RU2311931C1 - Method for dressing production - Google Patents

Abstract

FIELD: medicine, veterinary.

SUBSTANCE: claimed method includes material impregnation with sorbent having high absorbing properties in relates to gaseous xenon. Then material is fed in sealed chamber, chamber is filled with gaseous xenon and held under excessive pressure up to full material saturation with xenon.

EFFECT: dressing with wound healing, analgesic, and antiseptic properties.

5 cl

Description

The invention relates to medicine and veterinary medicine, in particular to a technology for producing dressings with wound healing, disinfectant, analgesic and antiseptic properties, which can be used to treat wounds, burns, during surgical operations, etc.

Known methods for producing dressings by treatment with a chemical substance (RU 2261724 C2, 10.10.2005; RU 2186797 C2, 08/10/2002; RU 2127127 C1, 03/10/1999).

The closest in technical essence and the achieved result to the claimed method is the technical solution according to patent RU 2143923 C1, RESEARCH INSTITUTE OF TEXTILE MATERIALS, 10.01.2000, IPC 7 A61L 15/00, 15/44. From RU 2143923 a method for producing a dressing by treatment with a chemical substance is known.

The objective of the invention is to develop a method for producing dressings that allows you to expand the arsenal of highly effective wound healing and disinfectant dressings that can be used for the manufacture of cuts, bandages, napkins, turundas, tuffers, bags, sanitary napkins, tampons, etc.

The specified technical result is achieved by the fact that in the method for producing the dressing by treating it with a chemical substance, according to the invention, the material is impregnated with a sorbent with high absorption capacity with respect to gaseous xenon, after impregnation the material is placed in an airtight chamber. Then the chamber is filled with gaseous xenon and kept under overpressure until the material is completely saturated with xenon.

In addition, it is envisaged that the chamber is evacuated before being filled with gaseous xenon.

It is also provided that the process of holding the material under excess pressure until it is completely saturated with xenon is carried out at room temperature.

It is recommended that tissue be used as dressing.

It is advisable that activated carbon be used as the sorbent.

A method of obtaining a dressing material is as follows.

The dressing is impregnated with a sorbent with a high absorption capacity against gaseous xenon. Such sorbents are synthetic zeolites of the CaA and CaEx brands (RU 2153638 C1, AKELA-N LLC, 07.27.2000) or activated carbon (Air separation by deep cooling. Edited by V. I. Epifanova and L. S. Axelroda .. Volume 2. M .: Mechanical Engineering, 1973, 3. Xenon and its production p. 94-97).

The impregnation process does not require new technologies and previously unused tools for its implementation. Mainly used as a dressing material is a fabric (fibrous material), which is well impregnated with a sorbent. Activated carbon is recommended to be used as a sorbent, since the latter has the highest absorption ability with respect to gaseous xenon among sorbents known to date. After the impregnation process, the material is placed in a sealed chamber, which is filled with gaseous xenon and kept under excess pressure until the material is completely saturated with xenon. To absorb more xenon with a sorbent, the chamber is evacuated before it is filled with gaseous xenon, and the process of holding the material in the chamber under excess pressure until it is completely saturated with xenon is carried out at room temperature. After the material is kept in the chamber until it is completely saturated with xenon, the material is taken out of the chamber and sealed in sealed bags or sent to the manufacture of appropriate medical and hygiene products: bandages, napkins, turundas, tuffers, bags, tampons, sanitary towels, etc.

When dressing is applied at room temperature, for example on a wound, the temperature of the material rises and takes the patient's body temperature. As a result of the increase in temperature, gaseous xenon begins to be intensively released from the material impregnated with the sorbent, which contributes to disinfection and effective (accelerated) wound healing.

It is recommended to saturate dressings with xenon to use medical xenon, used in medical practice as an anesthetic (RU 21955327 C1, 11/15/2001; RU 2183476 C2, 06/20/2002, as well as the book - N. Burov, V.N. Potapov and Makeev G.N., Xenon in anesthesiology, Clinic - Experimental Research, Moscow: Pulse, 2000).

Claims (5)

1. A method of producing a dressing material by treating it with a chemical substance, characterized in that the material is impregnated with a sorbent with high absorption ability with respect to gaseous xenon, after the impregnation, the material is placed in an airtight chamber, then the chamber is filled with gaseous xenon and kept under pressure until the material is completely saturated xenon. 2. The method according to claim 1, characterized in that the chamber is evacuated before it is filled with gaseous xenon. 3. The method according to claim 1, characterized in that the process of holding the material under excess pressure until it is completely saturated with xenon is carried out at room temperature. 4. The method according to claim 1, characterized in that the tissue is used as a dressing. 5. The method according to claim 1 or 4, characterized in that activated carbon is used as the sorbent.