RU2678994C1 - Ointment for treatment of radiation-thermal burns and method for treatment thereof - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: present invention relates to the field of medicine, veterinary medicine and is an ointment for the treatment of thermal burns applied against the background of external gamma irradiation, containing biologically active substances and an ointment base. Ointment for the treatment of radiation-thermal burns is described, containing biologically active substances and an ointment base, characterized in that it contains ichthyol and dimexidum as biologically active substances, and as an ointment base – petrolatum at the following ratios of components, wt.%: ichthyol – 28–30; dimexidum – 18–20; vaseline – 50–54. Method of treatment and radiation-thermal burns is also described, comprising applying a therapeutically effective amount of the above ointment to the burned surface, the application is carried out once every 5 days for 35 days and kept on the affected area without dressing.EFFECT: development of an agent with increased antimicrobial activity for the treatment of radiation-thermal burns IIIB and IV degree without the use of dressings, which allows to increase the effectiveness of treatment and reduce healing time due to a synergistic effect by 20 days.2 cl, 1 dwg, 9 ex

Description

Ointment for the treatment of thermal radiation burns and a method for their treatment The invention relates to the field of medicine, veterinary medicine and radiation biology and can be used to treat victims of industrial accidents at nuclear facilities, when the combined effect of ionizing radiation and thermal factors: fire flame, heated steam, etc .; treatment of the population, military units, as well as animals after a nuclear explosion with subsequent thermal damage - burns IIIB and IV degree.

According to the literature, many different drugs are known that are used in the form of medicines and in ointment, which have anti-inflammatory, wound healing and analgesic effects, which are used to treat various pathological processes. All chemicals differ in chemical structure, mechanism of action and pharmacological activity.

The widespread use of drugs in the form of solutions, suspensions and ointments, the main active components of which were obtained chemically.

There is a method of treating the body with burns by intravenous administration of a 40% solution of hexamethylenetetramine, a 10% solution of sodium bromide with caffeine and applying 10% salicylic ointment to the affected area, removing dead tissue and treating granular defects with Vishnevsky ointment (see article “Burn.” - Veterinary Encyclopedic Dictionary. - M.: Soviet Encyclopedia. - 1981. - S. 350-351).

The disadvantage of this method is the low therapeutic efficacy of the means used and the lack of protection for burns burdened by exposure to ionizing radiation.

A known method of treating burns with an emulsion ointment containing wt.% Lanolin (5-10), naphthalene (20-30), neutral lard (10), refined technical fat (10-16), turpentine (3-10), beeswax ( 10), a complex of vitamins A, D, C (10), metaphen bactericide (0.25), cholesterol (1.0), lecithin (1.75) (ed. St. USSR No. 68832, publ. 07/31/1947 )

The disadvantage of this method is the complexity of the composition of the ointment and the content of methyl salicylate and metaphen, which are unsafe for the body due to their toxicity to the central nervous system and gastrointestinal tract.

A known method of treating post-radiation wound infection and sepsis with massive radiation injuries, which consists in the introduction of antibiotics (tetracyclines) together with a sorbent magnesium oxide (patent RU No. 2161486 C2, A61K 31/65, published January 10, 2001).

The disadvantage of this method is the use of known antibiotics that do not eliminate all violations of the microbial associations of the body that occur after radiation and thermal influences, the lack of influence on pathogenetic factors of radiogenic stress and burn pathology at the site of the burn injury.

It is known to use ichthyol ointment for the treatment of burns, which is applied to the skin as a thin layer two to three times a day without rubbing it into the skin, after which the treated area of the skin is covered with a gauze bandage (http://ilive.com.ua/health/ maz-ot-ozhogov_106783il5828.html).

It is known to use a 20-30% solution of dimethyl sulfoxide (dimexide, DMSO) in the treatment of burn wounds in the form of dressings that are applied to the affected area of the body once a day before healing (http://lekmed.ru/lekarstva/kostno-myshechnye-mestnye/ dimetilsufoksid.html).

The disadvantage of this method of treating wounds with these drugs is repeated use (one or more times a day), the application of gauze dressings. Compresses are applied within 3 months. According to the rules of practical combustiology, the use of lotions and dressings from drugs is advisable only in the treatment of thermal burns of I, II and IIIA degree of severity, and with burns of IIIB and IV degree they are ineffective.

Known 10% streptocid ointment or 5% liniment streptocide, which is used to heal infected wounds of burns of the I-II degree, purulent-inflammatory skin diseases (Mashkovsky MD "Medicines", 15th ed. Rev. isp. and add. - M., 2007. from 825).

