RU2408755C1 - Composition for antiseptic treatment of woven materials - Google Patents

Abstract

FIELD: textile, paper.

SUBSTANCE: composition contains the following components in wt %: 2.0-8.0 of nanodispersed bentonite powder cleaned from salts of sodium, intercalacted with ions of Ag⁺ and/or Cu²⁺ with dispersity of nanoparticles of not more than 150 nm 0.5-4.0 of binder and balance - polar dissolvent - water, including de-ionised water. Binder is copolymer with molecular weight of 30000-450000 on the basis of modified hydrolysed vegetable protein, to end or side amino groups of which silanol groups or polyvinyl pyrrolidone are inoculated. Nanodispersed powder of bentonite contains 2-8 wt % of silver and/or copper. Mixture of nanodispersed powders of bentonite intercalated with ions of Ag⁺ and Cu²⁺ used in the composition has the following ratio in weight parts: as: 1:(0.2-0.8).

EFFECT: creation of composition for antiseptic treatment of woven materials based on natural components meeting the requirements of ecological compatibility and safety, using which provides for efficient antiseptic treatment of various materials, intended to manufacture articles of both domestic and medical purpose.

4 cl, 2 dwg, 5 ex

Description

The invention relates to the field of hygiene and sanitation, and in particular to a composition for antiseptic processing of woven materials.

A known composition for antiseptic processing, for example, sanitary napkins, containing, parts by weight: 0.01-0.2 sorbic acid, 0.1-0.5 citric acid, 0.1-0.9 sodium chloride, 0.1 -0.3 perfumes and up to 100 water (see US patent No. 5049440, CL A61F 13/00, 1991).

However, the known composition has a limited spectrum of antimicrobial action (only against gram-positive and gram-negative bacteria) and is ineffective against various pathogenic fungi and protozoa.

A known composition for antiseptic processing of products that is effective against gram-positive and gram-negative bacteria (E. coli, Bacillus subtilis, Micrococcus luteus, Staphylococcus aureus) and fungi (Aspergillus niger, Candida albicans) and protozoa (Euglena viridis, Amoeba proteus) (see Patent RU 2088218, A61K 9/70, publ. 1997). This composition contains sorbic acid, citric acid, sodium chloride, water, perfume, optionally hyaluronic acid and apple pectin.

However, the technological capabilities of this composition are limited to the processing of products from nonwoven materials, mainly disposable sanitary napkins for treating various parts of the body.

The possibility of using this composition for antiseptic processing of products from woven materials of long-term use, for example, for the manufacture of linen products from them, is impractical, because the constituent components (for example, sorbic acid, citric acid) lead to allergic skin reactions, and the presence of hyaluronic acid and a natural high-molecular compound (apple pectin) requires certain storage conditions for the products - special packaging to preserve moisture, the composition does not meet hygienic requirements for sorption activity.

The multicomponent nature of this composition complicates the manufacturing process.

Technologically limited are the possibilities of using the compositions described above for the antiseptic treatment of woven materials containing natural threads or fibers when used in medical practice as dressings that help stop bleeding from bleeding wounds and cuts.

Known compositions for the treatment of woven materials used in medical practice as dressings with their characteristic hemostatic effect on bleeding wound processes (see, for example, patents RU No. 2171694, A61L 15/04, publ. 2001; No. 23232122, A61L 15/18 publ. 2008).

So, in the technical solution for patent No. 232,312, a composition for processing woven materials in the form of a mineral powder based on mechanochemically activated natural zeolite and a salt supplement based on sea or lake salt or bischofite is proposed with a ratio of 5: 1, respectively. The use of this composition for dressings promotes the sorption of high molecular weight compounds (products of protein catabolism), as well as bacterial toxins and microbial cells located in bleeding wounds and cuts.

This composition is intended for the processing of woven materials used for the manufacture of dressings for local topical application on limited surface areas, and cannot be used for processing these daily durable materials, for example, for linen products, because the presence of a salt supplement, for example, bischofite, will lead to allergic skin reactions.

