RU2651039C1 - Method of local treatment of purulent wounds with local flow of an ozone-oxygen gas mixture in type ii diabetes mellitus - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to surgery, and can be used for topical treatment of purulent wounds by a local flow of an ozone-oxygen gas mixture in type II diabetes mellitus. To do this, the body portion with a wound defect is treated with an ozone-oxygen gas mixture. Wherein, the supply of gaseous ozone at a concentration of 40 mg/l, with a gas flow rate of 2 liters/minute, is carried out with the aid of a device for local treatment of biological tissues by an ozone-oxygen mixture. Tip of the device is kept at a distance of 0.5–0.8 cm from the wound with an exposure of 3 minutes/3 cm² wounds.

EFFECT: invention allows to accelerate processes of purification and healing of purulent wounds and shorten the period of treatment of patients.

1 cl, 1 ex

Description

The invention relates to medicine, namely to surgery, and can be used in the local treatment of patients with infections of the skin and soft tissues.

There is a method of treating purulent wounds when, in the presence of necrotic foci, a necrectomy is performed, then the surface of the wounds or formed, including postoperative, cavities with ozonated distilled water obtained by passing an ozone-oxygen mixture through it at a concentration of 200 μg / l for 60 minutes then air ozonation is carried out with an ozone-oxygen mixture at a concentration of 50 μg / l for 20-30 minutes, then neutralized with a 1% sodium bicarbonate solution, then treated with a solution of rgola in a concentration of from 0.1 to 0.3% and the bandage [RF patent №2223768; A61K 33/00, A61K 33/38, A61K 33/38, A61P 17/02, Bull. No. 5, 02.20.2004]. However, this method is time-consuming to implement, because involves preliminary ozonation of distilled water, coupled with the use of additional neutralizing media.

Also known is a method of treating wounds in the second phase of the wound process with ozonized sea buckthorn oil with an ozone concentration of 8-10 mg / l and treating the wound for 60-90 with cavitating radiation at a frequency of 26.5 kHz for 7-10 days [application for invention of the Russian Federation No. 2006116865; A61N 5/00, A61K 33/08, A61K 36/00, A61P 17/02, Bull. No. 34, December 10, 2007]. The limitation of this method is that it can be used only in the second phase of the wound healing process, without affecting the duration of the wound cleansing.

Closest to the proposed one is a method for treating body parts with ozone, when a sterile gas-permeable ozone-resistant material covering the focus to be treated completely with a margin is preliminarily placed on the body part to be treated, a plate is made on it, made of an elastic material resistant to ozone, directly above the plate an exhaust device is installed, ozone is fed under the plate during the set duration of the procedure, and at the same time, the incoming from d ozone plate in hood with its subsequent expansion in a destructor, after ozone treatment procedure body portion of the insert is fed oxygen to their complete replacement in nonadsorbed gas permeable material, and release of ozone-treated area of the body from the exhaust device and the plate [RF patent №2324467; A61H 33/14, Bull. No. 11, May 20, 2008].

Despite the obvious advantages of using a limited effect on the body area with ozone in the gas phase, the method is associated with technical difficulties due to the use of an additional design (ozone-resistant film and plate), the need for its replacement and subsequent installation in cases of processing several biological surfaces, thereby increasing the duration of the procedure, without allowing you to strictly dose the supply of ozone-oxygen mixture and exclude contact with healthy tissues. The method cannot be applicable in cases of localization of purulent-inflammatory process in places of physiological bends and body cavities.

The objective of the proposed method: improving the effectiveness of local treatment of wounds on the background of type II diabetes mellitus, reducing the duration of inpatient treatment.

The problem is solved due to the fact that the supply of gaseous ozone at a concentration of 40 mg / l, a gas flow rate of 2 l / min is carried out using a device for local processing of biological tissues with an ozone-oxygen mixture, the tip of which is kept at a distance of 0.5-0.8 cm from the wound with an exposure of 3 minutes / 3 cm ² wounds.

The treatment method was carried out as follows. Previously, the edges of the wound were treated with an alcohol antiseptic, then the wound surface with a 3% hydrogen peroxide solution. Subsequently, the wound was treated with gaseous ozone using an apparatus for local treatment of biological tissues with an ozone-oxygen mixture, the removable tip of which was kept at a distance of 0.5-0.8 during the supply of ozone at a concentration of 40 mg / l and a gas flow rate of 2 l / min cm from the wound surface for 3 minutes for every 3 cm ² wounds with the capture of healthy tissue of the edges of the wound. After the local ozonation procedure, the dressing was completed by application of a gauze napkin soaked in a polyhexanide solution in the first phase of the wound process, and in the second phase of an alginate-calcium dressing. The treatment of the wound defect described above was performed daily until the diastasis of the wound edges was eliminated in the dressing room.

