RU2237473C1 - Method for treating wounds - Google Patents

Abstract

FIELD: medicine, military-field surgery, medicine of catastrophes, traumatology.

SUBSTANCE: an oxygen-carrying curative preparation - perfluorane - should be injected subcutaneously around the wound. It should be injected at the dosage of 0.1-0.5 ml/kg body weight once daily. Perfluorane should be injected till disappearance of edema, but not more than 3 d. The method enables to increase the number of preparations applied for treating different wounds.

EFFECT: higher efficiency of therapy.

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Description

The invention relates to medicine, in particular to field surgery, disaster medicine, traumatology, and can be used to treat contaminated wounds with a high probability of healing by secondary intention, for example, for gunshot wounds, wounds caused by an electric saw, wounds in ischemic tissues, for example long pressed.

Known methods for treating wounds, including primary surgical treatment (PCP), antiseptic treatment, the application of primary sutures, immobilization of the damaged part of the body and general drug treatment aimed at stimulating the defenses of a weakened body (Traumatology and orthopedics / Manual for doctors: In 3 volumes. T 1 Under the editorship of Yu.G. Shaposhnikov. - M.: Medicine, 1997. - S. 97).

Their disadvantages: additional tissue trauma during PCP, there is no complete certainty that all non-viable tissues during PCP are removed, general and local wound infection after PCP, conditions for the regeneration of damaged tissues are unfavorable due to their hypoxia, necrosis, trophic disturbances, long treatment periods , unsatisfactory functional outcomes, as well as the absence in these methods of methods of adequate supply of oxygen to affected tissues in a state of hypoxia.

A known method of treating wounds, including local oxygenation of the wound zone by repeatedly irrigating it with an oxygen-transporting therapeutic agent, for example perfluorane, through a through drainage from a semipermeable membrane (Materials of the VII Congress of Orthopedic Traumatologists of Russia, vol. 1, Novosibirsk, 2002. S. 293, Mikhailov S.V. Experimental and clinical justification of the possibility of maintaining tissue viability during gunshot fractures / Abstract of dissertation ... Candidate of Medical Sciences. St. Petersburg, 1996, p. 18).

The disadvantages of this method: it can be performed only in a specialized institution and cannot be used in the prehospital phase. Insufficient lymphostimulating and membrane-protective effect acting on paravular tissues, since perfluorane itself does not enter the tissue. In addition, it is known that after a gunshot wound in the tissues surrounding the wound canal for 2-3 days, there is a spasm of the vessels, which significantly violates the flow of nutrients and oxygen into the tissues. This leads to secondary necrosis in the wound. After 2-3 days in the wound, a barrier forms for the entry of contents from the surface of the wound, the flow of oxygen into the tissue is limited. This leads to delayed wound healing, long periods of treatment and unsatisfactory functional outcomes.

Objectives of the invention: improving the quality of treatment by improving the delivery of oxygen to damaged tissues, normalizing the wound process, reducing treatment time, improving functional results.

These tasks are achieved by the fact that in the method of treating wounds, including local oxygenation of the wound zone with an oxygen-transporting therapeutic agent, the oxygen-transporting therapeutic agent is administered subcutaneously, regionally and paravularly. Perfluorane in a dose of 0.1-0.5 ml / kg of the mass is administered once a day as an oxygen-transporting therapeutic agent. In addition, perfluorane is administered until the edema disappears, but no more than three days.

The method is as follows.

The skin around the contaminated wound is treated with an antiseptic solution. An oxygen-transporting therapeutic agent is administered subcutaneously, regionally and paravulularly, at a dose of 0.1-0.5 ml / kg body weight once a day, until the edema disappears, but no more than three days.

A specific example of the method.

