RU2359656C1 - Preparation for dry disinfection and hand cleaning - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of disinfection, in particular to means for dry disinfection, cleaning, and in case of necessity decontamination of hand skin. Preparation for dry disinfection and hand cleaning from contaminations includes copolymer of vinyl alcohol with vinyl acetate, polydiallyldimethylammonium chloride and water, with definite quantitative ratio.

EFFECT: ensuring possibility to clean hands from oil contaminations, carry out hygienic and surgical disinfection and decontamination of hand skin by preparation which can be prepared in field conditions, it preserves its properties after impact of repeated temperature drop and freezing, and has unlimited storage term.

4 cl, 4 tbl

Description

The invention relates to personal hygiene, and more specifically to a means for dry disinfection, cleaning and, if necessary, decontamination of human skin, mainly the skin of the hands.

The invention is known "Paste for dry cleaning hands from contamination" (Russian patent No. 2033148, CL A61K 7/40, publ. 04/20/1995). The paste includes polyvinyl alcohol, glycerin, dicarboxybetaine, sodium chloride, benzoic or salicylic acid and water.

The paste according to this patent allows you to clean your hands from household, oily and radioactive contaminants, and for the cleaning of hands does not require any auxiliary means.

The paste allows you to deactivate the hands to the background activity values, with an initial contamination of up to 930 β-particles / cm ² · min. The paste retains its properties for one year from the date of manufacture.

The disadvantages of this paste are short shelf life and instability, i.e. gel formation in the temperature range below + 10 ° C, which makes it impossible to use it below this temperature. Once frozen or exposed to low positive temperatures for 1-3 weeks, this paste does not restore its properties when it is heated to 20 ° C, which also prevents its use in the field. In addition, the paste has insufficient disinfecting ability, which does not allow its use for preventive and surgical hand antiseptics.

The invention is known, "Means for dry cleaning hands from contamination" (Russian patent No. 2308304, class A61Q 9/10, AK61/8/34, publ. 10/20/2007). The tool includes 8-13 wt.% Polyvinyl alcohol, 2-4 wt.% Glycerol, 0.06-0.12 wt.% Citric acid, 0.3-0.5 wt.% Water-soluble cellulose ethers, 0.6- 1.2 wt.% Natural polysaccharides and water (the rest). This product due to the stabilizing effect of water-soluble cellulose ethers has a shelf life of up to 3 years; It can quickly and effectively clean hands of various kinds of pollution. The product also has a high decontamination ability and allows you to clean your hands to the background values of residual contamination, while the decontamination coefficient reaches 165, but the authors do not indicate at what initial contamination with radionuclides these results were obtained.

The tool slightly disinfects the hands and can itself be a source of infection, because it contains natural polysaccharides, which are a breeding ground for bacteria, but it does not contain antiseptics. In addition, this tool, although it is able to withstand a single cycle of freezing and thawing without changing the properties, is not able to be stored for long periods at low positive temperatures and turns into a gel during such storage. This gel does not pass into the liquid when heated to 20-30 ° C, which makes it impossible to use the product in the field, when frequent temperature changes are possible.

A known composition for dry cleaning hands according to the application of Germany No. 19947684A1, class. A61K 7/48, publ. 04/12/2001, According to this application, the composition for dry hand cleaning consists of 2-10 wt.% Film-forming polymer and 1-20 wt.% Polymer-adhesive, dissolved in a water-alcohol medium, and alcohol can be from 5 to 30 wt. .%. A vinyl alcohol-vinyl acetate copolymer containing 10-40 mol% of vinyl acetate units was used as a film-forming polymer, and polyvinylpyrrolidone with a molecular weight of 40,000-1000000 g / mol was used as an adhesive polymer.

The principle of action of the composition of this application is based on the fact that after applying it to the hands and subsequent drying on the hands, a film forms, which is then easily removed along with the dirt, fat and dead skin cells included in it.

This composition has an unlimited shelf life and can be an effective disinfectant with an alcohol content of more than 15%. However, for any ratio of the components in this composition, it has insufficient cleaning ability and deactivating effect. In addition, after removing the film, clean hands noticeably stick, due to which dirt and germs are attracted to them.

