RU2697405C1 - Method for preventive disinfection in livestock premises in the presence of animals - Google Patents

Abstract

FIELD: veterinary science.

SUBSTANCE: invention refers to veterinary science and livestock sector, namely to disinfectology and sanitation, and is intended for disinfection of cattle-breeding premises in the presence of animals. Method for preventive disinfection in livestock premises in the presence of animals involves treatment of livestock premises with a disinfectant solution containing an arbicide preparation (containing didecydimethylammonium chloride, alkyldimethylbenzylammonium chloride and glutaric aldehyde) and glycerin (to create a fog effect and to control disinfection). Said disinfectant is mixed with water at temperature of 18–25 °C and sprayed through fog generator in amount of 1.3 ml of working solution per 1 m³ cattle-breeding premises with 30 minutes exposure.

EFFECT: use of the invention provides visual control of disinfection, a long sanitation effect of the room, and also enables disinfection in the presence of animals, which enables to prevent the onset of infectious diseases.

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Description

The invention relates to the field of disinfection of livestock buildings and can be used in the field of veterinary medicine and livestock.

Currently, in many livestock buildings it is not possible to implement the principle of "empty-busy" for the prevention of diseases caused by opportunistic microorganisms. In addition, a high concentration of animals per unit area of the room leads to an increase in humidity, temperature and gas contamination, which creates optimal conditions for the development of microorganisms that circulate with dust particles, settle on walls, windows, care items, accumulate in the litter and move from sick animals to healthy ones causing the development of diseases. For the prevention of diseases caused by opportunistic and pathogenic microorganisms, it is necessary to disinfect the surfaces and air of the livestock building. Most livestock enterprises do not have the ability to transfer animals for the duration of disinfection to another, prepared room, therefore, it is necessary to develop a method of disinfection carried out in the presence of animals and not affecting their physiological status.

For disinfection of livestock buildings, chemical disinfection methods are most suitable, based on the use of disinfecting chemicals (acetaldehyde (aldehyde of ethanol and acetic acid, ethanal), quaternary ammonium compounds (didecyldimethylammonium chloride, alkyldimethylbenzylammonium chloride, glutaric acid, phendealdex, aldehyde, aldehyde, aldehyde, aldehyde, aldehyde, aldehyde, aldehyde, aldehyde, aldehyde, aldehyde, aldehyde, alkoxide solutions, etc.). However, their main drawback is that these compounds are used only in the absence of animals, since the recommended concentrations and modes of use adversely affect the physiological status of animals. Also, the use of aqueous solutions of disinfectants in the room in the form of hot fog does not allow visual control of the spraying of the product, which does not guarantee the quality of disinfection. Therefore, it is so important to develop a safe method for disinfection of livestock buildings in the presence of animals with visual control of the spraying of the disinfectant solution.

A known method of wet disinfection of livestock buildings with a disinfectant containing acetaldehyde production waste with the addition of soap liquor in a ratio of 1: 1 and diluted with water 1: 2 or 1: 3, at the rate of 500-600 ml per 1 m2 ^of area and exposure for 2-3 hours at especially dangerous infections - brucellosis and tuberculosis (RF patent No. 2212900, A61L 0/00).

There is a method of aerosol disinfection of indoor air in the presence of poultry in order to prevent infectious diseases with a 0.2-0.5 aqueous solution of a bactericide with a 20-30% formalin solution on hens of egg stocks of an industrial herd using a SAG-1 generator at the rate of 35 -40 ml per 1 m ^{3 of the} room. For wet prophylactic disinfection of livestock buildings and poultry houses, a bactericide of 0.1-0.2 concentration was used from the installation of the DUK preparation at the rate of 0.3-0.5 l of solution per 1 m2 ^of area (RF patent No. 2130321, A61L 2/18, A61L 2/22).

