RU2043101C1 - Method for increasing human adaptation to physical loading - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves administering food additive to daily allowance of food to be taken within 21 days period before applying loading. The additive has protein aminoacid concentrate, vitamins, mineral substances, unsaturated fat acides and succinic acid with lactic bacteria. Dried Bifidobacteria or lactic bacillae are useable as the lactic bacteria. EFFECT: optimized metabolism processes; increased resistance and fitness for work. 7 tbl

Description

 The invention relates to medicine, namely to methods for increasing the resistance of the human body with adaptive stress. The invention can be most effectively used to reduce working capacity, professional reliability, when changing the psychophysiological state of a person associated with overstrain of homeostatic structures and depletion of the compensatory capabilities of the body in pilots, athletes, 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. Moreover, the method can be used as a source of nutrition for overweight and treatment of obesity.

 Currently, the number of people in adverse environmental conditions, engaged in heavy physical labor, significant mental stress, suffering from serious illnesses reaches enormous proportions and has a tendency to increase. The relevance of increasing the adaptive potential of a person in extreme conditions is determined both by the number of people in need of metabolic correction, and by the imperfection of existing methods.

 A number of such methods are currently known. A known method of increasing the adaptive potential of a person in extreme conditions, including the introduction of a dietary supplement to the diet, which is used as a complex of vitamins in the process of adaptation to high altitude conditions. The disadvantage of this method is that when it is used, the plastic metabolism is not corrected, microbiocenosis may be disturbed, and the human body is not provided with macro- and microelements, which can lead to decreased performance, depletion of the body, overstrain of mental and physical activity in extreme conditions. In addition, the disadvantage of this method is that professional reliability can be reduced in conditions of adaptive stress.

 There is another way to increase the adaptive potential of a person in extreme conditions, including the introduction of a dietary supplement to the diet, which is used as a milk-protein concentrate, vitamins and trace elements for the prevention of malignant neoplasms. The disadvantage of this method is that when it is used, there is no effect of increasing energy production and energy recovery, which can lead to a decrease in the activity of metabolic processes and depletion of the body). In addition, when using this method, the issue of providing the necessary colonization resistance of the intestinal barrier in an extreme situation is not resolved, which increases the risk of infectious pathology.

 There is another way to increase the adaptive potential of a person in extreme conditions, as the closest to the proposed technical solution, including the introduction of a dietary supplement to the diet during physical work for 14 days, which is used as a protein-amino acid concentrate, vitamins, minerals , unsaturated fatty acids in the process of sports. The disadvantage of this method is that when it is used, it is possible to reduce enzymatic and metabolic processes due to the low colonization resistance of the intestinal barrier, which can lead to disruption of microbiocenosis, and there is no effect of increased energy production and energy utilization, which leads to depletion of the body, to mental overstrain and physical activity, to reduce performance and professional reliability in extreme conditions. In addition, the disadvantage of this method is that the intake of food additives is carried out during exercise, i.e. during adaptive stress, when the human body is not prepared for a different kind of influences in the absence of sufficient macroergs to optimize metabolism, which also reduces the working capacity and professional reliability in these conditions.

 The aim of the invention is the optimization and correction of metabolic processes in the human body, increasing efficiency and resistance during adaptive stress.

 The basis of the invention is the creation of a method of increasing the adaptive potential of a person in extreme conditions, in which the food supplement used would allow to correct certain types of metabolism and thereby increase the working capacity, resistance of the body, its adaptive capabilities with significant overloads, physical stress, and psychological stress , serious diseases and when adapting to new climatic conditions.

 The problem is achieved in that in a method of increasing a person’s adaptive potential in extreme conditions, including the introduction of a dietary supplement to the diet, providing in its kit the presence of a protein-amino acid concentrate, vitamins, minerals, unsaturated fatty acids, according to the invention, the food supplement is administered up to the onset of extreme impacts within 21 days and at the same time, succinic acid and lactic acid bacteria are additionally introduced with it, moreover, as lactic acid bacteria th use dried bifidobacteria or lactobacilli.