An objective analysis of the situation in the field of development and production of funds for dry hands, dictates the need to create funds with the following consumer characteristics:

- the degree of purification from oil pollution with a single use of at least 80%;

- a shelf life of at least 4 years, including in the region of low positive temperatures;

- the degree of decontamination with a single use of at least 85%;

- disinfecting ability at a level that allows the use of a tool for surgical and hygienic hand antiseptics.

The objective of the present invention is to provide an effective tool for dry disinfection and cleaning of hands of oil and radioactive contaminants.

The closest technical solution for the combination of essential features and the achieved effect to the proposed tool for dry disinfection and cleaning of hands is "Composition for dry hands" according to German patent No. 19947684 A1, which is selected as a prototype.

Using the proposed means for dry disinfection and cleaning of hands allows you to disinfect, cleanse oil contaminants and decontaminate the skin of the hands.

The tool is resistant to temperature extremes in the region from 0 to 50 ° C, which is proved by the fact that it can be prepared from the starting components at any temperature from the above region. The freeze-thaw transitions do not affect the properties of the proposed product and therefore are allowed an unlimited number of times.

The proposed tool allows for the decontamination of the skin surface with activity levels of up to 1300 β-particles / cm ² · min, while achieving background activity values, as well as disinfecting the skin of the hands to a level that meets the standards of hygienic and surgical antiseptics. Therefore, the tool can be used to disinfect the hands of surgeons during operations both in stationary clinics and in the field. The latter is especially relevant when providing emergency medical care.

A characteristic feature of the proposed tool is that it exhibits high antimicrobial activity even in the absence of such widely known disinfectants as cetylpyridinium chloride or chlorhexidine bigluconate, which provides a milder effect on the skin of the hands when it is dry cleaned.

This result is achieved by the fact that a means for dry cleaning hands from contaminants is used, including a copolymer of vinyl alcohol with vinyl acetate, a polymer adhesive and water, characterized in that polydiallyldimethylammonium chloride is used as a polymer adhesive, the quantitative ratio of which to a copolymer of vinyl alcohol with vinyl acetate is in the following proportions, wt.%:

a copolymer of vinyl alcohol with vinyl acetate - 8.0-14.0;

polydiallyldimethylammonium chloride - 0.8-5.6;

water is the rest.

Preferably, the means for dry disinfection and cleaning of hands from contaminants contains a copolymer of vinyl alcohol with vinyl acetate (BC-VA) having from 4 to 23 mol% of vinyl acetate units.

Moreover, the agent may additionally contain non-anionic surfactants, mainly alkyl dimethylbenzylammonium chloride (CATAMIN AB) and / or cetylpyridinium chloride (CPC), in an amount of not more than 0.8%, which provides an increase in the degree of skin cleansing from oil contaminants and enhances the disinfecting ability funds, which may be necessary during prolonged surgical operations, when the disinfecting effect of the product may not be enough.

If necessary, increase the deactivating properties of the tool may additionally contain citric acid in an amount of 0.3-1.0%.

The authors do not have information about the deactivating and disinfecting ability of polydiallyldimethylammonium chloride (VPK-402). It can only be assumed that the deactivating properties of the proposed product are due to the ability of VPK-402, which is an organic polycation, to adsorb on the skin surface, while occupying the same adsorption centers that usually occupy cations of radioactive elements. And since when applying the product on hands, the concentration of VPK-402 at the skin surface is tens of orders of magnitude higher than the concentration of radionuclides, the latter are forced out from the adsorption centers and carried away with the lumps of the product. Probably, the disinfecting properties of the agent in the absence of special antimicrobial additives in it can be associated with the irreversible adsorption of VPK-402 on the surface of bacterial cells and other microorganisms, because of which they die.

The high cleansing ability of the product is unexpected for the applicant. In this regard, it must be emphasized that this ability is determined by the presence of two polymers simultaneously in the composition of the product - VPK-402 and VS-VA, containing 4-23 mol% of vinyl acetate units. Aqueous solutions of each of these polymers individually, due to their high adhesion to the skin, do not have a cleaning ability at all. Thus, there is a synergistic effect.

