RU2407550C1 - Antibacterial composite and method for making thereof - Google Patents

Abstract

FIELD: medicine, pharmaceutics.

SUBSTANCE: invention refers to medicine, more specifically to production of materials containing nano silver, and related home and medical devices, and particularly to an antibacterial material and a method for making thereof, including for preparing dosage forms for treating the patients with a wide spectrum of diseases of various etiology, used for treating the patients with burn injures, herpes, neurodermatitis, psoriasis, dermatitis, acne, mycotic lesions, etc. Also, the invention presents the method for making an antibacterial composite that involves sample pre-testing for surface behaviour and further recovery of silver on the powder carrier surface from a water or aqueous-alcoholic silver nitrate of silver concentration 0.1-3.0 wt %, with tannin of concentration 0.05-2.0 wt % at room temperature.

EFFECT: invention allows to extend the range of materials due to the use of the antibacterial composite containing silver localised on the powder carrier surface having the behaviour of the silver layer thickness not less than 5 nm.

4 cl, 3 ex

Description

The invention relates to the production of materials containing nanosilver, and products based on them for household and medical purposes, and, in particular, to antibacterial material and a method for its production, including for the manufacture of dosage forms for the treatment of patients with a wide range of diseases of various etiologies, used to treat patients with burn lesions, herpes, neurodermatitis, psoriasis, dermatitis, acne, fungal infections, etc.

It is known that one of the most effective antibacterial agents is composite materials containing nanosized particles of metallic silver or its sparingly soluble compounds in water. The patent literature describes the use of such composite materials in the form of

- cellulose and boron-aluminophosphate fiberglass [Patent US 6592858 July 2003; Patent US 6815379 Nov. 2003];

- fibrous textile materials (cotton, linen, silk, wool, leather, artificial and synthetic fibers or combinations thereof) containing from 0.2 to 1.5% wt. nanosized (1-100 nm) silver particles, which were obtained by reducing silver nitrate with glucose, ascorbic acid, hydrazine or hydrazine hydrate, followed by drying of the yarn at a temperature of 120-160 ° C for one hour. The resulting product had an antibacterial effect against bacteria, fungi, including Chlamydia, as well as Escherichia coli, Methicillin resistant Staphylococcus aureus, Chlamydia trachomatis, Providencia stuartii, Vibrio vulnifikus, Pneumobacillus, Bactillocusus bacillocus bacillus campisulococida bacillus allis bacillocus bacillus albaphococcus allis , Morgan's bacillus (Salmonella morgani), Pseudomonas maltophila, Pseudomonas aeruginosa, Neisseria gonorrohoeae, Bacillus aubtilis, Bacillus foecalis alkaligenes, Streptococcus hemolyticus B, Citobacter and Salmonella paratyenti791. US. 428-361 dated 12/27/2005];

- gels based on starch and its derivatives, cellulose and its derivatives, polymers and copolymers, acrylate or its derivatives, polyvinylpyrrolidone, xanthate gel [Patent application US Patent Application 20030185889 of October 2, 2003];

- activated carbon powder with a specific surface area of 1200-1500 m ² / g with a deposited layer of nanosilver (particle diameter 30-100 nm and a concentration of 0.005 - 1000 ppm) obtained by heat treatment of a powder impregnated with AgNO ₃ solution at a temperature of 1 OS-130 ° C. [US Patent Application 20060240980 of October 26, 2006];

- a mechanical mixture of nanosized silver particles with wax (patent application of the American company Tuscom US Patent Application 2005015992 dated July 14, 2005).

The closest in technical essence and the achieved result is an antibacterial fibrous composite material and the method for its preparation described in RF patent No. 2337716 dated 03.07.2007 (Cl. A61L 15/18), according to which silver is restored from an aqueous solution of silver nitrate by tannin at 80 -90 ° C.

The objective of the invention is to expand the range of materials containing nanosilver, in particular, through the use of materials with a developed surface.

The problem is solved by an antibacterial powder material containing nanosilver localized on its surface, moreover, a powder is used as a carrier, the surface of which is of the main character, and the thickness of the deposited silver layer is at least 5 nm.

As a carrier, a finely divided powder of magnesium hydroxide, magnesium oxide or magnesium oxocarbonate or natural kaolin in cosmetic forms can be used.

The problem is also solved by the method of obtaining an antibacterial composite material, comprising the steps of:

- preliminary testing of the powdered material for the presence of a basic character at the surface, determined by the adsorption of an organic dye;

- recovery of silver from an aqueous or aqueous-alcoholic solution of silver nitrate with a silver concentration of 0.1-3% wt. a solution of tannin 0.05-2.0% wt., and the process is carried out at room temperature on the surface of the powder carrier, which is a catalyst for the process and an adsorbent fixing the reactants and the resulting silver.

Obtaining an antibacterial composite material containing nano-silver is carried out in a technological process, including the following operations.

1. Testing of powdered samples for the adsorption of organic acid dye.

2. Preparation of mixed aqueous or aqueous ethanol solutions of silver nitrates with a concentration of 0.1-3% wt. and tannin 0.05-2% wt., in which the interaction of the reactants at room temperature occurs at a low speed and is expressed in the appearance after 10-15 minutes of a mild red-brown color.

