RU2787154C1 - Method for comprehensive treatment of patients with infected forms of diabetic foot syndrome - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to the field of medicine, namely, to surgery, endocrinology, and physiotherapy, and can be used for treating patients with infected forms of diabetic foot syndrome. Non-viable toes are removed, abscesses or phlegmons of the soft tissues of the feet are opened, pockets and purulent leakages, as well as necrectomies, are revised, wherein the wounds are treated with antiseptics and haemostatic antiseptic dressings are applied. The wound is sealed from the external environment after the antimicrobial dressing is applied and drainage is performed with adhesive film, two ports are installed. In the first day, the wound is treated with a negative pressure of 120 mmHg using a portable vacuum aspiration apparatus Vit MobilPlus, then in the days 2 to 4, 5 to 8, 9 to 12 the wound is treated with a variable negative pressure of 50 mmHg and 100 mmHg within a 30-minute interval. The Plason apparatus is connected twice for 3 minutes every day through the tube of the second through an attachment, and exogenous nitrogen monoxide (NO) is insufflated.

EFFECT: possibility of activating local immunity, increasing the regenerative activity of the damaged tissues, preventing microthrombosis of the peripheral arterial bed, and increasing the viability of patients with purulo-necrotic complications of the diabetic foot syndrome due to the combination of techniques of the claimed invention.

1 cl, 10 dwg, 1 ex

Description

The field of technology to which the invention belongs

The invention relates to medicine, in particular, to a method for the complex treatment of patients with infected forms of diabetic foot syndrome, and can be used for prevention and treatment in therapy.

State of the art

A known method of treating patients with complicated forms of diabetic foot by alternately exposing the limb to positive and negative pressure (see AS No. 243787 IPC A61G 10/02, publ. 00.00.1969).

The disadvantage of this method is the low quality of diagnosis, long term and low efficiency of treatment of patients.

A known device for the treatment of infected wounds and cavities, including a combination of vacuum - aspiration and ultrasonic cavitation of a solution of ionized silver or antibiotics introduced into the wound cavity (see AS No. 587941 IPC A61M 1/00, publ. 15.01.1978) .

The disadvantage of this device is not effective enough, especially in the treatment of ischemic limbs, as it does not prevent a possible deterioration of microcirculation in the wound.

A known method for the treatment of obliterating diseases of the arteries of the lower extremities by alternately exposing the limb to positive and negative pressure and additional exposure to oxygen at a pressure of 1-2 kg/cm (see AS No. 946555 IPC A61M 16/02, publ. 30.07. 1982).

The disadvantage of this method is the long term and low efficiency of treatment of patients.

A device for vacuum wound drainage is known, which creates wound drainage, with the possibility of creating a sufficient negative pressure in the drainage system, while after the primary surgical treatment of the wound, excision of potentially non-viable tissues and opening of purulent streaks, the entire wound surface is thoroughly washed with antiseptic solutions, and set in shallow wound areas perforated drainage tubes for aspiration of wound discharge, the wound above the tubes is either closed with primary sutures or left open depending on the initial state of the tissues, the drainage tubes are connected to a device for vacuum drainage, the drainage mode and its duration depend on the course of the wound process (see a.c. No. 1044288, IPC A61M 1/00, published 09/30/1983).

The disadvantage of this device is that full-fledged aspiration from the entire surface of the wound using a drainage-aspiration system is impossible, zones inaccessible for aspiration are formed in the wound, which prolongs the course of the wound process, and it is also extremely difficult to adequate vacuum - aspiration of an open wound due to constant suction into the wound. drainage system of atmospheric air, which reduces the effectiveness of treatment.

A known method of treating patients with purulent-necrotic foot lesions in diabetes mellitus, including surgical treatment and washing the wound with an antiseptic solution, while washing is carried out continuously for several days by placing the foot in a sealed container with an antiseptic, followed by vacuuming at a vacuum of 0.2-0 ,4 kgf / cm ² , and the alternation of procedures is carried out at intervals of 3-4 hours (see (see Pat. RU No. 2253427 IPC A61G 01 10/02, A61K 31/185, A61P 41/00, A61B 17 / 00, published on June 10, 2005, bulletin No. 16).

The disadvantage of this method is the frequent alternation of procedures, which requires additional time for the medical staff and a large consumption of antiseptic, is difficult to perform, and also cumbersome equipment with insufficient treatment efficiency due to the lack of an integrated approach to treatment.

