UA144418U - ANTI-VIRUS TO PROTECT THE BODY FROM COVID-19 INFECTION CAUSED BY CORONAVIRUS SARS-COV-2, "MICROELEMENT ANTISEPTIC" - Google Patents

Abstract

Antiviral agent to protect the body from infection with C0VID-19 caused by coronavirus SARS-CoV-2, contains trace elements that have antiviral effect. Contains an aqueous solution of at least two trace elements from the group comprising rhenium, selenium, germanium, tungsten, chromium, cobalt, molybdenum, titanium, silver, gold, platinum, palladium, iridium, zirconium, lanthanum, neodymium, cerium, copper, tin, vanadium , Nickel, bismuth, iron, zinc, manganese, aluminum, iodine, bromine, sulfur, in the form of a composition with a carboxylic acid, containing trace elements in a low degree of oxidation, preferably in the lowest degree of oxidation.

Description

The useful model belongs to medicine, namely to virology, immunology, pharmacology, and concerns the protection against SOMIO-19 infection caused by the 5BAN5-SoMu-2 coronavirus by inactivating viruses with the help of a new generation antiviral agent based on microelements with an electron-donating property.

At this time, unprecedented measures are being taken all over the world to fight the SOMI-19 pandemic. This is caused by the rapid spread of the BAN5-SoU-2 coronavirus and the high mortality rate during infection. On April 24, 2020, the initiative group of global structures of the health care sector (FBMH, SERI, GAVI, Global Fund, UNITAID, Wellcome Trust, WHO) took a global initiative and made a PROGRAM STATEMENT on accelerating the development and production of new medical technologies and new means of combating SOMIO-19. Due to the fact that the vaccine against the coronavirus is under development, the task of developing prophylactic means to protect the body against SOMI-19 infection comes to the fore.

The analysis of patent and scientific and technical information made it possible to identify the following methods of stimulating the mechanisms of non-specific protection of the body against infection caused by coronaviruses, and non-specific methods of prevention: 1. Inactivation of coronaviruses with the use of chemical substances - fat solvents, detergents, antiseptics. 2. Inactivation of coronaviruses using antiseptics based on trace elements that have an antiviral effect. 3. Application of physical methods - inactivation of viruses by electrons, which prevent viruses from performing their natural functions - functions of adsorption and penetration into the cell.

Known means of protecting the body from infection caused by coronaviruses are based on the inactivation of coronaviruses with the help of fat solvents, detergents, antiseptics (L.Ya.

Zakstelskaya, A.V. Sheboldov / HUMAN AND ANIMAL CHRONOAVIRUS. - M.: Medicine, 1977. - b. 221; General and private virology / Edited by V.M. Zhdanova, S.Ya. Haydamovych - M.:

Medicine, 1982. - T. 2. - b. 316-339; A.M. Korotyaev, S.A. Babichev // Medical microbiology, virology and immunology. - St. Petersburg: Special Literature, 1998. - P. 273).

The disadvantage of the known means is their low efficiency, since the scope of their application is limited to the inactivation of viruses on surfaces and skin, while the mucous membranes of the upper and lower respiratory tract and the gastrointestinal tract of a person remain unprotected.

Since the envelope of the virus consists of lipids, it can be destroyed by treatment with ethanol, organic solvents, soap and other disinfectants. The 5АНО-Соу-2 coronavirus countermeasures strategy, which solves the problem of reducing the concentration of viruses in the environment, is basically built on this. But the use of such antiseptics allows you to fight the virus only "on distant approaches" to the body - this is the treatment of surfaces and skin. The fight against the virus "on distant approaches" to the body includes: the use of masks, keeping a distance, limiting communication between people, self-isolation, observation. But the virus is dangerous not only "on distant approaches" to the body, it is more dangerous when it enters the body. After viruses enter the body, other methods are needed that can either inactivate or reduce the number of viruses in the body.

The infectious dose (ID5o) of the coronavirus that causes SOMIO-19 disease has not yet been established, there is only an assumption that it can amount to hundreds of particles. If the infection occurs when a person comes into contact with a large dose, then the disease will proceed in a severe form.

Confirmation of this is a large number of medical workers infected all over the world. It is necessary to put more barriers on the way of viruses to the cell so that as few active virus particles as possible get into the cell. If the conditions for the inactivation of a certain number of viruses will be created on all the organs on the way of viruses entering the body, especially on the mucous membranes, then only a small part of them will retain their activity and be able to penetrate the cell. When receiving a small dose of the virus, the human immune system has more chances to cope with the problem (see 5idananna MyKNegievie. Nozhm Boye5 Te Sogopamighi5 Vepahe

Ipvide and Raiepi? Tne pemu ioikeg. Argy! 6, 2020).