The use of this composition implies a significant consumption when applied to the treated surfaces of products made from these materials, while the bactericidal effectiveness of this composition against various gram-positive and gram-negative bacteria is not justified in the known technical solution.

At the same time, the use of natural mineralogical components that meet the requirements of environmental friendliness and safety indicates the prospects of using this type of product both in medical practice and in the practice of other industries engaged in the production of woven materials.

In the analysis of the prior art it was found that the composition for antiseptic processing of materials based on natural mineralogical components that meet the requirements of environmental friendliness and safety is known (see RU patent (application No. 2008109357, priority dated March 14, 08), patent holder of Institute of Applied Nanotechnology CJSC ").

This technical solution proposes the composition of the biocide in the form of an aqueous solution of nanodispersion of bentonite powder intercalated with Ag ⁺ or / and Cu ²⁺ cations, in which the proportion of silver and / or copper is 2.0-8.0 wt.%.

An aqueous solution of a composition based on deionized water contains 4.0-10.0 wt.% Of bentonite powder intercalated (modified) with Ag ⁺ or / and Cu ^{2+ ions} , while 0.2-1.8 wt.% Of said bentonite powder is used on an air-dry fiber of paper pulp, the dispersion of nanoparticles of bentonite powder is not more than 150 nm.

A mixture of the aforementioned bentonite powders is preferably used.

The known technical solution is used directly in the manufacturing process of paper products, including sanitary and hygienic purposes, to improve the consumer qualities of the obtained cellulose-containing materials for antibacterial and antifungal properties.

However, for woven materials obtained by spinning, and materials whose structure is formed by combining synthetic fibers (polyester, polyamide, etc.) and natural (cotton, viscose, wool), the process of their processing by impregnation (impregnation) or spraying on their surface various technological preparations, including antiseptic purpose, in order to improve the quality characteristics of the finished product. Technologically processed products are subjected to further drying. These circumstances greatly simplify the process of obtaining finished products with desired properties and reduce the cost of manufacturing it.

The use of a water-based composition of known composition for technological processing according to the above technical solution is not technologically feasible, which is explained by the following circumstances: when the composition is impregnated (impregnated) or sprayed onto the woven material, the interaction of the nanodispersed system of bentonite powder with the fibers and threads of these materials is impaired , and especially when operating products made of these materials (the process of abrasion, fiber elongation). As a result, the antiseptic properties of the material deteriorate;

physico-mechanical parameters of the fibers of materials, taking into account their surface density, require the development of technological exposure modes for each type of material in the impregnating composition, which complicates the process and increases the costly part of the composition.

The described technical solution was created by their developers on the basis of the well-known technical solution according to patent RU No. 2330673, publ. 08/10/08. In accordance with this decision, a nanostructured biocide composition was proposed in the form of bentonite powder nanoparticles intercalated with Ag ⁺ or / ions and Cu ^{2+ ions} , which were obtained by modifying inorganic salts of silver nitrate or copper sulfate prefabricated bentonite enriched with cations Na ⁺ when they are treated with an aqueous solution of the inorganic sodium salt of bentonite Na ⁺ form and their subsequent purification from acid anions.

In accordance with this invention, for the antiseptic treatment of woven materials, it is preferable to use a composition containing a polar solvent, nanodispersed bentonite powders purified from sodium salts, intercalated with Ag ⁺ or / and Cu ^{2+ ions} with a nanoparticle dispersion of not more than 150 nm, and a binder in the form of a copolymer.

Alcohol is used as the polar solvent, and rigid and elastic blocks are used as the copolymer of the block copolymer of polydimethylsiloxane and polyurethane, which refers to thermoplastic silicones and incorporates organic and inorganic components. The preparation has high adhesion to various materials (can be used as an adhesive) and high mechanical strength, and when modifying a textile material forms a water-repellent porous "breathing" layer on a textile fiber.

However, the possibility of using this composition for processing various in the physicomechanical, physicochemical properties of woven materials is technologically limited, due to:

significant hydrophobicity inherent in the named copolymer, which leads to the formation on the fibers, filaments of these materials, an opaque film and inherent hydrophobic monomers tendency to peeling. The presence of this trend increases the loss of the processing composition, especially when washing, which affects the antiseptic properties of the processed products;

complications of the manufacturing process of the composition due to the use of alcohol as a solvent.