Known emulsion of synthomycin (liniment), which contains 1, 5 or 10% synthomycin, castor oil, a special emulsifier, distilled water, preservative. Used for the treatment of purulent wounds, purulent-inflammatory skin diseases, burns of the II-III degree (Mashkovsky MD "Medicines". - 15th ed. Revised. Rev. and add. - M., 2007. from 817. )

The disadvantage of the above funds is their repeated use, the application of gauze dressings. The use of lotions and dressings from drugs is advisable only in the treatment of thermal burns of I, II, and IIIA degrees, but not with burns of IIIB and IV degrees. It is known that with burns of IIIB and IV degree, longer conservative therapy is required. The healing process is 5-6 weeks (Loginov L.P. Modern principles of local treatment of thermal burns / L.P. Loginov // Russian Medical Journal. - 2001. - T 9 - No. 34. from 123-125).

Closest to the proposed one is an ointment containing biologically active substances with a fat base (Handbook edited by I.E. Mozgov. Veterinary formulation with the basics of therapy and prevention. M., VO Agropromizdat, 1988 (1)).

A disadvantage of the known ointment is low antimicrobial activity, post-traumatic wound infections, the use of dressings, ineffective for burns IIIB and IV degree.

The technical result to which the invention is directed is to develop a simple, affordable, inexpensive effective agent with increased antimicrobial activity for the treatment of radiation thermal burns of IIIB and IV degree without the use of dressings and reduce treatment time.

To achieve the named technical result in the proposed ointment for the treatment of radiation-thermal burns containing biologically active substances and an ointment base, as biologically active substances contains ichthyol and dimexide, and as an ointment base - petrolatum in the following ratios of components, wt.%:

Ichthyol 28-30; Dimexide 18-20; Petroleum jelly 50-54

The product contains components of drugs known in veterinary medicine that are used in everyday veterinary practice: veterinary ichthyol (TU 9364-30-54051488-2011), dimexide, which is obtained from dimethyl sulfoxide (see BME, v. 7, p. 325 and “Instruction for the use of dimexide. ”Approved by the Federal Ministry of Health of the USSR on 02.16.1972) and veterinary vaseline (GOST 13037-84). An ointment is obtained by first mixing ichthyol with petroleum jelly at room temperature, then dimexide is added with stirring. The finished ointment at room temperature is a black mass with a characteristic odor of ichthyol of dense and thick consistency. When it comes into contact with the body, it softens, becomes plastic, does not dissolve in water, and is not toxic.

The inventive method for the treatment of radiation-thermal burns consists in applying a therapeutically effective amount of an ointment containing ichthyol, dimexide and petrolatum to the burned surface in the following ratio of components, wt.%: Ichthyol - 28-30, dimexide - 18-20, petrolatum - 50- 54, the ointment is applied once every 5 days for 35 days and incubated on the affected area without dressing.

The proposed ointment based on synergistic active ingredients significantly accelerates regenerative and reparative processes thanks to the anti-inflammatory, antibacterial, anesthetic, early healing and radioprotective effects of the components.

For experimental verification of the claimed drug, ointments were prepared that included various amounts of ichthyol (25%, 28%, 30%, 35%) and an active substance that accelerates transdermal transfer and has an anti-inflammatory and analgesic effect - dimexide (16%, 18%, 20%, 22%).

The invention is illustrated by the following examples.

Example 1. Preparation of ointment. To prepare 100 g of ointment, 28 g of ichthyol, 54 g of petroleum jelly are taken and mixed. Then add 18 g of dimexide. The components are mixed with constant stirring until a homogeneous mass is obtained.

Example 2. Analogously to example 1, 29 g of ichthyol, 19 g of dimexide and 52 g of petrolatum were taken.

Example 3. Analogously to example 1, 30 g of ichthyol, 20 g of dimexide and 50 g of petroleum jelly were taken.

When using an ointment with a content of less than 25 wt.% Ichthyol, 16 wt.% Dimexide, an insufficiently fast wound healing effect is observed. An ointment with a content of 28-30 wt.% Ichthyol, 18-20 wt.% Dimexide 50-54 g of petroleum jelly has good wound healing activity. With an increase in the percentage of ichthyol content of more than 30 wt. %, dimexide - more than 20 wt.% the wound healing effect does not increase.

From the conducted experimental studies, we can conclude that the anti-burn ointment prepared from the components: dimexide - 18-20 g, ichthyol - 28-30 g, ointment base - petrolatum - 50-54 g meets the requirements of Pharmacopia X, sterile, contains biologically active substances , easily mixed to a homogeneous mass, the therapeutic effect is manifested in non-toxic and non-irritating doses to the skin surface.

