UA139307U - INFUSION SOLUTION FOR RESTORATION OF MACRO- AND MICROELEMENT ELEMENT COMPOSITION OF BLOOD AND NORMALIZATION OF HEMOCORATHING PROCESSES "HYDROGEN KRAPANS KRAPANS KRAPANS KRAPAN - Google Patents

Abstract

The infusion solution for restoring the macro- and microelement composition of blood and normalization of hematopoietic processes contains macronutrient ions, trace element ions, ions of inorganic and organic acids in water. Additionally, the solution contains molecular hydrogen dissolved in water with a concentration of 0.05-0.5 mmol and has a redox potential in the range of minus 30 mV - minus 135 mV.

Description

The useful model belongs to infusion solutions for restoring the water-electrolyte balance and the macro- and microelemental composition of blood and the normalization of hematopoietic processes.

Infusion solutions are a specific group of parenteral drugs with increased quality requirements, as they are injected directly into the bloodstream in large volumes.

A significant proportion of infusion solutions are electrolyte solutions, they are used to correct violations of water, electrolyte, water-electrolyte metabolism and in other critical situations.

Known infusion solutions: sodium chloride solution 0.9 95, Ringer's solution, Lactasil, solution

Ringer - Locke, Plasmalite, Trisil, Quartasil, Closil, Ringer's solution - acetate, solution

Darrow, Ionosteril. These solutions contain the main vital ions included in blood plasma, such as sodium, potassium, calcium, magnesium, chloride, bicarbonate, acetate, lactate (see

Kuzmina Yu.A. Development of the composition, technologies and standardization methods of a new electrolyte infusion solution isosol. Dissertation abstract for the candidate of pharmaceutical sciences degree. - St. Petersburg, 2009).

The disadvantage of known solutions is the lack of essential trace elements (iron, zinc, copper, selenium, manganese, molybdenum, chromium, cobalt). Not one of the solutions mentioned above is not completely isoionic in relation to blood plasma.

Infusion solutions should correspond to blood plasma both in terms of physicochemical properties and macro- and microelement composition, as well as in other indicators, such as acidity and redox potential (ORP).

The closest to the infusion solution for restoring the macro- and microelement composition of blood and normalizing hematopoietic processes, which is claimed, is an infusion solution containing ions of sodium, potassium, calcium, magnesium, cobalt, zinc, manganese, chlorine and acetate in water (Patent of Russia Mo 2423987. Infusion solution for replenishing the volume of circulating blood, restoring the water-electrolyte balance and normalizing hematopoietic processes. IPC AbIK 33/14. Publ. 07/20/2011, Bull. Mo 20).

The disadvantage of the known solution is its incomplete composition of irreplaceable trace elements, and therefore its trace element composition is not optimized for the trace element composition of blood plasma. In addition, its redox potential (ORP) differs from the ORP of blood. It reduces

It reduces the digestibility of trace elements and reduces the effectiveness of the solution. Yes, studies have shown that

The ORP of human blood is less than zero and ranges from -30 to -135 mV (V.I. Prilutskyi, V.M.

Bahir Zlektochemically activated water: abnormal properties, mechanism of biological action. 1995. - p. 85). Special measures are required to give the infusion solution a negative ORP. The difference in ORP of the internal environment of the human body and aqueous solutions means that the activity of electrons in the internal environment of the human body is much higher than the activity of electrons in an aqueous solution. When such an aqueous solution penetrates the tissues of the human (or other) organism, it takes away electrons from cells and tissues.

As a result, the biological structures of the body are subject to oxidative destruction. If the aqueous solution entering the body has an ORP close to the value of the ORP of the internal environment of the human body, then water and substances dissolved in it are easily absorbed, since they are biologically compatible according to this parameter (E.V. Pradedova, O.D. Nymaeva , R.K. Salyaev.

Redox processes in biological systems. Journal "Physiology of Plants", 2017. - Vol. 64, Mo. 6. - b. 433-445).

The useful model is based on the tasks of increasing the digestibility of macro- and microelements and increasing the efficiency of the infusion solution.

The task is solved by the fact that the infusion solution for restoring the macro- and microelement composition of blood and normalizing hematopoietic processes, containing ions of macroelements, ions of trace elements, ions of inorganic and organic acids in water, according to a useful model, additionally contains molecular hydrogen dissolved in water with with a concentration of 0.05-0.5 mmol and has a redox potential in the range of minus 30 mV - minus 135 mV. At the same time, the macro- and trace-element composition of the solution is optimized to the macro- and trace-element composition of the blood plasma, molecular hydrogen and ions of trace elements are obtained by the interaction of micro- and nano-particles of trace elements with inorganic and organic acids in the injection water, as starting substances containing trace elements, trace elements are used in elementary form, and the components of the solution are contained in it in the following amounts, mmol:

Mach 135

KE 3.5

Ca- 2.3

Ma 0.8 bo 0.0001 pe 0.015

MP 0.002

Ee- 0.02 would be 0.015

Zen 0.001

Mo 0.0001

St- 0.0005

С 95.0 снсСОо: 30.0

Not 0.05-0.5 water for injections up to 1 liter.

The infusion solution additionally contains molecular hydrogen dissolved in water with a concentration of 0.05-0.5 mmol, which makes it possible to obtain a redox potential of the solution from minus 30 mV to minus 135 mV. This makes it possible to ensure that the redox potential of the solution is close to the ORP of blood and thereby increase the effectiveness of the solution.

Due to the single electron and the very small energy of the bond between the electron and the nucleus, equal to only 13.6 eV, hydrogen is a natural active antioxidant. And thanks to its small size, hydrogen is the best antioxidant, because it is able to penetrate cell membranes and clogged blood vessels. Aqueous solutions saturated with hydrogen, which have a negative ORP and, accordingly, have reducing properties, show high biological activity (Piskarev I.M., Ushkanov V.A.