A known method of thermochemical disinfection of livestock buildings during the elimination of African swine fever, including preliminary mechanical cleaning of the premises and their sealing, the supply of a disinfectant solution using a mobile gas turbine Aist-2M by spraying a disinfectant, maintaining exposure to disinfection, characterized in that the cellophane film is sealed of the entire disinfected enclosure, then using the Aist-2M mobile gas turbine unit, the enclosure is heated internally to a temperature at least 75 ° C and fed to the disinfectant solution of 37% formaldehyde solution having a temperature of at least 70 ° C for 10-15 minutes at a rate of 10-15 ml / m ³ is maintained during the disinfection exposure at three hours (the patent RF No. 2570739, A61L 2/16).

A known method of controlling the quality of disinfection of the air of livestock buildings, including the use of a microorganism trap using a 0.25% solution of virocide at a flow rate of 0.25 l / m ² and exposure for 20 minutes in the presence of animals [4].

The disadvantage of these methods is that it is possible to carry out disinfection in the presence of birds and animals with a higher concentration of the working solution, it is impossible to visually control and evenly distribute the disinfectant solution in the room and to ensure high efficiency of preventive measures.

The aim of the present invention is to increase the efficiency and safety of animal measures for the disinfection of livestock facilities and expanding the range of products for its implementation.

This goal is achieved by the use of disinfection in the form of hot fog, which contain quaternary ammonium compounds (didecyldimethylammonium chloride, alkyldimethylbenzylammonium chloride), glutaraldehyde as an active substance, and glycerin as a fogging agent, which helps to better control the spread of aerosol in the air basin of the room, and helps disinfection, which leads to better disinfection.

One of the economically justified methods of disinfection in animal husbandry is the planned use of aerosols of various compositions, which allows optimizing the work of veterinarians and avoiding the time-consuming processes of preparing the premises for receiving a new batch of animals, vaccinations of a large number of animals. The essence of disinfection lies in the fact that aqueous solutions of chemicals using a generator spraying to a foggy state — aerosol [2].

When using a hot fog generator, the size of aerosol droplets is 0.5-50 microns, which allows the drug to penetrate into small holes, crevices, and also provides for the disinfection of indoor air due to the presence of a disinfectant in the air in the form of fog.

The operating principle of the hot fog generator is based on thermomechanical fogging - the formation of the smallest droplets of 1-50 microns in size due to the thermal energy of air and Glycerin.

The liquid evaporates through the tube (resonator) of the fog generator, which heats it at least 70 ° С, at the outlet the vapors are mixed with cold ambient air and condense, forming an ultra-thin aerosol, which when sprayed creates a cloud of thick fog, which was facilitated by the addition of purified glycerin to the working solution. This is done in order to visually control the providence of disinfection in the room [1].

A method for disinfecting livestock buildings in the presence of animals is to use a solution containing an arbicide (containing quaternary ammonium compounds (didecyldimethylammonium chloride and alkyldimethylbenzylammonium chloride) and glutaraldehyde) as a disinfectant, and glycyrin (to create a fog effect and control disinfection). For room treatment, the disinfectant is mixed with water at a temperature of 18-25 ° C in accordance with the examples and sprayed through a fog generator.

The invention provides visual control of disinfection, the long-term effect of sanitation of the premises, and also allows disinfection in the presence of animals, which makes it possible to prevent infectious diseases. Thanks to the glycerin included in the disinfection composition, a stable fog is formed when the working solution is sprayed, which allows controlling the distribution of the disinfectant inside the room.

Arbicide is a disinfectant for veterinary surveillance and the prevention of infectious animal diseases, containing 24.8% of quaternary ammonium compounds (didecyldimethylammonium chloride - 7.8%, alkyldimethylbenzylammonium chloride - 17.0%) and 10.7% glutaraldehyde as active substances as well as functional additives. Registered in the Russian Federation.

Glycerin - has a high hygroscopicity (i.e. it is capable of absorbing and retaining moisture) due to which it is widely used in the food industry as an emulsifier, thickener, stabilizer, and is used as a working fluid in smoke generators and electronic cigarettes.

Thus, all the basic components for the manufacture of insecticidal compositions are available.

The invention is carried out by the following examples.

Example 1. Preparation of a disinfectant solution.

The required amount of arbicide is measured, it is poured into a container for preparing a working solution, the necessary amount of water and glycerin are added. The prepared solution is sprayed through a fog generator at the rate of 1.3 ml of working solution per 1 m ^{3 of the} livestock building with an exposure of 30 minutes. The components and their ratios are presented in table 1.