After the procedure, the stainless steel tip along with surgical instruments was subjected to pre-sterilization preparation, packaging and further sterilization in an affordable way. The proposed method does not require the use of additional limiting structures, its use is possible in the localization of purulent-inflammatory process in hard-to-reach places, body cavities and in cases with deep and incorrect course of the wound channel.

The results of using the proposed method are based on the analysis of 30 patients with infections of the skin and soft tissues against the background of type II diabetes mellitus in comparison with 30 similar patients in the local treatment of which the prototype wound treatment technology was used.

Evaluation of the effectiveness of the proposed method was carried out clinically. To evaluate the local inflammatory reaction, the following criteria were selected: the timing of the relief of edema and hyperemia in days, the timing of the replacement of purulent discharge for fibrinous / serous-fibrinous in days, the timing of the appearance and execution of wounds by granulation.

Statistical analysis is carried out.

The terms for stopping edema and hyperemia in patients with purulent wounds on the background of type II diabetes mellitus and the use of local directed sanitation with an ozone-oxygen gas mixture were lower than in patients of the second group. In the first group, patients with perifocal edema were not observed on average by 4.5 days, while in the second group the leveling of the symptom occurred only on 5.93 days (p = 0.001). Relief of hyperemia in the wound area occurred on average by 3.9 days in the first group and by 5.23 in the second group (p = 0.010).

The purulent discharge was replaced by fibrinous / serous-fibrinous in patients in the first group by 4.96 days, in patients of the second group by 6.1 days (p = 0.018).

The appearance of granulation tissue in the wound occurred in patients in the first group by an average of 5.63 days. In patients in the second group, the transition to the second phase of the wound healing process averaged only 7.1 days, which is much later than in patients with local wound repair by the ozone-oxygen gas mixture (p = 0.006).

The surface of the wounds was completely covered with granulation tissue on average on the 9.6th day of the postoperative period in the first group, which is significantly earlier than in the second group, where this occurred on average by 11.83 days of the postoperative period (p = 0.012).

The result of the use of this method of treatment in patients with infections of the skin and soft tissues was a reduction in the average duration of inpatient treatment, which in the first group averaged 11.4 bed days, in the second 14.1 bed days.

The proposed method for local treatment of purulent wounds with a local stream of ozone-oxygen gas mixture allows you to accelerate the process of cleansing and healing of wounds, thereby reducing the time of inpatient treatment of patients.

Clinical example

Patient P., 55 years old, was admitted to the admission department of KGBUK KMKB No. 7 with a clinic of an abscess of the gluteal region on the right against type II diabetes mellitus. In the outer quadrants of the right gluteal region, there was an infiltrate up to 7 cm in diameter, with a fluctuation zone in the center, palpation tenderness of this region. The skin over the infiltrate is swollen, hyperemic. The patient was hospitalized in the surgical department No. 2. The abscess was opened by a linear incision up to 7 cm, up to 80 ml of creamy pus was evacuated. In the hospital, conservative therapy was prescribed: infusion, antibiotic therapy, local treatment. Against the background of complex treatment, as part of the dressings, local therapy with a stream of ozone-oxygen gas mixture was daily conducted. During the wound renovation using the device for local treatment of biological tissues with an ozone-oxygen mixture (RF patent No. 151779), the ozone concentration was 40 mg / l, the gas flow rate was 2 l / min, and its tip was kept at a distance of 0.5-0.8 cm from the surface of the wound with an exposure of 3 minutes / 3 cm ² wounds.

During treatment, by the fourth day of the postoperative period, symptoms of perifocal inflammation were completely stopped. By the fifth - purulent discharge was replaced by fibrinous, there were areas of granulation tissue. By the ninth day, the surface of the wound was completely covered with granulation tissue. The patient was discharged for outpatient aftercare to the surgeon at the place of residence. After 14 days at the control examination in the right gluteal region, a linear scar up to 5.5 cm in length was determined, without signs of inflammation, painless on palpation.

Claims (1)

A method for the local treatment of purulent wounds with a local flow of an ozone-oxygen gas mixture for type II diabetes mellitus, comprising treating a body area with a wound defect in an ozone-oxygen gas mixture, characterized in that the supply of gaseous ozone at a concentration of 40 mg / l, a gas flow rate of 2 l / m is carried by a device for local treatment of biological tissue with a mixture of ozone and oxygen, the tip of which is held at a distance of 0.5-0.8 cm from the wounds from exposure 3 min / 3 cm ² of the wound.