RU2656502C1 - Method for producing a biodegradable film based on chitosan and starch for medicine - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to a method for producing a biodegradable film that retains its integrity in a physiological solution for 5–7 days in a 0.9 % aqueous solution of sodium chloride with a TRIS buffer for 20 days containing starch and chitosan, for use in pharmaceutics, medicine, veterinary medicine, food or cosmetic industry. Method for producing a biodegradable film based on chitosan and starch for medicine includes the preparation of a solution of chitosan in 2 % acetic acid and an aqueous solution of starch, mixing solutions, forming the film, drying, processing with aqueous ammonia solution.

EFFECT: reduction of solubility of the biodegradable film.

1 cl, 2 ex

Description

The invention relates to compositions of biodegradable films containing starch and chitosan for use in pharmaceuticals, medicine, veterinary medicine, the food or cosmetic industry.

Chitosan is a biocompatible and biodegradable polymer that exhibits antibacterial activity, which allows it to be used in various fields of medicine, including for the rapid healing of wounds of various etymologies (Chitin and Chitosan. Preparation, properties and applications. Edited by Academician of RAAS KG Skryabin Science. 2002. 365 pp.). Chitosan-based porous polymer matrices are proposed to be used in medicine for bone tissue restoration (patent No. 2554811 “Method for producing porous chitosan sponges containing calcium phosphates to fill bone defects”, RF patent No. 2412711 “Porous composite material based on chitosan and gelatin containing octacalcium phosphate to fill bone defects ”).

Т. et al. Effect of ionic and covalent crosslinking agents on properties of chitosan beads and sorption effectiveness of Reactive Black 5 dye // Reactive and Functional Polymers. - 2017. - T. 114. - C. 58-74). Пленки на основе хитозана, сшитого глутаровым альдегидом, или содержащим карбонильные группы сшивающим реагентом генипином (Mt F.-L., Huang C.-T., Liang H.-F. et al. // J. Agr. Food Chem., 2006, v. 54, p. 3290-3296), предложены в качестве покрытий различных пищевых продуктов; хитозановые пленки используют в качестве съедобных пленок для качественного хранения пищевых продуктов.Bifunctional aldehydes such as glyoxal, glutaraldehyde (

T. et al. Effect of ionic and covalent crosslinking agents on properties of chitosan beads and sorption effectiveness of Reactive Black 5 dye // Reactive and Functional Polymers. - 2017.- T. 114.- C. 58-74). Films based on chitosan crosslinked with glutaraldehyde or containing carbonyl groups with a genipin crosslinking reagent (Mt F.-L., Huang C.-T., Liang H.-F. et al. // J. Agr. Food Chem., 2006, v. 54, p. 3290-3296), are proposed as coatings for various food products; chitosan films are used as edible films for high-quality food storage.

The use of glutaraldehyde in the preparation of various physical forms of polymer materials based on chitosan, in particular biotechnological and medical purposes, having various types of biological activity, is due to its ability, when interacting with the aminopolysaccharide, to form strong biocompatible porous structures with high moisture retention [Vikhoreva G.A., Kildeeva N.R., Ustinov M.Yu., Nochevkina Yu.N. // Chem. fiber, 2002, No. 6, p. 29-33; Vikhoreva G.A., Shablykova E.A., Kildeeva N.R. // Chem. fiber, 2001, No. 3, p. 38-42; Acharya A.S., Suseman L.G., Manning J.M. / A. J. Biol. Chem., 1983, v. 285, No. 4, p. 2296-2302; JameelaS.R., JayakrishnanA. // Biomaterials, 1995, No. 16, p. 769-775]. The disadvantage of the above materials is the high toxicity of the reagent used for the partial crosslinking of chitosan - glutaraldehyde.

Membranes of polylactides and / or polyglycolides impregnated with chondrocytes or bone marrow MSCs are patented as a method for treating bone and cartilage defects in humans and animals [Bostman O., PaivarintaU., PartioE., Vasenius J., ManninenM, RokkanenP. Degradation and tissue replacement of an absorbable polyglycolide screw in the fixation of rabbit femoral osteotomies. J. BoneJoint. Surg. Am. 1992. Aug; 74 (4): 1021-31]. The disadvantages of such membranes are fast and not always predictable degradation, which is accompanied by a local decrease in pH in the implant region, which reduces the effectiveness of their use.

