RU2673554C2 - Method of down-regulation of microorganisms - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to the field of medicine, namely, to hygiene and microbiology, and is intended to down-regulate microorganisms. To down-regulate pathogenic microorganisms, the object is affected by the gas-air medium, one of the components of which is oxygen. This effect is carried out during at least one procedure or in a cyclic mode with a certain regularity, providing saturation and/or desaturation of at least one component of a mixture of gases into the cells of tissues of a biological object according to a predetermined algorithm. Number of procedures and their frequency are chosen depending on the number of saturate and/or desaturated gases and the degree of their saturation and/or desaturation. Down-regulating the growth, multiplication or division of pathogenic microorganisms is effected by an artificial gas medium, containing a reduced amount of oxygen and an increased amount of argon relative to air, a composition of 10–17 vol % O₂, 30–40 vol % Ar, N₂ – the rest.

EFFECT: use of the invention makes it possible to prevent contamination of pathogens by pathogens, to prevent the spread of them, and to increase the effectiveness of treatment of patients.

3 cl

Description

The method of suppressing microorganisms and low-differentiated (tumor) human cells is carried out by exposure to artificial hypoxic gas environments with a high content of argon.

The method relates to the field of medicine, hygiene and microbiology.

Target requirements for the developed method are:

- an effective inhibitory and inhibitory effect on a wide range of pathogenic and conditionally pathogenic microorganisms;

- an effective inhibitory and inhibitory effect on low-differentiated, uncontrollably dividing human cells;

- the safety of the method for humans;

- the possibility of a long stay and work in the conditions of application of the method;

- simplicity in the implementation of the method.

The method is intended for:

- improving the microbiological condition inside specialized rooms when people are in them, for example, operating rooms during operations, intensive care units, and hermetic habitable objects;

- reducing the risk of infection for people who are in sealed habitable objects for a long time;

- reducing the risk of development and spread of pathogenic and conditionally pathogenic microorganisms;

- control and localization of uncontrolled division of low-differentiated (tumor) cells of the human body.

A known method of suppressing microorganisms (RF patent No. RU 2398877, IPC C12N 13/00, publ. 09/10/2010), based on the irradiation of the object to be treated with electromagnetic radiation. EHF radiation of a frequency range of 20-95 GHz with a power flux density of not more than 10 μW / cm ^{2 is used} . The exposure time of the object is at least 20 minutes. The proposed method may be microorganisms with pathogenic properties in relation to the human body.

The disadvantage of this method is the possible presence of electromagnetic shadow in the treated room or facility, the need for people to be removed during processing, and the inapplicability of the method for processing a person.

A known method of influencing the bacterial microflora of premises (RF patent No. RU 2171118, IPC A61L 9/00, publ. 07/27/2001.) By treating them with an ozone-air mixture with an ozone concentration of 2-5 mg / m ³ . Processing is carried out for 50-70 minutes, followed by decomposition of ozone without airing the premises for 90-110 minutes or by airing for 10-20 minutes. The method allows to reduce the bacterial contamination of air and surfaces in rooms, improve air deodorization and reduce the cost of the disinfection process by eliminating expensive disinfectants, reduce the complexity of the process and ensure the environmental cleanliness of the disinfection process.

The main disadvantages of the method include the impossibility of carrying out the disinfection procedure in the presence of people in the room, since for effective action the ozone concentration should be at least 2-5 mg / m ³ , which exceeds the permissible MAC for a person.

A known method of disinfection of premises by using ultraviolet irradiators (RF patent No. RU 2527678, A61L 9/10 A61L 2/20, publ. 09/10/2014).

The main disadvantages of disinfection of premises using ultraviolet irradiators include the presence of shadow zones, irregularity of exposure.

A known method of disinfecting indoor air (RF patent No. RU 2386451, A61L 9/20, B01J 21/06, publ. 04/20/2010) by passing air through a layer of a photocatalyst based on titanium dioxide, which is exposed to ultraviolet (UV) radiation with energy greater than or equal to the band gap of the photocatalyst, and continuously irrigated with water.