The experiment was carried out on outbred rats weighing 250-350 g. The experimental animal was anesthetized with the introduction of ketamine at a dose of 40 ml / kg body weight. An electric saw with an open bone fracture was wounded. The skin around the wound was treated with an antiseptic solution. An oxygen-transporting therapeutic agent, for example, oxygenated perftoran in a dose of 0.1-0.5 ml / kg body weight, was introduced subcutaneously, regionally and paravularnally. The oxygen-transporting therapeutic agent was administered once on the second and third days in the same dose. According to the results of microbiological studies, the number of microbial bodies per 1 g of tissue weight decreased from 10 ⁶ to 10 ² . By the ninth day of observation, the wound healed under a dry scab. Morphologically under the scab tissue epithelization was observed. The leukocyte intoxication index (LII) is 0.5. In the control animal, at the same time, the wound continues to heal by secondary intention.

The significance of the differences of the proposed method is as follows.

Contaminated wounds with a high probability of healing by secondary intention, such as gunshot wounds, wounds inflicted by an electric saw, and wounds in ischemic tissues, for example, in long-term compression, are characterized by:

- a significant amount of tissue destruction, microbial contamination of the wound, massive blood loss and the complexity of care at the stages of medical evacuation, as well as frequent unsatisfactory anatomical and functional outcomes of treatment;

- the formation of a tissue defect, the presence of a zone of necrotic tissue around the wound channel, the development of circulatory and nutritional disorders in tissues bordering the wound zone, contamination of the wound with various microorganisms and foreign bodies;

- wounds obtained with prolonged compression syndrome (SDS), in the vast majority of cases, lead to suppuration. This is facilitated by tissue hypoxia and, as a result, its dystrophic and necrotic processes. This promotes the growth of microorganisms.

Tissue damage is characterized by the destruction of cell membranes. Studies have shown that perfluorocarbon emulsions dissolve in lipids of cell membranes, transfer oxygen and carbon dioxide in themselves, and become part of the oxygen transport system in cells and body tissues. Integrating into the structure of cell membranes, these emulsions are able to stabilize the structure of the endothelium of blood vessels and cell membranes (V. I. Shumakov et al. In the book: “Organofluorine compounds in biology and medicine”, Pushchino, 1999, pp. 144-145).

The body's reactions to the wound process are divided into three periods. The first consists in the melting of necrotic tissues, their removal and, thus, in cleansing them of a wound defect. The duration of this period is stretched on average by 3-4 days. Initially, there is a spasm of blood vessels in the wound area, tissue hypoxia is observed. Then, an increase in the permeability of the vascular wall is accompanied by “traumatic” edema of the soft tissues. This further disturbs tissue nutrition and acidosis progresses, which in turn contributes to the progression of traumatic edema (B.M. Kuzin, M.Kostyuchenok. Wounds and wound infection, M .: Medicine. 1981, p. 57).

The inhibitory effect of hypoxia on the healing process was noted in a significant number of works (Logova V.I., 1971; Douglas D. et al., 1969, 1973). Regeneration processes are inhibited, especially the first 3 days after damage (B. M. Kuzin, M. Kostyuchenok. Wounds and wound infection, M .: Medicine. 1981, p. 111).

Perftoran eliminates peripheral vasospasm, restores perfusion circulation and microcirculation, reduces vascular endothelial edema, improves microcirculation, tissue gas exchange and metabolism (V.V. Moroz, N.L. Krylov. In the book: “Organofluorine compounds in biology and medicine”, Pushchino, 1999, pp. 26-30).

Tissue microcirculation is disrupted in the wound area, therefore, oxygen delivery to tissues is insufficient and part of the cells die under hypoxic conditions. Perftoran improves microcirculation, increases oxygen saturation of hemoglobin and facilitates oxygen delivery to tissues due to its own oxygen capacity, low viscosity, small particle size, large total surface area and mobility in the bloodstream (G.R. Ivanitsky. In the book: “Organofluorine compounds in biology and medicine ”, Pushchino, 1999, p. 242).

