RU2174395C2 - Method of enhancement of completeness of skin post-traumatic regeneration - Google Patents

Abstract

FIELD: medicine, experimental medicine. SUBSTANCE: animals are subjected to prolonged medicinal sleep using nembutal administration up to complete cutaneous wound healing. EFFECT: enhanced effectiveness of skin regeneration. 2 ex

Description

 The invention relates to experimental medicine.

The literature describes the use of dosed mechanical damage (punctures of the epithelialized surface of the skin scar with a needle, with a diameter of 0.1 mm, 3-4 punctures per 1 mm ² ) to increase the completeness of skin regeneration (Efimov EA, Bukina TV, Kobzar V .E. Effect of a mechanical factor on the completeness of skin restoration on the back in mice // Bulletin of Experimental Biology and Medicine. - 1988. - T. 151. - N 11. - P. 624-625). The essence of this method is that in mice, after epithelization of extensive full-layer skin defects, scars form on the back, which were subjected to dosed mechanical damage at different stages of their maturity. As a result, the effect led to a decrease in the size of the scars and a significant morphological rearrangement, directing the restoration process along the path of organotypic regeneration with the formation of more complete dermal-type skin regenerates compared to the scar.

 The technical result of the claimed invention is to increase the completeness of post-traumatic skin regeneration.

 The essence is that in the claimed method, the animals are applied with a wound full-layer skin defect, immediately after which they are immersed in a prolonged medical sleep, by intramuscular injection of Nembutal three times a day (every 8 hours), at a dose of 40-50 mg / kg of body weight animal. The introduction of Nembutal continues until the wound is completely healed. As a result, the completeness of skin regeneration in rats increases — skin folds are formed, the papillary dermis forms, the severity of fibrosis in the skin regenerate decreases, and the volume of coarse-fibrous connective tissue generally decreases.

 In the literature on biology and medicine available to us, there was no mention of the use of medical sleep to increase the fullness of skin regeneration, which allows us to consider the claimed invention to meet the criterion of "novelty."

Example 1
The experiment was carried out on 22 white Wistar male rats weighing 160-170 g. In these animals, under ether anesthesia, a full-layer wound skin defect 1.0 x 0.5 cm in size was created on the right side of the back surface after plucking the hair.

 In the 1st experimental group (12 rats), after applying the wound to the animals, Nembutal was intramuscularly injected into the hind paw and they were immersed in a medical sleep. Three times a day, the introduction of Nembutal maintained a state of sleep, which lasted 12 days until the wound was completely healed. The sleep was not continuous, at the time of waking the rats were fed and urinated and defecated.

 In the 2nd control group (10 rats) after creating a wound defect, the rats were injected three times a day, similarly to the experimental group of animals, a physiological saline solution of sodium chloride was injected intramuscularly for 12 days.

 The results obtained: 105 days after the wound was applied, skin regenerates in the 1st and 2nd groups of rats were subjected to morphological examination using the methods of light and scanning electron microscopy.

 An analysis of the regenerates showed that in the rats of the experimental group, skin folds and grooves form, forming a microrelief similar to the outside of the intact skin of similar localization, a noticeable papillary dermis is formed, the severity of fibrosis in the regenerate and the scar volume as a whole, the surrounding injured hair follicles germinate, regenerate on which the sebaceous glands regenerate. In all rats of the control group, connective tissue scars devoid of the distinguishing features described above are formed at the site of the wound defect.

Example 2
The experiment was conducted on 7 outbred puppies of dogs weighing 2.3-2.8 kg. All puppies under ether anesthesia on the ventral side of the body after shaving their hair created a full-layer wound skin defect measuring 0.5 x 0.5 cm.

 Four animals of the experimental group were injected intramuscularly with an aqueous solution of Nembutal three times a day after the operation to maintain drug sleep at a rate of 40-50 mg / kg of animal weight for 10 days until the wound was completely healed.

 Three puppies of the control group were injected intramuscularly with the same volume of an isotonic aqueous solution of sodium chloride for 10 days, three times a day, similarly to the experimental group of dogs.

 Results obtained: 90 days after the application of the wound, skin regenerates were subjected to morphological examination. In puppies of the control group, a connective tissue scar was formed at the site of the wound defect. In animals of the experimental group, in contrast to the control group, a skin regenerate was formed, the fibrous skeleton of the connective tissue resembling intact skin of similar localization, the epidermis formed by invaginations into the regenerated connective tissue, the severity of fibrosis in the regenerate was minimal.

Claims (1)

 A method of increasing the completeness of post-traumatic skin regeneration in mammals by immersing animals in a prolonged medical sleep by introducing nembutal until the skin wound is completely healed.