SU1692585A1 - Disinfectant agent - Google Patents

Abstract

The invention relates to veterinary medicine, in particular to means of disinfecting objects, veterinary supervision from pathogenic microbes. The aim of the invention is to increase bactericidal and sporicidal activity, as well as reduce toxicity. The disinfectant contains, wt%: formaldehyde 22.0-25.0; caustic potash 3,6-4,4; methyl alcohol 15.0- 17.0; trimethylcarbinol 2.6-3.0; neonol 2.0-3.0 and the rest is water. The drug in 4% concentration completely disinfects the construction test objects infected with vegetative forms of microorganisms; 6 and 8% concentrations - inactivates Mycobacterium tuberculosis, and also has a sporicidal effect in 10 and 12% concentrations. In the study of acute oral toxicity in white mice, it has been established that the median lethal dose (LDB) of the disinfectant is 2100 mg / kg. It has an insignificant corrosive property in comparison with the prototype. In relation to metal structures. (L

Description

This invention relates to veterinary medicine, in particular, to means of disinfecting veterinary surveillance objects from pathogenic microbes.

The aim of the invention is to increase bactericidal and sporicidal activity, as well as reduce toxicity.

Example 1. The bactericidal activity of the composition is emitted at different cross ratios of the components. E. coli and Staphylococcus aureus are taken as test microbes.

The results of the bactericidal activity of the compositions are presented in table.1.

Studies on the bactericidal activity of the components in relation to gram-negative and gram-positive microorganisms show the most optimal variant according to formulation III, in which the bactericidal activity is manifested in 0.031-0.062% concentrations.

Data from control studies show that the optimal composition without neonol has a bactericidal effect at 0.125-0.25% concentration, i.e. four times the bactericidal activity is lower compared to the formulation containing neonol. This is due to the absence in the formulation of a surfactant, neonol, which itself does not possess a bactericidal property. However, adding it to the formulation increases the bactericidal nature of the components, which is probably due to the fact that neonol contributes to the loosening of the cell wall, resulting in

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there is a more intense penetration of the drug into the bacterial cell.

From the data of table 1 it is seen that the bactericidal activity of the III formulation (optimal) is higher compared to the prototype.

In further experiments, studies were carried out to study the disinfecting properties of the optimal composition of the composition - recipe III - with the content of components, wt.%:

Formaldehyde 25,0

Caustic Pot4,4

Methyl alcohol 15,0

Trimethylcarbinol2,6

Neonol2,5

WaterEverything

Example 2. The study of the disinfecting properties according to the proposed formulation in optimal concentrations of the composition with a neonol content of 2.5 wt.% Is carried out on test objects (board, red brick and silicate brick, metal tile, rubber, tile) with protein protection, The following strains of microorganisms: E. colJ-7904, St.aureus P-209, from acid-resistant microbes - M..lntracelluloze M.avlum and M.Sovls-8, from sporogenous microorganisms - spores of culture of the 2nd Tsenkovsky vaccine and B.cereus,

The disinfectant activity of the disinfectant is shown in Table 2.

Sterile cattle manure at the rate of 0.3 g per 100 cm2 is used as protein protection. Disinfection is carried out by irrigation at the rate of 1 liter of the preparation solution per 1 m2 at an indoor air temperature within 17-2 ° C.

After the disinfection regime has expired, samples are taken from the surfaces of the test objects by washing and centrifuging for 3 min in physiological saline for 20 minutes. After centrifugation, it is sown on appropriate nutrient media.

From the data of Table 2 it can be seen that 4% concentration disinfects test objects infected with strains E.coll-7904 and St.aureus P-209 for 2 hours. 6 and 8% concentrations of the composition have a detrimental effect on Mycobacterium tuberculosis after 2–3 hours. Disinfection of test objects infected with spores of the 2nd Tsenkovsky vaccine is achieved with 2-fold application of a 10% solution of the drug with an interval of 1 hour with an exposure of 3 hours after the last application. With this

the same mode of application of the drug solution to test objects infected with B.cereus spores, the disinfectant effect is 12% solution of the drug through

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Example 3 The acute oral toxicity is studied separately from the waste of isopren production with the addition of 2.5% neonol, the waste of isoprene production without neonol, and also neonol according to TU 38.103625-87 in white mice. The following parameters of acute oral toxicity are determined: maximum tolerated dose (MTD),

srednesmeterialny (Ldbo) and absolutely deadly (Ldju).

The results of acute and oral toxicity are presented in table 3.

According to the data of Table 3, it was experimentally established that the addition of 2.5% neonol to the waste of isoprene production in comparison with the similar waste without neonol reduces the toxicity of the disinfectant according to the MTD by 50%, in a dose of 48.6%

and ldou 61.5%. Neonol is not toxic for warm-blooded animals.

Example 4. The corrosion properties of the proposed disinfectant are determined according to a conventional method in comparison with the prototype. For testing, a disinfectant of 8% concentration and a 3% alkaline solution of formaldehyde are taken. The weight loss of plates made of steel-20, aluminum brand AMCM and galvanized steel during exposure for 96 hours in an 8% solution of the disinfectant under test was determined from 0.17 to 0.07%, while no weight loss was observed for the plates of aluminum. Whereas in an alkaline solution of formaldehyde of 3% concentration, it is 0.2% for steel –20, aluminum AMCM– 60 is 75%, and galvanized steel is 1.6%. The results of the corrosion test indicate that the proposed

The disinfectant is completely insignificant for steel, and this property is not noted for aluminum.

Claims (1)

Invention Formula The disinfectant, including formaldehyde, caustic potassium and water, is required in order to increase bactericidal and sporicidal activity, as well as reduce toxicity, it additionally contains methyl alcohol, trimethylcarbinol and neonol in the following ratio of components, wt. %: Formaldehyde22.0-25.0 Caustic Potash3,6-4,4 Methyl alcohol 15,0-17,0 Trimethylcarbinol2,6-3,0 Neonol Water 2.0-3.0 Else Note. + growth - no growth of microorganisms} + presence of single colonies. Table 1 Note. growth of initial culture; - lack of growth of the original culture; + growth of single colonies of the original culture; x 2-fold application of the drug solution .. Table 3 I II Waste production of isoprene with 2.5% neonol, wt.%: Formaldehyde 25,0 Methyl alcohol 15,0 Caustic Pot4,4 Trimethylnarbinol2, 6 Neonol2,5 WaterEverything Waste isoprene production without neonol, wt.%: Formaldehyde 25.0 Methyl alcohol 15.0 Caustic Potash 4.4 Trimethylnarbinol2, 6 WaterEverything Neonol according to technical specifications 38.103625-67 table 2 1600 2100 2600 80010201600 Not toxic