Viruses can enter the body by inhaling aerosol particles and get on the mucous membrane of the nose, larynx, trachea, and bronchi. It is known that BAN5-CoMm2 first affects the upper respiratory tract. In addition, viruses can enter the body with food and drinking water and enter the oral cavity, the esophagus - the gastrointestinal tract. Therefore, it is necessary to develop new methods that will allow inactivation of viruses on mucous membranes in all possible areas of potential infection.

A well-known means of inactivating coronaviruses is the antiseptic miramistin with antifungal and antimicrobial action (Patent VO Mo 2234313. MEANS OF INACTIVATING CORONAVIRUSES. 60 IPC A6IK 31/165, AETR 31/14. Publ.: 20.08. 2004. Byul. Mo 23).

The disadvantage of the well-known tool is its low effectiveness against the BANO-Som-2 coronavirus.

In addition to the destruction of unwanted microorganisms, for example, with the help of antibiotics and disinfectants, preventive measures, that is, the creation of conditions unfavorable for the life and reproduction of microorganisms, are becoming more and more important. Among these preventive measures, the approach based on the use of trace elements that have an antimicrobial effect has the greatest prospects. Such trace elements include: silver, copper, tin, iron, lead, bismuth, gold, osmium, molybdenum, tungsten (see Patent of Russia Mo 2473366. SUBSTANCE,

HAVING ANTIMICROBIAL ACTION. IPC AbTI 15/18 (2006.01), AbII 2/16 (2006.01), AOTM 59/16 (2006.01). Publ. 27.01.2013. Bul. Mo 3).

The disadvantage is the low effectiveness of the antimicrobial substance due to the use of trace elements in an inorganic form. This does not allow to obtain an antiseptic with an electron-donating property.

A well-known means of protecting the body against infection caused by viruses, in particular the flu virus, containing an aqueous solution of trace elements: copper, zinc, indium, cobalt, manganese, chromium; and copper, zinc, indium, cobalt, manganese, chromium are used in the form of water-soluble chlorides (see Patent of Russia Mo 2182005. METHOD OF TREATMENT OF FLU. IPC AbIK 33/00 (2000.01).

Publ. 10.05.2002. Bul. Mo 13).

The disadvantage of the tool is its low efficiency due to the use of trace elements in inorganic form in the form of chlorides. The absence of trace elements in low oxidation states does not allow to obtain a highly active antiseptic with an electron-donating property.

A well-known means of protecting the body against infection, which contains trace elements in elementary form that have an antimicrobial effect, such as: chromium, aluminum, nickel, tungsten, molybdenum, platinum, iridium, gold, silver, mercury, copper, zinc and cadmium (Raiepi OB Mo. 5520664. SATNETEVN

NAMIMA AGOMa-IABZTIMa AMTMISVOVAI 5OVEASE TAVEATMEMT. MIC AbM 5/32. Mau 28, 1996).

The disadvantage is the low effectiveness of the antimicrobial effect of trace elements in elemental form and in the form of oxides.

A known antiviral means of protecting the body against coronaviruses, containing at least one compound of monovalent copper from the group consisting of СІСІ, СиООСсСснН», СиВг, Сии,

From Si5SM, Сc2г5 and Сc2О. Additionally, it contains oxides of magnesium, barium, aluminum, tin, titanium, zinc, zirconium, iron, tungsten, bismuth and indium (Patent KO Me 2496522. ANTIVIRAL

REMEDY. IPC AbII 2/16. Published: 10/27/2013. Bul. Mo 30. Convention priority: 26.12.2008 UR. 2008-334151).

The disadvantage of the known agent is the toxicity of the monovalent copper compounds used, which prevents its use for inactivating viruses on the mucous membranes of the respiratory tract and gastrointestinal tract.

At this time, physical methods of combating viruses, which lead to the inactivation of viruses, are of great importance. Instead of actions to destroy the virus, which can be dangerous for humans as well, actions that prevent the virus from performing its natural functions - the functions of adsorption and penetration into the cell - are much more effective. Studies show that the adsorption of a certain number of coronavirus virions on the cell membrane depends on the electric charge of viral particles (see M.Yu. Stegniy, B.i. Stegniy, AN. Goltsev. ULTRASTRUCTURE II

BIOLOGICAL PROPERTIES OF THE VIRUS OF INFECTIOUS BRONCHITIS OF BIRD AFTER

CRYOPSERVATION. Problems of cryobiology and cryomedicine. - 2015. - Volume 25, Issue 4.).

