RU2634271C1 - Means for physical endurance increase - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: drinking water includes 7% of glucose, 3% of hydrogen peroxide and oxygen gas to create an overpressure of 0.2 atm at +8°C. The drug is absorbed into the bloodstream, providing water, oxygen and glucose supply thereto, it has a detoxification effect, prevents dehydration, hypoxia, hypoglycemia, promotes carbon dioxide and lactic acid release from the circulating blood into the stomach and intestines, provides the cortex and skeletal muscles cells with oxygen and glucose.

EFFECT: increased physical endurance and optimized conscious performance of intensive physical work while depleting the reserves of adaptation.

1 cl

Description

The invention relates to medicine, namely to medicine of extreme conditions, military medicine, sports medicine, pharmacology, pharmacy, and is intended to backup increase resistance to physical work while depleting the reserves of adaptation.

Known homeopathic remedy intended for enteral administration, increasing physical activity, performance and endurance, characterized in that it represents 30 vol. % solution of adenosine diphosphoric acid in homeopathic potency of 30 CH (RU 2351342).

A disadvantage of the known means is low efficiency, safety and a narrow scope, because by definition it does not apply to drugs and does not have specific pharmacological activity. In addition, the formative substance of high-quality homeopathic remedies is lactose (milk sugar). At the same time, the digestive system of most adults lacks the lactase enzyme. In this regard, the well-known remedy causes dyspepsia in very many adults, worsens the process of assimilation of the food they have taken, and therefore reduces resistance to long and hard physical work when exhausting adaptation reserves.

Antihypoxic agents are known which are 2- (1-phenylethyl) aminoethanesulfonic acid N-isopropylamide or 2- (1-methyl-2-phenylethyl) aminoethanesulfonic acid N-isopropylamide or 2- (benzyl) aminoethanesulfonic acid N-isopropylamide ( RU 2232576).

A disadvantage of the known means is low efficiency, safety and a narrow scope. The fact is that the claimed chemical compounds do not apply to oxygen donors, therefore, they do not increase the oxygen content in human blood during intense physical work with the depletion of adaptation reserves. That is why these compounds do not eliminate hypoxia, hypocapnia and do not provide oxygen to the aerobic process of generating energy, which is necessary for contractile activity of striated muscle myocytes during physical activity with exhaustion of adaptation reserves. Moreover, the known substances are not intended to increase the amount of oxygen in organs and tissues under conditions of hypoxia with continued intensive physical work, since the known substances are intended to treat not hypoxia, but its consequences that arose in various organs and tissues due to hypoxic damage.

In addition, the known products do not contain glucose, so I do not increase the supply of organic substrates of anaerobic and aerobic oxidation to skeletal muscle cells.

In addition, well-known substances are alien to the human body, therefore, like other chemicals of complex chemical structure and synthetic origin, they can cause a number of undesirable consequences already at the first injection. In this regard, these substances in some people can cause an allergic reaction, and also regardless of this, undesirable pharmacological effects on the routes of administration, due to local irritant effects due to the physicochemical aggressiveness of traditional drugs [1, 2, 3] . With prolonged regular introduction into the human body, these substances can cause addiction, and then addiction, that is, drug dependence, or chronic poisoning without addiction [4, 5, 6].

A substance is known, namely, 6,8-dimethyl-2-piperidinomethyl-2,3-dihydrothiazolo [2,3-f] xanthine, which at doses of 0.005 mg / kg and 10 mg / kg after conversion to emulsion in Tween-40 after an intraperitoneal injection made 30 minutes before acute hypoxia, increases resistance to acute hypobaric hypoxia (RU 2191016).

