UA146073U - METHOD OF DISINFECTION OF PREMISES, AIR, CLOTHES AND EXPOSED PARTS OF THE HUMAN BODY BY SPRAYING DECAMETOXIN SOLUTIONS - Google Patents

Abstract

The method of disinfection of premises, air, clothing and exposed parts of the human body involves spraying disinfectant solutions of Quaternary ammonium salt. As the Quaternary salt of ammonium use decamethoxine dissolved in water for injection from 0.1 to 0.5 mg / ml, for spraying the specified solution is used any suitable spray device for spraying in the form of an aerosol or mist, spraying is carried out indoors. .

Description

The utility model belongs to sanitation and relates to a method for disinfecting premises, air, clothing and exposed parts of the human body by spraying disinfectant solutions. The method is carried out in specially adapted boxes/cabins, tunnels, frames or in rooms subject to anti-infection treatment, using devices for spraying liquids. A solution of decamethoxine is used as a disinfecting agent. The method is aimed at reducing the risk of spreading infectious diseases transmitted by contact and airborne.

The SOMIO19 pandemic, which has recently covered almost the entire world, has demonstrated how dangerous infectious, including viral, diseases are that are spread by air, droplet and contact. As shown, the coronavirus mainly affects people who, for various reasons, find themselves in places with a greater or lesser concentration of people: institutions of various profiles, where a large team of employees works, or institutions that work with clients (banks, hospitals, supermarkets, gas stations, theaters, restaurants, cafes, etc.), educational institutions, city and intercity transport, especially airports.

Communication even in small groups of people, such as small Italian cafes and pizzerias in provincial towns, contributed to the infection (infection) of large numbers of visitors, especially the elderly, often with fatal consequences. As scientists have established, the new coronavirus is transmitted not only through the air, but also as a result of direct contact, even through a handshake.

So, the question arose of how to protect the population from infection and the spread of serious infectious diseases. Of course, it is possible to close all institutions, establishments, and thus prevent viral and bacterial infections from affecting the general population.

However, it is clear that there are services that must work in any case, otherwise society and the world will be engulfed in hass and disorder.

That is, the inventors of this technical solution faced the problem of how to protect people who need to be in contact with many people from infection with infectious diseases.

Analysis of the state of the art in this matter revealed that there are certain technical developments in the specified field.

Zo Yes, document UMO2017132379 (AT) - 2017-08-03 discloses a composition useful for disinfecting surfaces, tools or equipment, which may contain an oxidant precursor, a pH adjusting agent, an acylating agent, a chelating agent and a quaternary ammonium salt. The composition can be dosed in various ways, for example, such as spraying the solution, creating a mist or foam. The disadvantage of this useful model is that the claimed composition belongs to oxidizing disinfectants, suitable for cleaning and sterilizing various surfaces, tools and equipment, but it cannot be applied to humans.

Document CA2866348 (AT) - 2012-09-13 discloses a method and device for the electrochemical generation of quaternary ammonium hypohalite salts, the properties of which can be combined with the capabilities of free chlorine to form a new biocidal system. The aqueous solution, which mainly contains dissolved salts of quaternary ammonium halide, is electrolyzed, which converts the halide component of the quaternary ammonium salt into the corresponding halogen. Halogen dissolves in aqueous solution, forming hypohalose acid and hypohalite anion.

A combination of one or more quaternary ammonium compounds and a halide salt, a surfactant. and/or herbicide can be electrolyzed. The solution can be incorporated into a delivery system, such as a spray bottle or hand sanitizer, or as part of a dosing system whereby quaternary ammonium halide salts absorbed by a tissue can be delivered as quaternary ammonium hypohalite salts. The disadvantage of this technical solution is the complexity of its implementation.

The known method, described in patent application 5ЗВ947699 (А) - 1964-01-29, where products are sterilized and cleaned by immersing the specified products in a germicidal solution in a vessel under pressure, creating cavitation in the specified solution by applying sound or ultrasonic energy, for example at a speed 50 kS/s frequency or less, and subject the products to sterilization by increasing the temperature and pressure on the bactericidal solution.

The bactericidal solution may contain a bactericidal agent, a wetting agent, and water.

