RU2808334C1 - Wound covering with antibacterial, antimycotic and wound-healing effects and method of its preparation - Google Patents

Abstract

FIELD: medicine; veterinary medicine.

SUBSTANCE: it can be used as wound coverings in animals, in surgical practice, during liquidation of the consequences of mass disasters and terrorist acts, as well as in combat conditions. The essence is a wound covering with antibacterial, antimycotic and wound-healing effects, containing, by weight: Meturacol sponge containing 0.95 wt.pts including collagen and 0.05 wt.pts of methyluracil — 1, in which the following is impregnated: 0.005 of 4,6-dinitro-5,7-dichlorobenzofuroxan; 0.001 of n-hexadecyltriphenylphosphonium bromide; 0.05 of chlorhexidine bigluconate. The method of obtaining a wound covering is to prepare the first solution, for which to 1 wt.pts of 97% ethanol the following is added: 0.005 wt.pts of 4,6-dinitro-5,7-dichlorobenzofuroxan, 0.001 wt.pts of n-hexadecyltriphenylphosphonium bromide, then stirred; then a second solution is prepared, for which to 9 wt.pts of distilled water the following is added: 0.05 wt.pts of chlorhexidine bigluconate, then stirred; then the first and second solutions are mixed and stirred until a homogeneous mass is obtained; then the resulting solution is placed in a cuvette, a Meturacol sponge is placed in it to impregnate it until the solution is completely absorbed; then the impregnated Meturacol sponge is placed in a vacuum drying chamber at a temperature of 40°C until the sponge is completely dry.

EFFECT: invention provides an expansion of the arsenal of wound coverings and the elimination of the direct adverse effects of the active substance on the wound surface and surrounding tissues due to the pharmacological composition with a low content of active substances, while the claimed coating does not contain antibiotics and other known antibacterial drugs.

2 cl, 1 tbl, 4 ex

Description

The invention relates to veterinary medicine and medicine, namely to the creation of new domestic wound coverings for domestic and farm animals with antibacterial, antimycotic and wound-healing effects and can be used in veterinary medicine. The invention provides an expansion of the arsenal of wound coatings for animals and the elimination of the direct adverse effects of the active substance on the wound surface and surrounding tissues due to the pharmacological composition with a low content of active substances, while the claimed coating does not contain antibiotics and other known antibacterial drugs. It can also be used in medicine - surgical practice, in eliminating the consequences of mass disasters and terrorist acts, as well as in combat conditions.

Further in the text, the applicant provides terms that are necessary to facilitate a clear understanding of the essence of the declared materials and to eliminate contradictions and/or controversial interpretations when performing a substantive examination.

Impregnation is the impregnation of fabric and other materials with special solutions or emulsions in order to impart certain properties [https://construction_materials.academic.ru/3506/%D0%98%D0%BC%D0%BF%D1%80%D0%B5 %D0%B3%D0%BD%D0%B8%D1%80%D0%BE%D0%B2%D0%B0%D0%BD%D0%B8%D0%B5?ysclid=lhov14v248127771333].

The creation of new domestic coatings that do not increase blood clotting, but have an antibacterial, antimycotic and wound-healing effect against the background of injury, seems extremely important in modern conditions.

To reduce the risk of death from complications associated with blood loss, modern veterinary medicine uses special local wound-healing antimicrobial agents that can effectively heal wounds.

Among the well-known local wound-healing agents that reduce inflammation and regenerate the skin is the Meturacol sponge.