A disadvantage of the known means is low efficiency, safety and a narrow scope. The fact is that the claimed agent does not contain glucose and oxygen, therefore, the introduction of this agent in the form of an emulsion in the abdominal cavity does not increase the content of glucose and oxygen in the abdominal cavity, in human blood and in skeletal muscles. Injection administration is accompanied by a puncture of the anterior abdominal wall with an injection needle and administration of the agent into the abdominal cavity. Moreover, the drug is introduced into the abdominal cavity in the form of an emulsion, which is prepared in Tween-40. In this regard, the well-known tool in the depletion of reserves of adaptation to intensive physical work does not increase, but lowers physical endurance.

In addition, the emulsion of a known substance in Tween-40 is foreign to the human body, therefore, causes a local irritant effect [1, 2, 3] on the routes of administration. In this regard, with intraperitoneal injection, the agent has a local irritant effect on the mucous membrane of the parietal and visceral peritoneum and contributes to the development of its aseptic inflammation, that is, peritonitis.

In addition, the known tool is intended exclusively for intraperitoneal injection in the form of an emulsion in Tween-40. In this case, the injection into the abdominal cavity itself poses a threat to human health and life, since intraperitoneal injection can be complicated by an injury to the abdominal organs caused by ignorance of the working end of the injection needle. Injury can cause intraperitoneal bleeding, anemia, hemic hypoxia and hypoxic damage to the cells of the cerebral cortex.

In addition, the known agent does not apply to drugs. Moreover, with prolonged regular administration to the body, this drug can cause addiction, and then addiction, that is, drug dependence, or chronic poisoning without addiction [4, 5, 6].

Known Krebs-Ringer solution, including 125 mm NaCl, 2.5 mm KCl, 1.25 mm NaH ₂ PO ₄ , 2 mm CaCl ₂ , 1 mm MgCl ₂ , 25 mm NaHCO ₃ , 25 mm glucose, which is aerated for 30 minutes with carbogen to a pH of 7.4 (http://cshprotocols.cshlp.org/content/2008/1/pdb.rec11150.full?text_only=true) (accessed: 04/09/2016).

The disadvantage of this tool is a narrow scope, low safety and effectiveness. The fact is that the tool is intended for injection into the blood, in particular, by intravenous injection. However, the tool is not intended to eliminate hypoxia, since it is not saturated with oxygen and does not contain an oxygen donor, in particular hydrogen peroxide. Therefore, when introduced into venous blood, the drug does not increase the oxygen concentration in it and does not change the color of the blood from cherry-blue to bright red. Moreover, a known agent when injected into a vein increases the concentration of carbon dioxide in venous blood.

Known Ringer-Locke solution, including 0.9% sodium chloride, 0.02% sodium bicarbonate, 0.02% calcium chloride, 0.02% potassium chloride, 0.1% glucose and water for injection (http: // dic .academic.ru / dic.nsf / meditem / 1805) (accessed: 04/10/2016)

The disadvantage of this tool is a narrow scope, low safety and effectiveness. The fact is that the tool is not intended to increase the delivery of oxygen to the body, since it does not contain dissolved gas, oxygen or an oxygen donor, in particular hydrogen peroxide. In addition, due to the fact that the product contains 0.9% sodium chloride, which gives it an osmotic activity in the range of 280-300 mOsmol / l of water, and in addition it also contains potassium, calcium and sodium salts in a total concentration of 0.6% and glucose at a concentration of 0.1%, which give it an additional about 30 mOsmol / l of water, the known agent has hyperosmotic activity. Therefore, when introduced into the body, the drug develops a feeling of thirst and can provoke the manifestation of a hyperglycemic state with latent diabetes mellitus, which worsens physical endurance on the verge of exhaustion of adaptation reserves.

Known hyperoxygenic agent for saturating venous blood with oxygen, which is an aqueous solution of sodium chloride, sodium bicarbonate and hydrogen peroxide, in the following ratio of components, mass. %:

Sodium chloride 0.85 Sodium bicarbonate 0.10 Hydrogen peroxide 0.05-0.29 Water for injections Rest

(RU 2538662).

