UA23142U - Method for treating osteomyelitis of lower limbs - Google Patents

Abstract

The method for treating the osteomyelitis of the lower limbs relates to the medicine, namely to the therapeutics, the surgery, and the traumatology and may be used for the complex treatment of the osteomyelitis of the lower limbs.

Description

Description of the invention

The useful model refers to medicine, namely to therapy, surgery and traumatology and can be used in the complex treatment of osteomyelitis of the lower extremities.

Treatment of osteomyelitis using medical methods of treatment does not give the desired results.

At the same time, severe complications often arise - bone destruction over a large gap, deep phlegmons and necrosis of soft tissues, septic form of osteomyelitis - which often lead to limb amputation.

Timely complex treatment is aimed at reducing endotoxicosis and increasing anti-inflammatory 70 effect and makes it possible to avoid the indicated complications.

In the treatment of osteomyelitis of the lower extremities, doctors get the best results when using methods of catheterization of the lower epigastric artery in combination with surgical intervention in the center of purulent inflammation.

There is a known method of catheterization of the lower epigastric artery by isolating this artery, placing a catheter in it 12 and introducing drugs through the catheter |11.

When performing the specified method, it is not possible to keep the catheter in place for a long time, and the possibility of bleeding when removing the catheter is not excluded.

There is a known method of catheterization of the lower epigastric artery by isolating the artery and inserting the catheter into its lumen. The free end of the catheter together with the artery is brought out through the abdominal muscles to the side of the surgical wound to the surface of the abdominal wall and the artery is fixed at the point of insertion of the catheter in the rectus abdominis muscle. Appropriate drugs are administered through the catheter (21.

The use of this method makes it possible to keep the catheter in the artery for a long time and reliably and reduce complications in the postoperative period, as well as reduce the trauma of surgical intervention.

The long-term use of this method shows that the treatment of osteomyelitis only by injecting drugs into the artery does not give the desired results. in

The closest to the proposed solution is the method of treatment of purulent-necrotic diseases, which consists in performing access to the lower epiperitoneal artery, its catheterization and round-the-clock administration through the catheter for 10-14 days of antibiotics and vascular drugs and subsequent removal of the catheter, as well as performing sequestrectomy with drainage of the cavity by tidal aspiration drainage |Z. high school

The use of this method in the treatment of osteomyelitis of the lower extremities makes it possible to significantly reduce the severity of the inflammatory process, but is not reliable in preventing its further development and, as a result, the occurrence of complications that often lead to the disability of patients and amputation of a limb. --

The basis of the useful model is the technical task of creating such a method of treating osteomyelitis of the lower extremities, which will make it possible to completely eliminate the focus of the lesion. 3o The task is solved by the fact that in the method of treating osteomyelitis of the lower extremities, which includes access to the lower epigastric artery, its catheterization and round-the-clock administration through the catheter for 10-14 days, antibiotics and vascular drugs, according to a useful model, for 3-4 days performing regional therapy depending on the volume of the lesion, the presence or absence of a formed sequestrum, "perform radical or local surgical intervention, with radical surgical intervention perform Z 70 bone trepanation, sequestrectomy, removal of pathological granulations, etc., which is accompanied by treatment of the bone cavity with high-energy semiconductor laser (wavelength O98 Ohm, power

From" continuous radiation 16-18 W, exposure 30-60 seconds, diameter of mono fiber optic 1.0 mm,

Fig. 1), drainage of the focus of purulent inflammation with the parallel introduction into the sequestral cavity of a quartz-polymer light guide to ensure the irradiation of this cavity with low-energy laser radiation of the red (wavelength 632.8nm, power up to 25mW) and infrared spectrum (wavelength 850-87Ohm, power 25 mW) and incoherent ultraviolet radiation (wavelength 270-320 Ohm, power 25-300 mW).