Example 2. Evaluation of the effectiveness of a disinfectant in a production environment.

In the conditions of livestock buildings for disinfection, a working solution was tested in the room where young cattle of 6-10 months of age (calf) were located. 20 ml of arbicide, 9,880 ml of water and 100 ml of glycerin were added to the container for the hot fog generator (Svinfog SN 81) and sprayed at the rate of 1.3 ml per 1 m ^{3 of} the livestock building in the presence of animals, after covering the feeders and drinking bowls for animals plastic wraps. The content of the active substance in the working solution was: 0.20% (Arbicide). After spraying the entire working solution, the exposure must be maintained for at least 30 minutes. Before disinfection and after 24 hours, the number of microorganisms in the air of livestock buildings was counted by conducting microbiological studies on media: peptone agar meat (for KMAFAnM counting), salt agar (for staphylococcus identification), enterococcus agar (for streptococcus identification), and Endo medium ( for Escherichia coli), Saburro medium (for fungi), swabs on the quality of disinfection were studied on KODA medium (for detection of BGKP) [3]. Flushing carried out after disinfection from surfaces (floors, walls, equipment) showed a lack of growth of sanitary-indicative microorganisms. The effectiveness of disinfection against various groups of microorganisms is shown in table 2.

Thus, the disinfection efficiency of the proposed method using arbicide and glycerin in the first day amounted to 69.66%. The restoration of the number of microorganisms in the air occurred on 8-9 days after disinfection.

Example 3. Safety assessment of the use of a disinfectant in a production environment.

In the conditions of the livestock building, where the calves of 6-10 months of age were kept, they disinfected the solution with a flow rate of 1.3 ml m ^{3 of} area with an exposure of 30 minutes. Before and after disinfection, blood tests of animals that were indoors during disinfection were performed. Blood was taken from the caudal vein and clinical and biochemical parameters were examined. A clinical blood test was performed on a semi-automatic analyzer "Medonic Ca 620", when calculating the erythrocyte sedimentation rate, the Panchenkov technique was used, the leukoformula was counted manually. A biochemical blood test was performed on a Clima MC 15 semi-automatic analyzer.

The disinfection safety for cattle is presented in table 2.

Thus, the disinfection in the presence of animals by the proposed tool does not affect the homeostatic parameters of the animal organism, which after disinfection remain in physiological boundaries.

The above examples demonstrate that the claimed method of disinfection in livestock buildings in the presence of animals expands the arsenal of means for disinfection of objects of veterinary and sanitary supervision in the presence of animals, allows you to visually monitor the disinfection, comparable in effectiveness with existing methods. Thus, the task is solved.

Sources of information taken into account:

1. Arkhiptsev A.V., Geletiy D.G. Methodology for the selection of equipment for disinfection in animal husbandry // Agricultural technology and energy supply. - 2016. - No. 3. - S. 25-33.

2. RABOS International Company: [Site] URL: http: //www.rabos.ru/upload/iblok/a64/06_Osobennosti_aerozolnoy_obrabotki.pdf

3. Rules for the disinfection and disinfestation of objects of state veterinary supervision (approved by the Ministry of Agriculture of the Russian Federation on July 15, 2002 N 13-5-2 / 0525)

4. Sytnik D.A. Sanitary and bacteriological studies of the air environment of livestock buildings and quality control of decontamination: Diss. ... cand. vet. Sciences: 06.02.02 / Sytnik Denis Aleksandrovich. - Stavropol., 2016 .-- 118 p.

Claims (1)

A method for prophylactic disinfection in livestock buildings in the presence of animals, comprising treating the livestock buildings with a disinfectant, characterized in that a solution containing an arbicide preparation (containing quaternary ammonium compounds (didecyldimethylammonium chloride, alkyldimethylbenzylammonium chloride and glutaric aldehyde) is used as a disinfectant create a fog effect and control disinfection), which is mixed with water at a temperature of 18-25 ° C and sprayed through the gene fog mist at the rate of 1.3 ml of working solution per 1 m ^{3 of a} livestock building with an exposure of 30 minutes.