The closest in technical essence and achieved positive effect and adopted by the authors as a prototype is a method of complex surgical treatment of diabetic foot syndrome complicated by a purulent-necrotic process, including opening an abscess or phlegmon of the soft tissues of the foot, revision of pockets and purulent streaks, excision of non-viable tissues, sanitation wounds, while on the 2nd day after surgery, the 1st cycle of additional treatment is carried out: the wound is sequentially treated with a jet of 0.06% sodium hypochlorite at a concentration of 800 mg/l, in combination with low-frequency ultrasound for 10-15 minutes , then the wound is isolated from the external environment using a closed elastic container and the proteolytic enzymes - trypsin and chymotrypsin - 50 mg of each enzyme, dissolved in 200 ml of 0.9 percent saline for 1.5 hours, are also treated in a jet, after which over the wound in within 3 hours create an otry cumulative pressure 70-80 mm Hg. with active vacuum aspiration; after an interval of 1 hour, the 1st cycle is repeated, while the treatment of the wound with a 0.06% sodium hypochlorite solution in combination with low-frequency ultrasound is carried out by active aspiration under the same conditions (see US Pat. RU No. 2405472, IPC A61B 17/00, published on December 10, 2010, Bulletin No. 34).

The disadvantage of this method is the low therapeutic and prophylactic efficacy, long periods of expensive treatment, since the method is difficult to perform with insufficient treatment efficiency due to the lack of complex drug treatment, requires ultrasound equipment and is not applicable in small hospitals.

Disclosure of invention

The objective of the invention is to develop a method for the complex treatment of patients with infected forms of the diabetic foot syndrome, which has an activation of local immunity, an increase in the regenerative activity of the affected tissues, the elimination of contamination by pathogenic microflora of the wound, the prevention of microthrombosis of the peripheral arterial bed, and an increase in the viability of patients with purulent-necrotic complications of the diabetic foot syndrome .

The technical result that can be achieved with the help of the present invention is to activate local immunity, increase the regenerative activity of the affected tissues, prevent microthrombosis of the peripheral arterial bed, increase the viability of patients with purulent-necrotic complications of the diabetic foot syndrome.

The technical result of the invention is achieved using a method for the complex treatment of patients with infected forms of the diabetic foot syndrome, including the stage of conservative therapy, performed by correcting the level of antibacterial, antioxidant rheological properties of glucose in the blood, the surgical stage, consisting of the removal of non-viable toes, opening abscesses or phlegmon of the soft tissues of the feet, revision pockets and purulent streaks, necrectomy, while the wounds are treated with antiseptics and hemostatic antiseptic dressings are applied, then the stage is accompanied by sealing the wound from the external environment after applying an antimicrobial dressing and drainage, creating negative pressure over the wound in combination with drug treatment in two stages, at which at the first stage the wound with an antimicrobial dressing and drainage is sealed from above with an adhesive film, negative pressure is created in combination with daily intradroplet administration, at the second stage They use active round-the-clock vacuum aspiration, while the wound is treated with a constant negative pressure of 120 mm Hg. using a port and a portable vacuum aspiration apparatus "Vit MobilPlus" on the first day and variable 50-100 mm Hg. with an interval of 30 minutes, from the 2nd to the 4th, from the 5th to the 8th, from the 9th to the 12th day, and daily, twice for 3 minutes, the tube of the 2nd port is opened, the device is turned off. Vit MobilPlus" is connected through the nozzle to the apparatus "Plazon" and through it into the closed wound through the installed 2nd port, exogenous nitrogen monoxide (NO) is insufflated with a temperature of 28-36 degrees at a speed of 5-7 m/s and its content in the gas stream 1 000ppm.

In the method, negative pressure is created over the wound and aspirated using the Vit MobilPlus device (Russia) manufactured by OOO VIT Medical.

Brief description of drawings and other materials

Fig 1. Wound condition of patient K. with diabetic phlegmon of the right foot. 2nd day after resection of the right foot with exarticulation of the 2nd, 3rd, 4th toes with resection of the heads of the 2nd, 3rd, 4th metatarsal bones.

Fig 2. Formation of a vacuum bandage on an infected wound of the right foot (2nd day after surgery).

Fig 3. On the 2nd day after the operation, a vacuum bandage was applied to the wound with the connection of the vacuum device "Vit MobilPlus". Programmed wound treatment with constant negative pressure of 120 mm Hg. (1st day) and variable 50-100 mm Hg. with an interval of 30 minutes (2, 3, 4 days).

Fig 4. Installed 2 ports on a vacuum bandage to connect the device "Plazon" (1st day).

Fig 5. The tube of the 2nd port was opened, the Plazon apparatus was connected through a special nozzle, and exogenous nitrogen monoxide was insufflated into the closed wound through it at a temperature of 28-36 degrees, at a speed of 5-7 m/s and its content in the gas stream - 1000ppm. 3 minutes 2 times a day.

Fig 6. The state of the wound after removing the vacuum bandage (4th day), the wound is made with active granulations (pathogenic flora was not detected).