The VPK-402 contained in the composition moisturizes the skin of the hands, making it soft and smooth. The safety of the use of copolymers of BC-VA and VPK-402 polymer is confirmed by the fact that the former are used as a component of glaze for chewing gum and oral medications, and the latter is used in hair styling and coloring compositions, when cleaning antibiotics in the medical industry, for cleaning drinking water in drinking water supply systems, as well as during clarification of vegetable oil, which is then used for food purposes.

All the ingredients used for the manufacture of the proposed means for dry disinfection and hand cleaning are produced on an industrial scale in the following form:

Vinyl alcohol copolymers with vinyl acetate (BC-VA) are produced in Germany under the brand name “Mowiol ^® ” (copolymers of BC-VA grades Mowiol ^® 6-98, Mowiol ^® 3-96, Mowiol ^® 23-88, Mowiol ^® 15-79 were used and Mowiol ^® 15-75, containing, respectively, 1-2, 4-5, 11-13, 21-23 and 25-26 mol% of vinyl acetate units);

Polydiallyldimethylammonium chloride (VPK-402 polyelectrolyte) - according to TU 2227-184-00203312-98 with amendment 1, 2;

Water - according to GOST 6709-72;

Citric acid - according to GOST 3652-69;

Alkyldimethylbenzylammonium chloride (KATAMIN AB) - according to TU 9392-003-48482528-99;

Cetylpyridinium chloride (CPC) (another name - hexadecylpyridinium chloride) - in the form of state standard samples GSO 8068-94.

Examples of the preparation and use of dry disinfection and hand cleansers

First option

The BC-VA copolymer and water are heated to 80-85 ° C and stirred at this temperature until the BC-VA is completely dissolved. Typically, 50-60 minutes are enough to dissolve the BC-VA at these temperatures.

The hot BC-VA aqueous solution is cooled to 35-40 ° C, then the VPK-402 aqueous solution is added; citric acid, KATAMIN AB and / or CPC are also administered if necessary. The system is thoroughly mixed until homogeneous.

Second option

The copolymer BC-VA, VPK-402 and water are mixed at a temperature of 0-50 ° C until a transparent homogeneous solution is formed. Typically, for complete dissolution, 8 hours are required - at 3-5 ° C, 4 hours - at 20-25 ° C and 3 hours - at 45-50 ° C.

Then, if necessary, citric acid, KATAMIN AB and / or CPC are administered. The system is thoroughly mixed until homogeneous.

The resulting product for dry disinfection and cleaning of hands is packaged in plastic tubes or bottles of the required volume. The product from the vial or tube is squeezed onto the contaminated surface of the hands and immediately rubbed on the surface before rolling.

The qualitative and quantitative composition of the proposed means for dry disinfection and cleaning of hands is shown in table 1. The qualitative and quantitative composition of the means for dry disinfection and cleaning of hands, which differs in quantity from the proposed one, is presented in table 1-1.

The shelf life of the means for dry disinfection and hand cleaning was determined using a B3-4 brand viscometer, which is a 100 ml funnel with a nozzle diameter of 4 mm, at a temperature of 20 ± 1 ° C. The storage time was taken as the time after which the means for dry hand cleaning for the first time, from the time of its manufacture, began to pour out of the viscometer in drops, rather than in a continuous stream. Tests were carried out with an interval of 30 days. If the product after 4 years from the time of its manufacture remained liquid and successfully passed this test, then it was assumed that the shelf life of the product of this composition exceeds 4 years, and further testing was not carried out.

When testing the antimicrobial activity of the agent for dry disinfection and hand cleaning, the effect of the agent in a quantitative suspension test on the test strain of Staphylococcus aureus (Staphylococcus aureus, according to ATCC standard 6538 DCM 799), as well as the effect on the test strain of Escherichia coli (Escherichia coli, according to the standard ATCC 11229 DCM 787) in a test with conditions close to practical application. The antimicrobial activity test was carried out for each composition of the product twice - immediately after its manufacture and after 4 years from the date of manufacture (in the event that the product remained liquid and homogeneous).