Therefore, means that implement physical methods based on the control of the Coulomb interaction of the surface electric charge of the viral particle with cell membrane receptors can become key to suppressing the infectious activity of the coronavirus.

The active factor in this approach is excess electrons, which are able to affect the electric charge of the coronavirus and are able to change it or redistribute it on the surface.

Electrical inactivation of the coronavirus can be an important adjunct to non-specific preventive measures.

A known method of inactivating viruses in water environments is based on a physical method - the effect of an electric field on viruses. At the same time, under the influence of an electrostatic field, the viral particle undergoes polarization and the structure of the protein coat of the virus is disrupted. This is done before the virus enters the cell - in the liquid. As a result, the virus loses its ability to replicate (Russian Patent No. 2506232. METHOD OF INACTIVATING VIRUSES IN AQUATIC ENVIRONMENTS.

IPC SO2E 103/04, VO1.) 20/28. Published: 10.02.2014. Bul. Mo 4).

The disadvantage of the known method is the complexity of its implementation in real household conditions and the impossibility of applying this method for inactivating viruses on the skin, on mucous membranes, because in the nasopharynx, larynx, trachea, bronchi, as well as in the oral cavity, in the esophagus - in the gastrointestinal tract .

There is a known method of inactivating highly pathogenic viruses, including the avian influenza type virus

NMI, based on the generation of free electrons, the formation of negative air oxygen ions when free electrons are attached and captured by oxygen, and on the treatment of air with negative oxygen ions, which allows inactivating up to 100 95 viruses and pathogenic microorganisms in the shortest time - 4.0-36.0 s (see INTERNATIONAL APPLICATION MUO 2008/057010А3. METHOD

AIR DECONTAMINATION WITH NEGATIVE OXYGEN IONS AND THE DEVICE

FOR ITS REALIZATION. IPC AbtTI 9/22 (2006.01). Publication date May 15, 2008 (05/15/2008)).

The disadvantage of the known method is the narrow scope of its application, limited to the inactivation of viruses in the air, while the mucous membranes of the respiratory tract and PICT of a person remain unprotected.

A known method of inactivating the foot-and-mouth disease virus is based on changing the basic natural property of virus particles - their electrical charge. A change in the distribution of the surface electric charge leads to a change in the functional capabilities of the virus, to the loss of the ability to penetrate the cell and to the loss of the ability to replicate (Ponomarev A.P. MECHANISM

STABILIZATION AND INACTIVATION OF FMD-AND-MOUTH-AND-POWER VIRUS UNDER THE INFLUENCE OF PHYSICAL

CHEMICAL FACTORS. Abstract of the dissertation for the degree of Doctor of Biological Sciences. - Vladimir, 1996.).

The foot-and-mouth disease virus belongs to the (i)RNA viruses, which, like the coronavirus, contains a single-stranded genomic RNA of positive polarity and, like the coronavirus, has a spindle-shaped envelope. At the same time, the difficulty of implementing this method in real household conditions, the impossibility of changing the electric charge of the coronavirus in the real conditions of the body makes it possible to use this method for the inactivation of coronaviruses on the skin, mucous membranes, in the nasopharynx, in the larynx, in the trachea, in the bronchi, and also in the oral cavity, in the esophagus - in the gastrointestinal tract. Therefore, the issue of creating protection means capable of changing the electrical charge of the coronavirus or redistributing it on the surface and, thereby, leading to the inactivation of viruses, is an urgent issue. At the same time, the protective agent must be non-toxic and applicable inside the body on the mucous membranes of the respiratory tract and gastrointestinal tract.

The closest analogue to the proposed one is an antiviral means of protecting the body from

From an infection caused by viruses, including human coronavirus and atypical pneumonia coronavirus, which contains iodides selected from the group consisting of Cy, Adi, biz, pl, Sv, Se", zZpi2, ZPIch, TII, Rig, RI4, Viz, Atsi, Aitsig2, Rei!2, Soi2, Mig, 2piI2, Na and Ipiz, as well as a compound of monovalent copper from the group consisting of SiSi, SiIOOSsSsnN», SiVg, Sy!, bi5SM, Stcev and btsGO (Patent VO Mo 2542488. ANTIVIRAL MEDICINE. MPKAbIK 33/18. Published 20.02.2015. Bul. Mo 5. Convention priority: 03.09.2008 OR. 2008-226450).

