RU2820160C1 - Method for neuromuscular rehabilitation of small unproductive animals - Google Patents

Abstract

FIELD: veterinary science.

SUBSTANCE: invention relates to veterinary neurology, traumatology and orthopedics and is a method for neuromuscular rehabilitation of small unproductive animals, which consists in the exposure successively on each limb to provide at least two types of movement: flexion and extension, adduction and abduction, characterized in that the action on the muscle structure is carried out using a low-frequency pulsed alternating current with a frequency range from 1 to 1,000 Hz, for which the electrodes are arranged depending on the area to be rehabilitated, wherein the duration, duration and frequency of the exposure are selected individually depending on the pathological process, wherein dosing regimen is selected in accordance with motor responses and subjective criteria.

EFFECT: invention makes it possible to increase efficiency of neuromuscular rehabilitation of small unproductive animals.

6 cl, 6 dwg, 3 ex

Description

The invention relates to veterinary neurology, traumatology and orthopedics, used for rehabilitation in animals with degenerative disorders of the skeletal, muscular and nervous systems.

In humane medicine, a method of muscular rehabilitation of the lumbar spine is known (RU 2306128C2, IPC A61N 1/00, publ. 09.20.2007). The proposed method involves performing physical exercises. For 15-20 minutes, passive treatment is carried out by positioning, placing a semi-rigid cushion with a diameter of 10-15 cm under the lumbar region. Then, without getting up, they turn onto their stomach through the side and, with relaxed abdominal muscles, perform physical exercises, loading the superficial and deep long and short muscles backs. At the same time, the deflection of the lumbar spine is constantly maintained and the extreme position in each exercise is fixed. The rehabilitation cycle is 3 months of daily exercise for up to 1 hour for flattening of the lumbar spine and six months for the transition of lordosis to kyphosis.

This method has the following disadvantages:

1) This method is not applicable to animals, since it is impossible to give the spinal position for 15-20 minutes.

2) Impossibility of use for neurological diseases: by controlling acute or chronic pain syndrome, this method will increase pain in animals.

3) Lack of analgesic effect.

Also in humane medicine there is a known method of muscle rehabilitation or ergotherapy of muscles (RU 171663 C2, IPC A61N 1/00, publ. 08/10/2001). This method characterizes a targeted dosed rehabilitative force effect on any muscle group other than the one being rehabilitated.

At the same time, local cooling of the rehabilitated muscle group or muscles of a symmetrical limb is carried out.

This method has the following disadvantages:

1) Lack of stimulation of peripheral nerves.

2) Lack of local, segmental and muscle stimulation.

Humane medicine also knows a method of kinesiotherapy for the rehabilitation of patients with impaired motor functions (RU 2492846 C1, MPC L611-11/00, pub. 09.20.2013). The method is carried out as follows. Simultaneous approximation of muscles and joints is carried out while performing exercises or outside of them using a neuro-orthoid suit containing a system of pneumatic chambers and overalls, into which, after putting on the patient and individual fitting, air is pumped, ensuring tension of the suit in problem areas of muscle dysfunction while removing restrictions in the area of the elbow and /or knee joints, according to the invention, classes are carried out daily, the multiplicity of the complex during the day is 3 approaches, and each exercise, which is repeated 8-10 times, is performed in the proximal-distal direction in a certain sequence depending on the degree of motor dysfunction, starting with performing exercises first with one upper limb, then with two, after which they move to the lower limbs, using a spiral model of movement consisting of a combination of at least three types of movement: flexion or extension, abduction or adduction, internal or external rotation, sequentially passing one into another and ensuring the simultaneous operation of several joints, while additional impact is carried out on the active zones or points of the patient with the help of a filler placed in the cellular structure of the multilayer material used for the manufacture of overalls and placed between at least two fabric layers, in this case, the pneumatic chambers are longitudinally located along the contours of the overalls along the outer surface of the limbs and torso.

This method has the following disadvantages:

1) Not applicable for animals of different types and sizes.

2) Lack of analgesic effect.

The technical challenge is to develop a method for neuromuscular rehabilitation of small non-productive animals.