 The introduction of a nutritional supplement before extreme impacts, in particular during physical exertion, for 21 days allows you to increase the adaptive capacity of the human body by accumulating macroergs, optimizing metabolism to any possible effects, which increases the working capacity and stability of the body during adaptive stress. The introduction of a food supplement for 21 days is enough to complete the task. And due to the fact that in the method for a food supplement, an intermediate metabolite of succinic acid is additionally introduced, which is a pronounced optimizer of immune resistance and at the same time promotes energy production and the combination of oxidation with phosphorylation, followed by intensive synthesis of macroergs, energy exchange optimization in the human body is achieved, which increases adaptive capabilities , working capacity, resistance to stress, reduces asthenia.

 Along with the above components, lactic acid bacteria are introduced, due to which an increase in the colonization resistance of the intestinal barrier is achieved, which contributes to the activation of metabolism under adaptive stress. In addition, the inclusion of lactic acid bacteria in a food supplement reduces the risk of an infectious disease. It is highly advisable that dried bifidobacteria or lactobacilli are used as lactic acid bacteria, since their introduction into a food supplement prevents the enzymatic and metabolic processes from decreasing under extreme conditions, and helps to activate the vitamin-synthesizing and antagonistic properties of microflora, which increases the person’s adaptive capabilities during various overloads.

The method is as follows. Volunteer testers, within 21 days before the onset of extreme impacts, take once a day after meals a set of components that make up a food supplement of the following composition:
Protein-amino acid concentrate 25.0-30.0 g
Multivitamin complex containing vitamins, minerals, unsaturated fatty acids of the type "Complit" or "Glutamevit" 1 tablet
When taking "Glutamevit" add unsaturated fatty acids in the form of the drug FF 1.5-2.5 mg
Metabolites:
succinic acid 200.0-300.0 mg
Lactic acid bacteria:
dried bifidobacteria 5-6 doses
or dried lactobacilli 3-6 doses
Protein-amino acid concentrate is used in the form of a dry powder (TU 49979-85), which has the following composition, fats 2.56; lactose 33.24; mineral substances 4,5; nitrogenous substances (including protein) 48.8; amino acids aspartic acid 9.89; threopine 6.45; serine 4.65; glutamic acid 15.03; glutamine 0.27; proline 5.58; glycine 1.75; alanine 5.19; valine 3.75; cysteine 2.77; methionine 1.88; isoleucine 4.72; leucine 9.36; tyrosine 2.47; phenylalanine 2.76; tryptophan 1.96; lysine 11.05; histidine 1.61; arginine 2.31.

One tablet contains
vitamins: A 3300 IU; In ₁ 1 mg; B ₂ 1.27 mg; C 50 mg; P ₄ 25 mg; PP 7.5 mg; _B6 5.0 mg; B ₁₃ 5.0 mg; B _with 0.1 mg; B ₁₂ 0.0125 mg; E 10 mg;
minerals: iron 5.0 mg; copper 0.75 mg; calcium 50.0 mg; phosphorus 66 mg; cobalt 0.1 mg; magnesium 2.5 mg; zinc 2.0 mg; manganese 35.0 mg;
unsaturated fatty acids: FF 2.0 mg.

 Succinic acid is used in powder form (GOST 6341-75 h).

 Lactic acid bacteria, namely dried bifidobacteria or lactobacilli, are used in the form of dry bifidumbacterin in bottles or ampoules, or dry lactobacterin in ampoules.

 Thus, the proposed method involves the intake of all components of the food supplement at the same time.

 After taking the food supplement for 21 days, the testers are created conditions that require adaptive stress.

 At the end of the period associated with exposure, physiological, biochemical, microbiological, as well as clinical indicators are determined to assess the activation of metabolism and immunoresistance, and assess performance.

 PRI me R. The study involved 10 civilian pilots at training camps in a civil aviation test center. The average age of the testers was 21.7 years, body weight 69.35 kg, average flying time 55-60 hours.

 Prior to the experiment, the testers underwent clinical and physiological examination. All indicators corresponded to the norm for the contingent of people of this age engaged in flight business.

Then the testers for 21 days after eating took 1 time per day a food supplement of the following composition:
Protein and amino acid concentrate 25.0 g
Multivitamin Complex "Complit" 1 dragee Succinic acid 200.0 mg Dry bifidumbacterin 5 doses
Upon completion of receiving the food additive testers were exposed for 14 days exposed to exercise stress on a treadmill at a speed of movement paths 6-7 km / h, the angle of inclination ^of + 3-5 kalloricheskoy value at operation ≈ 400 kcal. On the 14th day, the immunological status, serum biochemical parameters, serum protein and protein fractions, peripheral blood morphology, urinary excretion of catecholamines, and intestinal microbiocenosis status were determined from the testers. In addition, we evaluated the physical performance of the testers by the maximum oxygen consumption.