The use of UV radiation does not exclude the possibility of ozone formation, which makes the method unrealizable in the presence of people. Continuous irrigation with water can cause contamination of lamp bulbs and reflectors of the irradiator, deposits of organic and mineral composition, which can significantly reduce the value of the bactericidal flow of lamps.

The listed methods of disinfection of premises have one significant drawback - this is the impossibility of disinfecting the premises and surfaces in the presence of people. In this connection, there is a need to create a method of effective inhibitory and inhibitory effects on microorganisms with a constant presence in the premises of people.

Close in essence to the claimed method of suppressing microorganisms and low-differentiated human cells through the use of artificial hypoxic gas environments with a high argon content is the "Method for regulating the physiological state of a biological object with gas mixtures" (RF patent No. RU 2291718, A61M 16/00, A61M 16/12, A61H 31/02, A61G 10/02, publ. 01.20.2007), selected as a prototype.

The present invention proposes a method of influencing biological objects with artificial gas environments (IHS) (helio-oxygen, xenon-oxygen, nitrogen-oxygen, etc.), allowing to regulate the physiological state of the body.

The method is characterized in that a biological object placed in an environment with at least one gas in it is exposed to a mixture of gases, one of the components of which is oxygen. The impact is carried out during at least one procedure in a cyclic mode with a certain regularity, providing saturation and / or desaturation of at least one component of the gas mixture into the tissue cells of the biological object according to a predetermined algorithm, and the number of procedures and their frequency are selected in depending on the amount of saturable and / or desaturated gases and the degree of their saturation and / or desaturation.

The invention claims that by combining the compositions of the gaseous media, the duration of the single procedures, their total number and frequency of appointment, fluctuations in barometric pressure during their implementation, it is possible to achieve the desired changes in the physiological state of a person, increase their performance, stop the symptoms of exacerbation of a number of diseases (cardiovascular, respiratory, nervous systems and others).

This method also claims the possibility of using argon in the composition of the IHC at different oxygen contents in the IHC.

However, the prototype method of prescribing media with a high argon content does not regulate the effective composition of the IHC for influencing microorganisms, and the oxygen content in the method varies from 12 to 95% vol.

The suppressing, inhibitory, modulating and other effects of argon-containing IHCs at the cellular level in the prototype are not considered and are not claimed, but relate to the physiological state of the biological object as a whole.

The inventive method of suppressing microorganisms and low-differentiated human cells is as follows:

- microorganisms are exposed to a hypoxic normobaric artificial gas environment with a high content of argon;

- the most effective and optimal for human safety, the composition of the artificial gas medium is 10-17% about O ₂ , 30-40% about Ar, the rest N ₂ ;

- the method is implemented by creating and maintaining the declared hypoxic normobaric gas medium in the room (in the object), composition 10-17% vol. O ₂ , 30-40% vol. Ar, the rest N ₂ , the specified time required for disinfection of the room, possibly in combination with other methods, preventing and suppressing the growth and reproduction of microorganisms, including during operations, resuscitation, treatment and preventive procedures for the targeted suppression of microorganisms and low-grade human cells;

- the method provides a safe for humans continuous long-term presence in the gas medium of the claimed composition without significant loss of performance up to 60 days or more.

The invention is based on experimental data. The experiments were carried out in several directions.

The inventive method of inhibitory effects on microorganisms and low-differentiated human cells through the use of artificial hypoxic gas environments with a high argon content is based on the results of our own studies performed by the Association of Developers and Manufacturers of Monitoring Systems, JSC (ASM JSC), St. Petersburg, and analysis of research results of other authors.

