RU2449781C2 - Antimicrobial and wound healing agent of hydrogel polymeric matrix - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine. What is described is an antimicrobial and wound healing agent of hydrogel polymeric matrix used for wounds, burns and dermatologic disorders. The agent has the following formulation, wt %: polyvinylpyrrolidone - 2-10, agar - 1, polyethylene oxide - 1-3, an antimicrobial pharmaceutical substance selected from gentamycin and miramystine - 0.02-1,0, water - the rest. The agent is prepared by cross-linking medical polymers under ionising radiation. The hydrogel polymeric matrixes of the various area are sterile and ready for application on open wound surfaces.

EFFECT: agent exhibits elasticity, breaking strength, sorption properties in relation to wound exudate, transparency that enables following a course of wound process, painless removal from wound surface, creates an optimum microclimate in a wound (humidity, temperature).

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Description

The invention is an application hydrogel agent for the treatment of wounds, burns, dermatological disorders, relates to the field of pharmaceutical industry and medicine. It is obtained by crosslinking, in particular under the influence of ionizing radiation, medical polymers.

Known analogues of the claimed invention. At the Research Institute of Surgery. A. Vishnevsky developed the Appolo hydrogel for the treatment of wounds and burns [1]. Appolo hydrogel is a thick, viscous liquid that is applied to the surface of the wound as a primary dressing, which prevents the formation of blisters (with superficial burns), facilitates the surgical removal of a burn scab during deep burns, relieves pain, swelling, and provides conditions for normal the course of reparative processes in the wound, the migration of epithelial cells and the prevention of the formation of keloid scars. Appolo hydrogels are based on acrylamide and acrylic acid. The composition of hydrogels includes medicinal substances miramistin and iodovidone as antiseptics and anilokain as an anesthetic. However, the use of acrylamide can lead to undesirable consequences with prolonged use of hydrogels. Acrylamide is a known carcinogen and exhibits a toxic effect, easily penetrating the skin [2].

Appolo hydrogels are inferior in structural and mechanical properties, i.e. represent a viscous fluid and do not protect the wound surface from mechanical injury in comparison with the claimed tool. Appolo hydrogels do not have elasticity and tensile strength; they are difficult to remove from the wound surface. Appolo hydrogels can drain from the wound; to hold them on top, an additional napkin or knitted mesh cloth is applied.

The prototype of the claimed invention is a hydrogel polymer coating consisting of polyvinylpyrrolidone (2-10%), agar (not more than 3%) and polyethylene oxide (1-3%), which is obtained by radiation crosslinking [3]. Aqueous solutions of polymers are mixed, the resulting mixture is placed in a container that gives shape to the coating, carefully corked and irradiated with ionizing radiation at a dose of 25-40 kGy. These coatings are used as dressings. However, the prototype coating is not always effective in the treatment of infected wounds, as it does not contain the necessary active ingredients that inhibit the development of pathogenic microflora.

The objective of the invention is the creation of a dressing with antimicrobial and wound healing properties, able to bind and accumulate wound exudate in itself due to the absorption properties of the gel matrix. This is achieved by the fact that in the inventive preparation, the pharmaceutical substance of the antimicrobial effect is introduced into the polymer matrix of the prototype in an amount of 0.02-1.0%. As a pharmaceutical substance of antimicrobial action, hydrogel polymer matrices contain miramistin or gentamicin. The tool has the following composition, wt.%:

polyvinylpyrrolidone - 2-10 agar - 1-3 polyethylene oxide - 1-3 antimicrobial pharmaceutical substance - 0.02-1.0 water - the rest,

differs from the prototype in that it further comprises an antimicrobial pharmaceutical substance selected from gentamicin or miramistin.

The tool is obtained as follows:

Example 1. In a container with distilled water add 2.0% by weight of polyvinylpyrrolidone, 3.0% by weight of agar, 1.0% by weight of polyethylene oxide, mix until a homogeneous solution is heated. Then add 1.0% by weight of miramistin or gentamicin, mix. The resulting solution is poured into molds from a polymer material, packaged. Packaged hydrogel is subjected to radiation treatment with accelerated electrons or gamma rays with a dose of 25-30 kGy.

