RU2612004C2 - Method for animals wounds treatment - Google Patents

Abstract

FIELD: medicine, pharmacy.

SUBSTANCE: invention refers to veterinary and concerns the method of treating animals wounds, including the use of chemotherapeutic agents, where N, N-dimethylamino-propylamide oleic acid is used as a therapeutic agent. This compound is used in the form of aqueous solutions of its salts with pharmacologically acceptable acids.

EFFECT: invention provides increased efficiency of animal treatment in case of injuries (wounds, grazes, bites), regeneration processes acceleration in phases II and II of wound process.

2 tbl, 4 ex

Description

The invention relates to the field of agriculture and veterinary medicine, and in particular to methods of treating wounds.

Currently, new methods of local treatment of purulent wounds are offered: the use of adaptive reposition apparatuses for the fastest achievement of wound healing with extensive soft tissue defects (Izmaylov S.G., Beschasnov V.V., 2000), a combination of primary suturing after radical surgical treatment of a purulent focus with local application of certain brain neuropeptides (Gavrilenko V.G., 2000), the use of new routes of antibiotic administration (F. Kutushev et al., 1995).

A known method of treating purulent wounds using miliacil in the complex treatment of purulent wounds (see Actual issues of surgery. Collection of scientific papers. Chelyabinsk, 1996, pp. 274-276).

Miliacil is a vegetable oil isolated from millet torch (RF Patent 2063237, auth. Nuzov B.G., Olifson L.E.). Milyacil differs from other vegetable oils, in particular from sea buckthorn, in its high acid number (151. 5-178. 3 mg KOH), which determines its sterility and significant bactericidal effect.

There is a method of treating purulent wounds (Patent RU 2195291) by Bogomolov N.I., Cherednik A.V., Bogomolova N.N., Belinov N.V. The method includes the secondary surgical treatment of purulent wounds, sanitation with antiseptic solutions, local sorption-application therapy. Shivirtuin granules saturated with sodium hypochlorite solution in a ratio of 3: 1 are used as sorbent.

A known method of treating purulent wounds and purulent surgical diseases, which consists in surgical and mechanical treatment of a wound, drainage and washing, conducting reconstructive surgery (J. "Surgery", N12, 1990, M .: Medicine, pp. 79-84).

Washing according to this method is carried out with antiseptics. In addition, they carry out general drug therapy with antibiotics. However, this method of treating infected wounds is effective when thorough surgical treatment is possible to achieve wound healing by primary intention. In the case of the development of purulent complications and the ineffectiveness of surgical treatment of the wound, this method does not give good results.

When treating purulent wounds in a known manner when washing with an antiseptic, such as furatsilin, followed by tamponade turunda with a solution of an antibiotic, such as monomycin (500,000 units in a volume of 5 ml, a positive effect is achieved only in 58% of cases , and recovery occurs in a period of 3 to 5 weeks.

There is also a method of treatment according to patent RU 2466720. The method consists in the fact that in the phases of regeneration and epithelialization, a dressing is applied to the wound surface, impregnated with an ointment of the following composition, wt. %: organosilicon glycerogel hydrogel - 95.25, ciprofloxacin - 0.2, oxytocin - 4.55.

However, most of the proposed methods either do not provide the desired effect and are not devoid of complications, or are too cumbersome and expensive, which prevents their widespread introduction (such as, for example, a method for treating purulent wounds in a controlled abacterial environment). The main disadvantage of the proposed methods are the long duration of treatment, which require large economic costs.

The use of antibiotics and sulfonamides for the treatment of wounds exacerbates the problem of antibiotic resistance of wound microflora. The search for new effective methods of treating complicated purulent wounds, reducing the recovery time is an urgent task, the solution of which this invention is directed.

The aim of the invention is to develop a new effective method of treating wounds in animals.

This goal is achieved by the fact that as an active antibacterial substance in the developed method for treating animal wounds, N, N-dimethylamino-propylamide oleic acid of formula 1 is used, which is used in the form of salts with pharmacologically acceptable acids (hydrochloric, sulfuric, lactic, maleic, citric and etc.).

Compound 1 is obtained from oleic acid 2 and amine 3 according to the scheme:

A feature of the invention lies in the fact that compound 1 used in this method of treating wounds has not only high antibacterial properties against pathogens of wound infections (Staph. Aureus, E. coli, Ps. Aeruginosa), but also contributes to the rapid regeneration of damaged tissues.

An example of obtaining N, N-dimethylamino-propylamide oleic acid 1:

A mixture of 28.24 g (0.1 mol) of oleic acid 2 and 10.21 g (0.1 mol) of N, N-dimethyl-1.3-diaminopropane 3 is heated at 150-155 ° C for 4 hours with distillation of volatile products, then at 170-175 ° C for 30 minutes also with the distillation of volatile products. It is cooled and the product obtained is purified by column chromatography on alumina in chloroform. Yield 35.19 g (96%), light yellow oil. ¹ H NMR spectrum in CDCl ₃ (δ, ppm): 0.854-0.898 (3H, multiplet); 1.264-1.299 (20H, multiplet); 1.572-1.681 (4H, multiplet); 1.994 - 2.053 (4H, multiplet); 2.112-2.163 (2H, triplet); 2.225 (6H, singlet); 2.347-2.389 (2H, triplet); 3.304-3.363 (2H, quartet); 5.320-5.357 (2H, quartet); 6.928 (1H, singlet). Found,%: C 75.00; H 12.20; N, 7.20. Calculated,%: C 75.35; H 12.64; N, 7.64.