Fig 7. Condition of the wound after removal of the vacuum dressing. 8th day after surgery - active growth of granulations with marginal epithelialization.

Fig. 8. The state of the wound after 1.5 months - active epithelialization of the wound.

Fig 9. Wound condition after 2 months - rapid wound healing with active epithelialization.

Fig 10. The state of the wound of the patient K. 5 months after the operation. Complete healing of the wound.

Implementation of the invention

The essence of the method of complex treatment of patients with infected forms of diabetic foot syndrome is as follows.

Surgical treatment of infected wounds of the lower extremities in diabetic foot syndrome is carried out by removing non-viable toes, opening abscesses or phlegmon of the soft tissues of the foot, revision of pockets and purulent streaks, necrectomy, then the wounds are treated with antiseptics and hemostatic antiseptic dressings are applied, while in parallel with surgical treatment, a complex therapy, including: correction of blood glucose levels, antibacterial, antioxidant, anticoagulant therapy that improves the rheological properties of blood. On the second day after surgery, wounds are inspected on the dressing and, after making sure that there are no active sources of bleeding, performing economical necrectomy, and after treatment with antiseptics, a vacuum dressing is applied using a domestic portable apparatus for treating wounds with negative pressure "Vit MobilPlus". For the formation of a vacuum dressing, sterile consumables for a vacuum dressing produced by VIT Medical LLC are used, while a sterile atraumatic perforated mesh is installed on the bottom of the wound in size, then a bandage modeled according to the size of the wound - a sponge for wounds made of foam rubber, is hermetically fixed with an incise film and from above, to two small holes made in the incise film, two ports are hermetically installed, the first port is hermetically connected to the apparatus for treating wounds with negative pressure "Vit Mobile Plus", the second port of them is temporarily closed and, according to the treatment program proposed by the authors, is then used to connect to apparatus NO - therapy "Plazon" for wound insufflation with exogenous nitrogen monoxide (NO). The unique advantage of the domestic device "Vit Mobile Plus" in comparison with foreign analogues of vacuum therapy devices, in addition to mobility and compactness, is in its functions, namely, the presented device operates in 3 modes: constant, variable and instillation. On the first day, a negative constant pressure of 120 mm Hg is created around the clock in the foot wound, while significant fibro-purulent discharge and a sharp decrease in edema and pain in the lower limb are noted, and blood supply to the limb is improved, while twice per day with an exposure of three minutes, an instillation mode was used with exogenous nitric monoxide using the Plazon apparatus, in this mode the vacuum apparatus VitMobilPlus was temporarily turned off, the port tube was disconnected from it and remained open, it also served to release exogenous nitric oxide insufflation field wound, and the tube of the second port was opened, the Plazon apparatus was connected through a special nozzle and exogenous nitrogen monoxide was supplied into the closed wound through it at a temperature of 28-36 degrees at a speed of 5-7 m/s and its content in the gas stream was 1000 ppm. three minutes twice a day. The benefits of exposure to exogenous nitric monoxide on the wound have been studied previously and are in the form of the following effects:

- normalization of microcirculation, due to the regulation of vascular tone, antiaggregatory and anticoagulant properties of NO, which improves vascular trophism and tissue metabolism;

- direct or indirect (through the formation of peroxynitrite) bactericidal action;

- inhibition of free oxygen radicals that have a pathogenic effect, as well as activation of antioxidant protection;

- induction of phagocytosis of bacteria and necrotic detritus by neutrophils and macrophages;

- regulation of apoptosis during remodeling of granulation fibrous tissue;

- improvement of nerve conduction;

- strengthening or regulation of collagen synthesis;

- regulation of immune disorders;

- secretion by activated macrophages of cytokines that enhance the growth of fibroblasts, angiogenesis factors, chemokines and other biologically active factors that regulate the wound and inflammatory process;

- impact on the proliferation of keratinocytes and, consequently, the epithelialization of the wound defect.

On the 2nd, 3rd and 4th days, a variable operating mode of the VitMobilPlus apparatus was used, negative variable pressure was created around the clock in the foot wound from 50 to 100 mm Hg, the pressure change occurred in 30 minutes, the negative pressure was produced automatically using the built-in software up to 50 mm Hg. for every 30 minutes. Similarly, the rise to 100 mm Hg was carried out, as well as on the first day in the subsequent days of vacuum therapy 2 times a day for 3 minutes with the indicated parameters, the wound was insufflated with exogenous nitrogen monoxide connected to the Plazon apparatus, on the fifth day after the operation the vacuum bandage was removed, a bacteriological culture was taken, the cytology of the wound was examined, sparing necrectomy was performed according to the indications, the wound was treated with antiseptics and the vacuum bandage was again applied for 3-4 days, negative variable pressure was created around the clock in the foot wound from 50 to 100 mm Hg. in the interval of 30 minutes with insufflation with exogenous nitrogen monoxide 2 times a day with an exposure of 3 minutes.