Meturakol sponge is a tissue repair stimulator [https://www.rlsnet.ru/drugs/meturakol-5994?ysclid=lhonuz2dug736614447]. 1 g of the drug contains: collagen, substance-solution 2% - 47.5 g (0.95 g of dry collagen), dioxomethyltetrahydropyrimidine (methyluracil) - 0.05 g. They are white plates of a porous structure with a specific odor and a relief surface , thickness from 7 to 13 mm, dimensions (50±5) x (50±5) mm, (90±10) x (90±10) mm. The drug easily absorbs moisture. Pharmacological properties: dioxomethyltetrahydropyrimidine (methyluracil), normalizing nucleic acid metabolism, accelerates the processes of cellular regeneration in wounds, growth and granulation maturation of tissue, epithelization, and has an anti-inflammatory effect. Collagen accelerates the growth, maturation and structuring of granulation tissue, stimulates epithelization. Reduces the risk of hypertrophic scar formation. When applied to a wound, the sponge adheres tightly to its surface, absorbs wound discharge, swells and gradually lyses, releasing the methyluracil contained in it. Collagen undergoes gradual biodegradation in the wound - lysis and resorption. The sponge prevents the loss of fluid from the surface of the wound, preventing it from drying out and protects the wound from external influences and infection. Indications: trophic ulcers, bedsores, deep and long-term non-healing wounds, superficial skin burns.

The disadvantage of the known technical solution is that the known drug does not have sufficient antibacterial and antimycotic effects and is designed for relatively sterile wounds.

The local hemostatic agent Aljufer is known [https://www.tabletki.info/by/aljufer], the essence is a solution for topical use containing aluminum chloride hexahydrate AlCl ₃ 6H ₂ O 4.5 g, iron chloride hexahydrate FeCl ₃ 6H ₂ O 5 g, excipients: purified water up to 10 ml. It has polyvalent coagulation activity, combining the positive pharmacological properties of analogue drugs. Does not exhibit toxic properties, devoid of cumulative and systemic effects [Chumanevich, O. A. Coagulation properties of a new domestic compositional local agent based on inorganic salts / O. A. Chumanevich // Current issues of clinics, diagnostics and treatment. New directions in medicine: materials of the all-army international. conf., dedicated To the 200th anniversary of the State Institution “432 Order of the Red Star, the main military clinical hospital of the Armed Forces of the Republic of Belarus.” - Minsk, 2005. - P.314-316 and Gapanovich, V. N. Study of the specific activity of a new local hemostatic drug “Alufer” [Text] / V. N. Gapanovich, N. I. Melnova, O. A. Chumanevich and others // 5th Congress of Hematologists and Transfusiologists of the Republic of Belarus “Current Problems of Hematology and Transfusiology”: Coll. scientific tr. - Minsk, 2003. - T.: 2. - P.327-334.]. It is recommended for use as a local hemostatic agent in conditions associated with bleeding, fixation or gluing of tissues during various surgical interventions, for example: to stop bleeding in case of injury to the liver, kidney and spleen, hepatectomy, enucleation of a hepatic cyst, gluing of parenchyma during kidney surgery, liver, spleen and pancreas; to stop https://www.tabletki.info/by/aljufer bleeding in gastrointestinal erosive and ulcerative hemorrhages; in patients suffering from Werlhof's disease, aplastic, hypoplastic anemia, hemophilia and other conditions that are accompanied by capillary bleeding; to stop bleeding from local superficial wounds of the skin and subcutaneous tissue; for bleeding after tonsillectomy, nosebleeds and other bleeding [https://www.tabletki.info/by/aljufer].

The disadvantage of the known technical solution is that the known drug does not have antibacterial, antimycotic and wound-healing effects.

The identified analogues coincide with the declared technical solution according to individual matching features, therefore the prototype is not defined and the claims are drawn up without a restrictive part.

The technical result of the claimed technical solution is the expansion of the arsenal of means for the specified purpose, namely the creation of a domestic wound coating and a method for its production, while the claimed coating has:

- antibacterial and antimycotic effect against pathogenic and opportunistic microorganisms,

- wound healing effect.

The essence of the claimed technical solution is a wound coating with antibacterial, antimycotic, and wound-healing effects, containing , parts by weight: Meturacol sponge containing 0.95 parts by weight. collagen and 0.05 wt.h. methyluracil - 1, in which is impregnated: 4,6-dinitro-5,7-dichlorobenzofuroxan - 0.005; n-hexadecyltriphenylphosphonium bromide - 0.001; chlorhexidine bigluconate - 0.05. The method of obtaining a wound coating according to claim 1, which consists in first preparing the first solution, for which 1 part by weight. 97% ethanol is added to 0.005 parts by weight. 4,6-dinitro-5,7-dichlorobenzofuroxan, 0.001 parts by weight. n-hexadecyltriphenylphosphonium bromide and stir; then prepare a second solution, for which to 9 parts by weight. distilled water add 0.05 parts by weight. chlorhexidine bigluconate and stir; then the first and second solutions are mixed and stirred until a homogeneous mass is obtained; then the resulting solution is placed in a cuvette measuring 50x50 mm, 1 part by weight is placed in the cuvette. Meturacol sponges measuring 50x50 mm for impregnation until the solution is completely absorbed; then the impregnated Meturacol sponge is placed in a vacuum drying chamber at a temperature of 40°C until the sponge is completely dry.