Oxidation-reduction potential of water saturated with hydrogen. National Institute of Nuclear Physics named after D.V. Skobeltsna 2006).

The infusion solution contains components in such quantities that its macro- and microelement composition is optimized to the macro- and microelement composition of blood plasma.

This increases the effectiveness of the solution.

When obtaining an infusion solution, microelements are used as raw materials containing microelements. This allows the use of microelements of high purity, which increases their digestibility and the quality of the solution as a whole.

Molecular hydrogen and ions of trace elements are obtained in a single technological cycle by the interaction of micro- and nano-particles of trace elements with inorganic and organic acids in injection water, which simplifies the process of obtaining a solution.

Example.

The infusion solution for restoring the macro- and microelemental composition of blood and normalizing hematopoietic processes is obtained in this way. The solution is made with water for injections.

First, an aqueous colloidal solution of nanoparticles of trace elements is obtained: magnesium, cobalt, zinc, manganese, iron, copper, selenium, molybdenum, chromium. Aqueous colloidal solution of nanoparticles of microelements is obtained, for example, by electropulse ablation (see Patent of Ukraine for utility model Mo 23550. Method of erosion-explosive dispersion of metals. IPC B22E 9/14.

Publ. 05/25/2007. Bul. Mo 7). Granules of trace elements are placed in a vessel for

From dispersion and place them evenly on the bottom of the vessel between the electrodes. Injection water is poured into the vessel. When electric current pulses, in which the energy of the pulses exceeds the sublimation energy of the evaporated trace element, are passed through the chains of microelement granules, spark discharges occur at the points of contact of the microelement granules with each other, in which explosive dispersion of the trace element is carried out. The temperature in the discharge channels reaches 10,000 degrees. Areas of the surface of microelement granules in the areas of spark discharges melt and explode explosively into the smallest nanoparticles and steam.

The molten nanoparticles that fly away fall into the water, cool down in it and form a colloidal solution of nanoparticles of the trace element. Due to the high activity of nanoparticles and their developed surface, nanoparticles react with water. At the same time, hydrogen is generated in the form of very small bubbles, which actively dissolves in water.

Due to the high activity of nanoparticles and their developed surface, nanoparticles react with oxygen dissolved in water to form oxides and hydroxides. This leads to an increase in the pH of the solution and to an increase in the electrical conductivity of the injection water. As a result, hydrogen begins to be released at the cathode, due to its dissolution in water, additional hydrogen saturation of the aqueous colloidal solution is carried out. The solubility of hydrogen in water is 18.4 ml/l. The redox potential of ORP decreases.

Oxygen is released at the anode. The solubility of oxygen in water is 31 ml/l. However, the oxygen formed at the anode does not lead to the saturation of water with it, because the nanoparticles capture it with the formation of oxides and hydroxides. This also leads to an increase in the pH of the solution and to an increase in the electrical conductivity of the injection water, which intensifies the process of saturation of the solution with hydrogen.

Acid is added to the resulting colloidal solution of nanoparticles of trace elements, nanoparticles of oxides of trace elements, and nanoparticles of hydroxides of trace elements. Due to the high chemical activity of nanoparticles, a solution of appropriate salts of microelements is formed. Since the number of reagents does not include any other substances, a product of high chemical and ecological purity with a very low content of impurities is formed. When the acid interacts with nanoparticles of trace elements, molecular hydrogen is released, which increases the degree of saturation of the solution with hydrogen. As a result, the redox potential of the ORP solution reaches minus 30 mV - minus 135 mV, and the formed salts of trace elements dissociate in water into ions of magnesium, cobalt, zinc, manganese, iron, copper, selenium, molybdenum, chromium, chloride and acetate. A certain amount of sodium, potassium and calcium macroelements in the form of chlorides are added to the obtained solution of trace elements and the final infusion solution is obtained to restore the trace element composition of the blood and normalize hematopoietic processes, which is filtered and sterilized.

The infusion solution obtained by the method proposed above is the closest to blood plasma both in terms of physicochemical properties and the composition of macro- and microelements, as well as in terms of the redox potential (ORP).

Claims (5)

USEFUL MODEL FORMULA 1. An infusion solution for restoring the macro- and microelement composition of blood and normalizing hematopoietic processes, containing ions of macroelements, ions of trace elements, ions of inorganic and organic acids in water, which is distinguished by the fact that it additionally contains molecular hydrogen dissolved in water with a concentration of 0.05 -0.5 mmol and has a redox potential within minus 30 mV - minus 135 mV. 2. Infusion solution for restoring the macro- and microelement composition of blood and normalizing hematopoietic processes according to claim 1, which differs in that the macro- and microelement composition of the solution is optimized to the macro- and microelement composition of blood plasma. 3. Infusion solution for restoring the macro- and microelement composition of blood and normalizing hematopoietic processes according to claims 1, 2, which differs in that the ions of trace elements are obtained by the interaction of micro- and nano-particles of trace elements with inorganic and organic acids in the injection water. 4. An infusion solution for restoring the macro- and microelement composition of blood and normalizing hematopoietic processes according to claims 1, 2, З, which differs in that trace elements are used in elemental form as starting substances containing trace elements. 5. Infusion solution for restoring the macro- and microelement composition of blood and normalizing hematopoietic processes according to claims 1, 2, З, 4, which differs in that it contains components in the following quantities, mmol: Mach 135 Kk 3.5 Ca- 2.3 Ma 0.8 bo 0.0001 pe 0.015 Mp 0.002 Ee- 0.02 bich» 0.015 Zen 0.001 Mo 0.0001 St- 0.0005 С 95.0 sno: 30.0 Ne 0.05-0.5 water for injections of dollars