RU2704609C1 - Carbon dressing for first layer of non-traumatic bandage as wound coating from carbon fibrous material - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, more specifically to a carbon dressing used in surgery, burn-beam therapy, is intended for treating pressure ulcers, trophic and chronic ulcers. Carbon dressing for first layer of atraumatic bandage as wound coating from carbon fibrous material is made by carbonization of initial viscose material in presence of pyrolysis catalyst with subsequent graphitization in inert medium and electrochemical treatment in medium of softened water. It differs by the fact that initial viscose material is made of viscose technical thread pre-impregnated with water emulsion of oligomer resin made on the basis of oligomer with content of silanol groups (5–15) % and treated before carbonization in air atmosphere at temperature of 180–200 °C for 0.5–1.0 h, wherein the relative tensile strength of the produced carbon fiber is 15–25 gf/tex, the moisture absorption of dressing is 125±20 %, air permeability 85±10 dm³/m²s, carbon content not less than 99.0 %.

EFFECT: improved operational properties of the dressing, including by reducing the coefficient of variation of moisture absorption of the dressing material.

1 cl, 3 ex

Description

The invention relates to medicine, in particular to surgery, burn radiation therapy and is intended for the treatment of pressure sores, trophic and chronic ulcers.

In the prior art, a napkin made of activated carbon twill weave fabric, made on the basis of viscose, with a fabric density of 165-175 threads per 10 cm, weft 105-115 threads per 10 cm, each thread has a twist of 76-84 cr / m.p. and consists of 1050-1150 filaments with a bean-shaped cross section, the maximum size of which is not more than 14 microns, and the minimum is not less than 7 microns. (RF patent No. 2000762, IPC A61F 13/54, 1993). The activation of carbon tissue was carried out by the electrochemical method in an alkaline medium with the addition of iodine pentoxide (J ₂ O ₅ ) in an amount of 0.2-0.3%. The carbon fabric used graphite fabric.

A disadvantage of the known napkins is low strength, leading to frequent replacement of the dressing 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

Also known is a carbon napkin for the first layer of dressing, made on the basis of and a weft of carbon filaments based on cellulose hydrate, characterized by a specific surface density of 0.8-2.8 m ² / g, electrochemical potential in an isotonic solution of 0.108-0.188 V for continuous residence on the surface of the wound for 2-6 days. (RF patent No. 2066199 IPC A61L 15/16, 1996)

This napkin has the disadvantage of high sorption ability. Adsorption on the surface of the napkin is characterized by high selectivity, therefore, with the wound layer adjacent to the dressing, the relationship between the low and high molecular weight components of the exudate is violated, and it is the low molecular weight component (gases, low viscosity liquid component) that is removed and sorbed from the wound fluid. As a result of this process, a dense layer of fibrin appears on the surface of the wound, which impedes the outflow of exudate into the drainage layer; the porous structure of the adjacent dressing layer is densely thrombosed, and the occurrence of a barrier layer sharply increases the content of wound toxins and worsens the wound's aerosion and its thermal regime. All this leads to the need for frequent replacement of the dressing, which increases the injury rate and contamination of the wound, and is also accompanied by a high pain effect.

The closest technical solution for the purpose and the number of similar features is a napkin for the first layer of the dressing as a wound cover made of carbon fabric, made by carbonization of viscose fabric in the presence of a catalyst, followed by graphitization and electrochemical processing. According to the invention, it is characterized by a moisture absorption of at least 100%, a specific surface area of less than 0.7 m ² / g, air permeability of at least 70 dm ³ / m ² s, an ash content of less than 0.1% and an electrical resistance of 0.3 -1.0 Ohm / cm ² . The napkin is made of viscose fabric impregnated with solutions of polysiloxane in an organic solvent, followed by carbonization when the temperature rises from 180 ° C to 600 ° C and graphitization in an inert medium at a temperature above 1000 ° C. The surface treatment by the electrochemical method was carried out in softened water with passing an electric current of 56-60A through a solution, voltage 25-30 V with a processing temperature of 20-25 ° C. Next, the fabric is dried at a temperature of 200-220 ° C, labeled according to the size of future napkins, the marking places are impregnated with latex, dried and the material is cut onto napkins at the marking points. (RF patent No. 2172185, IPC A61L 15/18, 2001).