The disadvantage of this tool is a narrow scope, low safety and effectiveness. The fact is that the product is intended for introduction into a portion of canned venous blood and is not intended for introduction into the blood inside the blood vessels of the human body. In addition, the product does not contain glucose and is not intended to maintain anaerobic and aerobic metabolism in the human body while depleting the reserves of adaptation to intensive physical work in conditions of cessation of food.

In addition, the tool is intended for emergency administration directly into the venous blood at rest. It is not intended for introduction into the body during intense physical work.

Known sterile solution of 5% glucose in ampoules of 10, 20, 25, 50 ml and in bottles of 200 and 400 ml, intended for subcutaneous and intramuscular injections (Mashkovsky MD Medicines. In 2 volumes. T. 2. - 14th edition. M: New Wave LLC. 2000. S. 201).

The disadvantage of this tool is a narrow scope, low safety and effectiveness. The fact is that the tool is not intended to provide skeletal muscle with glucose and oxygen while depleting the reserves of adaptation to intense continuous physical work in conditions of cessation of food, since the known tool does not contain oxygen gas and an oxygen donor, in particular hydrogen peroxide. Moreover, the known remedy does not eliminate the acidosis caused by hypoxia and overly pronounced physical work, because it is overly acidic. The fact is that a solution of 5% glucose for injection is prepared by adding a Weibel stabilizer, which is used to preserve glucose during thermal sterilization of the solution. The Weibel stabilizer is sodium chloride and hydrochloric acid. Therefore, the true composition of a known product differs from its composition, indicated in the label, labeling and reference books on medicines. In particular, the known agent contains the above components in the following proportions (wt.%):

Glucose  5,0 Sodium chloride  0.52 Hydrochloric acid  0.44 Water for injection  Rest

Therefore, the known agent is very acidic and can have a pH of 3.0 [7]. In this regard, the introduction of a known agent into the body under hypoxia reduces the concentration of oxygen, that is, exacerbates hypoxia, and increases the concentration of protons (H ⁺ ), that is, promotes acidosis.

A known drug solution, consisting of 3% hydrogen peroxide and 3% acetic acid, which is intended for oral administration as an antidote for poisoning with potassium permanganate (http://www.piljulja.ru/instructions_to_medicines/preparation/perekis_vodoroda/) (Date of treatment 04/11/2016).

A disadvantage of the known means is low safety and a narrow scope. The fact is that the tool is not intended to increase physical endurance. Moreover, the product contains a large concentration of acetic acid, which irritates the walls of the esophagus and stomach, causes an increase in the tone of the esophagus and stomach, promotes the development of pain and vomiting, the appearance of acidosis and therefore reduces physical endurance.

Known composition of the drink to maintain and / or restore fluid balance during a sporting event or training, where the composition of the drink includes proteins in the range of 0.5-0.15 wt. %, carbohydrates in the range of 1.3-2.0 wt. % and salts in the range of 0.08-0.12 wt. % (RU 2528495).

The disadvantage of this tool is a narrow scope, low safety and effectiveness. The fact is that the tool is not intended to increase the delivery of oxygen to the body, since it does not contain dissolved gas, oxygen or an oxygen donor, in particular hydrogen peroxide. Known means is intended to retain water in the body. Therefore, when performing intensive physical work in conditions of oxygen deficiency, the agent reduces the removal of products of intensive metabolism by preserving water. In addition, the tool reduces the concentration of oxygen in body fluids and reduces physical stability while exhausting the reserves of adaptation to intense physical work.

Known low-alcohol carbonated drink containing rectified ethyl alcohol, sweetener, citric acid, carbon dioxide, water and flavoring agent "Gin-Tonic" or a mixture of flavoring additives "Ginger", "Whiskey" and "Tonic", or a mixture of flavoring additives "Ginger" , "Cognac with smoke" and "Tonic" in the following ratio of ingredients per 1000 gave the finished drink:

Rectified ethyl alcohol, dm ³  60-80 Sweetener (sugar equivalent), kg  50-80 Citric acid, kg  1.5-3.0 Carbon dioxide kg  3.0-9.0 Flavoring additive "Gin-Tonic", or a mixture of flavoring additives "Ginger", "Whiskey" and "Tonic", or a mixture of flavoring additives "Ginger", "Cognac with smoke" and "Tonic", kg  0.9-10.0 Water  Rest

(RU 2081161).