In addition to the clinical assessment of the effectiveness of wound healing, bacteriological and cytological studies were performed using the Makarov fingerprint method on days 1, 5, 9, and 13. On the 1st day, an inflammatory-denerative type of cytogram was detected. On the 5th day - a moderately inflammatory type of cytogram with the appearance of granulation tissue. On the 9th day, a pronounced regenerative type of cytogram with active granulation tissue was recorded. On the 13th day, signs of wound epithelialization were noted, a significant decrease in the bacterial contamination of the wound was noted by the 5th day, and pathogenic strains were not detected.

As a result of the proposed method of treatment, pronounced advantages were noted in the form of:

- effective removal of exudate;

- reducing the level of microbial contamination, a pronounced antibacterial effect;

- reduction of the area of the wound, reduction of edema;

- preservation of the natural moisture of the wound environment;

- stimulation of accelerated development of granulation tissue;

- increased blood circulation.

Clinical example. Patient K., aged 58, DS: type I diabetes mellitus, diabetic foot syndrome, neuroischemic form, phlegmon of the right foot. Operation: resection of the right foot with exarticulation of the 2nd, 3rd, 4th toes with resection of the heads of the 2nd, 3rd, 4th metatarsal bones. Wound condition of patient K. with diabetic phlegmon of the right foot. 2nd day after surgery, resection of the right foot with exarticulation of the 2nd, 3rd, 4th toes with resection of the heads of the 2nd, 3rd, 4th metatarsal bones, then the formation of a vacuum bandage on the infected wound of the right foot, which is applied on the 2nd day after the operation, and the application a vacuum dressing on the wound is carried out with the connection of the Vit MobilPlus vacuum apparatus, and the programmed wound treatment is carried out with a constant negative pressure of 120 mm Hg. (1st day) and variable 50-100 mm Hg. with an interval of 30 minutes (2, 3, 4 days), while 2 ports are installed on a vacuum bandage to connect the Plazon device (1st day), and the tube of the 2nd port opens, the Plazon device is connected through a special nozzle and through it, exogenous nitrogen monoxide is insufflated into the closed wound at a temperature of 28-36 degrees, at a speed of 5-7 m/s and its content in the gas stream is 1000 ppm. 3 minutes 2 times a day, while in Fig. 6. shows the state of the wound after removing the vacuum dressing (day 4), the wound is made with active granulations (no pathogenic flora was detected), in Fig. 7 shows the state of the wound after removing the vacuum bandage, the 8th day after the operation - active growth of granulations with marginal epithelization, Fig. 8 shows the state of the wound after 1.5 months - active epithelialization of the wound, in Fig. 9 shows the state of the wound after 2 months - rapid wound healing with active epithelialization, FIG. 10 shows the state of the wound of patient K. 5 months after the operation. Complete healing of the wound.

The present invention in comparison with the prototype and other known technical solutions has the following advantages:

- effective removal of exudate;

- decrease in the level of microbial contamination, pronounced antibacterial effect;

- reduction of the area of the wound, reduction of edema;

- preservation of the natural moisture of the wound environment;

- stimulation of the accelerated development of granulation tissue;

- increased blood circulation.

Claims (1)

A method for the complex treatment of patients with infected forms of diabetic foot syndrome, including conservative therapy and surgical treatment by removing, according to indications, non-viable toes, opening abscesses or phlegmon of the soft tissues of the feet, revision pockets and purulent swells, necrectomy, while the wounds are treated with antiseptics and hemostatic antiseptic dressings, then seal the wound from the external environment by applying an antimicrobial dressing and drainage, and create negative pressure over the wound in combination with drug treatment, characterized in that the wound is sealed from above with an adhesive incise film and two ports are installed, while on the first day of treatment wounds are carried out with a negative pressure of 120 mm Hg. using a portable vacuum aspiration device "Vit MobilPlus" connected to the first port, then from the 2nd to the 4th, from the 5th to the 8th, from the 9th to the 12th day, the wound is treated with variable negative pressure 50 mm Hg. and 100 mm Hg. in the interval of 30 minutes, and every day twice for 3 minutes the tube of the 2nd port is opened, the VitMobilPlus apparatus is turned off, the Plazon apparatus is connected through the nozzle and exogenous nitrogen monoxide is insufflated through it into the closed wound through the installed 2nd port NO with a temperature of 36 degrees at a speed of 5 m/s and its content in the gas stream of 1000 ppm.

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