RU2527175C1 - Method of treating infected wounds and fistulas in oncological patients - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: treating a wound surface with dioxidine is followed by an infrared laser light with a permanent magnetic field not earlier than 5 days after the operation. Magnetic induction intensity is within the range of 20-50 mT; a laser pulse repetition frequency is within the range of 80 Hz, and a power is 0.25-0.5 W. The whole postoperative area is subject to the daily distant labile exposure to a defocused beam at 0.5 cm for 30-60 seconds. That is followed by applying tissues with hypertonic solution 3 to 5 times a day; the therapeutic course is 10-15 procedures.

EFFECT: method enables providing higher effectiveness and reducing a length of treatment ensured by the integrated exposure to the antibacterial agents and magnetic laserophoresis in the presented regimen, preventing developing postoperative complications.

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Description

The invention relates to medicine, oncology, surgery, physiotherapy and can be used to treat infected wounds and fistulas in cancer patients.

A known method for the treatment of postoperative complications, which is used in general surgical practice, including the treatment of wounds using traditional antiseptic medications (1). However, this method is not effective enough, since it includes standard drug treatment with antiseptic agents and has an insufficiently pronounced therapeutic effect in case of infection of wounds by pathogens such as Pseudomonas aeruginosa, staphylococcus in weakened cancer patients as a result of reduced general and local immunity. This circumstance is due to the consequences of the use of chemo-radiation exposure, accompanied by deep and quite extensive postoperative wounds, often complicated by the formation of the fistulous course, therefore, it has a number of features, such as prolonged healing of postoperative wounds and additional infection of the wound surface, the formation of several fistulous passages, poor healing with still large tissue injury, ultimately leading to a longer healing time.

Closest to the proposed one is a method of treating non-oncological surgical patients using general treatment regimens with a magnetic laser, including standard wound treatment followed by a magnetic laser (2). Its scope is limited since known sources of information do not describe its use for the treatment of postoperative complications with the presence of infected wounds and fistulas in cancer patients.

A new technical task is to expand the scope of the method and increase the effectiveness of the treatment of postoperative complications with the presence of infected wounds and fistulas in cancer patients by obtaining a stable therapeutic effect in various localization of tumors.

To solve the problem in a method of treating infected wounds and fistulas in cancer patients by treating the wound surface with an antiseptic medication, after treating the wound surface with dioxidine, they are exposed to a constant magnetic field, magnetic induction intensity within 20-50 mT, pulse repetition frequency of the infrared spectrum within 80 Hz, power 0.25-0.5 W throughout the postoperative zone defocused beam remotely labile with a distance of 0.5 cm for 30-60 seconds, daily, followed by the application of tissues with hypertonic solution from 3 to 5 times during the day, a course of 10-15 procedures.

The method is as follows. Not earlier than 5 days and at a later date after surgery, the wound surface is treated with dioxin, and then the wound surface is exposed to infrared laser radiation with a constant magnetic field, the magnetic induction intensity is in the range of 20-50 mT, the pulse repetition rate of infrared laser radiation spectrum within 80 Hz, with a power of 0.25-0.5 W over the entire wound surface defocused beam remotely labile with a distance of 0.5 cm for 30-60 seconds, daily after by applying from 3 to 5 times wipes with hypertonic solution during the day, a course of 10-15 procedures carried out daily.

The proposed method allows, avoiding serious injury to tissues, will reduce the healing time of the wound surface, especially in the presence of fistulous passage. It also contributes to the active effect on inflammation in the postoperative zone due to the complex effects of antibacterial agents and magnetolaserophoresis in the proposed mode, which ultimately leads to an increase in the quality of life of cancer patients.

In the known sources of information, the proposed combination of distinctive features is not found, and they do not explicitly follow from the prior art for a specialist. Thus, the proposed method meets the criteria of the invention of ″ novelty ″ and ″ inventive step ”. This method has passed clinical trials at the Oncology Research Institute SB RAMS. Thus, the method meets the criterion of ″ industrial applicability ″.