The disadvantage of the tool is a narrow scope, low safety and effectiveness, since the tool is a slightly alcoholic beverage, essentially a semi-synthetic lemon tincture, carbonated with carbon dioxide. The fact is that the product contains water, about 0.6-0.8% ethyl alcohol, carbon dioxide under an overpressure of about 0.2-0.6 atm, a sweetener, citric acid and a mixture of several flavoring additives. Moreover, the product contains synthetic flavoring additives and a synthetic sweetener that are not absorbed by microorganisms and the human body, do not increase the energy and metabolic value of the drink. Moreover, they have a preservative effect. That is why these products in a well-known drink do not let it sour and wander. Thanks to these additives, the drink does not deteriorate during prolonged storage despite the fact that it is not prepared under sterile conditions. The presence of these additives impairs the digestion of the drink in the human digestive system.

Known tool has low efficiency, because it does not have the desired metabolic value. The fact is that only ethyl alcohol is quickly and well metabolized in the human body, since aromatic additives and a sweetener replace only the taste properties of carbohydrates and organic natural food flavorings, but they do not make up for their metabolic value. In particular, the sweetener does not integrate into energy metabolism instead of sucrose and glucose. Therefore, the known agent does not provide the process of aerobic metabolism in skeletal muscle cells with natural organic substrates of the metabolism and does not increase physical endurance when the reserves of adaptation are exhausted.

In addition, the known product has low safety and exacerbates hypoxia. The fact is that it does not contain oxygen gas and an oxygen donor hydrogen peroxide. Therefore, with excessively intense physical work performed on the verge of exhaustion of the reserves of adaptation, leading to the exhaustion of reserves of oxygen and oxidation substrates, on the one hand, and to the accumulation of carbon dioxide and lactic acid, on the other hand, the known agent does not increase the level of oxygen in the body. Moreover, the known agent promotes hypercapnia and acidosis.

In addition, the known agent reduces the production of ATP during aerobic metabolism, reduces contractile activity and the strength of skeletal muscle contractions. The fact is that ethyl alcohol is rapidly oxidized in the human body and at the same time increases the temperature of his body, and the energy of alcohol oxidation does not accumulate in the form of ATP macroergic bond, but is released in the form of heat. Therefore, the known tool accelerates the flow of oxygen remaining in the body, but oxygen is not used to increase contractile activity of skeletal muscles, but to increase body temperature. As a result, the drug accelerates the consumption of oxygen residues in the body, raises the body temperature, but does not increase, but lowers physical endurance, since hyperthermia reduces the body's resistance to oxygen deficiency, that is, to hypoxia [8].

In addition to this, ethyl alcohol reduces physical performance due to the fact that it reduces blood supply to skeletal muscles, since it reduces the tonus of smooth muscles of blood vessels and increases the lumen of blood vessels. Ethyl alcohol has the most pronounced vasodilating effect on the blood vessels of the skin in chilled areas of the body. Therefore, the known remedy redistributes blood circulation in the body, but not in favor of skeletal muscles, but in favor of chilled areas of the body, in particular the skin, contributing to the development of cold hyperemia [9].

The objective of the invention is to increase the efficiency, speed, safety and expansion of the scope due to drinking water enriched with oxygen, glucose and hydrogen peroxide, gastroenterological hyperbaric oxygenation of the blood, gas exchange in the mucous membrane of the stomach and intestines, dilution of blood plasma with water, removal of carbon dioxide and lactic acid into the cavity of the stomach and intestines and by providing skeletal muscles with glucose and oxygen.