The high hydrophobicity of the said copolymer limits the possibility of its use in compositions for antiseptic treatment of woven materials for medical and domestic purposes, the use of which implies the presence of hemostatic properties and the ability to use materials under conditions characteristic of hyperhidrosis.

However, the composition for antiseptic processing of woven materials according to patent RU No. 2330673 in its technical essence is closest to the claimed invention and is selected as its closest analogue.

The objective of the invention was to create a composition for antiseptic processing of woven materials based on natural components that meet the requirements of environmental friendliness and safety, the selection and selection of components in which, their quantitative content, would ensure the achievement of a technical result to improve the performance characteristics of the composition for antiseptic processing of various woven materials at a low cost part for its manufacture.

To solve the technical problem, a composition for antiseptic processing of woven materials is proposed, containing a polar solvent, nanodispersed bentonite powder purified from sodium salts, intercalated with Ag ⁺ or / and Cu ^{2+ ions} with a nanoparticle dispersion of not more than 150 nm, a binder based on a copolymer according to the invention as a binder, a copolymer with a molecular weight of from 30,000 to 500,000 based on a modified hydrolyzed vegetable protein is used, to the terminal or side amino groups of which there are silanol groups or polyvinylpyrrolidone, said nanodispersed bentonite powder contains 2-8 wt.% silver and / or copper, and the composition has the following content of components in it, wt.%:

named copolymers or a mixture thereof 0.5-4.0 nanosized bentonite powder, intercalated by ions of Ag ⁺ or / and Cu ²⁺ per mass of dry copolymer or mixture thereof 2.0-8.0 water rest,

moreover, the mixture of nanodispersed bentonite powders intercalated by Ag ⁺ and Cu ²⁺ ions used in the composition has a ratio, parts by weight, of: as: 1: (0.2-0.8)

According to the invention, nanosized bentonite powder has a dispersion of not more than 70 nm.

According to the invention, preferably, a hydrolyzed wheat protein is used as the copolymer, to whose terminal or side amino groups there are grafted silanol groups with a molecular weight of said copolymer of not more than 500,000.

According to the invention, deionized water is used as a solvent.

When implementing the claimed invention, the creation of a composition for antiseptic processing of woven materials based on natural components that meet the requirements of environmental friendliness and safety is ensured, the use of which provides effective antiseptic processing of various materials used for the manufacture of products for both household and medical purposes.

The technical result achieved by the invention is explained by:

using for preparation of the preparation a natural mineral - bentonite in Na-form, the structural structure of the crystal lattice of which is characterized by a layer-by-layer arrangement of "packets" of negatively charged aluminum-oxygen and silicon-oxygen compounds, the volume of the "inter-packet" space of which has a high sorption activity to solutions and to the ion-exchange reaction of cations one metal to cations of other metals in the presence of solutions containing cations of a metal substituent in the "inter-packet" space;

the use in the claimed invention of an antiseptic agent in the form of a dispersion medium of nanoparticles of the specified bentonite powder, the high specific surface of the nanoparticles of which provides a large area of contact with the bacterial medium and increases the effectiveness of antimicrobial and anti-fungal effects on pathogenic microflora;

the use in the claimed invention of synergistically compatible mixtures of bentonite powder, intercalated by ions of these metals;

reduction of the costly part for the manufacture of the composition due to the use in its composition of a mixture of antibacterial agents in the form of nanoparticles of bentonite powders intercalated with these metal ions;

the presence in the composition of the copolymer based on hydrolyzed vegetable protein, mainly wheat protein grafted to the terminal or side amine groups of its silanol groups or polyvinylpyrrolidone or a mixture thereof, which ensures the effectiveness of stable contact interaction of the claimed composition with fibers or threads of woven material with the formation of a transparent an elastic protective film with a conditioning effect, which improves the gloss and smoothness of the fabric fibers, preserves moisture in tissue fibers;

the stability of the formed structure of the composition based on the copolymer with nanodispersed particles of bentonite powder embedded in it, which stabilizes the prolonged effect of antiseptic properties (antimicrobial, antifungal) when using the composition for processing woven materials, taking into account their operation;

technological solution of the composition based on components biologically compatible with the tissues of living organisms.