Next, the applicant provides a description of the claimed technical solution.

The declared technical result is achieved by creating a wound covering containing, parts by weight:

Meturacol sponge containing 0.95 parts by weight. collagen and 0.05 wt.h. methyluracil - 1, in which is impregnated:

4,6-dinitro-5,7-dichlorobenzofuroxan – 0.005,

n-hexadecyltriphenylphosphonium bromide – 0.001,

chlorhexidine bigluconate - 0.05.

Next, the applicant provides a description of the biological activity of the active ingredients of the claimed coating .

Methyluracil is a wound healing agent [Mashkovsky, M.D. Methyluracil // Medicines - 15th edition. - M.: New Wave, - 2005 p. ISBN 5-7864-0203-7]. Enhances the growth and reproduction of cells, improving the course of regeneration in damaged tissues, accelerates the healing of wounds, ulcers, burns, and increases the body's resistance to infections. A characteristic feature of the drug is its stimulating effect on hematopoiesis (increased formation of leukocytes and red blood cells in the bone marrow). In addition, methyluracil has an anti-inflammatory effect, increases the body's resistance to blood loss and oxygen deficiency, and normalizes the production of gastric juice and its acidity.

4,6-dinitro-5,7-dichlorobenzofuroxan

is an antimicrobial (antibacterial and antimycotic) agent, has an anti-inflammatory effect [RF Patent 2452477 “Antibacterial and antimycotic composition of a wide spectrum of action based on phosphonium salt and substituted benzofuroxan”, RF Patent 2404769 “Composition for the prevention and treatment of strongylatosis of the gastrointestinal tract of ruminants” , Article - L.M. Yusupova, S.Yu. Garmonov, I.M. Zakharov, A.R. Bykov, T.V. Garipov, I.F. Falyakhov / Multi-purpose biological protection agents based on chlorinated derivatives of nitrobenzofuroxan. // Bulletin of Kazan Technological University. - 2004. - No. 1. - P.103 - 111, etc.].

4,6-Dinitro-5,7-dichlorobenzofuroxan is obtained according to a known method, described, for example, in [Yusupova L.M., Spatlova L. / Optimization of the synthesis of 5,7-dichloro-4,6-dinitrobenzofuroxan // Bulletin of Kazan Technological University, 2011, pp.49-56].

n-hexadecyltriphenylphosphonium bromide

is an antimicrobial (antibacterial and antimycotic) agent, has an anti-inflammatory effect [patent RU 2423131]. H-hexadecyltriphenylphosphonium bromide is prepared according to a known method, described, for example, in [Starks Ch.M. Interphase catalysis. Chemistry, catalysts and application / Ed. Ch.M. Starks.M.: Chemistry, 1991. - 157 p.].

Chlorhexidine bigluconate is an antiseptic. Depending on the concentration used, it exhibits both bacteriostatic and bactericidal effects. The bacteriological effect of both aqueous and alcoholic working solutions is manifested in a concentration of 0.01% or less; bactericidal - in a concentration of more than 0.01% at a temperature of 22°C and exposure for 1 minute. The fungicidal effect is manifested at a concentration of 0.05%, at a temperature of 22°C and exposure for 10 minutes. The virucidal effect occurs at a concentration of 0.01-1%. Effective against pathogens of sexually transmitted infections - gardnerellosis, genital herpes; gram-positive and gram-negative bacteria - Treponema spp., Neisseria gonorrhoeae, Trichomonas spp., Chlamidia spp., Ureaplasma spp. Does not affect acid-fast forms of bacteria, microbial spores, fungi.