The known carbon napkin for the first layer of the dressing has a high sorption ability and a large coefficient of variation of moisture absorption, reaching a value of 31%, which reduces the use of napkins in the treatment of wounds and burns. Due to the high selectivity in the adsorption process in the wound layer adjacent to the dressing, the relationship between the components of the fluid released from the wound is violated. As a result of this, a dense layer of fibrin occurs on the surface of the wound, in the capillaries between the fibers and the internodes of the tissue. This prevents the removal of purulent secretions from the wound, trauma to the formed elements of blood and lymph, sharply reducing the erosion of the wound surface under the dressing, which is undesirable due to significant injury to the wound and the growth of wound infection.

The problem to which the invention is directed is to increase the effectiveness of the treatment of pressure sores, chronic and trophic ulcers.

The technical result when using the proposed invention is to improve the operational properties of the tissue, by reducing the coefficient of variation of the moisture absorption of the tissue material and increasing strength.

The specified technical result is achieved in that the napkin for the first layer of the atraumatic dressing as a wound cover made of carbon fiber material is made by carbonization of the initial viscose material in the presence of a pyrolysis catalyst for cellulose fiber, followed by graphitization in an inert medium and electrochemical treatment in softened water. The initial viscose material is made of viscose technical yarn pre-impregnated with an aqueous emulsion of oligomeric resin and processed before carbonization in an air atmosphere at a temperature of 180-200 ° C for 0.5-1.0 hours. The moisture absorption of the wipes is 125 ± 20%, the air permeability is 85 ± 10 dm ³ / m ² s, the carbon content is not less than 99.0%, the relative breaking load of the carbon filament is 15-25 gf / tex.

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 carbonization of the starting viscose material in the presence of a cellulose fiber pyrolysis catalyst polymethylsiloxane was carried out at a temperature of from 180 ° C to 700 ° C; graphitization is carried out in an inert atmosphere at a temperature above 1000 ° C; the electrochemical treatment of the tissue was carried out in softened water at current loads of 56-60A, voltage 25-30 V and electrolyte temperature 30-60 ° C.

According to the proposal, a reduction in the coefficient of variation of moisture absorption to 22% was achieved.

The proposed carbon napkin for the first layer of the dressing provides liquefaction of the thick purulent compartments, as well as absolute drainage through itself onto the overlying layers of the dressing, which ensures removal of the dressing without injuring the wound surface of the patient (the tissue does not grow into the patient’s tissue). After covering the wound with a napkin, the patient's pain decreases or ceases; Due to its strength (more than 100 kg / 5 cm) and non-invasiveness, the napkin allows dressings to be made every 6-8 days. Removing the wipe occurs without breaks and frowning of the edges.

The proposed napkin for the first layer of the wound dressing has a high moisture absorption with the possibility of transporting the exudate to the overlying sorption layers of the dressing, which ensures low trauma to the wound surface being covered and high breathability (does not impede tissue breathing with oxygen from the wound surface). The tissue does not have selective sorption of low molecular weight fractions of the wound, which significantly reduces the release of fibrin on the surface of the tissue, reduces scarring, promoting uniform healing of the wound surface, and allows the use of drugs to accelerate wound healing without removing the tissue from the wound surface for 6-8 days.

The following are the methods used in assessing the quality of the resulting napkins:

Moisture absorption - determined by the formula

B = (m ₂ -m ₁ ) / m ₁ g / g, where m ₁ is the mass of a dry sample of the substance, g; m ₂ is the mass of the sample after immersion in water, g

An elementary sample of carbon fiber material with a size of 80 × 40 mm is placed in a bottle and at a temperature of (110 ± 5) ° С it is dried 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 immersed in a glass of distilled water at a temperature of (20 ± 2) ° С for 1 minute. Then, using tweezers, an elementary sample is placed on a glass rod so that water not absorbed by the material flows freely into the glass. The drainage time is 5 minutes. Then the sample is placed in a bottle in which the sample was dried, and weighed on an analytical balance with an accuracy of 10 ^-4 g. Moisture absorption is calculated according to the above formula.

Electrical resistivity - is defined as follows: a carbon fabric sample is placed on a flat, flat dielectric surface. A measuring pad consisting of a body 140 × 140 mm in size, two copper knife-shaped electrodes 100 mm long each placed at a distance of 100 mm from each other, and contact wires allowing connecting the electrodes of the measuring pad to the measuring bridge are placed on the carbon cloth. The radius of curvature of the knife electrodes is 3-5 mm. The weight of the measuring pad is 5 kg, which creates a pressure of 10 kPA (GOST 20214-74). The bridge P4833 (accuracy class 0.1) or any other with the same measurement accuracy is used as a measuring bridge. The measurement is carried out on the warp threads (electrodes are placed perpendicular to the warp threads) and on the weft. The measurements are carried out in several places of the sample (3-5) and the obtained results of all measurements are averaged and recorded in the form of Ohm / cm ² tissue.

