RU2764360C1 - Burn treatment method - Google Patents

Abstract

FIELD: medicine; physiotherapy.

SUBSTANCE: for the treatment of superficial skin burns in children and adults, photo-chromotherapy of a wound is performed. For this purpose, during the procedure, the effect on the wound of narrow-band optical radiation of green color with a wavelength of 540 nm at radiation power of 7.5 MW, energy exposure of 225 MJ/cm², radiation intensity of 100% in continuous mode for 5-7 minutes is alternated with narrow-band optical radiation of blue color with a wavelength of 470 nm, radiation power of 12.5 MW, energy exposure of 300 MJ/cm², radiation intensity of 100% in continuous mode for 5-7 minutes. A gap between the matrix surface and the burn wound is 0.5-1 cm. In one procedure, 5-7 alternations of narrow-band optical radiation of green color with narrow-band optical radiation of blue color are carried out until the pain syndrome is relieved. Then, a bandage with “Dermazine” is applied to the wound surface. Photo-chromotherapy of the wound is carried out daily when changing bandages with “Dermazine”. The course of treatment is 7-10 days.

EFFECT: claimed method increases the efficiency of the treatment of burn wounds of the 2nd-3rd degree, reduces the treatment time of burn wounds of the 2nd-3rd degree for several times compared to traditional treatment, reduces the time for the use of painkillers, due to the fact that the intensity of pain syndrome is significantly reduced, the intensity of inflammation and autoimmune defects weakens, there is no possibility of infection, and it also does not require complex equipment and allows for procedures both in the hospital and at home.

1 cl, 2 ex

Description

The invention relates to medicine, specifically to combustiology, surgery, dermatology, and can be used in the treatment of damaged skin, in particular superficial burns.

Thermal and superficial skin lesions are one of the most common types of injuries in the structure of domestic and industrial injuries and represent not only a medical but also a socio-economic problem. The most common are thermal burns (up to 90% of cases), which are the result of exposure to the skin of a flame, hot gases, liquids, steam, hot objects. Burns are distributed according to the severity of the lesion as follows: light - 85%, medium - 12.5%, severe - 2.5%. Thus, up to 97.5% of burn injuries are burnt in mild and moderate severity. Despite the predominance of patients with mild and moderate burn injuries, the treatment of such patients remains one of the most labor-intensive and expensive types of medical care. Especially relevant is the issue of burn injuries in children and adolescents. Thermal injury in children and adolescents is a serious social, medical and economic problem. The share of thermal injury in adults accounts for about 10% of all victims, and in childhood it ranges from 10 to 20% of cases of domestic injuries. Among all injuries occurring in children, burns account for 8%. According to a number of domestic and foreign authors, from 30 to 80% of all patients in burn centers are children. The outcomes of third-degree burns in areas with mobile skin (face, hands, joints) are often unsatisfactory. In this regard, there is a need to perform reconstructive operations, often multi-stage.

The main problem in the treatment of victims with extensive lesions of the skin is the restoration of the skin. Without the final closure of the wound, which causes a whole range of physiological and pathological changes in the body of the victim, it is impossible to hope for a cure for the patient. Currently, various physical factors are used for the treatment of burn wounds (UVR, ultrasound, low-intensity laser therapy, vibro-acoustic therapy, cryotherapy, galvanization, HBO, aerotherapy, ozone therapy, microwave and EHF therapy, PMP).

Ideally, a physiotherapy treatment used to treat burns should meet several requirements:

1) prevent tissue damage in depth;

2) to have an anti-edematous effect;

3) have an analgesic effect;

4) have an antibacterial effect

5) Stimulate capillary blood flow and improve microcirculation

6) stimulate the proliferation of epithelium and connective tissue

7) stimulate the intensity of tissue and local immunity.

Recent publications on the results of work on the intensive care of burn patients using both medications and physiotherapeutic methods of exposure indicate that the introduction of light therapy, including laser therapy, into clinical practice is considered one of the promising areas of non-drug treatment.