It is stable, after treatment of the skin (hands, surgical field) it remains on it in a certain amount sufficient to exhibit a bactericidal effect. Retains activity (albeit somewhat reduced) in the presence of blood, pus, various secretions and organic substances. It extremely rarely causes allergic reactions, irritation of skin and tissues, and does not have a damaging effect on objects made of glass, plastic and metals [https://www.rlsnet.ru/drugs/xlorgeksidin-biglyukonat-5181?ysclid=li979v7gq6167140185].

The introduction of 4,6-dinitro-5,7-dichlorobenzofuroxan, n-hexadecyltriphenylphosphonium bromide and chlorhexidine bigluconate into the Meturacol sponge, in turn, reduces the contact of these active substances with the wound surface, thereby eliminating their adverse effects on the wound surface and surrounding tissues, so how the ingredients of the sponge are released directly into the cerebrospinal fluid released from the wound during healing - into blood, lymph and purulent discharge.

The claimed wound covering is obtained by the claimed method as follows.

First, prepare the first solution - 1 part by weight. 97% ethanol is added to 0.005 parts by weight. 4,6-dinitro-5,7-dichlorobenzofuroxan, 0.001 parts by weight. n-hexadecyltriphenylphosphonium bromide and mix thoroughly.

Then prepare a second solution - 9 parts by weight. distilled water add 0.05 parts by weight. chlorhexidine bigluconate and mix thoroughly.

The first and second solutions are mixed and stirred until a homogeneous mass is obtained.

Then the resulting solution is placed in a cuvette, for example, 50x50 mm in size.

Then 1 part by weight is placed in a cuvette. Meturacol sponges measuring 50x50 mm to impregnate it until the solution is completely absorbed, for example, for 10 minutes.

Then the impregnated sponge is placed in a vacuum drying chamber at a temperature of 40°C until the sponge is completely dry (complete evaporation of solvents - ethanol and water), for example, for 5 hours. The sponges are packaged and sterilized.

Receive the declared wound coverage.

Next, the applicant provides examples of the implementation of the claimed technical solution.

Example 1. Receiving the requested wound coverage.

First, prepare the first solution - add 0.005 g of 4,6-dinitro-5,7-dichlorobenzofuroxan and 0.001 g of n-hexadecyltriphenylphosphonium bromide to 10 g of 97% ethanol and mix thoroughly, for example with a mechanical stirrer, for, for example, 10 minutes.

Then a second solution is prepared - 0.05 g of chlorhexidine bigluconate is added to 90 g of distilled water and mixed thoroughly, for example, in a flask with a mechanical stirrer, for example, 10 minutes.

The first and second solutions are mixed and stirred until a homogeneous mass is obtained.

Then the resulting solution is placed in a cuvette, for example, 50x50 mm in size.

Then a Meturacol sponge measuring 50x50 mm weighing 1 g is placed in the cuvette to impregnate it until the solution is completely absorbed, for example, for 10 minutes.

Then the impregnated sponge is placed in a vacuum drying chamber at a temperature of 40°C until the sponge is completely dry (complete evaporation of solvents - ethanol and water), for example, for 5 hours.

Receive the declared wound coverage.

Example 2. Study of the antimicrobial (antibacterial and antimycotic) effect of the claimed coating on the wound.

The antimicrobial (antibacterial and antimycotic) effect of the claimed coating on a wound was studied using the example of the effect of its constituent components on various strains of bacteria and fungi.

At the same time, experiments were conducted to compare the effect on the studied bacteria and fungi of individual compounds included in the coating (sponge), their mixtures, and also for comparison, well-known antimicrobial agents were taken - chlorhexidine and nitrofungin, as shown in the Table.

We used museum strains from the Department of Microbiology of the Kazan State Medical Academy: E. Coli, B. Cereus, Ps. Aeruginosa, S. Aureus and Candida albicans.. [Pershin G.N. Methods of experimental chemotherapy. - M.: Medicine, 1971, - 245 p.]. A 24-hour culture was standardized to an optical density of 0.5 according to McFarland (10⁸ CFU/ml). Petri dishes with a nutrient medium were infected with a culture using a swab.