Breathability - was determined according to GOST 12088-77.

The specific surface was determined by the method of low-temperature nitrogen adsorption according to the isotherm of Brunauer, Emmett, Taller (BET) described in the book by S. Greg, K. Singh “Adsorption, specific surface, porosity” ed. World, 1984 p. 52.

Determination of the mass fraction of ash was carried out according to GOST 28005-88 (carbon fiber materials of the Urals).

Examples of using carbon napkins for the first layer of dressing.

Example No. 1

Carbon wipes were used to treat patients with pressure sores.

Pressure ulcers in the lumbosacral region, as a result of physical inactivity, were taken for treatment, starting with the necrotic-excretory stage. After partial debridement, a carbon napkin impregnated with a solution of antiseptics was placed on the wound surface for a period of 2-3 days. The duration of the wipes on the wound was determined by the amount of exudate secreted. After cleansing the wound (4-5 days), ointment preparations containing D-panthenol and antiseptics were applied on a carbon napkin from the outside. With the advent of active marginal epithelization, wipes were applied without drugs, and dressings were performed once a week. Complete epithelization of the wound with an area of 120 cm ² occurred in 30 days and up to 250 cm ² in 40 days. They didn’t resort to plastic surgery.

The carbon napkin used has the following characteristics:

Moisture absorption - 105%; air permeability-95 dm ³ / m ² s; carbon content 99.0%; relative tensile load of the carbon filament 15 gf / tex.

Example No. 2.

Carbon wipes were used to treat patients with burn wounds.

In case of burns of the I-III degree, after careful treatment of the wound, consisting in the removal of blisters, the desquamated epidermis and treatment with antiseptics, a carbon napkin was placed on the wound surface, after which it could not be replaced until 7-8 days. By this time, in the vast majority of cases, epithelization of burn wounds occurs (92%). In cases where there was suppuration of a burn wound, the carbon napkin was changed after 3-4 days, but this did not affect the timing of the final healing.

With subdermal burns of IIIa degree, the dressing was changed after 2-3 days. Further, in the process of cleansing the wound from tissues subject to necrosis and the resulting purulent discharge, the napkin was changed less often (3-7 days). The time of complete healing of wounds with burns up to 150 cm ² was 25 days, and with burns up to 250 cm ² up to 30 days. Dressings were performed almost painlessly.

The carbon napkin used has the following characteristics.

Moisture absorption - 145%; air permeability - 75 dm ³ / m ² s; carbon content of 99.8%; relative tensile load of a carbon filament 25 gf / tex.

Example No. 3.

A carbon napkin was used to treat patients with extensive traumatic wounds.

In patients with extensive skin defects of a traumatic origin, as a preliminary step before free skin grafting, on average for two days before surgery, carbon wipes, soaked in 1% dioxidine solution, were applied to the wound surface after the initial surgical treatment of wounds. Due to the lack of adhesion of carbon material to the surface of the wound, despite the tight fit, the dressings were almost painless, which eliminated the use of narcotic and non-narcotic analgesics, significantly reduced bleeding from the surface of the wounds. When conducting tests suppuration of wounds in the application of carbon napkins was not observed. Transplants in all cases took root over an area of more than 90% of the wound. In 2 patients, the use of carbon napkins made it possible to do without free plastic surgery due to the rapid regional epithelization of wounds.

The carbon napkin used has the following characteristics.

Moisture absorption - 125%; breathability - 85 dm ³ / m ² s; carbon content of 99.5%; relative tensile load of the carbon fiber 20 gf / tex.

Claims (2)

1. A carbon napkin for the first layer of the atraumatic dressing as a wound cover made of carbon fiber material, made by carbonization of the initial viscose material in the presence of a pyrolysis catalyst followed by graphitization in an inert medium and electrochemical treatment in softened water, characterized in that the initial viscose material is made of viscose technical yarn pre-impregnated with an aqueous emulsion of oligomeric resin made on the basis of an oligomer containing silanol groups (5-15)% and treated before carbonization in air at a temperature of 180-200 ° C for 0.5-1.0 hours, while the relative breaking load of the obtained carbon filament is 15-25 gf / tex, moisture absorption wipes is 125 ± 20%, air permeability is 85 ± 10 dm ³ / m ² s, carbon content is not less than 99.0%. 2. Napkin according to claim 1, characterized in that polymethylsiloxane is used as a pyrolysis catalyst.