RU2429029C2 - Method for prevention of thermal burns of human skin - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: for prevention of thermal skin injures, skin is preventively coated with an ointment before putting on protective clothes. The ointment contains the substances in the following proportions %: chondroitin sulphate 25-27 %, lanolin (anhydrous) - 36.5-37.5 %, Vaseline - 36.5-37.5 %.

EFFECT: method allows to prevent potential skin burns ensured by the fact that the ointment contains chondroitin sulphate containing covalent bonds S-O providing absorption of a certain infrared frequency spectrum band and the substances enabling its optimal penetration.

Description

The invention relates to medicine, in particular to the physiology of work, burn injuries, and can be used to prevent thermal skin lesions in contact with an open flame.

A known method for the prevention of thermal lesions of the skin by using substances (antiflogists) with anti-inflammatory and anesthetic properties that could be used as part of medical skin protection products applied preventively (in the form of ointments) / Minenko N.A. Medical and technical substantiation of the method of applying local anesthetics to increase the anti-burn properties of personal thermal protection agents: Author's abstract. dis ... cand. biol. Sciences, St. Petersburg., 1999 /.

However, the action of these substances is very limited (no more than 5 minutes after the moment of application to the skin) and in conditions close to combat or catastrophic, the use of such substances is ineffective. A large number of pharmacological substances (ointments) used to treat burn injuries, such as dermazine, betadine, and others, have mainly antiseptic properties and are not preventively applied / Vidal Handbook. Medicines in Russia: a guide. - M .: Astra Farm Service, 2008 /.

A known method for the prevention of thermal lesions of the skin by the use of protective clothing / Koscheev B.C., Kuznets E.I. Physiology and hygiene of individual protection of a person at high temperatures. - M.: Medicine, 1986 /.

The disadvantage of this method is the low reliability of the protection of the skin from the effects of the thermal factor.

The aim of the invention is to increase the effectiveness of the prevention of thermal lesions of the human skin.

The goal is achieved in that, along with the use of protective clothing, a substance containing chondroitin sulfate is preventively applied to the skin.

The composition of the drug "Chondroitin - Akos" (chemical name: chondroitin 4 - (hydrogen sulfate)) (in capsule form) includes: as an active component - chondroitin sulfate and in a small amount - auxiliary components: milk sugar and calcium stearic acid or stearic acid. Currently, this drug is used as a stimulator of the regeneration of cartilage in the joints.

The main purpose of the drug "Chondroitin - Akos" is the treatment of joints / Vidal Handbook. Medicines in Russia: a guide. - M .: Astra Farm Service, 2008 /.

The drug is also used in the form of an ointment, which includes chondroitin sulfate and excipients: dimethyl sulfoxide, which facilitates the rapid penetration of chondroitin sulfate molecules through cell membranes deep into the tissues, lanolin, which ensures the penetration of chondroitin sulfate molecules into deeper layers of the skin, and vaseline, which affects the tension and vaseline tension contributing to the retention of ointment on the surface of the skin.

Structum (the chemical name is 4,6-chondroitin sodium sulfate) (in capsule form) has pharmacological properties similar to those of the “Chondroitin-Akos" preparation and is used as a stimulator for the regeneration of cartilage tissue of joints. The structure of the Structum preparation is ideally suited for this purpose and includes: the active component is chondroitin sodium sulfate and the excipient is talc (in small amounts). / Reference Vidal. Medicines in Russia: a guide. - M .: Astra Farm Service, 2008 /.

The method is implemented as follows. An ointment is being prepared, which includes:

- chondroitin sulfate in an amount of 25-27%;

- lanolin (anhydrous) - 36.5-37.5%;

- petroleum jelly - 36.5-37.5%.

The preparation of the ointment was carried out as follows: the active component was extracted from the capsules of the finished preparation “Chondroitin-Akos”, lanolin and petrolatum were added to it in the proportions indicated above, after which a mixture was prepared by the conventional method — an experimental preparation.

To prepare the ointment base, lanolin was chosen as a substance that promotes the gradual penetration of chondroitin sulfate molecules into the deeper layers of the skin, and petroleum jelly as a substance that holds the ointment on the surface of the skin area.

The prepared ointment is applied to the skin before putting on special clothing.

To prove the conformity of the proposed solution to the criterion of the invention "industrial applicability", studies were conducted on animals - non-linear white male rats weighing 180-200 g, which were kept in vivarium on a normal diet.

The morphological structure of the skin of white rats is quite comparable with the structure and properties of human skin / Kochetygov N.I. Burn disease. - L .: Medicine, 1973 /, which makes it possible to reproduce burn injuries in rats that are close to those that may be in humans.

Since three-layer clothing is the most optimal from the point of view of heat transfer / Koshcheev B.C., Kuznets E.I. Physiology and hygiene of individual protection of a person at high temperatures. - M: Medicine, 1986 /, as a model of personal fire protection equipment (SIPOZ), packages of protective materials were used, consisting of: from the top layer - non-combustible material of super-modular fabric (SVM); the intermediate layer - cotton fabric (art.3386), widely used for the manufacture of special clothing / Krichevsky G.E. Chemical technology of textile materials. - M .: Legprombytizdat, 2001. - T.3 /; and the lower layer, made of calico art. 222 - in contact with the surface of the skin.

