RU2663907C1 - Method of accelerating healing of skin damage - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medicine, namely to experimental medicine. On the damaged surface of the skin, the supernatant of the titanium nickelide alloy is applied by local application of the solution once a day for 28 days on the 0, 1, 3, 7, 14, 21 and 28 day.EFFECT: method ensures acceleration of healing of skin lesions that occurred after II-III degree burns by stimulating regeneration and enhancing the proliferative activity of skin cells.1 cl, 1 tbl, 10 dwg

Description

The invention relates to medicine, in particular to experimental medicine, and can be used to treat skin wounds (injuries) of various etiologies, including those resulting from burns.

The relevance of the proposed method is determined by the fact that one of the modern directions in the search for accelerated skin regeneration is the use of metal alloys. The interaction between the material and the biological environment can occur in two directions. One of them is the effect of the material on biological tissues, the second is the effect of biological tissues on the material. Biologically compatible is a material that does not have a negative effect on living tissues and does not degrade from their reverse action. In this regard, priority is given to materials that cause a minimal and sparing reaction of the tissues surrounding them [Unizhaeva A.Yu., Martynchik S.A. Medical and economic assessment of costs and quality of inpatient care for burn injuries // Electronic scientific journal "Social aspects of public health". 2013 .URL: http://vestnik.mednet.ru/content/view/447/30/lan g, ru / (date of access: 01.24.2013)].

A known method of treating skin wounds [RF Patent No. 2315608, A61P 17/02 A61K 35/74, publ. January 27, 2008] in which an aqueous solution of ribomunyl in a dose of 0.001 ± 0.0005 mg is used. The drug is administered intradermally at least 4-5 points around the skin wound daily for three to five days. The method provides an acceleration of the healing rate of the skin wound and the formation of a more tender connective tissue scar.

A known method of treating long-term non-healing purulent skin wounds and ulcers [RF Patent No. 2558518, A61P 17/02 publ. 08/10/2015] treatment of long-term non-healing purulent skin wounds and ulcers is carried out by applying zinc paste and fibrin powder obtained from the blood clot of a domestic pig onto their surface, while dry fibrin powder is mixed with zinc paste in a ratio of 1: 5 for 25-30 minutes before overlay.

Known pharmaceutical compositions and methods of accelerating wound healing [RF Patent No. 2358753, A61K 38/00 publ. 06/20/2009] in which the use of an agent selected from adipokine or an adipocyte modulator for the preparation of a pharmaceutical composition adapted for topical application for the induction or acceleration of the healing process of a skin wound is claimed.

The technical problem to which the claimed invention is directed is stimulating the regeneration of skin cells, accelerating the healing of skin lesions by increasing the proliferative activity of skin cells under the influence of the supernatant of a titanium nickelide alloy.

The technical problem is solved due to the fact that the method of accelerating the healing of skin lesions is characterized in that titanium nickelide supernatant is applied to the damaged skin surface by topical application once a day for 28 days.

A method of accelerating the healing of skin lesions is as follows.

In the experiment, 140 Syrian male hamsters (Syrian golden hamster) of 5-6 months of age weighing 90-120 g were used. Animal experiments were carried out in compliance with the "Rules for the work using experimental animals" (order of the Ministry of Higher and Secondary Special the formation of the USSR of November 13, 1984 No. 742). The animals are divided into 2 groups: 1 group of 70 animals - control, in which the spontaneous regeneration of damage without treatment was studied, 2 group of 70 animals - experimental. Under conditions of sevoran anesthesia, wool was shaved on the back with a household machine. In order to improve the extensibility of the skin and more accurately apply a burn wound, 1 ml of physiological saline solution was injected subcutaneously. To apply the burn, an Soyuz PS2005-100 electric soldering iron was used, heated to 230 ° C. The skin was exposed for 3 seconds, which caused a burn of II-IIIa degrees. Burn surfaces in both groups were elliptical in shape. The wound was treated with a titanium nickelide supernatant, this solution was prepared at the rate of 10.0 g of titanium nickelide powder developed by the Tomsk Scientific Research Institute of Medical Materials and Alloys per 1 liter of sterile water. The dispersed system was obtained by ultrasonic dispersion with subsequent exposure to stabilize the turbidity. Wound was monitored every day. The treatment and measurement of the wound surface area were carried out on 0, 1, 3, 7, 14, 21, and 28 days from the beginning of the experiment, then the wound area was calculated until complete healing.

Estimated growth, weight of animals. The calculation of body surface area was performed using the standard medical formula for calculating the body surface area:

where A is the growth of the animal, B is the mass of the animal.

To obtain objective indicators of wound healing by secondary intention, the planimetric method L.N. Popova, based on recording the rate of reduction of the wound surface in time. A plate of cellophane sterilized in an autoclave is placed on the wound and the outline of the wound is inked on it. Then, the coated cellophane was laid on graph paper and the area of the wound was determined by counting square millimeters inside the loop. To measure the surface area of the skin defect, the formula proposed by F. Ya. Bozhinova:

where: n is the number of full cells measuring 2 × 2 mm ² ; k is the number of incomplete cells measuring 2 × 2 mm ² ; C is the area of one cell 2 × 2 mm ^{2 in} size.