In parallel with regional medical therapy, a course of arterial blood irradiation is carried out through - catheterized a.eridavigis ipiegiog with low-energy laser radiation of the red ("iz" wavelength 20 v632, vnm, power 5 mW, exposure 20-25 min.) and infrared spectrum (wave length 85 Ohm, power 5 mW , exposure 20-25 min.) and incoherent ultraviolet radiation (wavelength 270-32 Ohm, with a power of 5-8 mW, exposure 20-25 min.), the choice of radiation spectrum depends on the type of reaction of the body to the development of purulent-necrotic inflammation, with the predominance of hyperergy phenomena with a tendency to the progression of endotoxicosis, preference is given to the ultraviolet spectrum, with an increase in lymphocytosis - the infrared 29 spectrum, with lymphopenia with a tendency to anergy - the red spectrum of laser radiation, while medical therapy is carried out through the catheter of the a.eridavzigisa ipiegiog directly in the a.yasa ekh. with the help of infusion machines "VEDA-2" or "I Teotai" (Fig. 2, 3) around the clock at a rate of 10-15 ml/h for 4-5 days, with a subsequent transition to 8-10 day infusions during the following 10-14 days, during the same period of therapy, before the introduction of an antibacterial drug, laser irradiation of arterial 60 blood is carried out using a monofilament polymer or quartz-polymer light guide with a diameter of 0.4-0.bmm and a length of 30-40 cm (adapted for a specific catheter) for 20-25 minutes. , during local surgical intervention, transcutaneous osteotrepanation of the bone is carried out using a needle for conducting biopsies, bringing through it to the focus of destruction a monofiber light guide with subsequent treatment of the purulent cavity and fistulas with high-energy laser radiation (wavelength 98 Ohm, power of continuous radiation 18-20 W, exposure 30 -60 seconds, the diameter of the monofiber light guide is 1.0 mm),

drainage of the foci of purulent inflammation with a thin catheter with the possibility of introducing a quartz-polymer light guide through it into the purulent cavity and irradiating this cavity with low-energy laser radiation of the red (wavelength 632.8nm, power up to 25mW, exposure 20-25 minutes) and infrared spectrum (wavelength 850 -87Ohm, power 25mMW, exposure 20-25 minutes) and incoherent ultraviolet radiation (wavelength 270-32Ohm, power 25-3OmW, exposure 20-25 minutes), immobilization of the limb is carried out, as a rule, with a plaster splint or hardening polymer bandages.

The proposed method of treating osteomyelitis of the lower extremities contains a set of essential features that 7/0 Distinguish it from the nearest analog and which, in combination with the features of the closest analog, ensure the achievement of the above-mentioned technical result, namely, make it possible to completely eliminate the lesion.

No technical solutions with similar essential features were found during the patent information search. This made it possible to conclude that the proposed technical solution meets the conditions of /5 patentability.

Concrete examples of the use of the proposed method are the following clinical observations.

Example 1.

Patient F., born in 1959, medical history No. 349, was admitted to the surgical department on January 24, 2002 with a diagnosis of:

Chronic post-traumatic osteomyelitis of the lower third of the right thigh in the acute stage. Extensive phlegmon of the right thigh and lower leg. Secondary arthritis of the right knee joint.

Treatment was carried out in accordance with the claimed method.

Urgent operations were performed: opening and drainage of the phlegmon of the lower third of the right thigh, opening, sanitation and drainage of the cavity of the right knee joint.

On the 3rd day, access to the lower epiperitoneal artery was performed, its catheterization was performed with control over the location of the catheter (Fig. 4), and a provisional ligature was placed on the proximal part of the artery. With the help of "VEDA-2" and "I ipeotai" infusion machines, lincomycin, novocaine, reopoliglukin, t pentoxifylline, dshiridamole, nicotinic acid, and heparin were administered around the clock during the first 4 days.