The goal is achieved by means of a gastroenterological intake of glucose, oxygen gas and hydrogen peroxide in the blood, with which they reach the brain and skeletal muscles.

The technical result is to increase physical endurance and ensure the conscious implementation of intense physical work while depleting the reserves of adaptation to intense physical activity.

The essence of the proposed means of increasing physical endurance, which is a drink for introduction into the stomach and intestines, is that it contains glucose, hydrogen peroxide, water and gas under excessive pressure in the following ratio of components, mass. %:

Glucose 7 Hydrogen peroxide 3 Oxygen to create an overpressure of 0.2 atm at + 8 ° C Drinking water Rest

In the claimed product, drinking water provides physiological safety for the digestive system into which the product is introduced, for the blood into which the product is absorbed from the stomach and intestines, and for the human body as a whole, since drinking water is a food product, meets all sanitary and hygienic standards therefore safe when taken orally. At the same time, the claimed product due to drinking water makes up for the deficiency of water in the body that occurs during intense physical activity due to intense sweating and evaporation of water into the exhaled air in the lungs.

The presence in the proposed product of water, glucose and oxygen provides the body with substances of primary metabolic necessity, the consumption of which in the body during intense physical exertion causes energy depletion, dehydration, hypoxia and depletes the reserves of adaptation. The presence of glucose eliminates hypoglycemia, and the presence of glucose and oxygen eliminates hypoxia and energy deficiency. The fact is that in the human body glucose is the main energy extracellular substrate involved in energy production regardless of the presence of oxygen, since glucose ensures the normal course of processes of intracellular anaerobic glycolysis and oxidative phosphorylation of ADP. In addition, glucose is a leader among organic metabolites for safety in the tissues of the human body. The presence of 7% glucose in the claimed energy drink corresponds to the maximum glucose content in normal milk and ensures the delivery of the “right” amount of glucose into the body, which will eliminate, on the one hand, hypoglycemia and, on the other hand, exclude the development of hyperglycemic coma.

Aerating the solution with oxygen gas to create an overpressure of 0.2 atm (atmospheres) at + 8 ° C corresponds to an effective and safe level of carbonation for ordinary drinks.

The introduction of 3% hydrogen peroxide and gas into drinking water to create an overpressure of 0.2 atm at + 8 ° C turns the claimed product into a drink moderately carbonated with oxygen, which is safe for oral administration by an adult when the reserves for adaptation to intense physical activity are exhausted.

The claimed tool after ingestion begins to emit gas similar to conventional soda. But the gas emitted is not carbon dioxide, but oxygen. The release of oxygen gas bubbles in the drink begins immediately after depressurization of the container in which it is stored, and already in the oral cavity, and then continues in the stomach and intestines, since oxygen is in the medium under overpressure. Moreover, the intensity of the formation of oxygen gas bubbles in the tool is the same as in ordinary and moderately carbonated water (soda) containing carbon dioxide.

Then, after the claimed agent enters the stomach, oxygen gas continues to be released from the agent. In this case, gas bubbles are formed, which rise up and, having reached the surface of the liquid inside the cavity of the stomach, burst. At the same time, bursting oxygen gas bubbles irritate the wall of the stomach, increase the volume and pressure of the gas in the stomach cavity and increase the absorption activity of the gastric mucosa, which promotes the absorption of oxygen and glucose into the blood.

Irritation of the stomach wall stimulates the release of gastric juice into the cavity of the stomach, which is formed from blood plasma. Moreover, under hypoxic conditions, the plasma is poor in oxygen and glucose, but enriched in carbon dioxide and lactic acid. Therefore, the gastric juice released into the cavity of the stomach removes carbon dioxide and lactic acid from the blood, therefore, it reduces hypercapnia and acidosis.