It is known to use ultraviolet (UV) radiation in the treatment of superficial skin burns (Komarova L.A., Blagovidova L.A. Manual of physical methods of treatment. Leningrad, "Medicine", 1983, p. 178). UV radiation occupies a wavelength range from 400 to 180 nm in the spectrum of electromagnetic oscillations. Under the influence of UV rays, a pronounced redness (erythema) occurs on the skin, which appears due to a pronounced expansion of the skin vessels, which is accompanied by an acceleration of blood flow. These shifts determine the good absorbable, anti-inflammatory and analgesic effect of "erythemotherapy". However, during intense erythema, pain, tactile and temperature sensitivity of the skin increases, and pain sensations become aggravated. Analgesia occurs during the extinction of erythema. At the same time, the most pronounced analgesic and bactericidal effect is characteristic of short-wave UV radiation, while intense erythema and the more significant anti-inflammatory effect associated with it are characteristic of long-wave UV radiation. The disadvantages of this method include the complexity of dosing exposure to UV radiation (the biodose is determined after 6-8 hours, it is advisable to watch every hour, and after 24 hours the appearance of minimal threshold erythema on the skin is noted), the presence of a period of exacerbation of pain, as well as the nature of the factor that gives in case of overdose sunburn.

The patent (RU 2369415, A61N 5/06, 10.10.2009) indicates the effect of the antimicrobial action of narrow-band optical radiation with a wavelength of 470 nm (blue color). We used test strains of Staphylococcus aureus ATCC 6538 - P (the most common causative agent of wound infection) and Candida albicans ATCC 885-653 (a causative agent of wound infection that is difficult to treat with medication). Experimental samples of test strains were irradiated with narrow-band optical radiation (BRI) of 3 wavelengths: blue radiation (λ=470 nm), infrared radiation (λ=980 nm), green radiation (λ=560 nm) with different power densities. Irradiation exposure time - 3 min, 15 min, 30 min and 60 min. When irradiating Petri dishes with Staphylococcus aureus, URI with a wavelength of 470 nm (blue matrix) with a maximum power density of 2 mW/cm ² for this wavelength, and the number of colonies significantly (p<0.01) decreased by 1.5 times, regardless of irradiation time. ISW with a wavelength of 470 nm (blue color) does not stimulate the growth of Staphylococcus aureus colonies at any exposure and power density and has a significant bacteriostatic effect when exposed for 15 minutes at a power density of up to 1 mW/cm ² (p<0.01), and at a density power 2 mW/cm ² - regardless of the exposure time (p<0.01). Exposure to IOI with a wavelength of 470 nm (blue light) does not have a stimulating effect on the growth of colonies of fungi of the genus Candida in vitro. Conducted clinical studies have shown that narrow-band optical radiation with a wavelength of 470 nm (blue color) prevents infection of a burn wound, has an analgesic effect and promotes a favorable course of the reparative process due to anti-inflammatory, bacteriostatic, immunomodulatory effects. Narrow-band optical radiation with a wavelength of 470 nm does not provide additional tissue heating, which is an important factor in the treatment of burn wounds.

The patent (RU 2460555 C1, March 30, 2011) describes the use of blue light laser radiation with a wavelength of 450 ± 20 nm, a power of 0.25 W/cm ² , an energy density of 25-30 J/cm ² . A number of patents (RU 2261128, 12.26.2002, RU 266170, 2 06.24.2016) also indicate the use of blue light in the treatment of burn disease.

In patents (RU 2192906, 03.17.1997, RU 2460555 C1 30.03.2011, RU 2261128, 12.26.2002, RU 266170, 2 06.24.2016, RU 2648869, 03.28.2018), along with the use of another blue light (or several) physical factors that create a "synergistic" effect. Most often it is optical radiation with λ=660 nm (red light). Along with it, various types of photosensitizers, antiseptics, and magnetotherapy are used.

The closest to the proposed method for the treatment of burns at an early stage is the method (RU 2369415, A61N 5/06, 10.10.2009) for the treatment of superficial skin burns, including exposure to the wound with a URI with a wavelength of λ=470 nm, a radiation dose of 300-600 m J / cm ² .

The difference from the prototype lies in the fact that in addition to the use of blue light is used UOI with a wavelength of λ=560 nm (green light).

Green light (λ = 510-550 nm) has a positive effect on microcirculation, which leads to a decrease in tissue swelling, restoring the activity of the sympathoadrenal system inhibited by the pathological process, significantly weakens the intensity of inflammation and autoimmune defects, reduces heart rate and blood pressure, reduces the release of histamine from neutrophils. The use of this type of radiation, in addition to blue light, allows to achieve a significant increase in the effect ("synergism") in the treatment of burn disease.

