RU2173175C2 - Wound sorbing bandage - Google Patents

Abstract

FIELD: medical facilities. SUBSTANCE: bandage for treatment of intractable complicated postoperative festering wounds, fistulas, and burns is made from woven carbon material prepared by carbonization of viscose cloth in presence of polyorganosiloxane followed by steam activation at elevated temperature. Carbon fibrous material is characterized by specific surface equal to at least 600 mg/g, conductivity at least 3.5 Ohm/sq.m, air permeability at least 100 cu.dm/sq.m*s, and moisture absorbance above 300%. EFFECT: increased efficiency of treating infecting wounds and burns thanks to high hygroscopicity, and prevented absorption of toxic substances into blood. 2 cl, 6 ex

Description

 The invention relates to medical equipment and can be used in the treatment of purulent, sluggish, complicated postoperative wounds, fistulas and burns in the form of napkins, bandages, etc.

 Known multilayer medical napkins, having as one of the layers a layer of activated carbon tissue containing not more than 5% of the antimicrobial agent iodine (Application EPO N 053936, class A 61 L 15/09; 1981).

 Known multilayer wound dressing containing several layers, one of which is activated carbon tissue (application EPO N 0218667, CL A 61 L 15/03, 1989).

 Known multilayer antibacterial dressing, the second layer of which is carbon cloth (application EPO N 0219522, CL A 61 F 13/00, 1987).

 The closest technical solution is a wound dressing made of woven carbon material, made by carbonization of viscose fabric in the presence of metal salts, followed by activation in a steam environment at elevated temperature (EPO N 0311364, class A 61 L 15/03, 1989).

 The wound dressing has sorption ability, however, with this method of obtaining the obtained carbon material has a high ash content (~ 3%), which reduces the effectiveness of the treatment, and reduced strength (~ 20 kg / 5 cm strip).

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

The required technical result is achieved due to the fact that the wound dressing made of woven carbon material, made by carbonization of viscose fabric in the presence of a catalyst, followed by activation of steam at elevated temperature, according to the proposal, is characterized by a specific surface area of at least 600 mg / g, electrical resistance of at least least 3.5 Ohm / m ^2, water absorption of at least 300%, an air permeability of at least 100 dm ³ / m ² s, and carbonization of viscose fabric is produced in the presence of polyorgano iloksana.

The wound dressing is made of viscose fabric, impregnated with a solution of polysiloxane in an organic solvent, followed by carbonization when the temperature rises from 180 to 600 ^o C and activation of water vapor in the medium when the temperature rises from 20 to 930 ^o C, followed by cooling.

 Then the activated carbon fabric is marked according to the size of future napkins, the marking places are impregnated with latex and the material is cut onto the napkins at the marking points.

 The wound dressing obtained by this method has a low ash content (up to 1%), increased strength (~ 50 kg / 5 cm strip), moderate desorption, low adhesiveness, a pronounced hemostatic effect. It actively sorbes microbial bodies, chemicals, has a deodorizing effect, their use is recommended in the treatment of burn wounds, trophic ulcers, fistulas and purulent wounds, where productive processes are predominant, accompanied by profuse purulent discharge and tissue necrosis.

 Due to its high hygroscopicity, the napkin adsorbs wound compartments, prevents the absorption of toxic substances into the blood and helps to reduce treatment time.

 The napkin is applied to the wound and worn for 2-12 hours, depending on the amount of wound discharge. The multiplicity of dressings is unlimited, either until the wound is completely cleaned and subsequent plastic surgery or by applying secondary sutures, or until the wound is completely epithelized.

 Breathability was determined according to GOST 12088-77.

где m₁ - масса сухой элементарной пробы, г;
m₂ - масса полученной пробы после погружения в воду, г.The specific surface was determined by the method of low-temperature nitrogen adsorption using the isotherm of Brunauer, Emmett, and Teller (BET). Moisture absorption was determined by the formula:

where m ₁ is the mass of a dry elementary sample, g;
m ₂ - the mass of the obtained sample after immersion in water, g

An elementary sample of carbon fiber material with a size of 8x40 mm is placed in a bottle and at a temperature of (110 + 5) ^o C, dried for 3 hours in an oven to a constant weight.

The bottle with the dried elemental sample is weighed on an analytical balance to the nearest 10 ^-4 g.

An 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) ^o 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 according to the above formula.

 The electrical resistance was determined as follows: the sample is placed on a flat non-conductive surface. The measuring block consists of two copper electrodes up to 100 mm long, located in parallel at a distance of 100 mm from each other (square 100x100 mm) with a radius of curvature of the knife ends of 3-5 mm. The weight of the measuring pad is 5 kg, which creates an electrode pressure of 10 kPa on the sample (GOST 20214-74). The measuring block is connected to the measuring bridge P 4833 (accuracy class -0.1). Measurements are carried out on the basis (the electrodes are perpendicular to the warp threads) and on the weft. Measurements are carried out in several places of the sample and the arithmetic average result is written in the form - Ohm / cm.

 Example 1. A wound dressing - a napkin was used in the treatment of purulent wounds, using a napkin did not cause side effects and was well tolerated by all patients. Due to their hygroscopicity, wipes are able to actively adsorb wound discharge, including purulent ones (increased hygroscopicity of the material ensured active drainage of the exudate, prevented the absorption of toxic substances into the blood, which was confirmed by the positive dynamics of the degree of intoxication of patients, a decrease in the temperature reaction, and improvement of peripheral blood parameters) .

 Example 2. Napkins were used in the treatment of extensive wounds of traumatic origin. Four patients had extensive scalped lower leg wounds. Two have a soft tissue defect with an open fracture of the lower leg. Their use was well tolerated by all patients. Napkins have a pronounced hemostatic effect, there was no suppuration of wounds, in some patients the use of napkins made it possible to do without free skin grafting due to the rapid epithelization of wounds.

Claims (2)

1. A wound dressing of woven carbon material, made by carbonization of viscose fabric in the presence of a catalyst, followed by activation in a steam environment at elevated temperature, characterized in that the carbonization of viscose fabric is carried out in the presence of polysiloxane and the dressing has a specific surface area of at least 600 mg / kg, electrical resistance of at least 3.5 Ohm / m, moisture absorption of at least 300%, air permeability of at least 100 dm ³ / m ² s.  2. The wound dressing according to claim 1, characterized in that it is impregnated with latex along the perimeter, followed by drying.