The finished ointment is a black mass with a characteristic odor of ichthyol of a uniform consistency. The drug is available for use in industrial and domestic conditions. Packing is made in dark polyethylene wide-necked jars with a capacity of 100, 200, 400 ml. It is stored at temperatures from +18 to + 25 ° С.

The therapeutic efficacy of manufactured anti-burn ointments is tested in experiments on white rats. The therapeutic effect was evaluated according to the following criteria: period of formation, burn scab gathering and complete healing of burn injury.

In the experiments, we used white rats with an average body weight of 180-220 g, divided according to the principle of analogues into 5 groups of 5 animals each: 1st — gamma radiation + burn + treatment with the proposed ointment with an optimal ratio of components (29 wt.% Ichthyol , 19 wt.% Dimexide, 52 wt.% Vaseline), 2nd - gamma radiation + burn + ointment treatment with a minimum value of the components, 3rd - gamma radiation + burn + ointment treatment with an ointment with a maximum value of the components, 4th — burn + treatment with a lower minimum value of the composition of the components (25 wt.% Ichthyol, 16 wt.% imeksida, 59 wt% petrolatum), 5th -. + burn treatment with large maximum value components of the composition (35 wt% ihtiola, Dimexidum 22% by weight, 43 wt% Vaseline)....

A method for the treatment of thermal burns of the IIIB degree is illustrated by the following examples.

Example 4. External one-time total irradiation of animals was carried out on a gum installation "Puma" with a power source of cesium-137 of 5.49 R / min (8.50 × 10 ^-2 A / kg) at a dose of 7.0 Gy.

Thermal trauma was caused after the end of the irradiation session by applying a brass patch heated to + 180 ° C to the clipped skin area of the upper thigh. According to the degree of damage to the skin and underlying tissues, this burn corresponded to a burn of degree IIIB.

The proposed ointment of optimal composition was applied to the surface of the burn, 20 hours after applying the burn injury.

It was established that in rats of groups 1, 2, and 3, the formation of a burn scab occurred on the 3rd day, its descent on the 12th day, complete healing of thermal injury occurred on the 35th day.

Example 5. While maintaining the conditions of example 4, in animals of the 4th group, the formation and descent of a burn scab from the surface of thermal damage occurred on the 6th and 14th day, respectively, with complete healing on the 54th day.

Example 6. While maintaining the conditions of example 4, animals of the 5th group were treated with ointment above the maximum composition of the components, it was found that the formation of a burn scab occurred on the 3rd day, retirement on 12 and complete recovery on 35 days. Therefore, the use of ointments with excess components of the maximum composition did not lead to an increase in the therapeutic effect, except for an overspending of the components.

Based on the studies, it can be concluded that the optimal composition of the anti-burn ointment prepared from the components: ichthyol - 28-30 wt.%, Dimexide - 18-20 wt.% - the rest - petrolatum, has high therapeutic efficacy in the treatment of IIIB burns, deposited on the background of external gamma radiation (Fig. - a, c, c).

Example 7. To determine the effect of the frequency of application of the proposed ointment on its therapeutic efficacy, experiments were conducted on white rats with a live weight of 180-220 g, divided according to the principle of analogues into 5 groups of 5 animals each. While maintaining the conditions of example 4, the proposed ointment of optimal composition was applied to the burn wounds of irradiated animals: ichthyol - 29 wt.%, Dimexide - 19 wt.%, Petrolatum - 52 wt.%, With a time interval of 1 time in 1, 2, 3, 4, 5 days. Under these experimental conditions, complete healing of thermal injury occurs 35 days after applying the ointment once every 5 days.

Example 8. While maintaining the conditions of example 4, the surface of the thermal injury was treated with an ointment of optimal composition with an interval of 1 time in 7 days. Complete healing of burn injury occurs 40 days after the start of treatment.

Example 9. While maintaining the conditions of example 4, applying the ointment of the optimal composition 1 time in 10 days to the surface of thermal damage. It was found that wound healing occurs 54 days after the start of treatment.

Based on the studies, it can be concluded that the proposed ointment for the treatment of thermal burns caused by general gamma irradiation is the most effective if applied once every 5 days for 35 days, and it reduces the healing time by 20 days.

Claims (3)

1. An ointment for the treatment of radiation-thermal burns containing biologically active substances and an ointment base, characterized in that it contains ichthyol and dimexide as biologically active substances, and petrolatum as an ointment base in the following ratios of components, wt.%: Ichthyol 28-30 Dimexide 18-20 Petroleum jelly 50-54 2. A method for the treatment of radiation-thermal burns, comprising applying a therapeutically effective amount of an ointment to a burned surface according to claim 1, the application is carried out once every 5 days for 35 days and kept on the affected area without dressing.

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