A quantitative suspension test used a 20-hour culture of the test strain suspended in a 0.5% sodium chloride solution having a neutral pH. The density of the culture was expressed in colony forming units per milliliter (CFU / ml) and amounted to 1-1.5 · 10 ¹⁰ CFU / ml. The mixture of means and culture was incubated for 1 minute at 37 ° C, then a universal additive was introduced into it, which neutralizes the effect of any antiseptics (3% aqueous solution of Tween ^® 80 + 0.1% saponin + 0.1% histidine + 0.1% cysteine). Then the mixture was plated on a dense casein-soy-peptone medium KSA and incubated for 48 hours at 37 ° C. At the same time, control sowing was performed on KSA and subsequent incubation at 37 ° C for 48 hours of control culture, which was not exposed to dry disinfection and hand cleansing agents. After 48 hours, the density of the culture exposed to the agent ρ _{suspension was compared} with the density of the control culture ρ _k . As a criterion for the antimicrobial activity of the agent in the suspension test, the K suspension value was _taken equal to log (ρ _to ) -log (ρ _cycn ). The K _{value was} taken as the average value according to the results of 3 tests of the agent of this composition.

A test with conditions close to the practical use of the product was carried out as follows. A suspension of the test strain in a 0.5% sodium chloride solution having a neutral pH was used. The density of the culture was 1.2 · 10 ⁹ CFU / ml. First, the hands of volunteers after washing with soap were lowered into the suspension of the strain. Then the hands were dried in air for 3 minutes. After that, the volunteers were divided into two groups: the test and control. The control group immediately flushed out the parts of the hands contaminated with the strain, placing them for 1 minute in casein-soy broth (KSB). This wash was diluted 10 times, plated on KSA and incubated for 48 hours at 37 ° C. After this time, the density of the control culture ρ _{k was} determined. The test group first treated the hands with 5 ml of a dry disinfectant and hand cleaner, and then washed it off with cleaned hands. With flushing, they did the same as in the case of the control group. The density of the culture was determined after testing ρ _prakt . For the criterion of the antimicrobial activity of the agent in the test with conditions close to practical use, the value

K _prakt , equal to log (ρ _k ) -lg (ρ _prakt ). For the value of K _prakt , the average value was taken according to the results of 5 tests of the agent of this composition.

The tool was recognized as suitable for hygienic and surgical hand antiseptics if two conditions were simultaneously met: K _susp ≥5 and K _prakt ≥5.

The deactivating ability of the agent for dry disinfection and hand cleaning was determined as follows. The test sample was a disk of white vinyl leather in accordance with GOST 11107-75, with a diameter of 30 mm. A quantity of an aqueous solution of a mixture of cesium-137 and cerium-144 chlorides was applied to the center of the sample such that after drying of this solution the activity on the surface of the sample ranged from 1200 to 1300 β-particles / cm ² · min. After drying of the radioactive solution, a control determination of the initial activity A _ref was carried out on the surface of the sample. 0.5 ml of the test product for dry disinfection and cleaning of hands was applied to the surface so contaminated, and it was rubbed on the surface of the sample with a piece of vinyl leather before rolling, then the lumps formed were shaken off the sample. The residual activity A _ost on the sample surface was determined. The degree of deactivation D, in% of the initial activity, was determined by the formula

D = 100 · (A _ref -A _ost ) / (A _ref -A _background ),

where A is the _background activity. The value D was taken as the average value for five samples.

The deactivating ability for each composition of the product was determined twice - immediately after its manufacture and after 4 years from the date of manufacture (if the product remained liquid and homogeneous).

The cleaning ability of the product in relation to oily contaminants was determined as follows. A 10% solution of black petroleum bitumen in a mixture consisting of 50 wt.% Sunflower oil and 50 wt.% Lighting kerosene was used as a model of oily pollution. For a sample of white vinyl artificial leather that is defatted with ethanol according to GOST 11107-75, with a diameter of 30 mm, the whiteness coefficient is measured using a BF-2 brightness meter

