RU2701141C1 - Carbon sorption wound dressing from carbon fibrous material - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, more specifically to carbon sorption wound dressing, and aims at treating purulent, coughing-up, complicated postoperative wounds and fistulas. Carbon sorption wound dressing from carbon fiber material is carbonized by initial viscose material in presence of pyrolysis catalyst with subsequent activation in water vapor medium, is characterized by that initial viscose material is made of viscose technical thread pre-impregnated with aqueous emulsion of oligomer resin, based on oligomer with content of silanol groups (5–15) % and treated before carbonization in air atmosphere at 180–200 °C for 0.5–1.0 hours, wherein specific surface of dressing is (1,200–1,500) m²/g, moisture absorption 350±20 %, air permeability 125±20 dm³/m²s, carbon content of 85–89 %, pyrolysis catalyst used is polymethylsiloxane.

EFFECT: improved operational properties of the wound dressing, including higher sorption capacity.

1 cl, 2 ex

Description

The invention relates to medical equipment and is intended for the treatment of purulent, sluggish, complicated postoperative wounds, fistulas.

The prior art multilayer antibacterial dressing, the second layer of which is carbon tissue. (EPO Application No. 0219522, class A61F 13/00; 1987).

A multilayer wound dressing is known, one of the layers of which is activated carbon tissue. (Application EPO No. 0218667, class A 61L 15/03/1989).

Known wound dressing made of woven carbon fiber material made by carbonization of viscose fabric in the presence of metal salts, followed by activation in the environment of water vapor at elevated temperature (EPO No. 0311364, class A61L 15/03/1989.)

All known dressings according to the aforementioned patents have such disadvantages as low strength, leading to frequent replacement of dressings for the treatment of purulent-septic and infected wounds, which significantly increases the injury rate of the wound and is accompanied by a significant pain effect.

The closest technical solution is a wound dressing made of woven carbon fiber material made by carbonization of the initial viscose fabric in the presence of polyorganosiloxane followed by activation in the environment of water vapor at elevated temperature (US Pat. RF No. 2173175, IPC A61L 15/18, 2001).

This wound dressing has a sorption ability, however, the method of producing carbon fiber material makes it possible to produce a carbon material with a specific surface area of at least 600 m ² / g and reduced strength (50 kg / 5 cm), which reduces the effectiveness of the treatment,

The problem to which the invention is directed, is to increase the effectiveness of the treatment of burns and infected wounds.

The technical result when using the proposed invention is to improve the operational properties of the wound dressing, including increasing sorption ability.

The specified technical result is achieved in that the carbon sorption wound dressing of carbon fiber material, made by carbonization of the initial viscose material in the presence of a pyrolysis catalyst for cellulose fiber, followed by activation of water vapor in the medium, according to the proposal, the initial viscose material is made of viscose technical thread, previously impregnated with water emulsion of oligomeric resin and treated before carbonization in an air atmosphere at a temperature of 180-200 ° C for of 0.5-1.0 hours, the specific surface area of the dressing (1200-1500) m ² / g, water absorption (350 ± 20)%, an air permeability (125 ± 20) dm ³ / m ² with a carbon content 85 -89%).

In addition, the specified technical result is achieved in that the aqueous emulsion is based on an oligomer with a high content of silanol groups (5-15)%, and polymethylsiloxane is used as a catalyst for the pyrolysis of cellulose fiber.

The wound sorption dressing is made of the original viscose fabric, consisting of viscose technical threads with a linear density of 195 tex and 390 tex, pre-impregnated in an aqueous emulsion of oligomeric resin with a high content of silanol groups (5-15)% and processed before carbonization in air at a temperature of 180 -200 ° С followed by carbonization when the temperature rises from 180 ° С to 700 ° С and activation of water vapor in the medium at an elevated temperature from 20 ° С to 930 ° С and further cooling. After that, the activated carbon fabric is placed according to the size of future dressings in the form of napkins, bandages and other textile forms at the places of markings.