To study the antimicrobial properties, Meturacol sponges (50x50 mm in size) soaked in the test compounds or their mixtures and control compounds were added to the nutrient medium of each dish, populated with microorganisms, and the pathogen growth zone was observed.

The cup was stored in a thermostat for 5 days at a temperature of 29-30°C, constantly monitoring the growth of pathogen colonies. A description of the cultural and morphological characteristics of the colonies in each Petri dish was made.

The results of measuring the antimicrobial (antibacterial and antimycotic) activity of the studied compounds are given in the Table, where:

DNDHBP - 4,6-dinitro-5,7-dichlorobenzofuroxan,

n-HDTPPB - n-hexadecyltriphenylphosphonium bromide,

CHB - chlorhexidine bigluconate.

Table. Antimicrobial activity of the studied compounds No. of experience Compounds under study Size of growth retardation zone, d (mm) E.
coli B. cereus Ps. aeruginosa S. aureus Candida albicans 1 Meturacol+DNDHBP 13 + 3 23 + 4 11 + 3 20 + 2 21 + 3.5 2 Meturacol+n-GDTFFB 15 + 3 25 + 2.5 10 + 1 22 + 1 18 + 3 3 Meturacol+DNDHBP+
n-GDTFFB 12 + 3 39 + 3.5 17 + 3 41 + 5 43 + 4 4 Meturacol+DNDHBP+
n-GDTFFB+CB 14 + 1 44 + 2 15 + 2 43 + 3 51 + 7 5 Meturacol 11 + 2 17 + 1 8 + 2 16 + 1 14 + 2 6 Chlorhexidine 15 + 2 15 + 1 13 + 3.5 19 + 4 15 + 1 7 Nitrofungin 0 0 0 0 17 + 3

From the data given in the Table, we can conclude that the mixture of all four active ingredients included in the composition of the claimed coating (Methuracol + DNDHBP + n-GDTPPB + CB) has high antibacterial and antimycotic activity, especially against B. Cereus, S. Aureus, Candida albicans (experiment 4).

Mixtures of two active ingredients (experiments 1 and 2) have approximately half the activity againstB. Cereus, S. Aureus, Candida albicans And comparable activity towardsE. coli AndPs. Aeruginosacompared to a mixture of four declared active ingredients.

A mixture of three active ingredients (Methuracol + DNDHBP + n-TFGDFB) (experiment 3) has comparable, but still less activity compared to a mixture of four declared active ingredients.

The individual compounds methuracol and chlorhexidine (experiments 5 and 6) have approximately three times less activity towardsB. Cereus, S. Aureus, Candida albicans And comparable activity towardsE. coli AndPs. Aeruginosacompared to a mixture of four declared active ingredients.

Nitrofungin is not active against E. Coli, B. Cereus, Ps. Aeruginosa, S. Aureus, and has approximately the same activity as chlorhexidine against Candida albicans.

Thus, from Example 2 we can conclude that the applicant has obtained a wound covering with antimicrobial (antibacterial and antimycotic) activity.

Example 3 . Study of the wound-healing effect of the claimed coating on a wound.

To test the wound-healing effect of the claimed coating on a wound, an experiment was conducted with 10 rats weighing 180-200 g.

By dissecting the skin, a model of two conditionally aseptic wounds measuring 1.0×1.0 cm was created. The sponges were packaged and sterilized.

Dressings with repeated application of the coating were performed every other day.

Based on the results of the experiment, we can conclude that there were no clinically inflammatory and degenerative phenomena in the wound in the postoperative period. The coating actively absorbed wound discharge. On the 6th day, a necrotic layer with insignificant volume with focal hemorrhages was determined on the surface of the wounds, the formation of granulation tissue was observed, and in certain areas of newly formed adipose tissue.

Thus, a classic picture of an uncomplicated regenerative process was revealed, which allowed us to conclude that the developed coating is biocompatible.

The coating for the treatment of wounds in animal experiments is non-toxic, does not have a local irritant or skin-resorptive effect, which facilitates wound care.

Thus, the claimed coating exhibits a wound-healing effect, which confirms the achievement of the stated technical result.