KB _background . Then, 0.20 g of model pollutant is applied dropwise to the sample (control of the pollutant mass - by weights with a resolution of ± 0.01 g), and this amount of pollutant is evenly rubbed over the entire surface of the sample with a piece of vinyl leather. The contaminated sample is thermostated at 40 ° C for 6 hours, after which bleskometrom determined brightness ratio CB of contaminated _soil sample. After that, 0.50 g of dry disinfectant and hand cleaner is applied to the contaminated sample, which is rubbed manually on the surface of the sample before rolling, using a piece of vinyl leather. The whiteness coefficient of the thus purified sample of KB _{purification is determined} . The cleaning ability Ψ of _oils for dry hand cleaning in relation to oily contaminants is expressed as the percentage of purified contamination and is determined by the following formula:

_Oil Ψ = 100 · (KB _ochishch -KB _soil) / (CB -KB _{background soil).}

The величину _oil value is the average value determined for 5 samples. The cleaning ability of the product in relation to oily impurities for each composition of the product was determined twice - immediately after its manufacture and after 4 years from the date of manufacture (if the product remains liquid and homogeneous).

The criterion of antimicrobial activity in the suspension test and in the test with conditions close to the practical use of the proposed tool for dry disinfection and hand cleaning, depending on its composition, as well as the cleaning and deactivating ability of the product are shown in tables 2 and 2-1. These tables show the worst of the indicators defined for each composition of the product immediately after its preparation and after its storage for 4 years. If a product of this composition has a shelf life of less than 4 years, then it shows the indicators determined immediately after its manufacture.

Results Analysis

As can be seen from the tables, the shelf life of the product, the composition of which is within the framework of the claims, in all cases exceeds 4 years; the degree of purification from oily contamination ranges from 80 to 100% and depends both on the amount of VPK-402 and VS-VA and the ratio between them, and on the presence of KATAMIN AB and CPC in the formulation. The degree of decontamination by the sum of representative radionuclides ( ¹³⁷ Cs + ¹⁴⁴ Ce) reaches 100% with the initial level of surface contamination from 1200 to 1300 β-particles / cm ² · min, while the degree of decontamination for the composition of the prototype does not exceed 75%. The values of the criteria for antimicrobial activity in the suspension test and in the test with conditions close to practical use, not less than 5 for all variants of the means within the framework of the claims, and the following trends can be noted:

- K and K _{susp Pract} increase with the mass fraction of the MIC-402 as part of the means;

- additive composition means nonanionic surfactants - Catamin AB and CPC - significantly increases K _susp and K _Pract, each of these compounds separately operates less efficiently than their mixture (with the same total weight fraction of surfactant in the composition facilities);

- the addition of citric acid reduces K _susp and K _prakt .

If the mass fraction of BC-VA in the product is more than 14%, then its consistency becomes too thick and it is difficult to squeeze it out of the tube. In this case, the product cannot be prepared at low and room temperature; being prepared at a temperature above + 50 ° C, after cooling to room temperature it turns into gel in less than 2 years, that is, it has a shelf life of significantly less than 4 years, which does not suit the applicant.

With a decrease in the mass fraction of BC-VA in the formulation of the agent below 8%, the agent becomes too liquid. This leads to the fact that the product is poured out of the tube even without pressure on the tube, which is inconvenient when used. In addition, the degree of decontamination with a single use of the agent is reduced to less than 85%, the degree of purification from oily contaminants is less than 80%, and the criteria for antimicrobial activity of the agent become less than 5, i.e. the agent is ineffective.

With a mass ratio of VPK-402 / BC-VA <0.1, the product is poorly removed from the surface of the skin by rubbing them against each other. This leads to a decrease in the degree of decontamination with a single use of the product, as well as the degree of purification and criteria for antimicrobial activity of the product (similar to that described above).

With a weight ratio of VPK-402 / VS-VA> 0.4, aqueous solutions of VS-VA and VPK-402 are incompatible at room temperature, that is, the product has an unstable consistency and is stratified into two separate liquid phases 1-3 hours after preparation. Temporarily restore the consistency of the consistency of the product by shaking it. The resulting emulsion of the product has only disinfectant properties; the coefficients of cleaning from oily contaminants during its single use are not more than 70%, and the degree of decontamination is less than 65%. Thus, the product is ineffective in cleaning and decontamination of the skin.