Example 1. Patient T., 36 years old. Diagnosis: Condition after radical resection of the breast on the right of 2009, regarding breast cancer (T1N0M0), complicated in the postoperative period by infection with staphylococcal infection and wound surface diastasis. The patient complained of fever, pain in the postoperative zone and axillary region, obstructed movement in the shoulder joint, the presence of purulent discharge from the postoperative wound. The treatment was carried out according to the proposed method: every day from 5 days of the postoperative period, it was prescribed after preliminary treatment of the wound surface with dioxidine, followed by exposure to the magnetic laser using a defocused infrared beam, labile-remote at a distance of 0.5 cm, frequency 80 Hz, power 0.25 W, 30 seconds each, on the postoperative area with a constant magnetic field of 20 mT, followed by the application of wipes with hypertonic solution during the day up to 3 times a day for 10 days. The course consisted of 10 procedures conducted daily.

At the end of the treatment course, a complete disappearance of complaints was noted, the motor function of the shoulder joint was restored in full, the wound surface was closed.

Example 2

Patient P., 68 years old. Condition after surgery for cancer of the mucous membrane of the bottom of the oral cavity from 2008. Complication: a festering fistula in the chin and limiting the opening of the mouth. The patient complained of pain in the postoperative zone, obstructed movement of the lower jaw, fistula with purulent discharge. When sowing revealed Pseudomonas aeruginosa. The following treatment was carried out in accordance with the claimed method, namely: daily, from the 12th day after the operation, a magnetic laser was prescribed with a defocused beam to the postoperative area with preliminary treatment of the wound surface with dioxidine, labile and remotely at a distance of 0.5 cm, frequency 80 Hz, power 0 5 W for one minute with a constant magnetic field of 50 mT, daily, followed by the application of wipes with hypertonic solution during the day up to 5 times a day. The course included 15 daily laser treatments.

At the end of the treatment course, pain relief was noted, the movements of the lower jaw improved, the fistula closed, the Pseudomonas aeruginosa was not sown.

The mode of the proposed method is selected based on the analysis of clinical observation data. Treatment by the claimed method was carried out for the treatment of patients after various operations for cancer with various localization of tumors with the presence of poor healing in 46 patients at the Oncology Research Institute of the Siberian Branch of the Russian Academy of Medical Sciences. The treatment results were evaluated according to clinical and laboratory methods, as well as performing ultrasound and endoscopic research methods. A feature of the proposed method is the possibility of its use at different times of the postoperative period, not earlier than 5 days after surgery.

The parameters of the exposure regimen were chosen as optimal for obtaining primarily bactericidal, decongestant, anti-inflammatory, and also reparative effects aimed at creating conditions for normalizing blood and lymph circulation, primarily in the wound surface of the postoperative zone and around it, shortening the healing time by eliminating a source of inflammation, increasing local immunity and ultimately leading to a reduction in treatment time. The pulsed infrared laser, which forms the basis of magnetic laser therapy, allows deep penetration into tissues (up to 6-8 cm), which makes it possible to affect the entire thickness of tissues, changing the distance from the skin surface and receiving the necessary dose of radiation without creating a thermal effect. The presence of a magnetic field allows you to enhance this effect. The use of dioxidine preparations in combination with a laser is essentially an interstitial magnetolaserophoresis, increasing the therapeutic antimicrobial activity of this drug as a result of exposure. The appointment of a hypertonic solution enhances the process of cleansing the wound, which leads to more effective cleaning and faster healing of the wound surface and creates the conditions for reducing the time of treatment.

The proposed method allows, avoiding serious injury to tissues, to reduce the healing time of the wound surface, especially in the presence of fistulous passage. The method has several advantages over all known methods: it facilitates faster cleaning of the wound surface and reduces healing time in the postoperative period and prevents the development of postoperative complications, primarily associated with the formation of long-healing fistulas, reduces the recovery time of patients in the postoperative period, thereby improving the quality of life in cancer patients.

Information sources

1. B.I. Alperovich, M.M. Soloviev. Clinic and treatment of purulent diseases. Tomsk, 1968.S. 358.

2. V.A. Builin, S.V. Moskvin. Low-intensity lasers in the treatment of various diseases. - Moscow, 2001.S. 84-86 (Prototype).

Claims (1)

A method for treating infected wounds and fistulas in cancer patients by treating the wound surface with an antiseptic drug, characterized in that after treating the wound surface with dioxin, they are exposed to a constant magnetic field with a magnetic field intensity of magnetic induction within 20- 50 mT, pulse repetition frequency of the infrared spectrum within 80 Hz, power 0.25-0.5 W throughout the postoperative area with a concentrated beam, remotely labile with a distance of 0.5 cm for 30-60 seconds, daily, followed by the application of napkins with hypertonic solution from 3 to 5 times during the day, in a course of 10-15 procedures.