An example of determining antibacterial activity. Antibacterial activity was determined by the method of double serial dilutions according to the method of Milovanova S.N. in the book Methods of Experimental Chemotherapy, ed. G.N. Peak. - M., Medicine, 1971. - p. 100-106, with a bacterial load of 250 thousand microbial bodies in 1 ml. Table 1 shows the antibacterial activity of compound 1 in the form of salts with various acids.

From the data of table 1 it can be concluded that N, N-dimethylamino-propylamide oleic acid has high antibacterial activity against both gram-negative and gram-positive bacteria, as well as the type of acid used (to form a water-soluble form of the compound) does not affect the degree of antibacterial activity of the compound.

An example of determining the toxicity of compound 1.

Acute toxicity was determined in laboratory rats weighing 150 g by intragastric administration of aqueous solutions of compound 1 (in the form of salts with various acids). The observation period is 14 days. It was found that at a dose of 0.8 g / kg of body weight, compound 1 does not cause the death of laboratory rats, that is, the compound belongs to low-toxic drugs. The type of acid used did not affect toxicity (sulfate, hydrochloride and sorbate of compound 1 were used).

Due to the fact that the type of acid used did not affect the level of antibacterial activity and the degree of toxicity of compound 1, inexpensive and the most common hydrochloric acid was used in wound treatment experiments, i.e., compound 1 hydrochloride was used.

An example of a method for treating animal wounds with compound 1 hydrochloride in the form of aqueous solutions at a concentration of 0.01% (in terms of compound).

The experiments were carried out in the veterinary clinic "Center for Veterinary Medicine" in Rostov-on-Don (January-May 2013).

The treatment of purulent wounds and purulent surgical diseases consisted in the surgical and mechanical treatment of the wound, drainage and lavage.

Washing was carried out with aqueous solutions of antiseptics: in the first 5-7 days of treatment daily, in the subsequent period every other day. In animals of the experimental group (16 dogs), a 0.01% aqueous solution of N, N-dimethylamino-propylamide oleic acid hydrochloride 1 was used to wash the wounds; in control animals, a 3% aqueous solution of hydrogen peroxide was used for this purpose. Here are the results of treatment of 7 sick dogs with bite wounds, 4 dogs with postoperative wounds, 5 dogs with acute purulent processes (phlegmon, abscess). Control animals in the amount of 12 goals received the treatment accepted in the clinic: dissection of a purulent wound or abscess, further wound management with washing under tampons or dressings. The test results are presented in table 2.

According to the observations of the clinic’s veterinarians, the use of an aqueous solution of N, N-dimethylamino-propylamide oleic acid hydrochloride as an antiseptic for washing wounds prevents the development of wound infections, accelerates granulation, stimulates the appearance of early epithelialization of tissues, and ultimately accelerates wound healing in dogs. The treatment efficiency of experimental animals is higher than in the control by 10-12%.

The technical result that can be achieved by the implementation of this invention:

1. The expansion of the range of chemotherapeutic agents used to treat animals with wounds (including infected)

2. Improving the treatment of animals with traumatic injuries (wounds, abrasions, bites)

3. Reducing the recovery time of animals.

4. The use of non-antibiotic antibacterial agents as ADV, for example, oleic acid amides, can prevent the development of antibiotic resistance in wound microflora.

5. The proposed method for the treatment of wounds allows you to accelerate the regenerative processes in the II and III phases of the wound process.

6. The use of oleic acid amide as an antimicrobial agent in this method prevents the occurrence of persistent infection and purulent-septic complications.

Bibliography

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2. Nuzov B.G., Sheenkov N.V., Olifson L.E. Antimicrobial activity of millet oil. - Journal of Microbiology, Epidemiology and Immunobiology. - 1990. - 12. - S. 107-108.

3. Nuzov B.G. The effect of miliacin oil on the regeneration of purulent wounds in the presence of diabetes mellitus. - Clinical Surgery - 1991. - 1. - S. 8-10.

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16. Bukharin O.V., Charushin V.N., Chupakhin O.N., Skorobogatykh Yu.I., Perunova N.B., Khonina T.G. - A method for the treatment of purulent wounds in the experiment, Pat. No. RU 2466720 C2.

Claims (3)

A method of treating wounds in animals, including the use of chemotherapeutic agents, characterized in that the therapeutic agent used is N, N-dimethylamino-propylamide oleic acid of the formula 1

which is used in the form of aqueous solutions of its salts with pharmacologically acceptable acids.