These bactericidal agents are sodium hypochlorite, iodoform, quaternary ammonium bactericidal salts, zephyran chloride and sodium thiosulfate. These wetting agents are a mixture of sodium lauryl sulfate and sodium hexametaphosphate; sodium orthosilicate and trisodium phosphate; sodium metasilicate, sodium bicarbonate, tetrasodium phosphate and sodium lauryl sulfate and sodium lauryl sulfate and ammonium hydroxide. The invention also relates to a device for cleaning and sterilizing products, comprising a pressure vessel with means for supplying and removing fluid from the vessel through a port and valve with a plurality of ultrasonic transducers attached to the transducer, etc. The device may have a device for spraying water to rinse the product, which is a medical and dental instrument. Disadvantages of this method are the complexity of its implementation and the complex formulation of the bactericidal mixture. In addition, this method cannot be applied to a person.

Document CM101032498 (А) - 2007-09-12 discloses a certain type of physical antibacterial mesh liquid and the method of its production. Physical antibacterial mesh liquid consists of quaternary ammonium organosilicon salt and water in a weight ratio of 0.5-10 to 90-99.5, and quaternary ammonium organosilicon salt is synthesized from tertiary amine and chloroalkyl siloxane. The production process includes steps: feeding chloroalkyl siloxane and catalyst into the reaction kettle, heating, addition of tertiary amine, detection of tertiary amine content, decompression distillation, recovery of excess tertiary amine and chloroalkyl siloxane, separation of reaction product and catalyst to obtain quaternary ammonium organosilicon salt, and addition of water to form a physical antibacterial pure liquid.

The physical antibacterial mesh liquid is sprayed on the surface of the human body or product to form an invisible antibacterial separation mesh film to kill and suppress pathogenic microbes. Despite the fact that the antibacterial liquid is intended for disinfection of the surface of the human body, the method of its preparation is quite complicated.

Patent application СМ1623394 (А) - 2005-06-08 discloses a multifunctional disinfectant with a wide spectrum of action, containing several elements for interaction and a synergist, it is obtained proportionally from an antimicrobial agent, a compound of quaternary ammonium salt, a compound of chlorophenol and alcohol. It can be used to make disinfectant soap, cosmetics, wet wipes, liquid, spray, etc. The disadvantage of the specified technical solution is a rather complex formulation of the product.

The closest prior art document is patent application Ш52003165403 (А1) - 2003-09-04, which describes a system in which a surface that is likely to be exposed to or is in immediate danger of exposure to a biological warfare agent is treated with an effective amount of a quaternary ammonium compound to inactivate the biological warfare agent. agent Quaternary compounds

Ammonium is preferably selected from the group consisting of alkylpyridinium salts, tetraalkylammonium salts and alkylallycyclic ammonium salts. Said compounds are preferably present in solution in weight percents that are substantially in the range of about 0.5 95 to about 5.0 95, and more preferably present in solution in weight percents of about 1 95. The composition may be applied as a mist or spray. . Air or other gases exposed or likely to be exposed to the biological warfare agent may also be treated by passing the air or gas through a filter impregnated with an effective amount of a quaternary ammonium compound to inactivate the biological warfare agent. The disadvantage of this solution is that this solution cannot be applied to open surfaces of the human body.

So, there is a problem of creating a simple, reliable way of disinfecting premises, air, clothes and exposed parts of the human body by spraying relatively simple microbicidal solutions.

The useful model is based on the task of solving the problem of disinfection of premises, air, clothing and the surface of the human body, reducing the risk of spreading infectious diseases, in which case the use of decamethoxine solution is possible.

The task is solved by the fact that the method of disinfection of premises, air, clothes and exposed parts of the human body includes spraying disinfectant solutions of quaternary ammonium salt. As a quaternary ammonium salt, decamethoxine dissolved in water for injections from 0.1 to 0.5 mg/ml is used, any suitable spraying device for spraying in the form of an aerosol or fog is used to spray the specified solution, spraying is carried out in a closed room .

The method differs in that a suitable spraying device is an air humidifier, in particular, an ultrasonic air humidifier, a garden manual, rechargeable, gasoline or other type of sprayer.

The method differs in that the spraying of disinfectant solutions is carried out in disinfection tunnels, disinfection corridors and preliminary disinfection corridors, cabins/boxes/frames for disinfection or premises to be disinfected.

Decametoxin is a known antibacterial and antiviral agent (compound)

Ukrainian pulmonology journal. 2019. - Mo 2. - b. 25-32, ROI: 10.31215/2306-4927-2019- 104-2-25-32|. In this technical solution, the disinfection solution contains decamethoxine from 0.160 to 0.5 mg/ml, diluted in water for injections.