As a result of special microbiological studies, we have identified the inhibitory, inhibitory effect of artificial gas media with a high argon content and a low oxygen content on the growth and reproduction of a number of pathogenic and conditionally pathogenic microorganisms, as well as their increased sensitivity to antibacterial agents (ASM JSC, INIR report , “Report on the microbiological assessment of the effect of the composition of artificial gaseous media on the cultural properties of microorganisms”, responsible contractor MD Bezkishky E .N., 2015, UDC 614.48). Studies have shown that the combined growth-inhibiting effect is exerted by IHSs of about 30% vol. Ar, about 14% vol. O ₂ and about 56% vol. N ₂ . on such cultures of microorganisms as K. pneumoniae, P. aeruginosa ATCC 27853, the dynamics of growth properties of which decreased to 7%, S.aureus MRSA - by 9%.

IHS of a composition of about 40% by volume of Ar, about 10% by weight of O ₂ and about 50% by weight of N ₂ reduces the growth of non-fermenting bacteria P.aeruginosa ATCC 27853 by 40%, P.aeruginosa MR-Pa by 6% and A.baumanii MR-Ab by 15%. It was found that argon-containing IHSs with an O ₂ level _of about 14% vol have an inhibitory effect on typical and resistant cultures of S.aureus. Promising is the ability to control the pathogenicity of S.aureus (in the form of a change in hemolytic activity), which decreases in the presence of an IHC of about 14% O ₂ , about 56% about N ₂ and about 30% about Ar.

According to the aggregate inhibitory effect on saprophytic, opportunistic and multi-resistant microflora, taking into account epidemiology, the most effective effect on the growth and cultural properties of microorganisms is exerted by IHS of about 14% -16% about O ₂ , about 30% about Ar and the rest N ₂ .

In connection with the identified microbiological effects of these argon-containing media, it is possible to use them to improve the sanitary condition of various pressurized rooms and facilities and for use in special medical rooms (dressing rooms, operating rooms, treatment rooms, ambulatories, etc.) while making it possible to form the indicated GCI composition of 30-40% about Ar, 14-17% about O ₂ , N ₂ - the rest.

The proven inhibitory, inhibitory effect of argon-containing IHCs on the growth and reproduction of low-grade microorganisms (bacteria) allows us to consider it reasonable to use these media to prevent uncontrolled division of low-grade cells in a macroorganism , in particular in humans.

Dadasheva О.А., Soldatov Р.Е., Sychev V.N., Mednikova E.I., Smirnov I.A., Smolenskaia T.S., Dadasheva M.T. Effect of hypoxic argon-containing gas mixtures on developing organism // Aviakosm. Ekolog. Med. 2008, V. 42 (№4)].Moreover, the effect of such media on highly differentiated cells of a growing macroorganism is directly opposite. In particular, experimental data were obtained on the effect of hypoxic argon-containing hot water on the embryonic development of Japanese quail. The results showed that after a 4-day incubation of eggs in the respiratory mixture (oxygen 13.8-15% vol, nitrogen 86-85% vol), only 16.7 embryos reached the development stage of 3-5 days. The introduction of argon into the hypoxic mixture (55% of the total volume) increased the number of embryos on 3-5 days of development to 60%. In this regard, the authors concluded that the positive effect of argon on highly specialized cells of the embryo [

Dadasheva O.A., Soldatov R.E., Sychev VN, Mednikova EI, Smirnov IA, Smolenskaia TS, Dadasheva MT Effect of hypoxic argon-containing gas mixtures on developing organism // Aviakosm. Ekolog. Med. 2008, V. 42 (No. 4)].