The disadvantage of the known means is the low effectiveness of the protection of the body due to the narrow area of its application, limited to antiseptic treatment of surfaces and skin.

It cannot be used to protect the mucous membranes of the respiratory tract and gastrointestinal tract, as the substances used are toxic. So, for example, monovalent copper iodide has acute toxicity (according to the international codification, it has codes: НЗО2НЗ15, НЗ19).

The basis of a useful model is the task of increasing the effectiveness of an antiviral agent by inactivating a significant part of the virus and maximally reducing the number of active pathogens on the mucous membranes of all organs along the path of passage of viruses from the external environment to cell penetration: on surfaces, on the skin, on the mucous membranes of the respiratory tract and gastrointestinal tract without the use of toxic substances.

The task is solved by the fact that the proposed antiviral agent for protection against SOMIO-19 infection caused by the 5BANO-SoM-2 coronavirus, which contains trace elements having an antiviral effect, according to a useful model, contains an aqueous solution of at least two trace elements from the group that includes rhenium , selenium, germanium, tungsten, chromium, cobalt, molybdenum, titanium, silver, gold, platinum, palladium, iridium, zirconium, lanthanum, neodymium, cerium, copper, tin, vanadium, nickel, bismuth, iron, zinc, manganese, aluminum , iodine, bromine, sulfur, in the form of a composition with carboxylic acid, while containing trace elements in a low oxidation state, preferably in the lowest oxidation state.

The antiviral agent contains trace elements in the following concentrations: rhenium - 0.1-40 mg/l, selenium - 0.1-40 mg/l, germanium - 0.2-50 mg/l, tungsten - 0.1-40 mg/l l, chromium - 0.1-40 mg/l, cobalt - 0.1-10 mg/l, molybdenum - 0.1-20 mg/l, titanium - 0.1-50 mg/l, silver - 0, 1-50 mg/l, gold - 0.1-10 mg/l, platinum - 0.1-10 mg/l, palladium - 0.1-10 mg/l, iridium - 0.1-10 mg/l , zirconium - 0.1-50 mg/l, lanthanum - 0.1-50 mg/l, neodymium - 0.1-50 mg/l, cerium - 0.1-50 mg/l, copper - 1-100 mg/l, tin - 1-50 mg/l, vanadium - 0.1-10 mg/l, nickel - 0.1-10 mg/l, bismuth - 0.1-50 mg/l, iron - 1- 70 mg/l, zinc -1-100 mg/l,

manganese - 1-50 mg/l, aluminum - 0.1-20 mg/l, iodine - 0.1-50 mg/l, bromine - 0.1-50 mg/l, sulfur - 1-100 mg/l .

As a trace element composition with a carboxylic acid contains a trace element composition with a food acid.

The proposed antivirus has electron-donating activity. It is a new generation antiseptic based on microelements with an antiviral effect in low oxidation states.

Its action is not aimed at destroying the virus - it creates an action that prevents the virus from performing its natural function - to attach to receptors and penetrate the cells of the "host". The antiseptic acts as an electron donor. Due to the presence of excess electrons on the mucous membranes generated by the antiseptic, these electrons disrupt the natural distribution of electric charges on the surface of the coronavirus. As a result, an antiseptic with electron-donating activity blocks the coronavirus, preventing its penetration into the cell.

One of the features of BANO-SoM-2 is its "crown" or spikes on the surface. The BAN5-boU-2 virus has a compact molecular "comb" of spikes, which allows it to reliably attach to receptors, infect human cells and spread rapidly (see Zpapod,

U., Me, E., ZP, K. and a. ZTVOSTOVAY VABAI 5 OE VESERTOV VESOSMITIOM VU 5BAN5Z-SSOM-2.

Maishge. 30 May 2020). The presence of spikes on the surface of the BAN5-SoU-2 coronavirus leads to a pronounced asymmetry of the electric charge distribution on its surface. Molecules of spikes are characterized by the fact that at their ends there is an electrical potential opposite to the potential of the receptors.

Thus, under the action of electrical forces, the virus, which in general happened to be near the cell, is oriented, attracted and fixed on the cell. Before us is nothing more than a mechanism established by Nature over billions of years. Electrical forces play an extremely important role in this mechanism. The interaction of the virus with the cell begins with the process of adsorption on cell membrane receptors, i.e. attachment of viruses to the cell surface. A physical law applies here - Coulomb's law. This is a physical process based on the electrostatic interaction between the electric charges of the "comb" spike of the viral particle and the cell surface receptors. The strength of the electrostatic interaction is enormous - it is 1077 times greater than the usual forces of gravity and inertia.