As a prototype, the closest to the claimed invention was selected - patent No. 2458077 "Biodegradable film based on pectin and chitosan." The biodegradable film contains pectin, chitosan, water, mono-normal hydrochloric acid, a plasticizer - glycerin, and a three-percent methylcellulose solution builder. The invention describes a method for producing a uniform biodegradable film without the disadvantages of a structure similar in homogeneity, ductility, and strength to packaging polyethylene films for domestic use. The disadvantage of the above invention is the too high dissolution rate of the film in model liquids - not more than 3 days: after 3 days, the film completely dissolves. 3 days is too short a time for using such material as a membrane in osteoplastic surgery.

The technical result, the solution of which this invention is directed, is to reduce the solubility of the film.

The technical result is achieved in that the composition and method for producing a biodegradable film based on chitosan and starch for medicine, including the preparation of a solution of chitosan in 2% acetic acid and an aqueous solution of starch, mixing solutions, forming a film, drying, according to the invention, the biodegradable film contains chitosan, starch and water in the following ratio of components:

Chitosan 0.667-1.33% of the mass. Starch 0.2-0.667% of the mass. Water rest,

and to reduce solubility, the film after drying is treated with 10% aqueous ammonia for 10-30 minutes.

To obtain a film, aqueous solutions of chitosan with a molecular weight of 450-500 kDa in 2% acetic acid and a 2% starch solution are prepared. The solutions are mixed in the above ratios. The film is formed on polypropylene substrates and dried in air at room temperature. Chitosan gives the film antibacterial activity. The introduction of starch into the film increases the dissolution rate; the introduction into the film of an amount of starch in excess of the specified leads to dissolution of the film after 2 days or less. However, both aldehydes are highly toxic substances, therefore, to remove them from the material, multiple washing of the materials crosslinked with ethanol and distilled water is used, which increases the time it takes to obtain the material and its cost. In the present invention to reduce the solubility of the films used an aqueous solution of ammonia.

When a chitosan-containing film is treated with ammonia, its solubility decreases due to the conversion of chitosan from a more soluble ionic form to a less soluble molecular form.

Example 1

Pre-prepared 2 wt.% - aqueous solution of chitosan in 2% acetic acid and 2 wt.% - aqueous solution of starch. 40 ml of a solution of chitosan is mixed with 20 ml of a starch solution, after which a film is formed by pouring the resulting mixture onto a substrate of polyethylene or polypropylene and dried on a horizontal surface at room temperature until completely dried. The resulting film was immersed for 30 min in a 10% aqueous ammonia solution. After treatment with ammonia, the film is dried at room temperature until completely dry. The time to preserve the integrity of the film in physiological saline is 5-7 days.

Example 2

Pre-prepared 2 wt.% - aqueous solution of chitosan in 2% acetic acid and 2 wt.% - aqueous solution of starch. 40 ml of chitosan solution is mixed with 10 ml of starch solution, after which the film is formed by pouring the resulting mixture onto a substrate of polyethylene or polypropylene and dried on a horizontal surface at room temperature until completely dried. The resulting film was immersed for 30 min in a 10% aqueous ammonia solution. After treatment with ammonia, the film is dried at room temperature until completely dry. The resulting film was immersed in a 0.9% aqueous sodium chloride solution containing TRIS buffer (pH 7.4). After 20 days, the film remained intact.

Claims (1)

A method of producing a biodegradable film based on chitosan and starch for medicine, characterized in that to obtain a biodegradable film, solutions of a concentration of 2 wt.% Chitosan with a molecular weight of 450-500 kDa in 2% acetic acid, 2 wt.% Aqueous starch are mixed with a volumetric the ratio of chitosan: starch from 4: 1 to 2: 1, the film is formed by pouring the resulting mixture onto a substrate of polyethylene or polypropylene, drying is carried out at room temperature, and the dried film is processed to reduce solubility with 10% aqueous ammonia solution for 30 min.