In the analysis of the prior art, no technical solutions with a combination of features corresponding to the claimed technical solution and implementing the above-described result of the prolonged action of the antiseptic processing of woven materials used for the manufacture of household and medical products have been identified.

The above analysis of the prior art indicates that the claimed technical solution meets the criteria of "novelty", "inventive step" and "industrial applicability", which is confirmed by the description below.

The invention is illustrated by drawings, where:

figure 1 shows the fibers of woven materials treated with the compositions of examples 1-4, before washing and after washing;

figure 2 shows the results of antimicrobial evaluation of the studied samples of woven materials treated with the compositions of examples 1-4.

To implement the invention, ready-to-use medical and laboratory equipment, commercial products, as well as known technological processes are used:

bentonite (montmorillonite) of the Na form, for example, of the Sarigyukh deposit (Armenia), related to alkaline bentonites in which the content of montmorillonite (Na bentonite of the form) is 75-85 wt.%;

silver nitrate (AgNO ₃ ); copper sulfate (CuSO ₄ ); sodium chloride (NaCl);

deionized water;

antiseptic drug with antimicrobial and antifungal properties (see patent RU No. 2330673, priority date November 22, 2006, patent holder - Institute of Applied Nanotechnology CJSC), according to which mineralogical raw materials (Na-form bentonite) are activated (enriched) Na ⁺ ions by treating it with an aqueous solution of sodium chloride, followed by washing and filtering the resulting semi-finished product to remove acid anions. The obtained semi-finished products are modified with a solution of inorganic metal salts, which are used as silver nitrate (AgNO ₃ ), copper sulfate (CuSO ₄ ), the modified bentonite is exposed in the indicated salt solutions and the modified bentonite is purified from sodium salts by washing and filtering it, and after drying the resulting preparation is crushed. For the implementation of the claimed invention was carried out titrimetric analysis of the drug obtained by this known technical solution. It was found that the amount of silver and copper in the obtained preparations, depending on the starting raw material, the amount of activating and modifying reagents, corresponds to 2-8 wt.% Silver or copper. The specified wt.% Content of silver or copper is optimal. With an increase in the amount of silver or copper in the intercalated bentonite powder, the costly part of its production increases, and with a decrease in the wt% of the content of these components, the antibacterial activity of the products obtained according to the claimed invention decreases. It is preferable to reduce the costly part for the manufacture of the inventive composition according to the invention using a mixture of the aforementioned nanodispersions of bentonite powders with their ratio:

nanodispersion of bentonite powder intercalated with Ag ⁺ ions: nanodispersion of bentonite powder intercalated with Cu ^{2+ ions} , preferably 1: 0.5. The use of a mixture of these nanodispersions, preferably, for woven materials with antiseptic effect (antimicrobial and antifungal effects) intended for the manufacture of products from them, preferably for domestic use (linen, various coatings, including technical purposes). For medical devices made of woven materials and intended directly for contact with human tissue (dressings, pads, etc.), it is preferable to use nanodispersions of bentonite powder intercalated with Ag ⁺ ions as the most effective antimicrobial protection against a wide range of microorganisms. The mechanism of action of silver on a microbial cell is that silver ions are sorbed by the cell membrane, which performs a protective function. The cell remains viable, but some of its functions are violated, for example, division (bacteriostatic effect). As soon as silver is adsorbed on the surface of the microbial cell, it penetrates into the cell and inhibits the enzymes of the respiratory chain, and also divides the processes of oxidation and oxidative phosphorylation in microbial cells, as a result of which the cell dies. Silver reacts with the bacterial cell membrane, which is a structure of special proteins (peptidoglycans) connected to amino acids to ensure mechanical strength and stability. Silver interacts with external peptidoglycans, blocking their ability to transfer oxygen into bacteria cells;

a copolymer based on a modified hydrolyzed vegetable protein, to the terminal or side amino groups of which silanol groups or polyvinylpyrrolidone are grafted. Preferably, according to the claimed invention, the use of a copolymer of hydrolyzed wheat protein with grafted silanol groups - preparations of the company Croda (GB), respectively:

Coltide HSi or Crodasone W with a molecular weight of not more than 500,000 Mw, or Keravis with a molecular weight of not more than 18,000 Mw, or a mixture of these drugs, which is preferable for the expensive part of the manufacture of the claimed composition. The named preparations of the company Croda (GB) combine the unique functional capabilities of both molecules in one component due to the complex polymer structure of protein and silicon components. These preparations are used as an additive to aerosols to facilitate ironing, detergents for washing woven products, they have a favorable conditioning and protective effect on the fibers and threads of products made from woven materials, in particular:

provide protection against thermal damage potentially caused by heat treatment, for example, drying with inversion, ironing with steam; repair damaged fiber cuticles; improve the gloss and smoothness of the fiber with the formation of a lubricating transparent film on top of the fiber; reduce tissue jams, retain moisture.

The indicated functionality of the named preparation was also determined by the choice of the latter in the composition for antiseptic processing of woven materials, the presence of which ensures the creation of a microemulsion system resistant to agglomeration of the composition that implements the technical result specified by the invention.

The inventive content (wt.%) Of said copolymer is optimal. With a decrease in its amount in the composition, the stability of the interaction of the nanodispersed bentonite system with fibers or threads of the woven material deteriorates, and an increase in its amount leads to an increase in the costly part for manufacturing the composition.

As the copolymer based on a modified hydrolyzed vegetable protein, to which silanol groups are grafted to the terminal or lateral amino groups, copolymers similar in functionality can be used, for example, a copolymer based on a modified hydrolyzed soy protein with grafted silanol groups, the molecular weight of this drug is not less than 3000 mw. However, the low molecular weight of the drug reduces the effectiveness of its contact interaction with the fibers of the processed woven materials, therefore, it is preferable to use the drug in a mixture with Coltide HSi with a molecular weight of at least 250,000 Mw. As a copolymer, it is possible to use a preparation based on a modified hydrolyzed wheat protein, to the terminal or side amino groups of which polyvinylpyrrolidone is attached, for example, Hydrotriticum PVP (molecular weight 40,000 Mw) manufactured by Croda (GB). Preferably, used in a mixture with Coltide HSi at a molecular weight of at least 250,000 Mw.

The implementation of the invention when changing the composition of the components used, their predetermined ratio will lead to a deterioration in the operational properties of the compositions of the compositions made according to the invention or to an increase in the cost of the process for its preparation.

The implementation of the invention is illustrated by the following steps and specific examples of its implementation.

Stage 1 - the manufacture of nanodispersions of bentonite powder in accordance with the invention according to the patent RU No. 2330673.

Bentonite (montmorillonite) Na-forms in an amount of 5 g are poured, preferably with a 5% aqueous NaCl solution, kept in this solution, additionally enriching bentonite with sodium ions, then repeatedly washed to remove chlorine anions, followed by filtration through a white ribbon filter and drying. Semi-finished products purified from acidic anions were dried and modified with a 10-20% aqueous solution of silver nitrate (under red light). Preferably, a 15% aqueous solution of silver nitrate is used. The modification process is carried out by exposure to the specified solution and at a temperature corresponding to its solubility in water. The obtained modified semi-finished product was washed many times to remove sodium salts, filtered and dried, preferably at a temperature above 20 ° C and not more than 80 ° C. The consumption of aqueous solutions for processing 5 g of the semi-finished product was: bentonite: aqueous solution, as 1:20. After drying, the product was subjected to mechanical grinding. A bentonite powder intercalated by ions of Ag ^{+ and} not containing sodium salts was obtained. Useful yield 4.8 g.

To obtain nanodispersions of bentonite powder intercalated with Cu ²⁺ ions, sodium bentonite semi-finished products activated with sodium ions were used, followed by their modification with a 15% aqueous solution of copper sulfate. Received does not contain sodium salts intercalated by Cu ^{2+ ions} , bentonite powder. Useful yield 4.8 g.