The presence of an electric charge, as well as the mobility and flexibility of the spikes, allows the virus to securely attach to the receptors. The virus is adsorbed on cell wall receptors because their

The outer shells have a similar structure, and both surfaces, as it were, complement each other, having opposite electric charges (see Zhdanov V.M. ON THE TRACES OF THE INVISIBLE:

BIOCHEMISTRY REVEALS THE SECRETS OF VIRUSES. - M.: Znanie, 1964. - 32 p).

The Coulomb interaction of free electrons and electrically charged areas of the surface of the virus allows controlling the infectious activity of the coronavirus. First of all, this is the inactivation of the virus by limiting its adsorption capabilities, especially since in the coronavirus the asymmetry of the distribution of the electric surface charge is pronounced, since the spikes of the virus, which "open" the cell through the receptors on its membrane, have significant linear dimensions, but at the same time they are only a small part of its shell.

Inactivation of the virus occurs when the natural distribution of potentials on its surface is disturbed. At the same time, the conditions for attaching spikes to the receptor protein of human cells are violated. In this case, it is difficult for the virus to find a "host", it loses the opportunity to penetrate the cell and carry out replication. The free electrons of the antiseptic make it possible to change the natural distribution of charges on the surface of the virus.

Confirmation of the process of inactivation of the pathogen described above is the inactivation of the foot-and-mouth disease virus under the action of an electric charge (see Ponomarev A.P. MECHANISM! STABILIZATION AND

INACTIVATION OF THE FMD-AND-MUDDY VIRUS UNDER THE INFLUENCE OF PHYSICO-CHEMICAL FACTORS.

Dissertation abstract for the degree of Doctor of Biological Sciences.

Vladimir, 1996). The research results confirmed the dipole nature of the distribution of electric charges on the surface of viral particles. The physical method of inactivating the foot-and-mouth disease virus, which also belongs to (u)RNA viruses and also, like the coronavirus, contains single-stranded genomic RNA of positive polarity and the same needle-like surface as the coronavirus, is based on changing the distribution of electric charges on the surface of the virus. Research results confirm that virus inactivation occurs due to a change in the basic natural property of viral particles - their electrical charge. A change in the distribution of the surface electric charge leads to a change in the functional capabilities of the virus, primarily to the loss of the ability to attach to the cell.

The proposed antiviral agent contains an aqueous solution of at least two trace elements from the group consisting of rhenium, selenium, germanium, tungsten, chromium, cobalt, molybdenum, titanium, silver, gold, platinum, palladium, iridium, zirconium, lanthanum, neodymium, cerium, copper, tin, 60 vanadium, nickel, bismuth, iron, zinc, manganese, aluminum, iodine, bromine, sulfur, in the form of a composition with carboxylic acid. This increases the effectiveness of the tool due to the synergistic effect of trace elements. This increases the electron-donating activity of the antiseptic. This makes the antiseptic non-toxic and allows you to use it on surfaces, on the skin, on mucous membranes in the nasopharynx, larynx, trachea, bronchi, as well as in the oral cavity, in the esophagus - in the gastrointestinal tract, which increases the effectiveness of the product.

The proposed antiviral agent contains trace elements in a low oxidation state, preferably in the lowest oxidation state. This increases its effectiveness by increasing the electron-donating activity of the antiseptic and increasing the number of free electrons capable of changing the surface charge of the coronavirus.

Trace elements with variable valency can have different degrees of oxidation. So, for example, iridium has oxidation states -3,-1,1,2,3,4,5,-6,-7,-8,-9; rhenium has oxidation states -3,- 1,-41,2,-3,4,-5,-6,-7; selenium has oxidation states -2,-2,-4,-6; germanium has oxidation states of -4, z1, 42, -3, 4; chromium has oxidation states of 1, 8, 2, 3, 4, 5, 6; cobalt has oxidation states "t1,2,3,-4,45; molybdenum has oxidation states -2,-1,41,x2,-3,-4,-5,-6; silver has an oxidation state of 1.82.-3; gold has oxidation states -1,41,42,-3,-5; lanthanum has an oxidation state of i2,-3; neodymium has an oxidation state of 2.3; cerium has oxidation states of 2, 3, 4; iron has oxidation states "Ж1,-2,3,-4,-5,-6; copper has an oxidation state of "41.42; manganese has oxidation states Zh-1,82,-3,-4,-5,-6,-7; zinc has an oxidation state of "-1.2; (see

Steepzhosody, Moptap M., EatveNam A. Spetivhigu oi Ne. - 2nd ed. - Okhgoga: VyshegmopN-Neipetapp, 1997. - b. 28).