Another study showed a positive effect of respiration with an oxygen-nitrogen-argon mixture (O ₂ = 16% v, N ₂ = 60% v, Ar = 24% v) and exposure to white noise on cochlear hair cells. According to the authors [Matsnev EI, Sigaleva EE, Tikhonova GA, Buravkova LB The heat-protective effect of argon when exposed to noise // Bulletin of Otolaryngology. - 2007. - No. 3. - S. 22-26], argon can exhibit an organ-protective and heat-protective effect for all types of models of snail hair cell lesions known today, associated with hypoxia, oxidative stress, activation of peroxide radicals, and the toxic effect of glutamate. This fact is confirmed by data from another study of the effect of argon on the stability of a rat's organ of Corti under hypoxia, as well as gentamicin and cisplatin. The cultures were exposed to hypoxia in nitrogen (5% vol O ₂ , 95% vol N ₂ ), and in argon (5% vol O ₂ , 95% vol Ar) or normoxia for 30 hours. It has been shown that Ar protects specialized hair cells of the organ of Corti from hypoxic damage by approximately 25% [Yarin YM, Amarjargal N., Fuchs J., Haupt H., Mazurek B., Morozova SV, Gross J. Argon protects hypoxia-, cisplatin- and gentamycin-exposed hair cells in the newborn rat's organ of Corti // The 40th and 41st Inner Ear Biology Workshops. - Granada, Spain, 7-10 September, 2003 and Debrecen, Hungary, 5-7 September, 2004].

Moreover, in the works of ASM JSC [Ivanov A.O., Petrov V.A., Bocharnikov M.S., Bezkishky E.N. Possibilities of a long stay of a person in argon-containing gas environments that reduce the fire hazard of hermetic objects // Human Ecology. - 2017. - No. 1. - S. 4-10], the safety of a long (60 days) continuous stay of an adult in an IHC with a low oxygen content and a high content of argon is proved.

The data obtained allow us to consider it possible to safely use the described method to achieve antimicrobial effects when a person is in a closed object for a long time.

In addition, the preliminary studies performed have shown that the use of such GHIs is acceptable for inhibiting the uncontrolled division of low-differentiated cells that underlie human oncological diseases. The optimal implementation of the method in oncological practice is the patient’s stay in a specialized ward, in which an IHC of the composition is formed: 30-40% about Ar, 11-19% about O ₂ , N ₂ - the rest.

The technical result from the introduction of a method of suppressing microorganisms and low-differentiated human cells through the use of artificial hypoxic gas mixtures with a high content of argon is to prevent infection of patients with pathogenic microorganisms, prevention of their spread, more effective treatment of patients through procedures for the action of IHC on a patient to suppress and inhibit growth and reproduction microorganisms and low-grade human tumor cells .

The inventive method can be implemented in medical institutions for treatment in special treatment rooms filled with IHC, with patients constantly or periodically staying, when carrying out procedures using special equipment for breathing IHC, in order to improve the microbiological state inside specialized rooms, such as operating rooms, sealed isolated inhabited objects, for example, bathyscaphes, submarines, underground special structures, etc., to improve the microbiological state tion within the objects, reducing the risk of development and spread of pathogenic and conditionally pathogenic microorganisms and infection of personnel.

It should be emphasized that in the proposed artificial gas medium with a content of 10-17% about O ₂ , 30-40% about Ar, the rest N ₂ can be found and work without damage to health and without significant loss of performance for a long time from several hours to several tens days.

A technical result is achieved by carrying out procedures in sealed rooms filled with declared IHS, with the required duration and frequency, and, possibly, by inhalation breathing procedures with artificial hypoxic gas mixtures with a high content of argon.

For pressurized inhabited objects, they are filled with the declared IHS completely for the entire time of sealing or for the time required for disinfection in combination with other disinfection methods.

Distinctive features of the prototype of the features of the proposed method are:

- the justified use of hypoxic gas environments with a high argon content for the implementation of the inhibitory, inhibitory and modulating effects on microorganisms and low-differentiated human cells;

- justified effective use of hypoxic artificial gaseous media with a content of 10-17% vol. O ₂ , 30-40% vol. Ar, the rest N ₂ ;

- reasonable safety of the method for humans with long-term continuous stay in the claimed IHC for up to 60 days.

Examples of specific performance of the method:

a) Conducting operations in the operating room using the claimed method:

- in a sealed room operating room create and maintain a hypoxic normobaric gas environment with a composition of 10-17% about O ₂ , 30-40% about Ar, the rest N ₂ ;

- medical personnel and the operated patient enter the operating room and perform the necessary actions, preliminary adaptation is not required;

- the patient’s breathing can also be provided by IHC with a high argon content to provide antihypoxic effects;

- after the operation, the patient can be transferred to the intensive care unit with an air environment with a high content of argon.