In parallel with this, when the agent enters the oral cavity, larynx and stomach, a catalase reaction begins in the agent, which breaks down hydrogen peroxide to water and oxygen gas due to the interaction of the agent with saliva and other liquid media containing catalase, in particular, purulent blood contents and with the remains of food subjected to microbial decomposition. The process of evolution of oxygen gas from hydrogen peroxide is less intense and more slow than the process of evolution of oxygen gas dissolved in a medium under excess pressure. Oxygen released from hydrogen peroxide is also absorbed into the blood.

In addition, during the same period of time, some of the administered agent diluted with gastric juice begins to be absorbed into the blood through the wall of the stomach. At the same time, water, hydrogen peroxide, gas, oxygen and glucose are absorbed, so the blood is enriched in water, oxygen and glucose. This is manifested in the fact that the claimed agent dilutes blood plasma at the expense of water and reduces hypoxic intoxication. Since glucose and oxygen are absorbed with water, blood plasma is enriched in glucose, and erythrocyte hemoglobin is enriched in oxygen and therefore the blood becomes bright red. In a few minutes

After swallowing the product into the stomach, after a few minutes, some of the swallowed product is evacuated through the pyloric stomach to the duodenum. In the duodenum, it is also absorbed into the blood, as in the stomach. In the blood, hydrogen peroxide is immediately subjected to catalase exposure and oxygen is split into water and gas, and the oxygen dissolved in the product is absorbed into the blood and enriches the plasma and red blood cells without catalase. In this regard, in conditions of lack of oxygen, blood flowing from the stomach and intestines is enriched with water, oxygen and glucose. Due to the fact that the claimed product does not reduce the secretion of sweat and urine and does not retain water in the body, it practically does not change the volume of circulating blood, therefore it does not reduce the concentration of red blood cells in the blood and does not contribute to anemia.

Similarly, the drug acts in the intestines. In this regard, the claimed tool allows you to use the entire area of the mucous membrane of the stomach and intestines for the exchange of water, oxygen gases and carbon dioxide, protons and hydroxyls. Therefore, the claimed tool increases physical endurance while exhausting the reserves of adaptation to intense physical activity.

The proposed composition of the ingredients and the ratio of their concentration in drinking water are optimal to give the tool the ability to perform the function of a battery of water, glucose and oxygen without physicochemical aggressive effect on the epithelial cells of the gastrointestinal tract, as well as for rapid absorption into the blood. At the same time, the use of drinking water provides the product with food quality and physiological safety, since the mucous membranes of the mouth, larynx, esophagus and stomach have a high adaptation specifically to drinking water.

The presence in the proposed aqueous solution of hydrogen peroxide at a concentration of 3% ensures the efficiency and safety of the catalase reaction inside the gastrointestinal tract under conditions of intense muscle load at the border of the depletion of adaptation reserves. The fact is that increasing the concentration of hydrogen peroxide above 3% increases the aggressiveness of the solution above acceptable values, since such a solution acquires excessive “explosive” activity, which can push the foaming contents out of the cavities of the gastrointestinal tract outward, making it impossible for a person to absorb oxygen introduced into the cavity stomach and intestines. On the other hand, lowering the concentration of hydrogen peroxide below 3% reduces the dose of bound oxygen and the ability of the product to increase physical endurance when the reserves of adaptation are exhausted.

Therefore, the agent can be introduced into the stomach naturally. At the same time, it provides a gastroenterological exchange of water, glucose, oxygen, acids and alkalis, thereby increasing physical endurance while depleting the reserves of adaptation to intense physical exertion. Immediately after the agent enters the cavity of the stomach, the agent begins to release oxygen gas dissolved in the agent at the initial overpressure. In parallel, catalase cleavage of hydrogen peroxide and the formation of molecular oxygen from hydrogen peroxide begin. A few minutes after the introduction into the stomach cavity, the agent begins to move in portions into the small intestine, in which the agent also continues to release oxygen and is absorbed into the blood, enriching it with oxygen and glucose. Oxygen gas, generated in significant quantities, inflates the stomach cavity and intestinal cavity, increases intracavitary pressure, which ensures the implementation of gastroenterological hyperbaric oxygenation, irritation of the walls of the stomach and intestines, stimulation of absorption of liquid and gaseous contents into the blood, promotes the release of gastric juice into the stomach and intestinal juice into the intestines.