An aqueous solution containing trace elements in a low oxidation state becomes an electron-donating medium with a high negative redox potential (ORP). Iridium is the strongest electron donor. It can potentially be a donor of 12 electrons. It is followed by rhenium in terms of activity. It can potentially be a donor of 10 electrons. It is followed in terms of activity by selenium, germanium, molybdenum, and tungsten, which can be donors of 8 electrons.

The proposed antiviral agent contains trace elements in the following concentrations: rhenium - 0.1-40 mg/l, selenium - 0.1-40 mg/l, germanium - 0.2-50 mg/l, tungsten - 0.1-40 mg /l, chromium -0.1- 40 mg/l, cobalt - 0.1-10 mg/l, molybdenum - 0.1-20 mg/l, titanium - 0.1-50 mg/l, silver - 0 ,1-50 mg/l, gold - 0.1-10 mg/l, platinum - 0.1-10 mg/l, palladium - 0.1-10 mg/l, iridium - 0.1-10 mg/ l, zirconium - 0.1-50 mg/l, lanthanum - 0.1-50 mg/l, neodymium - 0.1-50 mg/l, cerium - 0.1-50 mg/l, copper -1- 100 mg/l, tin - 1-50 mg/l, vanadium - 0.1-10 mg/l, nickel - 0.1-10 mg/l, bismuth - 0.1-50 mg/l, iron - 1 -70 mg/l, zinc - 1-100 mg/l, manganese - 1-50 mg/l, aluminum - 0.1-20 mg/l, iodine - 0.1-50 mg/l, bromine - 0, 1-50 mg/l, sulfur - 1-100 mg/l.

When the content of microelements is less than the lower limit, the effectiveness of the product decreases. The content of trace elements above the upper limit can lead to the accumulation of an excess of trace elements in the body.

As a trace element composition with a carboxylic acid contains a trace element composition with a food acid. This allows to increase the digestibility of trace elements.

The severity of the disease is directly related to the number of viruses entering the cells of the body (see bidananna MyKnegpsye. NOMU ROEZ TNE SOVOMAMIVOV VENAME IM5IOE A

RATIEMT? Tne pemu ioikeg. Argyi 6, 2020). The number of specific receptors on the surface of one cell varies from 107 to 105. Therefore, tens and even hundreds of virus particles can be adsorbed on the cell. The severity and consequences of the disease depend on whether only the cells of the nose and trachea will be affected or whether the virus will affect the cells of the epithelium of the alveoli (see Sologub T.V., Ledvanov

M.Yu., Malyi V.P., Stukova N.Yu., Romantsov M.G., Bizenkova M.N., Polyakova T.D. IMMUNE

RESPONSE TO VIRUS INFECTIONS // Successes of modern natural science. - 2009. - May 12. -

pp. 29-33). When a person's immune system receives a small dose of the virus, it is more likely to cope with the problem.

The proposed antiviral means of protecting the body against SOMIO-19 infection is designed to ensure that as few active viruses as possible get to the final goal - the cell of the body, where virus replication takes place. This should happen even if the original number of viruses that entered the body was greater. This "thinning" of the array of viruses and their transfer from an active state to an inactive one is achieved by the inactivating action of an electron-donor antiseptic on the mucous membranes of all organs along the path of virus movement: on surfaces, on the skin, on mucous membranes, in the nasopharynx, in the larynx, in the trachea , in the bronchi, as well as in the oral cavity, in the esophagus - in the gastrointestinal tract. The active factor in the inactivation of the virus is the excess electrons of the antiseptic, which change the distribution of the surface electric charge of the virus. As a result of the violation of the natural distribution of surface charges, the virus loses the ability to adsorb on the cell membrane and becomes inactive.

Instead of the concept of "how not to get infected", which is difficult to implement in practice, the concept of "how not to get seriously ill" is more acceptable. The proposed method makes it possible to maximally reduce the number of active pathogens on the mucous membranes of all organs along the path of passage of viruses from the external environment to cell penetration. With a small amount of active pathogen in the body, both the risk of infection and the risk of severe disease are reduced. As a result, the viral load decreases, and the disease can be mild or even asymptomatic with the acquisition of immunity. The viral load is additionally reduced due to the use of an electron-donor infusion solution containing microelements in a low degree of oxidation (see Patent of Ukraine for utility model Me 139930. INFUSION

SOLUTION FOR THE RECOVERY OF THE MACRO-!/ MICRO ELEMENT COMPOSITION OF THE BLOOD AND

NORMALIZATION OF HEMOPOLOGICAL PROCESSES WITH ELECTRON-DONOR PROPERTY "HYDROGEN VITAMSHO-MICROELEMENT DROPPER". IPC AbIK 33/14 (2006.01). Publ. 27.01.2020. Bul. Mo 2).