Of course, pO ₂ in the wound area is an important factor affecting cellular reactions, microvessel growth, and the formation of collagen T.Hunt (1967) and others (p. 144, 320).

A significant effect on the healing of oxygen supply to wound tissues has been proven. The oxygen tension in the wound affects cell processes, the development of capillaries, collagen (B. M. Kuzin, M. Kostyuchenko. Wounds and wound infection, M .: Medicine. 1981, p. 320).

Biologically active substances that enter the bloodstream after an injury stimulate the blood coagulation system, thereby increasing blood viscosity, and blood clots form in small vessels, which leads to malnutrition of tissues. Perftoran favorably affects the rheological properties of blood (G.A.Sofronov et al. In the book: “Organofluorine compounds in biology and medicine”, Pushchino, 1999, p. 21). The ability of perfluorocarbons to stabilize the cell membrane reduces edema and improves gas exchange conditions. Perftoran reduces the viscosity of whole blood. It is effective in violation of microcirculation and tissue gas exchange, cellular metabolism to eliminate circulatory and tissue hypoxia. Thus, the beneficial effect of perftoran on tissues in the claimed method is due to both improving microcirculation and its oxygen-transporting, membrane-protective, antiexudative anti-alternative action.

In the claimed method, the administration of perftoran subcutaneously, regionally and paravularly to the tissues affected by the damage allows to improve nutrition and tissue respiration, weaken the development of edema, reduce plasma loss and blood clotting, causing secondary circulatory hypoxia of the tissues, which leads to a deepening of micronecrosis and myolysis.

Perftoran, entering the circulatory or lymphatic systems, possessing the ability to transport oxygen, has the effect of tissue oxygenation. Perftoran, being in paravular tissues, improves microcirculation and gives oxygen to tissues to their entire depth, restores cell membranes.

According to the instructions, perfluorane is administered intravenously at a dose of 5-30 ml / kg body weight. In the inventive method, perfluorane is administered subcutaneously. Subcutaneous administration excludes complications such as air embolism and thrombosis. The instruction provides a dose based on the weight of the whole body. Subcutaneous dose instructions are not provided. In the claimed method, the dose is calculated for subcutaneous administration, for example, with gunshot wounds, wounds caused by an electric saw, and wounds in ischemic tissues (for example, in long-pressed). Given that, using the claimed method, we treat a limited area of the lesion, the dose of perfluorane for regional exposure should be adequate to the volume of the affected tissues, therefore, the dose proposed in the present method is 0.1-0.5 ml per 1 kg of patient weight.

In the claimed method of treating wounds, oxygenated perftoran is administered for no more than 3 days, because starting from the 4th-5th day after injury, oxygen suppresses collagen formation, osteogenesis and collagen breakdown prevails over its synthesis (Stern B. et al., 1966).

The use of the proposed method in assisting victims, for example, with gunshot wounds, wounds caused by an electric saw, wounds in ischemic tissues, for example, in long-term compression, will reduce the severity of complications, improve the quality of treatment and the quality of wound healing. By reducing the time and cost of treatment, as well as reducing the level of disability, the use of the method will give a significant economic effect.

For the implementation of the proposed method does not require additional equipment. The method is applicable not only in clinical practice, but also at the stages of medical evacuation. Therefore, the method can be recommended for wide practical application. After the administration of perfluorane subcutaneously at the stages of medical evacuation, for example, at the stage of first medical aid, surgical treatment of the wound can be delayed, given that perftoran, by its indirect effect (improves trophic tissue) prevents the development of wound infection.

Claims (3)

1. A method of treating wounds, including local oxygenation of the zone by irrigation with perfluorane, characterized in that perfluorane is additionally administered subcutaneously paravularly. 2. The method according to claim 1, characterized in that perftoran is administered in a dose of 0.1-0.5 ml / kg body weight. 3. The method according to claims 1 and 2, characterized in that the perfluorane is administered daily, once until the edema disappears, but no more than three days.