Since digestive juices are enriched in carbon dioxide and lactic acid and depleted in glucose and oxygen when exhausting the reserves of adaptation to intense physical exertion, the release of digestive juices in the cavity of the stomach and intestines reduces hypercapnia and acidosis. Therefore, the claimed tool provides not only gastroenterological hyperbaric oxygenation, but also the gastroenterological exchange of water, glucose, oxygen, acids and alkalis, which increases physical endurance while depleting the reserves of adaptation to physical activity.

Therefore, this tool expands the scope of application, it allows you to use it to fill the deficit of water, oxygen and glucose with the exhaustion of reserves of adaptation to intense physical exertion. The claimed tool creates optimal conditions for a safe and effective gastroenterological exchange of water, oxygen, carbon dioxide, glucose, acids and alkalis. In particular, immediately after taking the drug inside, it begins to be absorbed into the blood. At the same time, the blood inside the blood vessels of the walls of the stomach and intestines is enriched with water, oxygen and glucose. Digestive juices released into the lumen of the stomach and intestines in response to the introduction of the claimed funds in them, reduce hypercapnia, acidosis and intoxication. All this increases physical endurance while exhausting the reserves of adaptation to intense physical activity in conditions of hypoxia.

We have conducted studies of the physical endurance of 3 adult healthy men at the highest possible running speed to the top of a steep hill, located at an altitude of 300 m above sea level. Moreover, at the time of exhaustion, exhaustion and inability to run, each of them immediately took 250 ml of one of the tested drugs inside, after which the volunteers fled further to the top. During the study period, the air temperature was + 25 ° C, atmospheric pressure was 730 mm Hg, all products had a temperature of + 25 ° C.

The effect of the following agents was investigated;

1. Drinking water

2. A solution containing 30 vol. % adenosine diphosphoric acid in homeopathic potency 30 CH

3. A solution of 3% hydrogen peroxide and 3% acetic acid

4. An aqueous drink containing 0.5% chicken protein, 2% sucrose and 0.12% sodium chloride

5. An aqueous drink containing 0.6% rectified ethyl alcohol, 0.5% sweetener (sugar equivalent), 0.03% citric acid, carbon dioxide to an overpressure of 0.4 atm. and 0.01% Gin-Tonic flavoring.

6. Drinking water, additionally comprising 7% glucose, 3% hydrogen peroxide and oxygen until an overpressure of 0.2 atm is created at + 8 ° C.

After ingestion of one of the indicated funds, each volunteer immediately continued to move up with the highest possible running speed. At the same time, the length of time for which volunteers ran to the top of a natural hill at the highest possible running intensity was investigated. Moreover, for each volunteer, the length of time to reach the top of the hill from the moment of complete exhaustion of forces and ingestion of 250 ml of drinking water was taken as 100% (control). Then, on other days, similar studies were conducted of the duration of the run to the top of the hill after complete exhaustion of forces and emergency ingestion of one of the tested means. After that, the results obtained were compared with individual data in the control and expressed as a percentage.

The following results were obtained.

The ingestion after exhaustion of 250 ml of product No. 2 (a solution containing 30 vol.% Adenosine diphosphoric acid in a homeopathic potency of 30 CH) did not significantly change the duration of the run time to the top of the hill in any volunteer.

Ingestion after exhaustion of 250 ml of product No. 3 (a solution of 3% hydrogen peroxide and 3% acetic acid) extended the duration of the running time to the top of the hill in all volunteers by 10-25% with the appearance of vomiting and pain in the epigastric region of the abdomen, as well as burning sensation in the esophagus.

Admission after exhaustion of 250 ml of product No. 4 (A water drink containing 0.5% chicken protein, 2% sucrose and 0.12% sodium chloride) shortened the duration of the run to the top of the hill for all volunteers by 0.7-2, 5%.