Example.

The technology of obtaining an antiviral agent to protect the body from SOMIO-19 infection, caused by the BAN5-Som-2 coronavirus, includes the preparation of an aqueous colloidal solution of micro- and nano-particles of microelements by electropulse ablation (see Patent of Ukraine for utility model Mo 23550. Method of erosion-explosive dispersion of metals IPC B22E 9/14. Published 05/25/2007. Bul. Mo 7). The explosive nature of the formation of nanoparticles is accompanied by explosive electron emission, which leads to various hydration processes. Free electrons undergo hydration with the formation of hydrated electrons (Ease). Nanoparticles undergo hydration with the formation of hydrated nanoparticles (see Patent of Ukraine for a useful model

Me 33793. METHOD OF OBTAINING HYDRATED NANOPARTICLES "EROSION AND EXPLOSIVE

NANOTECHNOLOGY OF OBTAINING HYDRATED NANOPARTICLES". MPK AbIM 1/44, B32B

B5/00. Publ. 10.07.2008. Bul. Me13).

Explosive electron emission creates powerful streams of electrons from freshly formed surfaces (see Konyushaya Y.P. Discoveries of Soviet scholars. Part 1. Physical and technical sciences. - Izd-vo

Moscow State University, 1988. - P. 287-288). Due to electron emission from freshly formed microsurfaces of granules, water is saturated with electrons to form hydrated electrons (624). It is carried out as

From the saturation of water with electrons, the electrification of nanoparticles of microelements in water (see

Patent of Ukraine for utility model Mo 29855. METHOD OF OBTAINING NEGATIVE

CHARGED NANOPARTICLES "EROSION-EXPLOSIVE NANOTECHNOLOGY OF OBTAINING

NEGATIVELY CHARGED NANOPARTICLES". IPC AbIM 1/40, B32B 5/00/ Publ. 01/25/2008.

Bul. Mo 2).

A liquid saturated with hydrated electrons is "electronic water" (see Patent of Ukraine Mo 140851. DRINKING WATER WITH NEGATIVE REDOX POTENTIAL "ELECTRONIC

WATER". IPC AbIK 33/00, publ. 10.03.2020. Bull. Mo 5) is the main component in the production technology of an antiseptic with electron-donating activity. The degree of saturation of "electron water" with hydrated electrons depends on the density of the electron flow and the time of erosion explosive dispersion of trace elements.

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 original deionized water. As a result, hydrogen begins to form at the cathode, due to its dissolution in water, the aqueous colloidal solution is saturated with hydrogen.

The solubility of hydrogen in water is 18.2 ml/l. This provides the possibility of reducing the redox potential (ORP) to minus 50 - minus 250 mV.

Oxygen is formed 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. The concentration of oxygen in the colloidal solution does not exceed 0.1 ppm. The low concentration of oxygen in the colloidal solution increases the lifetime of hydrated electrons in it.

Carboxylic acid is added to the colloidal solution of microelement nanoparticles, microelement oxide nanoparticles, and microelement hydroxide nanoparticles formed. During the interaction of carboxylic acid with nanoparticles of the trace element, hydrogen is additionally formed, which increases the degree of saturation of the solution with hydrogen and increases the electron-donating activity of the solution.

The hydrated electrons present in the water due to the high reduction potential (-2870 mV) convert the ions of polyvalent trace elements into a lower oxidation state. because microelements in a low oxidation state become electron donors and, accordingly, become reducing agents themselves. From the moment the microelements acquire a low oxidation state, they, in addition to hydrogen and a hydrated electron, themselves become the main active factor in the long-term maintenance of negative ORP in the water composition (see B.G. Ershov. IONS OF METALS IN

OF NECESSARY OXIDATION STATES IN AQUEOUS SOLUTIONS: OBTAINING AND

PROPERTIES. - Success in chemistry. - 1997. - 66(2). - p. 103).

