm the receipt of a positive effect when using the claimed method of increasing efficiency in extreme conditions in the shortest possible time.

Information sources

1. Agazhanyan N.A. Human physiology [Text] / N.A. Agadzhanyan, L.Z. Tel, B.I. Tsirkin, S.A. Chesnokova - M: Medical book, 2003 .-- 528.

2. Aksenova I.N. Changes in the functional state of computer operators under the influence of physical training with elements of medical gymnastics and reception of semax [Text] / I.N. Aksenova /: Author. dis. Cand. honey. Sciences: 14.00.12 / Ros. state honey. un-t - M., 1993. - 20 p.

3. Alekseeva G.V. Semax - a new regulatory neuropeptide [Text] / G.V. Alekseeva, N.A. Botaev // In the world of medicines, 1998, No. 2. 59-61 s.

4. Aulik I.V. Determination of physical performance in the clinic and sports: 2nd ed., Revised. and add. [Text] / I.V. Aulik - M .: Medicine, 1990 .-- 192 p.

5. Pat. 2547090 Russian Federation, IPC A61N 1/18: Method for correcting the functional state and human performance [Text] / Bukharin VA, Myasnikov AA, Taymazov AV, Tsvetkov DS, Tsvetkov S.A. ; applicant and patentee Federal State Educational Institution of Higher Professional Education "National State University of Physical Culture, Sports and Health named after PF Lesgaft, St. Petersburg" (RU) Bukharin VA, Myasnikov AA, Taymazov AV, Tsvetkov D. S., Tsvetkov S.A. declared 01/16/2013, published 04/10/2015, bull. No. 10 is a prototype.

6. Karpman V.L. Testing in sports medicine [Teskt] / V.L. Karpman, Z.B. Belotserkovsky, I.A. Gudkov - M .: FiS, 1988.

7. Kolchinskaya A.Z. The mechanisms of action of interval hypoxic training [Text] / A.Z. Kolchinskaya // Hyp. Med. J., 1993. - No. 1. - S. 5-8.

8. Kulinenkov O.S. Pharmacology and physiology of power. [Theskt] / OS Kulinenkov. - Moscow, MedPress. - 2004 .-- 208 p.

9. Levshin I.V. Oxygen regimen of an organism during hyperbaric oxygenation [Teskt] / I.V. Levshin, I.A. Litoshko // Diagnosis, treatment and rehabilitation of patients in sanatorium conditions. - St. Petersburg: B.I., 1998 .-- C. 43.

10. Theory, teaching and sports training in judo: a textbook for students of higher educational institutions of physical education, trainers, teachers, students of the continuing education system / ed. Doctor of Pedagogical Sciences, prof. A.V. Eganova. - Chelyabinsk: Publishing House "Ural Academy", 2014. - S. 532.

11. Technical training in freestyle wrestling (textbook) Admitted by the Educational and methodical association of higher educational institutions of the Russian Federation on physical education as a training manual for educational institutions of higher professional education, carrying out educational activities in the direction of 04/04/01 (Physical education). National State University of Physical Culture, Sports and Health named after P.F. Lesgaft, St. Petersburg: [b.i.], 2014 .-- 128 p.

Claims (1)

A way to increase a person’s working capacity by influencing the compensatory-adaptive reactions of his organs and systems by applying a rectangular shape pulsed electric current to the fronto-mastoid region of the head and a neuropeptide for intranasal exposure, characterized in that the effect on the compensatory-adaptive reactions of human organs and systems is carried out 30 minutes before the start of physical activity, while at the beginning a neuropeptide is used for intranasal exposure, then it is performed once breathing a hyperoxic oxygen-helium mixture containing 30-70% oxygen, combined with simultaneous exposure to a pulsed electric current for 15 minutes, while the pulse duration is 0.2-0.3 ms, current strength is 1-2 mA, repetition rate pulses 1200-1500 Hz.