For the standardization of the experiment, all layers of the package were tightly adjacent to each other and to the skin of the animal, on the surface of which the experimental preparation was previously applied. This fact is also important because we studied the anti-burn (optical) properties of the drug and it was necessary to exclude the convective method of heat transfer to the skin.

The amount of the drug applied to the skin was 2 g, the duration of its presence on the skin not covered with a package of protective materials was 10-11 minutes.

For applying burns, a device equipped with a source of infrared radiation was used, which provided a dosed short-term (40 s) radiation of heat to the skin and reproducibility of the severity of the injury. The surface area of the skin of the animal subjected to thermal exposure was 10 ± 2%.

The temperature of the package of materials was measured using standard thermocouples fixed on its surface, displayed on the recorders, and amounted to: 160 ° C for modeling deep burn injuries Over - 36 degrees and 100 ° C for modeling surface burns of the 2nd degree.

To assess the severity of burns, visual monitoring of the dynamics of the development of the pathological process with determination of the area of the burn wound, as well as generally accepted histological research methods, were used. The daily sampling of histological material was carried out from the fifth to the twenty-seventh day of observation. One of the important criteria for the effectiveness of the method was to take into account the duration of complete healing of a burn wound.

Statistical processing of the results was carried out in accordance with generally accepted methods of linear statistics / Biometrics. / Ed. M.M. Timofeeva. - L .: Leningrad State University, 1982 / when using the software package “Statgraphics”. The difference in the results was determined at a 95% probability level.

The results of visual observations and histological studies showed that with the preventive use of an experimental preparation in the system "IR source - material package - animal skin", leveling of burn lesions of the 2nd degree and a decrease in the severity of deep burns of the 36th degree to superficial burns are observed. compared with a control sample of animals in which burns were applied without the use of ointment.

On histological preparations, the following is observed: with burns of 36 degrees, complete destruction of the cambial cells of the hair follicles, which indicates a deep damage to the area of the skin in the control sample of animals; with burns of 3a degree - slight damage to a small area of the basement membrane.

The results of preliminary studies of the therapeutic anti-burn properties of the experimental preparation when applied once immediately after applying the burn showed a decrease in the severity of deep burns of 36 degrees by one degree (that is, to a superficial burn of 3a degree) compared with the control sample of animals. The results obtained are additional confirmation of the possibility of using chondroitin sulfate for prophylactic purposes.

The proposed formulation of ointment meets the generally accepted requirements for the use of medical skin protection:

- does not irritate the skin;

- easily applied to the skin and does not violate its physiological functions;

- stored on the skin for a long time;

- easy to remove with water.

The results of such studies with the preventive use of drugs, which included:

a) an inorganic substance (not containing covalent bonds, including S-O bonds) in similar proportions with lanolin and petrolatum, or

b) lanolin and petroleum jelly in equal proportions of 50%

showed no differences with the control sample of animals.

The prerequisite for the study was the fact that S-O covalent bonds are capable of absorbing a certain band of the infrared frequency spectrum / Nakamoto K. IR and Raman spectra of inorganic and coordination compounds: Per. from English - M.: Mir, 1991 /.

It is also known that in the structure and function of the skin, the main role is played by acid mucopolysaccharides (MPS), including chondroitin sulfuric acid (chondroitin sulfate), dermatan sulfate, keratosulfate, heparin, whose molecules contain a large number of S-O bonds / Chernukh A.M., Frolov EP Skin (structure, function, general pathology and therapy) - M.: Medicine, 1982 /. The absorption of energy of infrared radiation occurs mainly in the epidermis, in the stratum corneum / Galanin N.F. Radiant energy and its hygienic value. - L .: Medicine, 1977 /, which is the upper layer of the skin and is directly affected by radiation. The presence of the above polysaccharides in the structure of the stratum corneum was proved / Chernukh A.M., Frolov EP Skin (structure, function, general pathology and therapy). - M .: Medicine, 1982 /, which confirms the possible participation of these substances, and hence covalent bonds, including SO bonds, in the absorption of energy of radiation incident on the skin (in the stratum corneum, only bonds absorbing radiation can be covalent, since there are no hydrogen and electrostatic bonds in it).

Chondroitin-4-sulfate contains disaccharide units with components: D - glucuronic acid; N - acetyl - D - galactosamine - 4 - sulfate.

The experimental work currently being carried out will make it possible to more accurately determine those structures of the skin that are involved in the distribution of radiation energy when burn lesions occur (develop), which will make it possible to synthesize medical skin protection products with desired properties in the future.

Claims (1)

A method for the prevention of a burn of the skin by using protective clothing, characterized in that the ointment containing substances is preventively applied to the skin in the following ratio of components,%: chondroitin sulfate 25-27, lanolin (anhydrous) 36.5-37.5, petrolatum 36, 5-37.5.