As a result, the redox potential of the solution reaches minus 250 mV - minus 420 mV. The active factor is hydrated electrons, which are a powerful reducing electron-donating agent. In such an environment with a high electron-donating property in the presence of hydrated electrons, microelements with variable valence can acquire a very low degree of oxidation. For example, microelements can reach such low levels of oxidation: be", (367, So Ad, Ash, Se", Sy", yp" (see SteepzhooO, Mogtap M.,

EatzvNnam A. Spetivigu oi She. - 2nd ed. - Ohoga: Vijeglmop-Neipetapp, 1997. - b. 28). This significantly increases the electron-donating activity of the antiseptic.

The final aqueous composition is filtered and sterilized. The resulting electron-donating aqueous solution of trace elements in the form of a composition with carboxylic acid can be used to fill containers for spraying the solution or other containers. In addition to trace elements, other ingredients, such as vitamins or necessary amino acids, can be added to the final aqueous composition. The container is filled with a microelement antiseptic immediately after the solution is ready in a single technological cycle of its production. During an epidemic, the protection of the body is carried out by applying a solution of trace elements on clothes, household items, surfaces, as well as on hands, hair, mucous membranes of the nose and oral cavity. Treatment of mucous membranes of the respiratory tract with a microelement antiseptic is carried out by inhalation. This makes it possible to create an electron-donating environment on the mucous membranes of the respiratory tract that inactivates viruses. As a result, the number of active pathogens decreases in each organ on the way of viruses passing through the body.

Microelement antiseptic is added to drinking water and food products. In food products and in drinking water, the solution acts in two capacities - as an antiseptic to create an electron-donating environment on the mucous membranes of the gastrointestinal tract that inactivates viruses, and as a trace element additive. Trace elements that have an antiviral effect, entering the blood,

They also create an environment in it that inactivates viruses. In addition, to reduce the viral load, an electron-donor infusion solution containing trace elements in a low oxidation state is used (see Patent of Ukraine for utility model Mo 139930.

INFUSION SOLUTION FOR RECOVERY OF MACRO-AND MICRO-ELEMENT COMPOSITION OF BLOOD AND

NORMALIZATION OF HEMOPOLOGICAL PROCESSES WITH THE ELECTRON-DONOR PROPERTY "HYDROGEN VITAMIN-MICROELEMENT DROPPER". IPC AB6IK 33/14 (2006.01). Publ. 27.01.2020. Bul. Mo 2).

Claims (3)

USEFUL MODEL FORMULA 1. Antiviral agent for protecting the body against SOMIO-19 infection caused by the ZAN5Z-SoU-2 coronavirus, containing microelements that have an antiviral effect, which is characterized by the fact that it contains an aqueous solution of at least two microelements from the group that includes rhenium, selenium, germanium, tungsten, chromium, cobalt, molybdenum, titanium, silver, gold, platinum, palladium, iridium, zirconium, lanthanum, neodymium, cerium, copper, tin, vanadium, nickel, bismuth, iron, zinc, manganese, aluminum, iodine, bromine, sulfur, in the form of a composition with carboxylic acid, while containing trace elements in a low oxidation state, preferably in the lowest oxidation state. 2. Antiviral agent for protecting the body against SOMIO-19 infection, caused by the ZANO-SoMm-2 coronavirus, according to claim 1, which differs in that it contains trace elements in the following concentrations: rhenium - 0.1-40 mg/l, selenium - 0 ,1-40 mg/l, germanium - 0.2-50 mg/l, tungsten - 0.1-40 mg/l, chromium - 0.1-40 mg/l, cobalt - 0.1-10 mg/ l, molybdenum - 0.1-20 mg/l, titanium - 0.1-50 mg/l, silver - 0.1-50 mg/l, gold - 0.1-10 mg/l, platinum - 0, 1-10 mg/l, palladium - 0.1-10 mg/l, iridium - 0.1-10 mg/l, zirconium - 0.1-50 mg/l, lanthanum - 0.1-50 mg/l , neodymium - 0.1-50 mg/l, cerium - 0.1-50 mg/l, copper - 1-100 mg/l, tin - 1-50 mg/l, vanadium - 0.1-10 mg/ l, nickel - 0.1-10 mg/l, bismuth - 0.1-50 mg/l, iron - 1-70 mg/l, zinc - 1-100 mg/l, manganese - 1-50 mg/l , aluminum - 0.1-20 mg/l, iodine - 0.1-50 mg/l, bromine - 0.1-50 mg/l, sulfur - 1-100 mg/l. 3. Antiviral agent for protecting the body against SOMIO-19 infection caused by the ZANO-SoM-2 coronavirus, according to claim 1 or claim 2, which differs in that it contains a composition of a trace element with a food acid as a composition of a trace element with a carboxylic acid.