Example 2. In a container with distilled water contribute 10.0% by weight of polyvinylpyrrolidone, 1.0% by weight of agar, 3.0% by weight of polyethylene oxide, mix until a homogeneous solution is heated. Then add 0.02% by weight of miramistin or gentamicin, mix. The resulting solution is poured into molds from a polymer material, packaged. Packaged hydrogel is subjected to radiation treatment with accelerated electrons or gamma rays with a dose of 25-30 kGy.

Example 3. In a container with distilled water, 7.5% by weight of polyvinylpyrrolidone, 1.5% by weight of agar, 1.5% by weight of polyethylene oxide are added, mixed until a homogeneous solution is heated. Then add 0.05% by weight of miramistin or gentamicin, mix. The resulting solution is poured into molds from a polymer material, packaged. Packaged hydrogel is subjected to radiation treatment with accelerated electrons or gamma rays with a dose of 25-30 kGy.

An antimicrobial and wound healing agent based on hydrogel polymer matrices is used by applying directly to the wound or burn surface after surgical treatment, the wound toilet. The hydrogel is carefully modeled according to the surface of the wound and fixed. Apply the drug in the 1st and 2nd phases of the wound healing process.

Dressings are made every day, if necessary - every other day. In the presence of a wound in a patient after autodermoplasty, dressings are performed two days later.

As a result of preclinical biomedical studies, it was found that aqueous extracts from hydrogel matrices do not have a systemic toxic effect on the animal organism, do not adversely affect the basic functional systems of the body (central nervous system, cardiovascular system, liver and kidney function), do not show hemolytic, cytotoxic and local irritant properties. With subchronic parenteral administration, they do not irritate the peritoneum, do not induce adhesions in the peritoneal cavity, do not affect the blood system and immunoreactivity of animals, do not cause pathological changes in internal organs and are biologically safe.

When hydrogel matrices come into contact with the wound surface, mucous membranes, subcutaneous tissue, serous and epithelial tissues, there are no signs of a local tissue reaction of an alterative, irritating or inflammatory nature.

When applied to the wound surface, hydrogel matrices do not inhibit the growth of granulation tissue, inhibit the development of suppurative process, drying of the wound surface and, together, provide optimal conditions for epithelisapia and wound healing.

The experimental data testify in favor of the optimizing effect of the application of hydrogel matrices on the rate of wound healing and the prevention of infectious and inflammatory complications. Application of hydrogel matrices accelerates the healing of full-layer skin wounds by stimulating reparative processes and enhancing the barrier-protective function of the skin [4].

An antimicrobial and wound healing agent based on hydrogel polymer matrices does not cause local and systemic toxic or allergic effects both directly during long term use and in the long-term follow-up [5].

Information sources

1. TU 9393-001-42965160-01

http: /www.td-appolo.ru.

2. A.A. Alekseev, A.E. Bobrovnikov, M.G. Krutikov, L.S. Puchkova, E.E. Mamagov, F.A. Makhmutov, E.V. Kozlova. The use of wound dressings for the treatment of burn wounds / Russian Medical Journal / No. 1, 2004.

3. United States Patent. Method of manufacturing hydrogel dressings. Patent Number: 4871490 (prototype).

4. Report on preclinical biomedical research, Minsk, 2003.

5. Report on the conduct of phase I clinical trials of drugs "Miramistin Hydrogel" and "Gentamicin Hydrogel", Minsk, 2004.

Claims (3)

1. Antimicrobial and wound healing agent based on a hydrogel polymer matrix, consisting of polyvinylpyrrolidone, agar, polyethylene oxide and water, characterized in that it additionally contains an antimicrobial pharmaceutical substance selected from miramistin and gentamicin, in the following ratio, wt.%:
polyvinylpyrrolidone 2-10 agar 1-3 polyethylene oxide 1-3 antimicrobial pharmaceutical substance 0.02-1.0 water rest 2. The antimicrobial and wound healing agent based on the hydrogel polymer matrix according to claim 1, characterized in that the pharmaceutical substance is gentamicin. 3. The antimicrobial and wound healing agent based on the hydrogel polymer matrix according to claim 1, characterized in that the pharmaceutical substance is miramistin.