For spraying the decamethoxine solution, use any suitable spraying device for spraying in the form of an aerosol or mist. The following examples of spraying devices that can be used to implement the claimed technical solution do not limit the scope of patent claims, but only confirm the possibility of realizing the claimed utility model.

The humidifier device can be an ultrasonic air humidifier from the UeigAig company,

RPyiro Zaghie 8. sigap MaposSiotsa, Sogepiye or any other. In addition, it is possible to create fog or carry out spraying in the form of an aerosol using garden manual (for example, Rogieh ОР-2 TSШХ, Sagdepa, etc.), battery-powered (for example, Magoyeh EX, 2igkKa OA-616С, etc.), gasoline (for example, Rope ZMUB- 3, etc.) and other types of sprayers.

In the case when it is necessary to spray an antiseptic solution on the exposed surfaces of the human body and/or on his clothes, in accordance with this technical solution, disinfecting tunnels (for example, tunnels of the EOKOMAS company), complex disinfection corridors and corridors of preliminary disinfection, cabins and frames for disinfection are used different manufacturers.

An aqueous solution of decamethoxine 0.1 to 0.5 mg/ml is used for disinfection of premises at the rate of 0.05-0.1 liters of such a solution per 1 m.

An aqueous solution of decamethoxine in a concentration of 0.1 to 0.5 mg/ml is used for disinfection of open surfaces of the human body and clothing, at the rate of 0.01-0.1 liters of such a solution per person per treatment cycle in the cabin/box/ frames

A study was conducted to confirm the achievement of the technical result during the implementation of the declared technical solution. In particular, the total number of microorganisms in 1 m3 of air was determined. Sampling was carried out on nutrient agar type MPA, SPA, GRM-agar. The crops were incubated at a temperature of 37 "C for (48:22) hours, the number of colonies that grew was counted, and the calculation was carried out per 1 m3 of air. The study of the air in the room before the application of the disinfectant solution with decamethoxine demonstrated the presence of an average of 10-12 colonies of microorganisms on a Petri dish After treating the room with a solution of decamethoxine, the absence of growth of pathogenic and conditionally pathogenic bacteria was recorded.

Hands were washed 15, 30, 60, and 120 seconds after hand treatment with decamethoxine solution using sterile gauze napkins measuring 5x5 cm, soaked in

From the neutralizer. The palms, around the nails and between the fingers of both hands were thoroughly wiped with a gauze napkin. The clothing surfaces were also washed 15, 30, 60 and 120 seconds after treatment with a decamethoxin solution in a disinfection box by spraying 5-20 ml of the solution. After sampling, the gauze napkin was placed in a wide-necked test tube or flask with physiological solution and glass beads, shaken for 10 minutes. The liquid was inoculated in depth on 2 Petri dishes with meat peptone agar (0.5 ml each) and in 2 test tubes with 0.5 95 sugar broth (1 ml each). The crops were incubated at a temperature of 37 "C for 48 hours.

The lack of growth of pathogenic and conditionally pathogenic bacteria was recorded.

The advantages of the proposed technical solution are the ease of preparation of a disinfectant solution based on decamethoxine, the ability to use any known devices for aerosol spraying and fog generation for spraying. The proposed concentration of decamethoxine solution has a bactericidal and virulicidal effect, but is not toxic to humans when exposed to open body surfaces, as well as eyes and respiratory organs.

Claims (3)

USEFUL MODEL FORMULA 1. The method of disinfection of premises, air, clothes and open parts of the human body, which includes spraying disinfection solutions of quaternary ammonium salt, which differs in that as a quaternary ammonium salt, decamethoxine dissolved in water for injections from 0.1 to 0 is used, 5 mg/ml, any suitable spraying device for spraying in the form of an aerosol or fog is used to spray the specified solution, spraying is carried out in a closed room. 2. The method according to claim 1, which is characterized by the fact that the suitable spraying device is an air humidifier, in particular an ultrasonic air humidifier, garden manual, rechargeable, gasoline or other type of sprayers. 3. The method according to claim 1, which differs in that the spraying of disinfection solutions is carried out in disinfection tunnels, disinfection corridors and preliminary disinfection corridors, cabins/boxes/frames for disinfection or rooms to be disinfected.