RU2647458C1 - Wound-healing, anti-inflammatory ointment on the basis of tea fungus (medusomyces gisevii lindau) - Google Patents

Abstract

FIELD: pharmaceutical industry.

SUBSTANCE: invention relates to the pharmaceutical industry, in particular to plant-based drugs with an apparent healing, anti-inflammatory effect. Wound-healing anti-inflammatory ointment containing the following ratio of components, mass %: culture fluid of the tea fungus – 66.71; crystal gelatin – 2.15; benzocaine – 0.36; almond oil – 5.14; glycerol – 22.54, essential oil of the tea tree – 0,24; lecinol – 2.86.

EFFECT: above-described ointment has an apparent wound-healing, anti-inflammatory, regenerative effect in the absence of an allergic reaction.

1 cl, 4 tbl

Description

The invention relates to the pharmaceutical industry, in particular to herbal medicines with a pronounced healing, anti-inflammatory effect based on biological raw materials.

State of the art

In the treatment of wounds, the main requirements for a drug are its following characteristics:

- antibacterial properties of the drug;

- providing acceleration of the processes of regeneration of damaged tissues with subsequent epithelialization of the wound;

- efficacy against inflammatory processes caused by tissue breakdown products and cell waste products.

Currently, drugs in various dosage forms are used to treat wounds:

- preparations for oral administration;

- tampons, napkins, dressings, impregnated with solutions of medicinal substances;

- in the form of ointments and powders containing, including antibiotics [1-3].

Preparations for internal use are usually used as one of the elements in complex therapy, in addition, they have a fairly wide range of contraindications and side effects.

The disadvantages of external wound healing preparations include high consumption of medicines, limited use for pathologies requiring long-term treatment and complicated by purulent discharge.

Various creams and ointments containing active principles in the form of vitamins, herbal extracts, etc., a fat base - wax, petroleum jelly, glycerin, polyethylene oxide, etc., as well as auxiliary substances that improve performance are widely used to treat skin lesions. creams - perfumes, preservatives, etc. [4-6].

The greatest wound healing effectiveness is shown by preparations having the consistency of a gel or emulsion, since they are easily applied to the burn surface and are easily absorbed. The nature of the consistency is provided by the technology for obtaining the drug.

The objective of the present invention is to expand the range of anti-inflammatory and wound healing medicines based on raw materials obtained from zoogley kombucha.

In the study of available sources (scientific literature, patents), information was found on a variety of wound dressings that are at various stages of development, but at the same time, Kombucha culture fluid was not used as the main component. In the claimed tool there are no toxic components, but there is a culture fluid of Kombucha (Medusomyces Gisevii Lindau), tea tree essential oil (Melaleuca alternifolia), almond oil and a number of other components.

Currently, the following ointments and gels are most often used for wound healing: levomekol, solcoseryl, actovegin.

Levomekol - a white ointment for external use, contains chloramphenicol. The drug has a pronounced antibacterial effect, stimulates the restoration of the normal tissue structure of wounds of various forms. The disadvantages of the drug include the fact that it is not recommended for a long time because of its allergenicity and toxic effects.

Solcoseryl is an ointment for external use, has wound healing, regenerating, antihypoxic, membrane stabilizing, angioprotective, cytoprotective effects. In this case, the use of Solcoseryl can lead to the appearance of allergic reactions such as urticaria or dermatitis.

Actovegin - gel for external use, improves trophism and tissue regeneration. Actovegin has a significant number of side effects. In particular, at the beginning of treatment, the drug may be local pain associated with tissue edema.

Disclosure of invention

The objective of the present invention is to expand the spectrum of anti-burn agents and the creation of a medicinal product based on plant materials with a high therapeutic effect.

The technical result that can be obtained using the present invention is to increase the wound healing, anti-inflammatory, regenerative properties in the absence of an allergic effect.

The technical result is achieved using a wound healing ointment containing kombucha culture fluid, crystalline edible gelatin, benzocaine, almond oil, glycerin, tea tree essential oil, lecinol, wt. % (Table 1):

The implementation of the invention

The proposed drug is prepared as follows.

To prepare the culture fluid of Kombucha, 10 g of dry black tea leaf was infused in 1 liter of water, brought to a boil. Subsequently, the resulting infusion was filtered, mixed with 100 g of sucrose, cooled to room temperature, and then placed in a glass dish with the addition of a cutoff of tea mushroom at a rate of 10 g / l. The dishes with the material for fermentation were kept in an air thermostat at a temperature of 27 ° C for 28 days. After fermentation, the resulting culture fluid was filtered through a gauze swab, brought to a boil and cooled at room temperature.

To prepare the aqueous phase of the ointment, 345 ml of Kombucha culture fluid was added to 12 g of crystalline gelatin. The mixture was left for 30 minutes at room temperature, and then placed in a thermostat at a temperature of 60 ° C for 80 minutes, until the gelatin was completely dissolved.