The proportion of reduction in wound area per day was determined by the formula (%):

where S is the area of the wound in the previous measurement; Sn is the area of the wound in this measurement; t is the number of days between the first and subsequent measurements.

The wound healing rate was determined by the formula of M.G. Markaryan and G.Ts. Sargsyan:

where: Z is the initial area of the wound; Z1 - its area at the time of measurement; n is the number of days.

For histological examination, a skin flap was taken with the underlying tissue at the burn site, the material was fixed in a 10% solution of neutral formalin, and filling was carried out in paraffin. Paraffin sections were stained with hematoxylin and eosin, according to the method of Van Gieson, Mallory, and Weigert for elastin. Proliferative activity was determined using IH studies with antibodies to the Ki67 protein. For morphometry, a Zeiss Axio Image A1 microscope and the VideoTest-Morphology-5.1 program were used. Statistical processing of the obtained data was performed using the Statistica 6.0 program, the reliability of the results was evaluated using Student's criterion. The results of the study. A visual examination revealed that the damage site in animals of the experimental and control groups in the form of coagulation necrosis is formed within the first 5 minutes after exposure to high temperature and corresponds to a burn of II-IIIa degrees (Fig. 1).

In animals of the control group, the regeneration process in which the following dynamics of the wound proceeded spontaneously was noted: a tight scab persisted from the 3rd to the 7th day. During histological examination, coagulation necrosis remained in full, the epithelial layer of the skin did not recover even from the edges (Fig. 2)

Wound cleansing occurred on days 14-21, complete wound cleansing with the beginning of hair restoration developed on days 32-35 (Fig. 3). Throughout the recovery period, exudative inflammatory changes persisted in 30% of cases.

In animals of the experimental group, upon treatment of the burn surface with a titanium nickelide supernatant, by the 3rd day a dense scab formed in the affected area. Microscopic examination showed severe exudative inflammation, characterized by vascular congestion, stasis of red blood cells in capillary vessels, edema, inflammatory infiltration of a predominantly lymphocytic nature (Fig. 4).

At the edges of the wound, an increase in regenerative processes in the stratified squamous epithelium was observed, manifested by an increase in the thickness of the epithelial layer (Fig. 5).

On the 7th day there was a lag of the scab along the edges of the wound surface with the appearance of pink granulation sections. Microscopic examination revealed an increase in the proliferating epithelium from the edges of the wound to the wound surface. The regenerating epithelium in the form of a “tongue” grew under the scab and spread along the exposed wound surface formed by granulation tissue. The growth of the epithelium occurs simultaneously with the development of the connective tissue base of the epithelial layer (Fig. 6).

On day 14, the wound cleansed. Microscopic examination determined the closure of the wound surface with a thin layer of the epidermis to three layers. In the dermis, young granulation tissue occupies the entire thickness, inflammatory infiltration persists. As part of the inflammatory infiltrate revealed: lymphocytes, macrophages, fibroblasts, single fibrocytes (Fig. 7).

The completion of the skin regeneration process developed on the 21st day of the experiment and was characterized by complete cleansing of the wound, the absence of purulent discharge, the appearance of pale pink skin, hair growth sites (Fig. 8). By 28 days of the experiment, complete restoration of the hairline on the entire surface of the lesion was noted.

High proliferative activity in terms of the Ki67 protein level of dermal structures in the zone of epidermal damage was observed from the 7th to the 14th day (22.3-48.5%) after receiving a thermal injury (in the control from the 21st to the 28th day). The highest proliferative activity of cellular elements was observed in the region of regional wound epithelialization (IP-48.5%).

During the experiment, the data entered in the developed table made it possible to evaluate and trace the dynamics of healing of the burn surface (Table 1).

Analyzing the results obtained, it can be reliably stated that when the nickelide-titanium supernatant acts on the wound surface, from the 3rd day of the experiment, a marked difference in the rate of closure of the wound defect is noted. In animals of the experimental group, a decrease in the area of the wound develops much faster. By the end of the experiment, in the group of animals with a nickelide-titanium supernatant, the wound healed completely, a 26 mm defect remained in the control group (Fig. 9).

The percentage reduction in the area of the wound maintains a higher level at all times of the experiment in animals of the experimental group, especially on the first and third days and at the end of the experiment (Fig. 10). The healing rate of the wound area in animals of the experimental group is significantly higher than in the control, especially in the first - seventh day.

Thus, a comprehensive histological and morphometric study of the dynamics of skin wound healing in the experiment revealed that the use of titanium nickelide supernatant contributes to a higher rate of development of reparative processes and is manifested by accelerated epithelization of the wound defect. The regenerate is characterized by the restoration of not only the thickness of the epithelial layer, but also the derivatives of the skin - hair, sebaceous and sweat glands.

Claims (1)

A method of accelerating the healing of skin lesions, characterized in that the supernatant of the titanium nickelide alloy is applied to the damaged skin surface by topical application once a day for 28 days on days 0, 1, 3, 7, 14, 21 and 28.

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