3. Adding the prepared solution to the powder of the carrier, which has a basic character with subsequent homogenization of the mixture. As carriers, in particular, magnesium oxide, hydroxide and hydroxocarbonate, natural kaolin in cosmetic forms can be used

- white, blue and pink clay.

4. Drying the resulting powder to a free-flowing state.

Practical examples.

Example No. 1

Powdered magnesium oxide produced by the Krasny Khimik plant with a specific surface area of 5.8 m ² / g (calculated by the BET equation from argon adsorption data) was tested for adsorption of acid red dye. For this, 2 g of magnesium oxide was introduced into an aqueous solution of acid red-C dye. After agitation of the suspension for 2-3 minutes and subsequent precipitation of the powder from the suspension, the optical density of the solution was recorded. A decrease in the color density and staining of the powder after draining the solution was observed. A positive test result provided the basis for the use of this material as a carrier for the preparation of a composite material containing silver.

For this purpose, 5 g of magnesium oxide was thoroughly mixed in a porcelain cup with 10 ml of water until a homogeneous viscous flowing mass was obtained. To the resulting mass at room temperature (20 ° C) with constant stirring was added an aqueous solution composed of 10 ml of 0.3% wt. a solution of tannin and 5 ml of 2% wt. silver nitrate. The resulting mobile mass acquired a uniform dark brown color.

To remove water, the resulting mixture was heated in a stream of hot air. The silver content in the prepared composite material was 1.3% wt. The relationship between the concentration of silver (wt.%) In the composite material and the thickness of the layer (δ) of silver (nm) is expressed by the formula:

where ρ _Ag is the density of silver equal to 10.5 g / cm ³ ; S is the specific surface of the powder carrier (m ² / g).

The deposited silver was distributed over the surface of the carrier in the form of a layer with a thickness of 21.3 nm.

Example No. 2

Powdered magnesium oxide produced by the factory "Red Chemist" with a specific surface area of 11.8 m ² / g was tested for basicity of the surface, as described in example No. 1. After a positive test result, a 5 g sample of magnesium oxide was thoroughly mixed in a porcelain cup with 10 ml of water until a uniform, uniform, thick paste was obtained. To the resulting mass at room temperature (20 ° C) and constant stirring was added an aqueous solution composed of 10 ml of 0.3% wt. a solution of tannin and 5 ml of 2% wt. silver nitrate. The resulting mobile mass acquired a uniform yellow-brown color. To remove water, the resulting mixture was heated in a stream of hot air. The silver content in the prepared composite material was 1.3% wt. The deposited silver was distributed over the surface of the carrier in the form of a layer with a thickness of 10.5 nm.

Example No. 3

To a powdered magnesium oxide produced by the factory “Red Chemist” with a specific surface area of 5.8 m ² / g (according to Example 1), taken in an amount of 2 g, was added a water-alcohol (1: 1 by volume) solution composed of 2 ml 2.0% wt. a solution of tannin and 50 ml of 0.1% wt. silver nitrate. The mixture was thoroughly mixed in a porcelain cup to a viscous mass. The resulting mass acquired a uniform dark brown color. To remove water, the resulting mixture was heated in a stream of hot air. The silver content in the prepared composite material was 1.6% wt. The deposited silver was distributed over the surface of the carrier in the form of a layer with a thickness of 26.6 nm.

Checking the antibacterial activity of the prepared composite materials was carried out using them in the form of pastes based on glycerol, obtained by mixing the powder with glycerin, to a consistency that ensured the preservation of the form when applied to the surface. Testing for St.epidermidis and Ps. Aeroginosa was carried out at the Test Center for dressings, sutures and polymeric materials in surgery at the FGU “Institute of Surgery named after A.V. Vishnevsky Rosmedtehnologii "in accordance with the Methodological instructions of the Ministry of Health. The test results showed that the samples according to example No. 1 and example No. 3 had satisfactory bactericidal activity both in relation to the culture of Staphylococcus aureas, and in relation to Ps. Aeroginosa (3 conventional units). The observed effect of a certain decrease in activity in sample No. 2 to 2 srvc. was due to a decrease in the thickness of the deposited silver layer.

As can be seen from the above examples, the proposed antibacterial composite material containing a nanoscale silver layer, localized on the surface of the carrier with the basic properties, has antimicrobial activity and can be used to make pastes, ointments and liniment based on it.

Claims (4)

1. An antibacterial composite material containing silver, localized on the surface of the carrier, characterized in that the carrier uses highly dispersed powders of magnesium oxide, hydroxide and hydroxycarbonate, natural kaolin in cosmetic forms - white, blue and pink clay, and the thickness of the applied silver layer is not less than 5 nm. 2. The method for producing the antibacterial composite material according to claim 1, comprising recovering silver from an aqueous solution of silver nitrate with a silver concentration of 0.1-3.0 wt.% Tannin solution with a concentration of 0.05-2.0 wt.% And applying reduced silver on the surface of the carrier, characterized in that the process is carried out at room temperature on the surface of the powder carrier, and the sample is first tested for the presence of the basic nature of the carrier, determined by the adsorption of organic dye. 3. The method according to claim 2, characterized in that the process is carried out in a water-alcohol solution. 4. The method according to claim 2, characterized in that the acid red is used as the organic dye.