The technical problem is solved by the fact that neuromuscular rehabilitation is carried out using low-frequency pulsed alternating current with a frequency range of electrical impulses - 1-2500 Hz as a conservative monotherapy or in the postoperative period, both orthopedic and neurological diseases in small non-productive animals.

The technical result of the claimed invention is achieved in a method of neuromuscular rehabilitation of small non-productive animals, which consists in influencing each limb sequentially to provide at least two types of movement: flexion and extension, adduction and abduction, characterized in that the effect on the muscle structure is carried out using low-frequency pulse alternating current with a frequency range from 1 to 2500 Hz, for which the electrodes are placed depending on the area being rehabilitated, while the duration, duration and frequency of exposure are selected individually depending on the pathological process, and the dosage regimen is selected in accordance with motor reactions and subjective criteria .

The claimed invention is illustrated by the following figures and tables.

In fig. 1 shows a general view (photo) of MyoMed with a frequency range of electrical impulses - 1 - 1000 Hz.

In fig. Figure 2 shows a compression fracture-dislocation of L4-L5 in the lateromedial projection (example 1).

In fig. Figure 3 shows combined transarticular osteosynthesis of L4-L5 in the lateromedial projection (example 1).

In fig. Figure 4 shows combined transarticular osteosynthesis of L4-L5 in the dorsoventral projection (example 1).

In fig. Figure 5 shows osteoarthritis of the hip joint of the right pelvic limb, as well as spondylosis/spondyloarthrosis of the lumbar spinal column in the dorsoventral projection (example 2)

In fig. Figure 6 shows osteoarthritis of the knee joint of the left pelvic limb in the latero-medial projection (example 2).

Table 1 shows the motor response to electrical stimulation from normally innervated muscles depending on the frequency of pulse currents.

The proposed method is used as a conservative monotherapy or postoperative period for both orthopedic and neurological diseases, controlling acute or chronic pain syndrome (arthritis, spoidylosis, spondyloarthrosis, muscle spasms, cauda equina syndrome, Wobbler syndrome, compression diseases of the spinal cord), while catalyzing regenerative processes of surrounding tissues, preventing the development of atrophy.

The method is carried out as follows, using a device for electrical stimulation, for example the MyoMed device (Fig. 1). Correct placement of the electrodes is essential to achieve good treatment results.

For local exposure, electrodes are placed along the boundaries of the painful area, or one electrode is placed in the area of the most painful point, and the dose, duration, duration and frequency are selected individually.

For segmental exposure, electrodes are placed to the left and right of the spinal column near the nerves of the target areas, and the dose, duration, duration and frequency are selected individually.

To influence peripheral nerves, electrodes can be placed along the nerve pathways, provided that they are located close to the surface of the skin, and the dose, duration, duration and frequency are selected individually, in accordance with Table 1,

To influence the muscle structure, one electrode is placed on the area of the motor point of the target muscle (in the middle of the muscle belly), the second electrode is placed in the area of muscle attachment, and the dose, duration, duration and frequency are selected individually.

The dosage regimen in accordance with subjective criteria is selected as follows:

At a low dose, just below the threshold of sensitivity, it is necessary to gradually increase the intensity of stimulation until the animal reacts, and then slightly reduce the intensity of the effect.

At an average dose, some tingling is felt, represented by tremor of muscle tissue. It should not create discomfort. Many animals relax and close their eyes, some fall asleep during the procedure.

At a high dose, there is obvious anxiety in the animal, which is unacceptable and requires a reduction in exposure to pulsed current.

Very short pulses in the low frequency range produce muscle contractions of such intensity that they are perceived as a pleasant effect.

The duration of the procedure is selected in accordance with the condition of the animal and can be: short (5 minutes), medium (10 minutes), long (15 minutes) and extra long (more than 20 minutes).

The duration of treatment varies depending on the pathological process and the required rehabilitation period: short (3 to 5 times), medium (6 to 10 times), long (12 to 18 times), and the intervals between procedures can be short (daily ), medium (3 times a week) and long (2 times a week), in the case of acute and subacute conditions, the procedures must be carried out daily, and in the case of chronic conditions, it is recommended to carry out the procedures 2-3 times a week.