Ingestion after exhaustion of 250 ml means No. 5 (A water drink containing 0.6% rectified ethyl alcohol, 0.5% sweetener (sugar equivalent), 0.03% citric acid, carbon dioxide to an overpressure of 0.4 atm . and 0.01% Gin-Tonic flavoring additive) extended the duration of the running time to the top of the hill for all volunteers by 2-4.5%.

Ingestion after exhaustion of 250 ml of product No. 6 (The claimed product, namely drinking water, additionally comprising 7% glucose, 3% hydrogen peroxide and oxygen until an overpressure of 0.2 atm at + 8 ° C is created) shortened the duration of the run to the top of the hill for all volunteers by 20-30%. At the same time, all volunteers noted that taking this remedy led to rapid gas formation in the stomach, improved moods, increased determination, reduced the feeling of fatigue, caused a feeling of enlightenment of consciousness, reduced the feeling of pain in the muscles of the legs and caused a feeling of ease of running.

Thus, tool No. 6 (the claimed tool for increasing physical endurance, which is drinking water, additionally comprising 7% glucose, 3% hydrogen peroxide and oxygen to create an overpressure of 0.2 atm at + 8 ° C) increases by an average of 25 % physical endurance during the exhausting run of adults in the summertime up the hill with a peak located at an altitude of 300 m above sea level with reduced atmospheric pressure. At the same time, the claimed remedy improves mood, enlightens consciousness, increases determination, reduces the feeling of fatigue, causes a feeling of ease of running.

The introduction of this agent into the stomach ensures the fast delivery of water, oxygen and glucose to the blood, which eliminates dehydration, hypoxia and hypoglycemia and helps increase physical endurance during intense physical exertion under conditions of reduced oxygen content.

Therefore, the proposed tool, which is drinking water containing 7% glucose, 3% hydrogen peroxide and oxygen gas to an excess pressure of 0.2 atm at + 8 ° C, which is introduced inside when depleted, increases the delivery of water, oxygen and glucose to blood and to skeletal muscles, increases physical endurance, improves mood and consciousness.

The invention extends the scope, increases efficiency, safety and speed due to drinking water enriched with oxygen, glucose and hydrogen peroxide, gastroenterological hyperbaric oxygenation of the blood, gas exchange in the mucous membrane of the stomach and intestines, dilution of blood plasma with water and by providing skeletal muscles with glucose and oxygen .

Therefore, a tool for increasing physical endurance, which is drinking water enriched with 7% glucose, 3% hydrogen peroxide and a gas of oxygen until an overpressure of 0.2 atm at + 8 ° C of gas is created, increases physical endurance when the reserves of adaptation are depleted and in conditions reduced oxygen content due to the appearance in the stomach of drinking water, glucose, oxygen gas under excessive pressure, absorption of water, glucose, oxygen and hydrogen peroxide into the blood, plasma oxygenation and blood cells in conditions increased intracavitary pressure in the cavity of the stomach and intestines, elimination of hypoglycemia, dehydration and due to detoxification caused by plasmodilution.

The invention provides an expansion of the scope, increasing efficiency and safety by increasing the area of exchange of oxygen gases and carbon dioxide, water, acids and alkalis, due to gastroenterological hyperbaric oxygenation, oxygenation of plasma and blood cells, the use of the mucous membrane of the stomach and intestines for oxygen absorption in blood and carbon dioxide emissions from the blood, stabilizing the concentration of red blood cells in the blood and the volume of circulating blood and the number of red blood cells in unit of blood volume.

Literature

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Claims (2)

A means of increasing physical endurance, which is a drink for introduction into the stomach and intestines, characterized in that it contains glucose, hydrogen peroxide, water and gas under excessive pressure in the following ratio of components, mass. %: Glucose 7 Hydrogen peroxide 3 Oxygen until overpressure of 0.2 atm at + 8 ° C Drinking water Rest