On the 5th day of regional intra-arterial therapy, sequestrectomy, removal of pathological granulations, treatment of the sequestral cavity with a high-energy laser (coagulator "Lika-Surgeon", wavelength 980 nm, power of continuous radiation 16-18 W, exposure 30-60 seconds, diameter of monofiber light guide 1.0 mm), drainage of the sequestral cavity by the tidal aspiration method. In parallel, the sequestral cavity was irradiated with the help of a quartz-polymer light guide -" pe with incoherent ultraviolet radiation (wavelength 270-320 nm, power 25-30 mW) and low-energy laser radiation of the infrared spectrum ( wavelength 850-87Ohm, power me) 25MmW). with

In the following 18 days, regional intra-arterial therapy was carried out for 8-10 hours daily at a rate of 10-12 ml/hour until the regression of inflammatory phenomena. In parallel with regional medical therapy, a course of arterial blood irradiation through the catheterized a.eridavigis ipiegiog with low-energy laser radiation of the infrared spectrum (wavelength 85 Ohm, power 5 mW, exposure 20-25 min.) is carried out and "

Incoherent ultraviolet radiation (wavelength 270-320 nm, power 5-8 mW, exposure with s 20-25 min.). As a result of the treatment, positive dynamics of the wound process were observed, the postoperative wound healed with secondary tension, swelling of the limb and pain in the right knee joint disappeared, radiologically - sclerosis of the sequestral cavity. Positive dynamics of immunological indicators and indicators of endogenous intoxication were noted, the patient was discharged from the hospital after 30 days in a satisfactory condition. Example 2.

Patient M., born in 1949, medical history No. 5223, was admitted to the surgical department of the Medical Center of Uzhgorod on 11.12.2002 with the diagnosis: Chronic post-traumatic osteomyelitis of the right tibia, fistula form (Fig. 5-6). - The treatment was carried out in accordance with the claimed method.

The operation performed as a priority: catheterization of the a.eridavigis iptegiog. In the course of 3 days, regional prolonged combined therapy with intra-arterial therapy was carried out

Ge by the introduction of antibacterial, vascular drugs and laser irradiation of arterial blood according to the method that is claimed.

On the 4th day, a transcutaneous osteotrepanation of the bone was performed using a needle for conducting biopsies, and a monofiber light guide was brought through it to the focus of destruction with subsequent treatment of the purulent cavity and fistulas with high-energy laser radiation (wavelength 98 Ohm, continuous radiation power 18-20 W, exposure 30 -60 seconds, the diameter of the monofiber light guide is 1.0 mm), drainage of the center of purulent inflammation with a thin catheter with the introduction of a quartz-polymer light guide through it into the purulent cavity and irradiation of this cavity with low-energy laser radiation of the red spectrum (wavelength 632.8 nm, power up to 25 mW, exposure 20-25 minutes) and incoherent ultraviolet radiation (wavelength 270-32 Ohm, power 25-30 mW, exposure 20-25 minutes), immobilization of the limb is carried out with a plaster splint.

In the following 16 days, drug therapy was carried out through the catheter of a.eridavigis ipTegog directly in a. iiasa ehi with the help of the "VEDA-2" infusion machine at the rate of TOMl/h for 1 hour. daily. 65 As a result of the treatment, positive dynamics were observed, inflammatory phenomena and swelling of the limb regressed, osteosclerosis phenomena prevailed in the bone structure (Fig. 7), the fistula healed, which was confirmed by indicators of endogenous intoxication and immunological status, the patient was discharged from the hospital on the 25th day in a satisfactory condition .

Thus, the proposed method is more effective, as it makes it possible to stop the progression of the purulent-destructive process in the bone or to completely eliminate the lesion.

In addition, when implementing the proposed method, the period of treatment of patients is significantly shortened and the doses of medicinal drugs are significantly reduced.

A useful model can be used by surgeons and traumatologists in the conditions of inpatient treatment of osteomyelitis of the lower extremities. 70 Sources of information: 1. Grigoryan A.V., Bekker A.IM., Lerner E.L. Method of catheterization of the branches of the external iliac and femoral arteries for long-term intra-arterial infusion in obliterating endarteritis //

Experimental surgery and anesthesiology. - 1972. - Mo1. - pp. 50-53. 2. A.s. 806012, USSR, Ab1817/00, 1979.

