SU1659055A1 - Method for inactivating microorganisms on the surface of instruments and equipment - Google Patents

Abstract

The invention relates to the field of microbiology, medicine, veterinary sanitation and other industries where it is possible to operate devices and equipment under conditions of microbial contamination and there is a need for them. decontamination treatment, especially the surfaces of the working units. The aim of the invention is to increase the Efficiency of the method. The method consists in treating contaminated surfaces with hydrogen peroxide solution, which is obtained by separating it into a solution with a solid carrier — barium fluoride peroxyhydrate. The precipitated H202 is filtered off from the precipitate — barium fluoride. Completeness of decontamination during treatment for 1.5-2 hours by the solution H202 thus obtained is 99.9999% 3 tab. (Ls

Description

The invention relates to the field of microbiology, medicine, veterinary sanitation and other industries, where it is possible to operate devices and equipment under microbial contamination conditions and there is a need for their decontamination treatment, especially the surfaces of the working units.

The aim of the invention is to increase the efficiency of the method.

The method is as follows.

The treatment is carried out with a solution of hydrogen peroxide, which is obtained by separating it into a solution with a solid carrier, in particular, barium peroxohydrate.

Barium fluoride peroxohydrate (BaP2X x2H202) is a white, crystalline powder, mol%. 243.37, containing 27.94% hydrogen peroxide. When interacting with water for 15 minutes, it releases into the solution practically all hydrogen peroxide, while barium fluoride remains as a precipitate, which is suitable for subsequent repeated use as a solid carrier of hydrogen peroxide.

To obtain barium fluoride peroxohydrate, 60-70% hydrogen peroxide solution is added to solid barium fluoride (BaF2). The solution with the precipitate is stirred for 8 hours at a temperature of 22 ± 2 ° С Excess peroxide

o ate u o ate

SP

hydrogen and water are removed by incubation in vacuum at the above temperature until dry solids are formed. Barium fluoride peroxohydrate is stable when stored in the absence of moisture for a long time (see tab.1).

. To determine the sporicidal activity of barium fluoride peroxohydrate, the second order decontamination kinetics constant is determined in a known manner for both the compound as a whole and the soluble fraction.

In the first case, to do this, to a 20 ml suspension of spores of Bacillus anthracoides strain 250, containing 6-7 10 spores / ml, was added a weighed portion of 1 g of barium peroxohydrate. According to the results of statistical processing of a series of experiments to verify the sporicidal activity of barium peroxohydrate, the following data were obtained: the kinetic constant of decontamination K1 0.1556.

The quantitative values of the sporicidal activity of the second order decontamination kinetics constant for hydrogen peroxide, barium fluoride peroxohydrate, and potassium fluoride peroxohydrate are given below.

Decontaminating Kinetics Constants

ki decontamination. second order for (K) 0.080

0.1449 0.1556

These data indicate the sporicidal activity of barium fluoride peroxohydrate, significantly exceeding the sporicidal activity of hydrogen peroxide and practically equal to the sporicidal activity of potassium fluoride peroxohydrate. Therefore, barium fluoride peroxohydrate can be recommended for use for decontamination purposes.

The sporicidal activity of the soluble fraction is determined as follows.

A portion of peroxohydrate barium fluoride (10.435 g) is stirred for 10-15 minutes with 30 ml of distilled water at room temperature. After stirring, the mixture is filtered. The content of hydrogen peroxide in the filtrate, determined by the iodometric method, is equal to 8.22%. The clear filtrate is added to a suspension of spores of B.anthracoides strain 250. (titer 6-7 107 spores / ml) in a 1: 1 ratio.

At the end of a series of experiments, the second order decontamination kinetics constant is calculated for the soluble fraction of barium fluoride peroxohydrate. K filtrate 0,1022 ± 0,0149.

Decontamination of metal surfaces contaminated with a spore suspension of B. anthracoides strain 250 is carried out with barium fluoride peroxide solutions.

0 immersion, irrigation or wipe.

Contaminated surfaces are immersed in a barium fluoride peroxohydrate solution or irrigated with barium fluoride peroxohydrate solutions of various concentrations using a sprayer. Part of contaminated surfaces is wiped with a swab moistened with a barium fluoride peroxohydrate solution. After certain exposures, extract by

0 three parallel surfaces, neutralize the remnants of the active substance, place in sterile Petri dishes, pour MPA, incubate at 37 ° C. The results take into account after 1 and 7 days

5 (table 2).

Table 3 presents data on the corrosivity of solutions of barium fluoride peroxohydrate, hydrogen peroxide and potassium fluoride peroxohydrate with respect to representatives of the three main types of structural materials.

The data in Table 2 testify to the reliability of the decontamination of surfaces contaminated with the spore form of microorganisms, with hydrogen peroxide solutions separated into water by a solid carrier — barium peroxohydrate.

Depth corrosion rates of basic metal alloys when immersed in solutions of decontaminating substances (exposure 24 h) are given in Table. 3

The results presented in Table 3 show that representatives of the three main types of metal alloys are resistant to the action of hydrogen peroxide, isolated in solution by a solid carrier-peroxohydrate of barium fluoride.

0 Example. 10.435 g of barium peroxohydrate are stirred at room temperature with 30 ml of distilled water for 15 minutes. After stirring, an aqueous solution containing

five . filtered from the precipitate of barium fluoride. The content of hydrogen peroxide, determined by the iodometric method, is equal to 8.22%. Test - the surfaces to be decontaminated, wipe with a swab moistened with a solution obtained

hydrogen peroxide. After incubation for 1.5 hours, the residual hydrogen peroxide is neutralized by wiping the surface with a swab moistened in 10% sodium thiosulfate solution and placed in sterile Petri dishes with MPa. Incubation is carried out at a temperature of 37 ° C for 1-7 days. Completeness of decontamination is 99.999999%.

Claims (1)

The invention of the method of inactivation of microorganisms on the surface of devices and equipment. 0 including the preliminary dissolution of metal fluoride peroxohydrate in water, followed by treatment with the resulting solution containing hydrogen peroxide, these surfaces, characterized in that, to increase the efficiency of the method, barium fluoride peroxyhydrate is used as the metal fluoride peroxohydrate, after dissolving it in water solution containing hydrogen peroxide is filtered from the precipitate - barium fluoride. Barium peroxohydrate stability table 2 Decontamination of surfaces contaminated with spore suspension of B. anthraciodes with barium fluoride peroxohydrate filtrate. % Note. + - presence of microbial growth no growth of microorganisms. Table 1 Table 3