The process of mechanical grinding to a predetermined dispersion of the nanoparticles according to the claimed invention was carried out as follows:

the products obtained, after intercalation (modification) by metal ions, their purification from sodium salts and drying, are dispersed (intensively mixed) in a large amount of deionized water, allowed to stand for some time and the supernatant is decanted. After adding water, the precipitate is again dispersed, sedimented, decanted. This process is carried out repeatedly. The nanodispersed product is isolated by filtration, dried and ground in planetary mills. With this method of producing nanopowders, a large amount of deionized water is consumed, the process is quite long;

to reduce the complexity, the obtained products were introduced into deionized water at a ratio by weight: product: solvent (water) as 1:10 and the bentonite powder was dispersed to a nanoparticle dimension of not more than 70 nm using an ultrasonic disperser.

Ultrasonic dispersants are widely used in various industries (chemical, pharmaceutical, food, etc.). Either hydrodynamic emitters or emitters based on electromechanically active materials, for example magnetostrictive transducers, are used as a source of ultrasound. The use of an ultrasonic dispersant will significantly accelerate the process of obtaining bentonite powders to a given dispersion.

The process was carried out using a Bandelin Sonoplus HD2070 dispersant at a power of 40 W for 10-20 minutes. The obtained colloidal systems were deposited on a substrate and, after evaporation of water, were examined under a microscope.

The dimensionality of the obtained bentonite powders was controlled using an electron microscope. As a result of technological methods, the dispersion of nanoparticles was not more than 70 nm with the ratio: 30% of the total amount of structured product had a dispersion of not more than 20 nm, the rest was 70 nm.

The obtained nanodispersions of bentonite powders infused with silver and copper ions were evaluated by the quantitative content of the mentioned metals in them using titrimetric analysis, which showed that, under the technological conditions described above, the products obtained contain no more than 6 wt.% Silver or copper.

Stage 2 - the manufacture of compositions for the antiseptic processing of woven materials.

Compositions for processing these materials in accordance with the claimed invention were made according to examples 1-3.

The composition for the antiseptic treatment of these materials (example 4 - control) was made using in its composition a block copolymer of polydimethylsiloxane and polyurethane (Penta-1009 preparation) - patent RU No. 2330673

according to examples 1-4 used compositions of the compositions with the following costly part of their components:

example 1-3 - a binder based on a copolymer - 7.5 g, nanodispersion of bentonite powder - 0.375 g, deionized water - the rest to a volume of the obtained composition equal to 250 ml, while in accordance with examples 1-3 were used:

Example 1 — Binder — Coltide HSi; nanodispersion of bentonite powder intercalated by Ag ⁺ ions at a dispersion of 70 nm;

Example 2 — Binder — Coltide HSi; a mixture of nanodispersed bentonite powders intercalated with Ag ⁺ and Cu ^{2+ ions} at a ratio of 1: 0.5 and with a dispersion of powders of 70 nm;

Example 3 - a mixture of Crodasone W and Keravis preparations, preferably with a ratio of 1: 2 and with a molecular weight of the resulting mixture of at least 250,000 Mw; nanodispersion of bentonite powder intercalated with Ag ⁺ ions at a dispersion of 70 nm;

Example 4 (control composition), Penta-1009 binder - 7.5 g, nanodispersion of bentonite powder intercalated with Ag ⁺ ions - 0.375 g at a dispersion of 70 nm, alcohol (isopropanol) up to 250 ml of the obtained composition. The specified quantitative content of the components of the composition according to this example is selected taking into account the comparability of the research results with the expendable part of the components in examples 1-3.

Example 5 (control composition), a binder is a mixture of Crodasone W and Keravis preparations, preferably with a 1: 2 ratio and a molecular weight of the resulting mixture of at least 250,000 Mw, nanodispersion of bentonite powder intercalated with Ag ⁺ ions at a nanoparticle size of 100-150 nm.