Z. Shaposhnikov Yu.G. Traumatology and orthopedics. - M. - Medicine, 1997. - Volume 1. - Z383p. - a prototype.

Claims (1)

The formula of the invention is a method of treating osteomyelitis of the lower extremities, which includes access to the lower epigastric artery, its catheterization, prolonged administration through the catheter of antibiotics and vascular preparations for 10-14 days, which differs in that for 3-4 days, regional therapy is performed, depending depending on the size of the lesion, the presence or absence of a formed sequestrum, radical or local surgical intervention is performed, while radical surgical intervention involves trepanation of the bone, sequestrectomy, and the removal of pathological granulations, which is accompanied by treatment of the bone cavity with laser radiation at a wavelength of 980 nm and a power of continuous radiation of 16-18 W, exposure - 30-60 seconds with a diameter of a single-fiber light guide of 1.0 mm, and drainage of the foci of purulent inflammation with parallel introduction into the sequestral cavity of a quartz-polymer light guide to ensure the irradiation of this cavity with a low-energy laser in radiation of the red spectrum at a wavelength of 632.8 nm and a power of up to 25 mW and infrared spectrum at a wavelength of 850-870 nm and a power of 25 mW, as well as incoherent ultraviolet radiation at a wavelength of 270-320 nm and a power of 25-30 mW, and in parallel with regional therapy, a course of arterial blood irradiation is carried out through "- catheterized a. eridavigisa ipiegiog low-energy laser radiation of the red spectrum at a wavelength of 632.8 nm and a power of 5 mW with an exposure of 20-25 minutes. and infrared spectrum at a wavelength of 9,35,850 nm and a power of 5 mW with an exposure of 20-25 minutes, as well as incoherent ultraviolet radiation with a wavelength of 270-320 nm and a power of 5-8 mW with an exposure of 20-25 minutes, at the same time, the choice of the radiation spectrum depends on the type of reaction of the organism to the development of purulent-necrotic inflammation, and in the case of predominance of hyperergy phenomena with a tendency to progress of endotoxicosis, preference is given to the ultraviolet spectrum, and in the case of increasing lymphocytosis - the infrared spectrum, in the case of lymphopenia with a "20 tendency to anergy - the red laser , while drug therapy is carried out through a catheter a. 7u s eridazigisa ipiegiog directly in a. asa ehi using "VEDA-2" or "Iteotai" infusion machines around the clock at a rate of 10-15 ml/h for 4-5 days, with the subsequent transition to 8-10-hour infusions during the following 10-14 days, during this in the same period of therapy, before the introduction of an antibacterial drug, laser irradiation of arterial blood is carried out using a single-fiber polymer or quartz-polymer 45 light guide with a diameter of 0.4-0.6 mm and a length of 30-40 cm, adapted to a specific catheter for 20-25 minutes, with during local surgical intervention, transcutaneous osteotrepanation of the bone is carried out with the help of a needle for carrying out biopsies, bringing through it to the focus of destruction a monofiber light guide with subsequent treatment of the purulent cavity and fistulas with high-energy laser radiation at a wavelength of 980 nm and a continuous radiation power of 18-20 W with with an exposure of 30-60 seconds and a diameter of 50 monofiber light guide 1.0 mm, drainage of the foci of purulent inflammation with a thin cat ether with the possibility of introducing a quartz-polymer light guide through it into the purulent cavity and irradiating this GE cavity with low-energy laser radiation of the red spectrum at a wavelength of 632.8 nm and a power of up to mW with an exposure of 20-25 minutes. and infrared spectrum at a wavelength of 850-870 nm and a power of 25 mW with an exposure of 20-25 minutes. and incoherent ultraviolet radiation at a wavelength of 270-320 nm and a power of 25-30 mW with an exposure of 20-25 minutes, and immobilization of the limb is carried out with a plaster splint or with stiffening polymer bandages. 60 b5