 The research results when using the proposed method in comparison with the prototype are presented in table 1-7.

 As can be seen from table 1, the use of the proposed method led to the optimization of the metabolism of catecholamines, due to a decrease in the excretion of catecholamines with urine in comparison with the known method, which is a decrease in stress and endocrine balance in the human body in response to extreme effects, which increases the adaptive capacity of the body .

 As can be seen from table 2, a study of blood serum shows the mobilization of energy reserves of the body during exposure to physical activity. A marked reaction of normalization of blood serum indices is noted, which indicates the optimization of metabolism and an adequate reaction of the body in response to exposure.

 It should be noted a decrease in cholesterol by 3.74% when using the proposed method in comparison with the known one, which indicates the optimization of lipid metabolism.

 As can be seen from table 3, the study of protein and protein fraction shows that when using the proposed method, normalization and optimization of protein metabolism occurs in comparison with the known one, which helps to optimize plastic metabolism and increases the overall resistance of the body.

 As can be seen from table 4, the use of the proposed method in comparison with the known allows to increase the hemoglobin content by 4.18% of hematocrit by 3.47% and red blood cells by 6.30%, which increases the functionality of the human body and its performance under extreme conditions.

 As can be seen from table 5, the analysis of studies of the immunological status of the testers indicates that when using the proposed method in comparison with the known one, an increase in all studied parameters is observed, which indicates an increase in the body's resistance.

 As can be seen from table 6, after the introduction of lactic acid bacteria into the composition of the food supplement, eubiosis was established with a pronounced dominance (more than 100 times) of bifidoflora over the aerobic flora, a decrease in conditionally pathogenic enterobacteria and the disappearance of clostridia in comparison with the prototype, where changes in intestinal microbiocenosis is characterized by an increase in opportunistic enterobacteria and an increase in the level of clostridia.

 Thus, when using the proposed method, in comparison with the known one, a decrease in aerobic and anaerobic conditionally pathogenic bacteria is observed, activation of the vitamin-synthesizing and antagonistic properties of the intestinal microflora, due to which certain types of volume of substances under various influences are indirectly corrected and performance under extreme conditions increases.

As can be seen from table 7, when using the proposed method, the physical performance determined by the oxygen consumption significantly changed upward compared with the known method for each measurement, both when calculating oxygen consumption in l / min and in cm ³ per kg weight per minute.

 Thus, the study of certain physiological and biochemical reactions of a person in response to the effects of dosed physical work under standard conditions indicates that the application of the proposed method, which includes taking a food supplement before exposure for 21 days and whose main components are protein-amino acid concentrate , a complex of vitamins, minerals, unsaturated fatty acids, succinic acid, lactic acid bacteria, helps to establish a hormonal balance Ansa is in the direction of optimal synthesis, utilization of hormones, optimization of the reaction of plastic metabolism, normalization of the intestinal microbial flora, increase of oxygen consumption by the body, reduction of inertial inertial metabolic processes, which significantly increases resistance and performance under extreme conditions and indicates the beneficial effect of the proposed method on human health status.

The proposed method is used to improve performance, adaptive potential and metabolic correction in extreme conditions that occur when many factors are exposed, so the method can be used:
in the professional activities of pilots and astronauts (short and long flights);
in the operator activity of airfield controllers and other types of operator activity;
for contingents of people performing intense physical work (miners, miners, gas workers, geologists, etc.);
for the age category of people in a state of pre-illness and diseases of the cardiovascular system with impaired lipid metabolism, prediabetes, engaged in intense mental activity;
for the population of ecologically unfavorable regions.

 The proposed method can be recommended for prophylactic and therapeutic use in outpatient and clinical settings.

 A prophylactic 21-day cycle is recommended 2-3 times a year.

Claims (1)

 METHOD FOR INCREASING HUMAN ADAPTATION AT PHYSICAL LOAD by using a food supplement, including protein-amino acid concentrate, multivitamins, a preparation of unsaturated fatty acids FF, characterized in that simultaneously with a food supplement, succinic acid is added in a daily dose of 200-300 mg and a preparation of lactic acid bacteria or lactobacterin in medium therapeutic doses, and the course is carried out for three weeks before the start of physical activity.

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