Considering that the majority of technologies for the liquid processing of woven materials (washing, desizing, decoction, dyeing, final chemical finishing, etc.) provide for immersion in a processing liquid, samples of materials 5 × 5 (cm) in size, previously sterilized, were immersed in the samples obtained according to examples 1-5 microemulsion systems of the compositions, kept in them for 10 minutes, squeezed and dried. For the study, we used the following plain-colored material samples:

sample 1 - wool fabric, density 500 g / m ² ,

sample 2 - linen fabric linen group, a surface density of 240 g / m ² ,

sample 3 - terry cloth from 100% cotton, surface density 470 g / m ² .

After processing the test samples, they were diagnosed and tested according to the following indicators:

organoleptic (color, smell);

anti-pilling properties (pilling of fabrics, such as wool, occurs when groups of short or dangling fibers on the surface are intertwined together in a tiny spool ball, pilling is caused by wiping or abrading the fabric during normal wear and use);

bio-testing for antimicrobial and antifungal properties, mainly after their subsequent washings.

The results of the study show:

when using the compositions according to examples 1-3 (the claimed invention), the processed samples 1-3 are odorless, the samples acquired a more pronounced color tonality, which in particular indicates a favorable conditioning effect on the fibers of woven samples of the polymer structure of the protein components included in the compositions;

when using the composition according to example 4 (control), the processed samples had a pungent smell of alcohol and a dimmer color tone, which indicates the formation of an opaque polymer film on the fabric fibers;

anti-pilling properties were evaluated during abrasion as a result of washing samples No. 1 after processing their compositions according to examples 1-4. The formation of spools on the fabric fibers was observed during processing of the sample with the composition according to example 4, which indicates an adverse mechanical effect on the fibers of the material used in the composition of the copolymer specified in patent RU No. 2330673. The results of this assessment are confirmed by the analysis of the fibers of the studied samples No. 1 under an electron microscope:

Pos.1 - fibers of the test sample No. 1, treated with the composition according to example 1, after 5 (five) washes;

pos.2 - fibers of the test sample No. 1, processed by the composition according to example 1, before washing;

pos.3 - fibers of the test sample No. 1, treated with the composition according to example 4, after 2 (two) washes

Bioassay of the antiseptic properties of the studied samples was evaluated by their antimicrobial and antifungal properties.

Evaluation of antimicrobial properties was carried out according to standard methods using cultures of Staphylococcus aureas. The culture was grown on meat-peptone agar (MPA) at a temperature of 37 ° C for 24 hours. Then, a homogeneous suspension of cells in deionized water was prepared so that 2 billion cells were contained in 1 ml of suspension. The prepared structure was added 1 ml of suspension into Petri dishes with dried MPA and evenly distributed on the surface of the medium with a sterile spatula so that the culture sprouted with a continuous lawn. Then, with sterile tweezers, pieces of test samples (1 × 1 cm) treated with various antiseptic compositions according to Examples 1-4 were tightly applied onto the agar surface. Pieces of the test samples were placed at a distance of 2 cm from each other and at a distance of about 2.5 cm from the center of the cup. Inoculated sample plates were thermostated at 37 ° C. The antimicrobial properties of each piece of the test sample were evaluated by the formation of inhibition zones (zones of inhibition) of the growth of the microorganism strain, which were clearly distinguished against the background of a continuous growth lawn of the tested culture, and the antimicrobial properties of the studied samples were evaluated after repeated washing. The average research results are presented in the diagram - figure 2. From this diagram it follows that the growth of the Staphylococcus aureas strain when processing samples No. 1-3 with the compositions according to examples 1-3 is significantly lower with a larger number of washes - inhibition zone "B", in contrast to the zone of inhibition "A", which corresponds to the processing of samples No. 1-3 composition according to example 4.

Evaluation of the antifungal properties of the studied compounds was carried out by the same method using a dense nutrient medium (Czapek Dox Agar, manufactured by Himedia, India), previously seeded with one of the test microorganisms, which were used as fungi cultures of Aspergillus sydowii, Aspergillus niger species. To prepare suspensions (suspensions) of fungal spores, fungal test cultures grown on Chapek's medium at 28 ° C, aged from 14 to 28 days, counted from the time of reseeding, were used.

