RU2058777C1 - Aerosol preparation for radiation burn treatment - Google Patents

Abstract

FIELD: surgery. SUBSTANCE: aerosol preparation has: 2-allylhydroxyethanol, biopolymer - collagen, 1,2-propylene glycol, phosphate buffer, vitamin E concentrate (30%), trimecain, Tween-80, emulsifier N 1, distilled water and chladon-12 at the following ratio of components, wt.-%: 2-allylhydroxyethanol 2-4; collagen 0.3-0.6; phosphate buffer 15-20; 1,2-propylene glycol 20-25; vitamin E concentrate (30%) 1.0-1.5; trimecain 1.0-2.5; Tween-80 0.3-0.6; emulsifier N 1 0.3-0.6; distilled water 20-30, and chladon-12 20-30. EFFECT: enhanced effectiveness of preparation. 3 tbl

Description

 The invention relates to surgery, specifically to aerosol preparations for the treatment of radiation burns.

Known foaming compositions for the treatment of burns, infected wounds, containing as an active ingredient oils, anesthetics and antimicrobial additives, for example, preparations "Fencortozol" [1] "Hyposol" [2]
The disadvantage of these compositions is that they contain oil, which does not provide the necessary contact of the drug over the entire surface and the deep penetration of active substances into the tissue.

 Closest to the proposed drug is the aerosol composition "Lyoxazole" [3] representing an alcohol solution of 2-allyloxyethanol and used for the prevention and treatment of closed radiation injuries of the skin, which has anti-inflammatory and stimulating regeneration properties.

 However, this drug due to the presence of alcohol has a painful effect and therefore can only be used to treat radiation burns without erosion and skin expressions.

 The aim of the invention is to expand the scope of the drug by increasing the spectrum of therapeutic action.

 The goal is achieved in that the aerosol preparation contains 2-allyloxyethyl alcohol, collagen biopolymer, 1,2-propylene glycol, phosphate buffer, vitamin E concentrate (30th), trimecaine, tween-80, emulsifier N 1, distilled water and freon-12 in the following ratio of ingredients, wt.

2-allyloxyethyl
alcohol 2.0-4.0
Collagen 0.3-0.6
Phosphate Buffer 15.0-20.0
1,2-Propylene glycol 20.0-25.0
Vitamin E Concentrate
(30th) 1.0-1.5
Trimecaine 1.0-2.5
Twin-80 0.3-0.6
Emulsifier N 1 0.3-0.6
Distilled
water 20.0-30.0
Freon-12 20.0-30.0
The proposed drug has a wider spectrum of antimicrobial activity compared to "lyoxazole", provides painless use on the wound surface, which allows it to be used to treat radiation burns with erosions and skin expressions.

 The therapeutic effect of the drug is provided by the combined effect of the incoming components.

 The drug is in aerosol packaging under pressure. The pressure in the cylinder is created using a propellant, which is used freon-12.

 When applied to a wound surface from an aerosol can, the composition does not have an irritating or toxic effect and provides an antimicrobial effect (see table. 1).

 As can be seen from the table. 1, the claimed drug is active against the intestinal, coccal, and spore groups of microorganisms. Organic impurities in the disinfected material do not reduce its activity.

 The drug in an animal experiment showed a local anesthetic, anti-inflammatory and stimulating regeneration effect in radiation burns.

I. An experiment to detect the radiation effect was performed on 60 white nonlinear rats weighing 180.0-200.0 g. Irradiation of the back skin s 6 cm ² after preliminary plucking of the hair was carried out on a BM-2 β-source (source ⁹⁰ Sr + ⁹⁰ V, dose rate 320 rad / min). The dose of skin irradiation on the surface of 5760 rad ≈ 57 Gy. Animals were divided into groups:
1st group radiation control,
2nd group irradiation, treatment immediately after irradiation for 10 days,
3rd group irradiation, treatment from 11 to 20 days.

 In the table. 2 shows data on therapeutic efficacy in acute radiation damage to the skin caused by external β-radiation.

 Comparison of the results of a clinical observation of the dynamics of radiation damage to the skin in control irradiated animals and treated with an aerosol declared at different times after irradiation on such external signs as hair removal, dry and wet dermatitis, ulcers did not reveal any special differences. It was noted that in the group treated with aerosol from 1 to 10 days after irradiation, ulcers developed, but were more superficial than in the control group, and their healing was faster than in the control: 52.4 ± 3.7 control; 33.4 ± 2.8, p> 0.05 in patients treated from 1 to 10 days. In the third group: 52.4 ± 3.7 control; 32.2 ± 3.1, p> 0.001 in those treated from 11 to 20 days.

II. Thermal burn coated metal plate, an area of 4 cm ^2, heated to ¹¹⁰ ° C, with an exposure of 5, in the interscapular region of the animal back hexenal anesthesia by intramuscular previously shaved skin on a surface. Burns were obtained III-III A degree.

 The experiment was carried out on 20 rabbits.

 On the scabs formed after the injury, the aerosol was applied once for 2 s. The burn wound was covered with a gauze napkin, the next day the drug was applied repeatedly, the dressing was not applied. On the 5th day after the injury, a necroectomy was performed. It was noted that in rabbits, under the claimed preparation, the scabs are soft, the edges are not inflamed, and easily move away when removed.

 Under the drug "Lyoxazole" the scab is rough, it is difficult to move away.

 After removing the scab, the preparations were applied daily, up to 12 days after the injury. The wound healing period was studied planimetrically in dynamics. The results obtained, processed by the method of variation statistics, are given in table. 3.