Example 4. Study of the effectiveness of the claimed coating in the local treatment of deep burns.

The effectiveness of the claimed coating in the local treatment of deep burns was studied in an experiment on 10 rats weighing 180-200 g.

The sponges are packaged and sterilized.

Burns with an area of 1 ^cm2 were simulated on the back of rats under anesthesia. A copper plate measuring 1.0×1.0 cm with a heating temperature of 180°C was used as a burning surface. The burn was applied by contact method for 10 s. A day later, under anesthesia, the wounds were treated with a 3% solution of hydrogen peroxide. One wound was covered with the declared coating, and the other with a coating that did not contain active components (control).

The effectiveness criteria were the healing time and the histomorphological picture of the wounds on days 5, 10, 15, and 20.

Based on the results of the experiment, we can conclude that under the influence of the declared coating, the percentage reduction in wound area in the experimental group on day 5 was 67.2%, on day 10 - 77.6%, on day 15 - 85.0%, and the period of complete healing wounds - 18 days. In the control series, these indicators were as follows: on the 5th day - 41.5%, on the 10th day - 65.0%, on the 15th day - 74.0%, the period of complete wound healing was 20 days.

Analysis of the effectiveness of local application of the claimed coating for deep burns showed that reparative processes in these conditions proceed faster throughout the entire wound process.

Thus, it was found that under the influence of the declared coating, healing occurs 15-20% faster (the period of complete healing is 17 days, while in the control - 20). Under the influence of the claimed coating, an earlier completion of the inflammatory process, a clear stimulation of the growth of granulation tissue and an increase in epithelialization processes are observed.

Thus, as can be seen from the examples of implementation of the claimed invention, the applicant has achieved the declared technical result , namely: the arsenal of means for the specified purpose has been expanded, namely, a domestic wound covering and a method for its production have been created, while the claimed coating has:

- antibacterial and antimycotic effect against pathogenic and opportunistic microorganisms (see Example 2),

- wound healing effect against wounds and burns (see Examples 3, 4).

At the same time, the claimed coating on the wound eliminates the direct adverse effects of active substances on the sponge tissue, which reduces the contact of active substances with the wound surface, which makes it possible to expand the arsenal of means for the specified purpose and widely use the claimed coating in various fields of veterinary medicine and medicine.

The claimed technical solution complies with the “novelty” patentability condition imposed on inventions, since the set of features given in the independent claim of the invention was not identified from the level of technology examined by the applicant.

The claimed technical solution complies with the patentability condition “inventive step” imposed on inventions, since the set of features given in the independent claim of the invention and the set of technical results obtained were not identified from the level of technology examined by the applicant.

The claimed technical solution meets the patentability condition of “industrial applicability” imposed on inventions, since it can be implemented in industry through the use of materials, equipment and technologies known from the prior art.

Claims (6)

1. Wound covering with antibacterial, antimycotic and wound-healing effects, containing, parts by weight: Meturacol sponge containing 0.95 parts by weight. collagen and 0.05 wt.h. methyluracil – 1, in which is impregnated: 4,6-dinitro-5,7-dichlorobenzofuroxan – 0.005, n-hexadecyltriphenylphosphonium bromide – 0.001, chlorhexidine bigluconate – 0.05. 2. The method of obtaining a wound covering according to claim 1, which consists in first preparing the first solution, for which 1 part by weight. 97% ethanol is added to 0.005 parts by weight. 4,6-dinitro-5,7-dichlorobenzofuroxan, 0.001 parts by weight. n-hexadecyltriphenylphosphonium bromide and stir; then prepare a second solution, for which to 9 parts by weight. distilled water add 0.05 parts by weight. chlorhexidine bigluconate and stir; then the first and second solutions are mixed and stirred until a homogeneous mass is obtained; then the resulting solution is placed in a cuvette measuring 50x50 mm, 1 part by weight is placed in the cuvette. Meturacol sponges measuring 50x50 mm for impregnation until the solution is completely absorbed; then the impregnated Meturacol sponge is placed in a vacuum drying chamber at a temperature of 40°C until the sponge is completely dry.