The effect of the application of the claimed method consists of:

- in additional air disinfection in the operating room;

- in the additional disinfection of surfaces and equipment in the operating room;

- in preventing infection of open operating surfaces and patient wounds;

- in disinfecting the surface of the patient’s body.

b) Conducting medical procedures.

- the procedures are carried out in an airtight room in which create and maintain a hypoxic normobaric gas environment with a composition of 10-17% vol. O ₂ , 30-40% vol. Ar, the rest N ₂ , or by inhalation of the GHS of the claimed composition;

- the inhibitory, inhibitory, modulating effect of the claimed method on microorganisms and low-differentiated cells of a person in the room occurs continuously and linearly, and the procedures continue until the desired modulating (cytostatic) effects appear;

- to achieve long-term and persistent modulating (antiseptic or cytostatic) effects on pathogenic microorganisms or low-differentiated (tumor) cells of a macroorganism, they perform continuous or cyclic effects of the claimed IHC with exposure exposures from 1.5-2 hours (with cyclic use) to several days ( with continuous use), and the composition of the IHS and the modes of their use are determined by the purpose of the procedures and the achievement of the desired effect.

The effect of the application of the claimed method consists in suppressing the reproduction, growth and division of pathogenic and conditionally pathogenic microorganisms and low-differentiated cells in the patient's body.

c) Application of the method for the sanitary-hygienic provision of sealed habitable objects.

In sealed inhabited objects, for the entire time of sealing or periodically a gaseous medium of the declared composition is created 10-17% vol. O ₂ , 30-40% vol. Ar, the rest N ₂ .

The environment is safe for personnel.

The effect of the application of the claimed method consists in:

- prevention of infection of the air environment, surfaces of equipment, clothing by pathogenic microorganisms or their localization, oppression and suppression;

- prevention of diseases of staff;

- therapeutic effect.

The effectiveness of the proposed method consists in the effect of preventing diseases or treating diseases by localizing and suppressing the multiplication of pathogenic or conditionally pathogenic microorganisms and uncontrolled division of low-grade human cells with relative simplicity and low cost of the necessary equipment.

Claims (3)

1. The method of suppressing pathogenic microorganisms, which consists in exposing the object to a gas-air medium, one of the components of which is oxygen, and this effect is carried out during at least one procedure or in a cyclic mode with a certain regularity that provides saturation and / or desaturation according to at least one component of the gas mixture into the tissue cells of a biological object according to a predetermined algorithm, and the number of procedures and their frequency are selected depending on the number of satures emitted and / or desaturated gases and the degree of their saturation and / or desaturation, characterized in that the growth, reproduction or division of pathogens is suppressed by exposing them to an artificial gas medium containing a reduced amount of oxygen and an increased amount of argon relative to air, composition 10-17 vol.% O ₂ , 30-40 vol.% Ar, the rest is N ₂ . 2. The method according to p. 1, characterized in that the suppression of microorganisms is carried out by creating in a sealed room (operating room, intensive care unit, treatment room, etc.) or a sealed inhabited object normobaric hypoxic gas environment with a composition of 10-17 vol.% O _2, 30-40 vol.% Ar, N _2, and the rest in the inventive gas-carrying medium operations, medical procedures or their professional duties, the medical personnel, patients or staff habitable facility and may be run continuously decree Noah gas environment without compromising the health and performance of up to 60 days or more. 3. The method according to p. 1, characterized in that in order to achieve long-lasting and persistent inhibitory effects on pathogens, continuous or cyclic exposure to normobaric argon-containing hypoxic gas environments of 10-17 vol.% O ₂ , 30-40 vol.% Ar, remainder N _2, the effects of exposure is from 1.5-2 hours (during cyclic application) to several days (continuous application), the composition of the GCI and their modes of application are determined by the purpose and goals of procedures and continuing until the des emogo effect.