RU2123833C1 - Method for carrying out skeleton muscle rehabilitation in experiment - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves exposing skeleton muscle of an animal to ultrasonic radiation in pulsating mode with 0.1-0.2 W/cm² at 50 Hz for 1-2 min each second or third day during 14-30 days and dose density of 30-60 J/cm². EFFECT: enhanced effectiveness in preventing undesirable side effects; improved wound cohesion.

Description

 The invention relates to medicine, to the rehabilitation of local radiation and traumatic injuries of skeletal muscles and can be used in medical practice.

 It has been established by experimental and clinical studies that ionizing radiation inhibits the regenerative activity of injured tissues. In this regard, the healing of the musculoskeletal wound is impaired. On the irradiated surface, erythema of the skin, ulceration and maceration of soft tissues are observed, tissue microcirculation processes are suppressed. If regeneration occurs, then this process is slowed down in comparison with unirradiated tissues and, as a rule, ends with the formation of a coarse deformed connective tissue scar. All these processes occur in conditions of reduced immunobiological reactivity of the body.

 Known methods of reconstructive treatment of traumatic injuries of skeletal muscles irradiated with ionizing radiation by surgical intervention: implantation of a small amount of crushed muscle tissue taken from the unirradiated skeletal muscle of the same animal into the area of the trauma of the irradiated muscle (Popova MF Radiosensitivity and stimulating properties of regenerating mammalian tissues. 1984 ), as well as a combination of autosubsection of crushed unirradiated muscle and subsequent laser therapy of the area of injury to the irradiated muscle (Bulyakova N.V. et al. Stimulation of regeneration of irradiated and non-irradiated skeletal muscle of mammals. Laser and tissue therapy. 1995). The application of this method in practical medicine is limited in that it involves causing the body additional mechanical trauma, in addition, for its implementation it is necessary to have a bank of viable muscle tissue suitable for replanting. The high sensitivity of the surviving muscle tissue to oxygen deficiency creates additional difficulties in the implementation of this method of rehabilitation treatment of traumatic and radiation injuries of the skeletal muscle.

 There is also a method of treating late radiation skin ulcers with laser radiation (Kim Yu. A. Treatment of late radiation skin ulcers with laser radiation and a controlled abacterial environment, Ph.D. thesis. 1987). The disadvantage of this method is that the laser radiation of the red region of the spectrum contributes to the healing of radiation ulcers in 51% of patients against 35% of patients in the control group. In addition, it is not so much a method of conservative treatment as a way of preoperative preparation of patients with late radiation skin ulcers.

The closest in technical essence to the proposed method for the rehabilitation of irradiated skeletal muscle is a method of treating trophic ulcers of the lower leg with ultrasound in a continuous mode with an intensity of 0.8 W / cm ² with a duration of 4-8 minutes in the area of the bottom of the ulcer and its edges and, in addition, the course of the leading artery at a slightly reduced intensity for 2 minutes (Speransky A.P., Rokityansky V.I. Ultrasound and its therapeutic use. 1970). The procedures were performed daily or every other day, for a course of 10-15 procedures.

 The disadvantage of this method is that the therapeutic effect of ultrasound therapy in this group of patients is not higher than with other methods of treatment: after 14 sessions, cure was noted in 36% of cases, improvement in 9%, lack of effect in 36%. In 18% of cases during treatment, an exacerbation of the thrombophlebitic process occurred. Long-term results with a follow-up of up to a year turned out to be good only in 18% of patients.

The influence of ultrasound on the healing process of ulcers from damage by x-rays or radium is described in the works of the 50s by a number of foreign authors. In most of them, the conditions of ultrasonic exposure are practically not indicated. An exception in this regard is the work of Wiedau (1963), where it is recommended to conduct ultrasound exposure to these ulcers in a continuous mode with an intensity of 0.3-0.8 W / cm ² for 5-8 minutes, for a course of 10-20 procedures, but Unfortunately, the effectiveness of the therapeutic effect of ultrasound has not been evaluated. There is data in the literature on the beneficial effect of low-intensity ultrasound on the functional state and metabolism of unirradiated muscle tissue and on the increase of its ability to regenerate (Plotnyagin V.I., 1963, Svadkovskaya N.F., 1964, Kagan M.Yu., Nashchokina E.D., 1965, Ludkovskaya R.G. et al. In the book: Biophysics of Muscle Contraction, 1966, Elpiner I.E. Biophysics of Ultrasound, 1973, Zhuravlev N.I., Akopyan VV Ultrasonic Glow, 1977 , "Uitrasonics in Medicine", 1974).