 When analyzing the results of planimetry, it turned out that the use of the drug accelerates reparative regeneration in wounds. The most rapid and visually noticeable wound healing occurred under the drug declared compared with the original from 4.0 ± 0.01 to 0.9 ± 0.033 (p 0.001). In most animals, the scab under the claimed drug disappeared by 12 days, while under the Lyoxazole preparation, a rough scab was noted. The wounds are dry under the proposed preparation, and purulent exudate has formed in two rabbits under the Lyoxazole preparation.

 During the histological study of the healing of burn wounds, after the use of lyoxazole and the claimed drug, the following differences were observed: when lyoxazole is used on the 3rd day after necroectomy, there is a thick, compacted secondary scab in the surface of the wound. Under the scab was a layer of fresh fibrinous exudate with a large number of neutrophilic white blood cells. From the bottom of the wound, chains of fibroblast and capillary loops penetrated into the exudate. Here, sites of proliferation of connective tissue elements and the beginning of the formation of granulation tissue were noted. The latter is more pronounced (the appearance of collagen fibers) from the edges of the wound, where there is a very weak germination of the epithelium, under the secondary scab, diffusion neutrophilic infiltration of all layers and adjacent intact sections should be noted. This is possible due to the presence of an irritating effect.

 Histologically, on the 3rd day, against the background of moderate inflammatory changes in the area of the damaging effect and subsequent necroectomy, an active proliferative and productive reaction of connective tissue cells is noted, leading to the rapid filling of the wound with granulation tissue and partial epithelization of the surface. The state and degree of development of granulation tissue under the claimed drug differed from the use of the drug "Lyoxazole" with more pronounced collagenosis, pyrocophilia of fibroblasts and a high GAG content already on the 3rd day after necroectomy. On the 7th day after a necroectomy, granulation tissue in the wounds was in the lateral areas and in the bottom and was of a cellular nature. From the sides, the distribution of granulation tissue into layers is absent, and in the middle part it differs fuzzy.

 On the granulation surface there is a thick fibro-leukocyte layer that passes into the secondary scab, neutrophils diffusely infiltrate all layers of the wound. Epithelization is inhibited, epithelial cells from the intact area hardly grow under the scab.

 When treating with the claimed drug on the 7th day, a small secondary scab is observed histologically, under which there is active epithelization. Under the epithelium is a granulation tissue having a three-layer structure. In the surface subepithelial layer, cellular elements predominate: macrophages, fibroblasts, newly formed capillaries. In the intercellular substance, very thin collagen fibrils are determined. Behind this layer is a powerful layer of horizontal fibroblasts and vertical capillaries oriented relative to the surface. It is characterized by a high content of GAG. In the wound floor area, complete epithelization of the defect, differentiation of epidermal layers, a clear three-layer structure of granulation tissue with all cellular and fibrous components characteristic of each layer are observed.

 Thus, the results of experimental radiation show the advantages of the claimed drug over the drug "Lyoxazole".

 One of the variants of the claimed aerosol preparation for the treatment of radiation burns is undergoing a clinical study called "Licosol".

 Specific examples of the claimed composition.

 PRI me R 1. Composition, wt.

2-allyloxyethyl
alcohol 2.0
Collagen 0.4
Phosphate Buffer 20.0
1,2-Propylene glycol 20.0
Vitamin E Concentrate
(30.0th) 1.5
Trimecaine 1.5
Twin-80 0.3
Emulsifier N 1 0.3
Distilled water 24.0
Freon-12 30.0
To prepare 1 kg of the composition (example 1), it is necessary to prepare a gel in 4.0 g phosphate buffer from 4.0 g of collagen (1). Then a mixture of the calculated amount (by difference) of distilled water and 250.0 g of 1,2-propylene glycol 15.0 g trimecaine, heat to 60-65 ^{° C,} add 4.0 g of Tween-80 and 5.0 g of emulsifier N 1, mix until smooth, add a concentrate of vitamin E, homogenize to obtain an emulsion (II). After cooling to room temperature I and II, combine and add 20.0 g of 2-allyloxyethyl alcohol, homogenize, put into aerosol containers, roll up and fill with Freon-12 in the ratio of concentrate and propellant 5 1, respectively.

 Examples 2 and 3 are prepared similarly, taking into account the quantities of ingredients required to obtain the compositions.

 PRI me R 2. Composition, wt.

2-Allyloxyethyl alcohol 4.0
Collagen 0.5
Phosphate Buffer 18.0
1,2-Propylene glycol 25.0
Vitamin E Concentrate
(30.0th) 1.0
Trimecaine 2.5
Twin-80 0.5
Emulsifier N 1 0.5
Distilled water 26.0
Freon-12 22.0
PRI me R 3. Composition, wt.

2-Allyloxyethyl alcohol 3.0
Collagen 0.6
Phosphate Buffer 15.0
1,2-Propylene glycol 24.0
Vitamin E Concentrate
(30.0th) 1.2
Trimecaine 1.0
Twin-80 0.6
Emulsifier N 1 0.6
Distilled water 28.0
Freon-12 26.0

Claims (1)

 AEROSOL MEDICINE FOR TREATMENT OF RADIATING BURNS, containing 2-allyloxyethyl alcohol, freon-12, characterized in that it additionally contains trimecaine, collagen, 1,2-propylene glycol, 30-percent solution of vitamin E, tween-80, emulsifier N 1, distilled N 1, distilled water, phosphate buffer pH 7.0 in the following ratio of ingredients, wt. 2-allyloxyethyl alcohol 2 4
Collagen 0.3 0.6
Phosphate buffer pH 7.0 15 20
1,2-Propylene glycol 20 25
30th solution of vitamin E 1.0 1.5
Trimecaine 1.0 2.5
Twin-80 0.3 0.6
Emulsifier N 1 0.3 0.6
Distilled water 20 30
Freon-12 20 30

Images