The content of vinyl acetate units in the BC-VA copolymer used to prepare the agent indicated in the claims is optimal. VPK-402 has a coagulating effect on aqueous solutions of BC-VA copolymers containing less than 4 mol% of vinyl acetate units; therefore, the product has a shelf life of less than 2 years and is prone to gelation, especially in the region of low positive temperatures, which does not meet the objectives of this inventions. In addition, a product prepared on the basis of the BC-VA copolymer with a content of less than 2 mol% of vinyl acetate units is ineffective in cleansing hands of oily contaminants (the degree of purification is less than 80%). If the vinyl acetate units in the BC-VA copolymer are more than 23 mol%, then the product is poorly removed from the skin surfaces when they rub against each other. This leads to a decrease in the degree of decontamination with a single use of the product, as well as the degree of purification from oily contaminants (similar to that described above); while the criteria for antimicrobial activity of the agent can be either more or less than 5.

The introduction of non-anionic surfactants, mainly KATAMIN AB and / or CPC, into the composition of the agent in an amount up to 0.8 wt.% Increases the degree of skin cleansing from oily contaminants and the criteria for antimicrobial activity of the agent.

Their introduction in an amount of more than 0.8 wt.% Does not significantly affect the degree of purification from oily contaminants and leads to a further increase in the criteria for antimicrobial activity of the agent, however, it irritates the skin noticeably.

If it is necessary to enhance the deactivating ability of the product, citric acid is added to the formulation, which increases the degree of skin deactivation with a single use of the product. However, if the proportion of citric acid in the formulation of the product is less than 0.3 wt.%, Then there is practically no increase in the degree of skin deactivation. An increase in the amount of citric acid in the formulation of the drug over 1.0 wt.% Is impractical, since with an initial skin contamination of the order of 1200-1300 β-particles / cm ² · min, it no longer affects the degree of deactivation, but leads to a decrease in the criteria for antimicrobial activity below 5.

The prototype tool was prepared in accordance with the description of the application to Germany No. 19947684A1 (example No. 4), wt.%:

Mowiol ^® 18-88 (copolymer of BC-VA, containing 12 mol% of vinyl acetate units) - 5.35;

Luviskol K80 (polyvinylpyrrolidone with a molecular weight of 700,000-1000000 g / mol) - 8.40;

Luviskol K30 (polyvinylpyrrolidone with a molecular weight of 45000-55000 g / mol) - 3.60;

Sepigel ^® 305 (contains 40 wt.% Copolymer of acrylamide with 2-acrylamido-2-methylpropanesulfonate, 20 wt.% C ₁₃ -C ₁₄ -isoparaffins, 5 wt.% Surfactant Laureth 7 and 35 wt.% Water) - 1.00;

Luvimer 36D (36% aqueous dispersion of tert-butyl acrylate, ethyl acrylate and methacrylic acid ternary copolymer particles) - 15.0; aminomethylpropanol - 1.355;

ethyl alcohol - 8.9;

titanium dioxide - 0.8;

water - 55.615

The tests were carried out under the same conditions as the proposed tool. The results are presented in table 2-1.

Thus, the composition of the means for dry disinfection and cleaning of hands specified in the claims is necessary and sufficient to achieve the specified technical result, is aimed at solving the problem and meets all the criteria for protection under current law.

Table 1 Qualitative and quantitative composition of the means for dry disinfection and cleaning of hands from contamination, corresponding to the claims Name of components The composition of the examples, wt.% one 2 3 four 5 6 7 8 9 10 eleven 12 13 fourteen fifteen 16 Mowiol ^® 3-96% 8.0 14.0 5,0 2.7 5.3 Mowiol ^® 23-88% 8.0 11.0 1,0 5.3 14.0 11.0 11.0 11.0 8.1 Mowiol ^® 15-79% 10.0 14.0 5,0 4.0 8.0 14.0 14.0 VPK-402,% 0.8 3.2 1D 4.4 1.4 5,6 2.5 4.0 3.8 1,2 2.2 2.2 2.2 4.0 4.0 4.3 CATAMIN AB,% 0.80 0.10 0.05 0.20 CPC,% 0.80 0.10 0.05 0.30 Lemon acid, % 0.3 1,0 0.8 Water% 91.2 88.8 87.9 84.6 84.6 80,4 87.5 84.0 81.4 90.0 86.7 86.7 86.7 81.7 81.0 81.0 The ratio of VPK-402 to BC-VA 0.10 0.40 0.10 0.40 0.10 0.40 0.25 0.33 0.27 0.15 0.20 0.20 0.20 0.29 0.29 0.32