 The technical result of the proposed method is to eliminate the effects of traumatic and radiation injuries of the skeletal muscle and stimulate post-traumatic regeneration in it.

The specified technical result is achieved by the fact that after the local action of x-ray irradiation and surgical injury, the skeletal muscle of the animal is affected by ultrasound in a pulsed mode with an intensity of 0.1-0.2 W / cm ² with a frequency of 50 Hz for 1-2 minutes daily or after 1- 2 days for 14-30 days with a dose density of 3-6 J / cm ² , the total dose density per course of 30-60 J / cm ² .

 The effectiveness of the rehabilitation action of ultrasound was evaluated by the ability of the injured irradiated skeletal muscle to regenerate with filling the defect with regenerating tissues, by the ratio of the areas occupied by muscle and connective tissues, by the content of nucleic acids in the regenerators. Assessment of the level of destructive and inflammatory processes in the area of injury was carried out according to histological studies taking into account biochemical indicators of the activity of antiproteinase systems of blood serum. The state of the immunobiological reactivity of the body was determined by the activity of thymus cells.

The most pronounced rehabilitation effect was exerted by pulsed ultrasound with a frequency of 50 Hz, a pulse duration of 10 ms, an intensity of 0.1 W / cm ² in the amount of 10 procedures, 1 minute each, with a total dose density of 30 J / cm ² , applied within 30 days after 1- 2 days, starting 3 days after local X-ray irradiation at a dose of 20 Gy for each hind limb and subsequent complete transection in the middle part of the calf muscles of these limbs. Continuous ultrasound exposure with the same total dose density was less effective. An increase in the total dose density up to 90 J / cm ² also did not contribute to the best rehabilitation effect of ultrasound in a continuous mode. An increase in the total dose density to 60 J / cm ² under ultrasonic action in a pulsed mode did not enhance the rehabilitation effect, but, on the contrary, slightly reduced it.

Description of the method. 2-3 days after x-ray irradiation of the hind limbs of adult rats at a dose of 20 Gy per limb and subsequent complete transverse transection of the middle part of the gastrocnemius muscle and suturing of the covering muscle and skin, when the wound surface of the trace dried up, the animals began to release ultrasound procedures with intensity 0.1-0.2 W / cm ² , the irradiation area of 0.5 cm ² , the technique is mobile, the contact medium "Repak-T". An UZ-T-307 apparatus was used, which generated pulsed ultrasonic vibrations with a frequency of 50 Hz and a pulse duration of 10 ms. The duration of the procedure is 1-2 minutes per course of 5-10 procedures in 1-2 days during the first 14-30 days, the total dose density of 30-60 J / cm ² .

 As a control, we used animals that underwent local X-ray irradiation at a dose of 20 Gy on both hind limbs and after transverse cutting of the middle part of the calf muscles, but received false procedures instead of ultrasound in the same amount as the animals of the experimental series.

Example 1. A group of 10 rats 2 days after a single local x-ray irradiation at a dose of 20 Gy for each hind limb and subsequent transverse transection of the calf muscles on these limbs began a 2-minute pulsed ultrasound with an intensity of 0.1 W / cm ² frequency of 50 Hz, pulse duration 10 ms, dose density per procedure 6 J / cm ² . The procedures were carried out with an interval of 1-2 days for 14 days. In total there were 5 ultrasound procedures with a total dose density of 30 J / cm ² .

 After 2 months, as a result of this course, stimulation of proliferative processes in the regenerating muscle tissue is noted, the mass of the regenerating muscle increases by 12.5%, and the amount of muscle tissue increases to 66.0 + 2.0% (control 50.8 + 1.0% ) The DNA content is 2.1 times and RNA 1.48 times higher in it compared to the control. The activity of proteinase inhibitors, reduced as a result of x-ray exposure, is partially normalized. There is a tendency to activation of thymus cells. The number of cases with an unsatisfactory state of a musculocutaneous wound is 20%. The formation of deep musculocutaneous ulcers is not observed.

Example 2. A group of 10 rats 3 days after a single local X-ray irradiation at a dose of 20 Gy for each hind limb and subsequent transverse sectioning of the middle part of the calf muscles of these limbs began a 1-minute pulsed ultrasound exposure with a frequency of 50 Hz, a pulse duration of 10 ms, dose density per procedure 3 J / cm ² . The procedures were carried out with an interval of 1-2 days for 30 days. There were a total of 10 procedures with a total dose density of 30 J / cm ² .