To prepare the oily phase of the ointment, a mixture of 100 ml of glycerol with 54 ml of almond oil was prepared, to which 16 g of lecinol powder (hydrogenated lecithin) was added. The mixture was placed on a laboratory mixing device at a temperature of 66 ° C and a rotation speed of 185 rpm for 80 minutes, until the lecithin was completely dissolved.

Subsequently, the water and oil phases were combined with the addition of 2 g of anestezin powder and 1.5 ml of tea tree essential oil. The resulting substance was mixed by means of an immersion homogenizer for 10 minutes. until a stable cream-colored emulsion is formed, it was cooled at room temperature for 30 minutes, and then packaged in airtight containers and placed in a refrigerator at a temperature of 3.1 ° C.

Kombucha (Medusomyces Gisevii Lindau) is a symbiotic organism that is a microbial consortium consisting of cultures of yeast-like fungi and acetic acid bacteria. The culture fluid is formed by fermentation of the infusion of black tea with the addition of sugar during incubation at a temperature of 17-35 ° C under aerobic conditions. During fermentation, the yeast ferments sugars to form ethyl alcohol and carbon dioxide, with further bacteria oxidizing the alcohol to form acetic acid. The final product is saturated with carbon dioxide and has a pH of 2.5-4.5 [7-8].

The chemical composition of the culture fluid of Kombucha is very complex and includes the following groups of substances:

1. Organic acids: acetic, gluconic, oxalic, citric, malic, lactic, pyruvic, kojic;

2. Ethyl alcohol;

3. Vitamins: ascorbic acid, thiamine;

4. Enzymes: catalase, lipase, protease, carbohydrase;

5. Lipids: sterols, phosphatides, fatty acids;

6. Sugar: monosaccharides, disaccharides;

7. Pigments: chlorophyll, xanthophyll;

8. Purine bases from tea leaf;

9. Resins and tannins from tea leaf;

10. Antibiotic substances [9].

Kombucha culture fluid exhibits pronounced antimicrobial activity against a fairly wide range of pathogenic microorganisms, in particular, the genera Staphylococcus, Shigella, Escherichia, Aeromonas, Pseudomonas, Enterobacter, Salmonella, Bacillus, etc. Partially, this effect may be due to the ability of acetic acid inhibit the growth of a number of microorganisms, however, the antimicrobial ability of Kombucha culture fluid remains even at neutral pH and after thermal denaturation [10].

Benzocaine is a local anesthetic for surface anesthesia. Reduces the permeability of the cell membrane for Na ⁺ , displaces Ca ²⁺ from receptors located on the inner surface of the membrane, and blocks the conduction of nerve impulses. Prevents the occurrence of pain impulses in the endings of sensory nerves and their passage through nerve fibers. When applied to the surface of the oral mucosa, the action develops after 1 min [11].

Gelatin is a reversibly coagulating colloid obtained from collagen fibrillar protein by digesting animal, bone, cartilage or tendon skins in water, i.e. collagen containing material. Almost 20% of the weight of gelatin is glycine. The production of gelatin is similar to the production of glue, but digestion during the preparation of gelatin does not last so long and does not lead to complete degradation of collagen to liquid final products. Gelatin helps accelerate collagenization of the wound during healing [12].

Almond oil activates metabolic processes in the connective tissue, stimulates collagen production, accelerating the collagenization of wounds during healing. Tea tree essential oil has antiseptic, antifungal, antiviral, anti-inflammatory, regenerating and immunostimulating effects. The oil effectively inhibits the growth of bacteria such as staphylococci, streptococci, pneumococci, gonococci, Escherichia coli and several others, as well as fungal flora. The disinfecting properties of oil are used in medicine, hygiene, cosmetology. The oil helps to eliminate acne, warts, papillomas, dandruff, fungal skin lesions, effective for insect bites, abrasions, cuts. Strengthens hair follicles, which improves hair growth and structure [13].

Glycerin helps increase skin hydration, relieves itching, and prevents inflammation. In the manufacture of external agents, glycerin is also used as a plasticizer, which helps to preserve the homogeneous structure of the drug [14].

Lecinol, while maintaining all the main positive qualities of natural lecithin, has, in addition, high stability. When diluted in water, it forms stable liposomes, thanks to which it is possible to form stable water- and fat-soluble substances. Due to its high penetration, it promotes the penetration of other active ingredients into the skin, effectively increases the effectiveness of synergistic components. This significantly increases skin hydration and reduces skin scuffs and roughness. In addition, it eliminates irritation caused by other components.

Due to the selected quantitative ratio of components, the composition has an optimal consistency for use, i.e. does not harden, forming a crust, and does not spread over the surface of the treated wound.

The viscosity of the drug (ointment) at the indicated quantitative proportions of the components corresponds to the pharmacological properties of the ointment preparation prepared on a water-soluble basis. Its therapeutic functions are optimal, medical data comply with the requirements for drugs of this group.