A spore suspension at a concentration of 1 million / ml was prepared separately for each type of test culture of fungi. For this, spores of fungi from a test tube with a pure culture were transferred to a flask (test tube) containing 15 ± 5 ml of sterile physiological saline. Spore transfer from test tubes to the flask (test tube) was carried out by capturing the spores with a bacteriological loop.

A suspension of each type of fungus of a given concentration was applied to the surface of the nutrient medium (grass lawn). On the obtained lawn of the mushroom culture superimposed tissue samples No. 1-3, impregnated with the investigated compounds (examples 1-5). Studies were carried out for 5-7 days at a temperature of 28 ° C. After the expiration of the specified period, the test samples No. 1-3 were washed, dried, and then placed on the surface of the nutrient medium with exposure at the indicated technological parameters of the tests, and then the diameters of the growth inhibition zones of the test microorganisms were measured in mm around the above samples. As a result of the studies, it was found that the growth zone of the test cultures drops significantly when using the compositions for examples 1-3 for processing woven materials.

It was also found that the antifungal properties of samples No. 1-3 when processing them with the composition according to example 5, in which nanoparticles of bentonite powders with a dispersion of more than 70 nm were used, are slightly worse than for samples treated with the compositions according to examples 1-3, and much better than the samples when processing their composition according to example 4.

When conducting studies it was found that the antiseptic (antimicrobial, antifungal) properties of the composition according to the invention containing nanodispersion of bentonite powder intercalated with Ag ⁺ ions are more effective relative to similar properties of a composition containing a mixture of nanodispersion of bentonite powders, which confirms the known data on the effectiveness of silver-containing preparations, which is traditional for this type of metal with a wide spectrum of antimicrobial activity. However, the costly part for the production of this product is significantly increased, which is impractical.

Thus, the studies conducted generally indicate the high efficiency of the inventive composition for the antiseptic treatment of woven materials, its prolonged action in relation to various colonies of microorganisms.

It is advisable to use the composition according to the invention for processing various woven materials, including those intended for the manufacture of products with a hemostatic effect on bleeding wound processes in view of the presence in the composition of the components (of the specified copolymer and nanoparticles of bentonite powder) with moisture retention properties and sorption.

The inventive composition for the antiseptic processing of woven materials can be used for the manufacture of medical and household products, including for the manufacture of linen, socks, insoles for shoes, towels, sanitary towels for women, clothing for medical personnel, protective clothing for work in centers with increased infectious danger, etc.

Claims (4)

1. Composition for antiseptic processing of woven materials, containing a polar solvent, purified from sodium salts, nanodispersed bentonite powder intercalated with Ag ⁺ or / and Cu ^{2+ ions} with a dispersion of nanoparticles of not more than 150 nm, a binder based on a copolymer, characterized in that as a binder use a copolymer with a molecular weight of from 30,000 to 500,000 based on a modified hydrolyzed vegetable protein, to the terminal or side amino groups of which are grafted silanol groups or polyvinylpyrrolidone, decree This nanosized powder of bentonite contains 2-8 wt.% silver and / or copper, and the composition has the following content of components in it, wt.%:
named copolymers or a mixture thereof 0.5-4.0 nanosized bentonite powder intercalated by ions of Ag ⁺ or / and Cu ²⁺ by weight of the dry copolymer or mixtures thereof 2.0-8.0 solvent - water rest,
moreover, the mixture of nanodispersed bentonite powders intercalated by Ag ⁺ and Cu ²⁺ ions used in the composition has a ratio, parts by weight, of: 1: (0.2-0.8). 2. The composition for the antiseptic processing of woven materials according to claim 1, characterized in that the nanosized powder of bentonite has a dispersion of not more than 70 nm. 3. The composition for the antiseptic treatment of woven materials according to claim 1, characterized in that, preferably, a hydrolyzed wheat protein is used as a copolymer, silanol groups are grafted to the terminal or side amino groups with a molecular weight of said copolymer of not more than 500,000. 4. The composition for the antiseptic treatment of woven materials according to claim 1, characterized in that deionized water is used as a solvent.

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