 As a result of this course, after 2 months there is a great stimulation of the regenerative ability of the irradiated muscle tissue. Regenerating muscle fibers actively grow into the area of injury. The mass of the regenerating muscle is increased by 60%. The content of muscle tissue in it increases to 76.2 +% (in the control 50.8 + 1.0%), and the content of DNA by 25% and RNA by 48% in it is higher than the control values. The activity of antiproteinase inhibitors in the blood serum is fully normalized. The absolute and relative mass of the thymus and the number of cell nuclei per unit mass are increased by 20-30%, which indicates the activation of the immune system. Satisfactory healing of the skin wound was observed in 100% of cases. The skin suture is smooth, clean.

Example 3. A group of 10 rats 3 days after a single local x-ray irradiation at a dose of 20 Gy for each hind limb and after transverse cutting of the calf muscles on these limbs began a daily 1-minute ultrasound exposure of 0.2 W / cm ² in pulsed mode with a frequency of 50 Hz, a pulse duration of 10 ms, a dose density of 6 J / cm ² per procedure for 10 days, a total dose density of 60 J / cm ² .

 As a result of the rehabilitation course, after 14 days, destructive processes in damaged irradiated muscle fibers decrease. Muscle tissue accounts for 68.0 + 4.0% (in the control 49.0 + 4.0%), and connective tissue - 15.5 + 2.6% (in the control 42.5 + 1.9%) of the total tissue pool, while fibrin resorption is inhibited. The biosynthetic processes in the thymus are also activated: the protein content increases by 3.5 times in comparison with the control. After 2 months, a connective tissue scar is formed in the area of the defect, and there is no increase in the regenerative activity of damaged muscle fibers. Poor skin wound healing and the formation of musculoskeletal ulcers were observed in 66% of cases. Muscular regenerates do not differ from control in the amount of muscle and connective tissue. This regeneration period corresponds to a low level of activity of thymus cells.

 The proposed method for the rehabilitation of irradiated skeletal muscle in the experiment was applied to 100 laboratory animals (white rats). As a result of using this method, an improvement in the general condition of animals exposed to local x-ray irradiation and traumatic damage to skeletal muscles (in appearance, mobility, activity, body weight) was revealed.

 In the process of rehabilitation, the animals were monitored in the vivarium on a normal diet. The effectiveness of the rehabilitation course was assessed 14 and 60 days after the injury by histological, morphometric, biochemical and biophysical parameters. Thymic cell activity indicators as an organ controlling tissue morphogenesis were also taken into account.

 Histological analysis revealed that the area of injury is partially filled with regenerating muscle fibers, the inflammatory process is completed faster, the connective tissue is healed, and healing of the skin suture improves. Morphometric analysis showed that a larger percentage of muscle and a smaller percentage of connective tissue is retained in a larger (compared to control) muscle regenerate. Such a favorable outcome of the process of regeneration of the irradiated skeletal muscle is indicated by such biochemical parameters as a higher than in the control level of DNA and RNA in muscle regenerates. Normalization of antiproteinase activity of blood serum indicates the absence of inflammatory and destructive processes in the area of injury. An increase in the absolute and relative mass of the thymus and a decrease in the level of lipid peroxidation in its cells indicates the participation of thymus cells in the morphogenetic control of muscle tissue regeneration and an increase in the nonspecific resistance of the body under the local action of high doses of x-ray radiation.

 The proposed method of rehabilitation provides the elimination of some of the main consequences of radiation damage and trauma. As a result of its use, regenerative processes in damaged muscle tissue were activated, metabolic processes in it were improved, inflammatory and destructive processes were suppressed, and the activity of the body's immune system increased.

 The proposed method of rehabilitation is most effective for eliminating such serious consequences of radiation exposure, as the formation of radiation postoperative ulcers.

Claims (1)

A method of rehabilitation of an irradiated skeletal muscle in an experiment by ultrasonic treatment, characterized in that the animal’s skeletal muscle is affected by ultrasound in a pulsed mode with an intensity of 0.1 - 0.2 W / cm ² with a frequency of 50 Hz for 1 - 2 minutes in 1 - 2 days within 14 - 30 days with a dose density of 3 - 6 J / cm ² , the total dose density per course of 30 - 60 J / cm ² .