The test result of a wound healing anti-inflammatory ointment on white laboratory rats of the Wistar strain in a comparative aspect.

The study of the effect of wound healing anti-inflammatory ointment according to the following method.

The experiment was carried out on white Wistar male rats weighing 200-220 g. Animals were divided into three groups of 20 animals each.

All rats under inhalation anesthesia stenciled the back skin dissected portion 400 ^mm2 (with subcutaneous fat).

In group I animals (control), the defect healed under the scab.

In the II group of animals, ointment “Solcoseryl”, chosen as a reference preparation, was used at a dosage of 0.5 ml with a syringe.

In group III animals, the proposed ointment based on Kombucha was used, at a dosage of 0.5 ml with a syringe.

Every day of the experiment, volnography was performed. To do this, a transparent film was applied to the resulting wound, contours were transferred, their area was scanned, and their area was calculated using the Axio-vision 4.8 program.

The animals were observed until 15 days, taking into account the appearance of the damage zone.

Table 2 shows the data characterizing the wound healing effect of the proposed drug in comparison with the control group (without treatment) and with the known ointment (Solcoseryl).

Hereinafter: * - the significance of differences from the control (* - p≤0.05; ** - p≤0.005; *** - p≤0.0005) according to the results of calculation of t-student test,

- достоверность отличий между группами 1 и 2 (

- р≤0,05;

- р≤0,005;

- р≤0,0005)

- significance of differences between groups 1 and 2 (

- p≤0.05;

- p≤0.005;

- p≤0,0005)

The results of the assessment of the state of the wound during the study are presented in Table 3.

To study the dynamics of the processes of reparative regeneration in damaged tissue, hematological parameters were also evaluated.

From the results of hematological analysis it follows that in the period after the wound in animals, the studied hematological parameters (the number of red blood cells, leukocytes and hemoglobin of blood) are gradually normalized, but in the group of animals where the claimed wound healing agent was used, this process proceeds more intensively, and normalization of the hematological indicators is completed by the 10th day of observation, while in the control and in the group in which Solcoseryl was used - by 15 days (Table 4).

The invention due to its composition has the following advantages compared to other known technical solutions:

- increase of anti-inflammatory, regenerating, antioxidant and antimicrobial properties;

- lack of allergic effects;

- is an environmentally friendly drug.

Information sources

1. Mashkovsky M.D. Medicines / M.D. Mashkovsky, M.: Medicine, 2012, 1216 p.

2. Kogan G.Ya. Technology of dosage forms / G.Ya. Kogan, Moscow: Medgiz, 1992, 383 p.

3. Pat. RF 2044541, 1995, class A61K 9/52.

4. Pat. USA 5034228, cl. A61K 87/22, 1991.

5. Pat. US 4816271, CL A61K 7/40, 1989.

6. Pat. Fr. 2668366, cl. A61K 7/48, 1992.

7. Pat. RU 2153816. cl. A25L 2/00, 2000.

8. Pat. RU 2480519. cl. C12G 3/02, 4.2013.

9. Sreeramulu, G. Kombucha fermentation and its antimicrobial activity / G. Sreeramulu, Y. Zhu, W. Knol // J Agric Food Chem. - 2000. - Vol. 48. - No. 6. - P. 2589-2594.

10. Danielyan, L.T. Kombucha and its biological features / L.T. Danielyan. - M.: “Medicine”, 2005. - 83 p.

11. Araujo De, D.R. Bioadhesive films containing benzocaine: correlation between in vitro permeation and in vivo local anesthetic effect / D.R. de Araujo, C. Padula, C.M. Cereda, G.R. Tofoli, R.B. Brito Jr, E. de Paula et al. // Pharmaceutical research. - 2010 .-- Vol. 27. - No. 8. - P. 1677-1686.

12. Morimoto, N. Exploratory clinical trial of combination wound therapy with a gelatin sheet and platelet-rich plasma in patients with chronic skin ulcers: study protocol / N. Morimoto, N. Kakudo, M. Matsui, T. Ogura, T. Hara, K. Suzuki et al. / BMJ Open. - 2015. - Vol. 5. - No. 5. - e007733.

13. Ahmad, Z. The uses and properties of almond oil / Z. Ahmad // Complementary therapies in clinical practice. - 2010 .-- Vol. 16. - No. 1. - P. 10-12.

14. Aramwit, P. Improvement of physical and wound adhesion properties of silk sericin and polyvinyl alcohol dressing using glycerin / P. Aramwit, J. Ratanav-araporn, T. Siritientong // Advances in Skin & Wound Care. - 2015. - Vol. 28. - No. 8 - P. 358-367.

Claims (1)

Wound healing anti-inflammatory ointment containing the following ratio of components, wt. %: Kombucha culture fluid - 66.71; crystalline gelatin - 2.15; benzocaine - 0.36; almond oil - 5.14; glycerin - 22.54, essential oil of tea tree - 0.24; lecinol - 2.86.