A wound dressing made according to this method has a specific surface area of at least 1200 m ² / g, increased strength ≈ 60 kg / 5 cm strip, moderate desorption, low adhesion, pronounced hemostatic effect. The dressing actively sorbes microbial bodies, chemicals, and has a deodorizing effect. Dressings in the form of napkins are recommended for the treatment of burn wounds, trophic ulcers, fistulas and purulent wounds, where productive processes are predominant, accompanied by profuse purulent separation and tissue necrosis. Possessing great hygroscopicity, the napkin adsorbs wound compartments, prevents the absorption of toxic substances into the blood and helps to reduce treatment time.

A wound dressing of woven carbon fiber material is applied to the wound and is not removed within (1-12) hours, depending on the amount of wound discharge. The multiplicity of dressings is not limited to the complete cleansing of the wound and subsequent plastic surgery or the application of secondary sutures, or to complete epithelization of the wound.

The specific surface of the wound dressing was determined by low-temperature nitrogen adsorption according to the isotherm of Brunauer, Emmett, Teller (BET) described in the book (S. Greg, C. Sing. Adsorption, specific surface (1), Moscow, Mir, 1984, p. 52.).

Breathability was determined according to GOST 12088-77.

Moisture absorption was determined by the formula:

, где:

where:

m ₁ is the mass of a dry elementary sample, in grams;

m ₂ is the mass of the obtained sample after immersion in water, in grams.

An elementary sample of carbon fiber material 8 × 40 mm in size is placed in a bottle at a temperature of (110 ± 5) ° С, dried for 3 hours in an oven to a constant weight. The bottle with the dried elemental sample is weighed on an analytical balance with an accuracy of 10 ^-4 g. The elementary sample is taken out of the box with tweezers and completely immersed in a glass with distilled water at a temperature of (20 ± 2) ° C for 1 minute. Then, using tweezers, an elementary sample is hung on a glass rod for draining water. After 5 minutes, the sample is placed in the same bottle as previously weighed. The sample bottle after the test is weighed on an analytical balance with an accuracy of 10 ^-4 g, and moisture absorption is calculated using the above formula.

Breathability was determined according to GOST 12088-77.

Determination of the mass fraction of ash was carried out according to GOST 28005-88.

Example 1. A carbon wound sorbent dressing in the form of a napkin with a specific surface area of 1200 m ² / g, water absorption of 330%, air permeability of 105 dm ³ / m ² s, carbon content of 85%) was used in the treatment of purulent wounds. The use of the dressing did not cause side effects and was well tolerated by all patients. Due to its hygroscopicity, the wound dressing is capable of actively adsorbing wound discharge, including purulent (increased hygroscopicity of the material provided active drainage of exudate, preventing the absorption of toxic substances into the blood, which was confirmed by the positive dynamics of the degree of intoxication of patients, lowering the temperature reaction, and improving peripheral blood counts .

Example 2. A carbon wound dressing in the form of a napkin with a specific surface of 1500 m ² / g, moisture absorption of 370%, air permeability of 145 dm ³ / m ² s, carbon content of 89%) was used in the treatment of extensive wounds of traumatic origin. Five patients had extensive scalped wounds of the lower legs. Three patients had a soft tissue defect with an open fracture of the lower leg.

The use of napkins was well tolerated by all patients. Dressings have a pronounced hemostatic effect, no suppuration of wounds, in two patients the use of napkins made it possible to do without free skin grafting due to the rapid epithelization of wounds.

Claims (1)

Carbon sorption wound dressing made of carbon fiber material, made by carbonization of the initial viscose material in the presence of a pyrolysis catalyst followed by activation in water vapor medium, characterized in that the initial viscose material is made of viscose technical yarn pre-impregnated with an aqueous emulsion of an oligomer resin made on the basis of an oligomer with the content of silanol groups (5-15)% and treated before carbonization in an air atmosphere at 180-200 ° C for 0.5-1.0 hours, and the specific surface area of the dressing is (1200-1500) m ² / g, moisture absorption 350 ± 20%, air permeability 125 ± 20 dm ³ / m ² s, carbon content 85-89%, and polymethylsiloxane was used as a pyrolysis catalyst.