This method of neuromuscular rehabilitation has found its application in practical veterinary healthcare at the DoctorVet veterinary clinic, where it has demonstrated its effectiveness, as evidenced by the following clinical examples.

Example 1

Patient Bonya, 6 months old, mixed breed, female, 10 kg, was admitted to the DoctorVet clinic with a diagnosis of “Compression fracture-dislocation of L4-L5, paraparesis of the pelvic limbs with grade 5 neurological deficit” 5 days after a car injury (Figure 2). Combined transarticular osteosynthesis was performed (Figure 3, 4), antibiotic therapy and anti-inflammatory therapy using neuromuscular electrical stimulation for 5 minutes, 3 to 5 times daily were prescribed. After 5 days, the animal moves independently on its pelvic limbs, neurological deficit of 2 degrees. The rehabilitation course is scheduled for 3 weeks.

Example 2.

Patient Berta, 10.5 years old, female German shepherd, 53 kg, was admitted to the DoctorVet clinic with a diagnosis of “Osteoarthrosis of the hip joint of the right pelvic limb, osteoarthritis of the knee joint of the left pelvic limb, spondylosis/spondyloarthrosis of the lumbar spinal column” (Figure 4, 5 ). Neurological deficit of the 3rd degree, paraparesis of the pelvic limbs. Neuromuscular electrical stimulation was prescribed for 15 minutes from 3 to 5 times daily at 3 points of the pathological focus. After 7 days, the animal moves independently on its pelvic limbs, and a grade 1 neurological deficit is diagnosed. This patient was prescribed rehabilitation every 2 months if there was no decrease in dynamics.

Example 3.

Patient Boris, 5 years old, mixed-breed cat, 4.5 kg, was admitted to the DoctorVet clinic with a diagnosis of “2nd degree soft tissue contusion in the area of the left tarsal joint.” Lameness 3 degrees. Neuromuscular electrical stimulation was prescribed for 5 minutes, 3 to 5 times daily. After 6 days there is a clinical picture of complete recovery without signs of lameness.

This method of neuromuscular electrical stimulation is characterized by the following effects:

1. Electrical stimulation activates endogenous neural pain control systems.

2. Decreased tone of muscles that are in a state of hypertonicity.

3. Stimulation of blood supply.

4. Stimulation of the release of endogenous endorphin.

5. Analgesic effect.

The invention reduces the time for rehabilitation and stabilization of the neuromuscular framework in case of complications due to electrical stimulation with low-frequency pulsed alternating currents.

This method can be successfully used in veterinary medicine. Thus, the proposed method for neuromuscular rehabilitation of small non-productive animals meets the invention criteria of “Novelty”, “Inventive step”, “Industrially applicable”, since it can be implemented using known components.

Claims (6)

1. A method of neuromuscular rehabilitation of small non-productive animals consisting of sequential influence on each limb to provide at least two types of movement: flexion and extension, adduction and abduction, characterized in that the influence on the muscle structure is carried out using low-frequency pulsed alternating current with a frequency range from 1 to 1000 Hz, for which the electrodes are placed depending on the area being rehabilitated, while the duration, duration and frequency of exposure are selected individually depending on the pathological process, and the dosage regimen is selected in accordance with motor reactions and subjective criteria. 2. The method according to claim 1 for local use, which consists in the fact that the electrodes are placed along the boundaries of the painful area, or one electrode is placed in the area of the most painful point. 3. The method according to claim 1 for segmental use, which consists in the fact that the electrodes are placed to the left and right of the spinal column near the nerves of the target areas. 4. Method according to claim 1 for influencing peripheral nerves: electrodes are placed along the nerve pathways, provided that they are located close to the surface of the skin. 5. The method according to claim 1 for influencing muscle tissue, which consists in the fact that one electrode is placed on the area of the motor point of the target muscle (in the middle of the muscle belly), and the second electrode is placed in the area of muscle attachment. 6. The method according to claim 1, which consists in individual selection of doses of pulsed action in accordance with the condition of the animal, while at a low dose, in the absence of clinical signs, the intensity of stimulation is increased until a reaction appears on the part of the animal, after which the intensity of the action is slightly reduced, with an average dose of exposure, the animal relaxes, and a high dose causes obvious anxiety and requires a reduction in the dose of exposure.