Table 1-1 Qualitative and quantitative composition of the product for dry disinfection and cleaning of hands of contaminants, which differs in quantitative terms from the proposed composition (comparative examples) Name of components The composition of the examples, wt.% 17 eighteen 19 twenty 21 22 23 24 25 26 27 28 29th thirty 31 32 Mowiol ^® 6-98% 8.0 11.3 14.0 Mowiol ^® 3-96% 5.2 2.6 11.0 3,5 2.7 4.7 2,3 Mowiol ^® 23-88% 1,0 7.2 3.8 0.8 11.3 15.0 5.3 Mowiol ^® 15-79% 1,0 3,7 2,4 3,7 10.3 4.8 Mowiol ^® 15-75% 8.0 10.5 14.0 VPK-402,% 2.9 0.8 0.8 0.8 0.9 3.6 1,1 0.8 2,3 5,6 0.8 2,8 5,6 5,6 1,5 5,6 CATAMIN AB,% CPC,% Lemon acid, % Water% 89.9 91.0 92.0 90,4 88.1 88.4 84.9 91.2 87.2 80,4 91.2 85.9 80,4 79.0 83.5 82.0 The ratio of VPK-402 to BC-VA 0.40 0.25 0.11 0.09 0.08 0.45 0.08 0.10 0.22 0.40 0.1 0.25 0.40 0.37 0.10 0.45

table 2 The test results of the means for dry disinfection and cleaning hands from contamination, qualitative and quantitative composition of which is presented in table 1 No. one 2 3 four 5 6 7 8 9 10 eleven 12 13 fourteen fifteen 16 Shelf life, years > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 > 4.0 Criterion K _susp antimicrobial activity funds in the suspension test 5,0 5,4 5.1 5.8 5.2 6.0 5.5 5.7 9.3 8.6 6.0 6.2 6.8 5.8 5,0 7.6 _Practical criteria for an antimicrobial activity assay conditions close to the practical application of 5.2 5.7 5,4 5.9 5,4 6.1 5,6 5.7 9.6 9.0 6.0 6.2 7.0 5.8 5.1 7.9 The degree of oil purification from oily pollution,% 80 81 81 83 82 85 82 84 one hundred 98 90 91 90 84 84 99 A _ref β-particles / cm ² · min 1261 1205 1236 1200 1294 1276 1300 1251 1240 1265 1289 1223 1216 1245 1250 1254 And _ost , β-particles / cm ² · min 197 130 179 102 186 97 149 107 106 185 162 143 142 45 9 6 A _background , β-particles / cm ² · min 9 10 7 7 6 8 7 8 7 9 8 9 9 8 9 6 The degree of deactivation D,% 85 90 86 92 86 93 89 92 92 86 88 89 89 97 one hundred one hundred

Claims (4)

1. A tool for dry disinfection and cleaning of hands of contaminants, including a copolymer of vinyl alcohol with vinyl acetate, a polymer adhesive and water, characterized in that polydiallyldimethylammonium chloride is used as a polymer adhesive in the following proportions, wt.%:
vinyl alcohol copolymer of vinyl acetate 8.0-14.0
polydiallyldimethylammonium chloride 0.8-5.6
water rest
when the content of vinyl acetate units in the copolymer of vinyl alcohol with vinyl acetate from 4 to 23 mol.%. 2. The tool according to claim 1, characterized in that it further comprises a non-anionic surfactant in an amount of not more than 0.8 wt.%. 3. The tool according to claim 2, characterized in that as non-anionic surfactants use alkyldimethylbenzylammonium chloride and / or cetylpyridinium chloride. 4. The tool according to claim 1, characterized in that it further comprises citric acid in an amount of 0.3-1.0 wt.%.