A method for treating superficial skin burns is carried out by exposing the wound to narrow-band optical radiation (BRI) with a wavelength of 560 nm, radiation power - 7.5 mW, radiation dose - 225 mJ, intensity - 100%, in continuous mode, alternating with NB optical radiation of length waves 470 nm, power density 1-2 mW/cm ² , radiation dose 300-600 mJ, intensity 100%, in continuous mode. The gap between the matrix surface and the burn wound is 0.5–1 cm. Procedures are carried out daily. The course of treatment is 7-10 days.

The clinical result is to increase the efficiency of treatment of burn wounds of 2-3rd degree, reduce the duration of the injury period, reduce pain, bactericidal effect, reduce the duration of hospitalization, expensive and bulky equipment is not required, procedures can be performed by junior and middle medical staff.

The method is illustrated by the following clinical examples.

Example 1. K., 7 years old

From the anamnesis it is known that the child poured boiling water (hot tea) at home, as a result of which he received a burn. First aid was provided immediately. The primary toilet of burn surfaces was performed and a session of photochromotherapy was performed. Sequentially acted ISW at a wavelength of 540 nm (5 minutes) in alternation with ISW at 470 nm (5 minutes). After the 5th change of alternating IS, the child's pain syndrome decreased, he calmed down and fell asleep. Bandages with Dermazin cream were applied to the wound surfaces. The patient was changed daily dressings with "Dermazin" and during the dressing was carried out photochromotherapy (7 procedures in total) URI with a wavelength of 540 nm (green light) alternating with URI with a wavelength of 470 nm (blue light) at a radiation dose of 300 mJ / cm ² according to stable technique with a gap between the surface of the matrix and the burn wound of 0.5-1 cm. The duration of the procedure was 5 minutes on the field. After the first two procedures of photochromotherapy, the boy noted a decrease in pain and good tolerability of this procedure. Edema and hyperemia of adjacent tissues disappeared. After 7 procedures, the crust disappeared, the tissues were preserved. Skin depigmentation was noted.

Example 2

Patient K., 38 years old, burns with boiling water on the inner surface of the thigh (from the inguinal fold to the knee joint). Immediately after the burn, a 540-nm UVA was applied.

The patient was daily changed dressings with "Dermazin" and during the dressing was carried out photochromotherapy (10 procedures in total) with alternating IOS of green and blue light according to a stable method with a gap between the surface of the matrix and the burn wound of 0.5-1 cm. The duration of the procedure was - 5 minutes on the field.

After the first two procedures of photochromotherapy, the patient noted a decrease in pain and good tolerability of this procedure. Edema and hyperemia of adjacent tissues disappeared. Thus, after complex treatment with the use of 10 photochromotherapy procedures with 540-nm-wavelength (green) and 470-nm (blue-light) IGT, the patient has almost complete recovery with relief of pain.

The present invention has the following advantages over the prototype:

- increasing the efficiency of treatment of burn wounds 2-3A degree;

- reduction of the period of treatment of burn wounds of 2-3A degree by several times compared with traditional treatment;

- reduction of terms of use of anesthetic drugs, due to the fact that the intensity of the pain syndrome is significantly reduced;

- significantly weakens the intensity of inflammation and autoimmune defects; - no possibility of infection;

- does not require complex equipment;

- allows you to carry out procedures both in the hospital and at home;

Claims (1)

A method for the treatment of superficial skin burns in children and adults, characterized in that photochromotherapy of the wound is carried out, for which during the procedure the impact on the wound of narrow-band optical radiation of green color with a wavelength of 540 nm at a radiation power of 7.5 mW, an energy exposure of 225 mJ is alternated /cm ² , radiation intensity 100% in continuous mode for 5-7 minutes, with narrow-band optical radiation of blue color with a wavelength of 470 nm, radiation power - 12.5 mW, energy exposure - 300 mJ / cm ² , radiation intensity - 100 % in continuous mode, for 5-7 minutes; the gap between the surface of the matrix and the burn wound is 0.5-1 cm; in one procedure, 5-7 alternations of narrow-band optical radiation of green color with narrow-band optical radiation of blue color are carried out until the pain syndrome is relieved; then a bandage with "Dermazin" is applied to the wound surface; carry out photochromotherapy of the wound daily when changing dressings with "Dermazin"; the course of treatment is 7-10 days.