RU2007190C1 - Fibrous carbon fabric - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: fabric comprises carbon warp with spun-in threads of activated coal or charcoal. Relation of distribution densities of activated and charcoal threads in warp is 5: 7 while relation of their porosities is 1.7: 2.8. EFFECT: better utilization of carbon fabrics.

Description

 The invention relates to medicine and can be used as a dressing for wounds.

 Known carbon fiber fabric containing a fabric base and an additive in the form of threads of activated carbon with a certain porosity. This tissue is used as an exudate sorbent in the form of dressings for wounds. However, due to the specific properties of the activated carbon filament, this fabric is extremely unstable and, getting wet from the wound, spreads, which requires a frequent change of dressing, and this in turn additionally injures the wound surface. This negative effect makes it difficult to use this kind of fabric.

 The closest technical solution is carbon fiber fabric, adopted as a prototype and containing a fabric filament, made in the form of carbon fabric and additives from charcoal and activated carbon, made in the form of threads spun into the base. This fabric, due to the presence of reinforcing charcoal fibers in it, is strong enough and does not creep out when wet on the wound, however, due to the need to replace part of the activated carbon fibers with charcoal fibers, the sorption capacity of this kind of fabric is not great.

 The technical result is to increase the efficiency of carbon fiber tissue by increasing its sorption ability while maintaining sufficient strength.

 This technical result can be achieved due to the fact that in the specified carbon fiber fabric, the distribution density of the filaments of the activated carbon additive in the woven carbon fiber basis to the distribution density of the filaments of the charcoal additive in the woven carbon fiber base is 5/7, and the porosity ratio additives from activated carbon to the porosity of additives from charcoal is in the range of 1.7-2.8.

 As shown by experimental studies, when the ratio of the distribution densities is exceeded, the carbon tissue begins to lose its strength properties and spreads when it gets wet from the wound, and with a decrease in the ratio, the sorption qualities of the tissue begin to decrease sharply. In addition, during the research it was found that at a given ratio of the distribution densities of activated carbon and charcoal filaments, depending on the porosity of the additive, the value of atraumaticity changes significantly, which has an optimal value when the ratio of the porosity of the activated carbon additive to the porosity of the charcoal additive is 1 , 7-2.8.

 The proposed carbon fiber fabric can be made on rapier walls where activated carbon and charcoal threads with predetermined porosity are woven into a carbon fabric base. Before being applied to the wound, the tissue may undergo electrochemical etching, drug impregnation and sterilization.

 Carbon tissue is applied to a previously cleaned and treated wound surface and is fixed with a cotton-gauze dressing. Due to these ratios, the tissue does not creep on the wound for several days (up to 12 days), effectively sorb exudate from the wound during this entire period, and is removed almost painlessly when changing the dressing.

 A carbon cloth dressing was used to treat purulent post-traumatic wounds and wounds of patients with osteomyelitis. The tissue was tightly attached to the wounds on parts of the body with various reliefs, did not cause itching and irritation of the skin, did not crawl for several days, did not have an allergenic and local irritant effect on the wound and skin, and was removed painlessly when changing the dressing.

 After 3-4 days from the moment of application of the tissue, inflammatory phenomena, pains subsided, the temperature of the patients returned to normal. Wounds were cleansed of purulent contents. After 5-6 days without changing the dressing, live granulation and marginal epithelization of wounds appeared.

 The use of dressings with carbon tissue in the first layer made it possible to quickly eliminate inflammation, cleanse the wound from purulent discharge, significantly accelerate the granulation process, which contributed to the fastest epithelization of wounds. Due to the lack of need for dressing changing parts, the healing time of patients was significantly reduced. (56) EPO 0053936, CL A 61 L 15/03, 1988.

Claims (1)

 CARBON FIBER FABRIC, made in the form of carbon filaments spun into a base and additives from charcoal and activated carbon, characterized in that the ratio of the distribution density of the filaments of activated carbon in the carbon filament base and the distribution density of the filaments of the charcoal additive in the carbon-based carbon fiber is 5: 7, and the ratio of the porosity of the additive from activated carbon and the porosity of the additive from charcoal is 1.7: 2.8.