RU217011U1 - Treatment and rehabilitation stand for gravitational therapy - Google Patents

Abstract

The utility model relates to the field of medicine, namely to devices for medical rehabilitation and recreational activities, and can be used in diseases and injuries of the spine and their consequences, as well as pathology of the joints of the lower extremities. The purpose of creating a utility model is to increase the efficiency and expand the arsenal of means for treating diseases of the spine and joints of the lower extremities.

The design features of the proposed model make it possible to provide a smooth controlled increase and decrease in the degree of traction on the corresponding segments of the spine and joints of the lower extremities by remotely adjusting the speed of the short-range centrifuge. The therapeutic effect is achieved due to the positive synergy of dosed traction action and favorable systemic hemodynamic shifts caused by centrifugal force in the head-to-foot direction.

The device allows selection of the optimal value of the impact load in each case, for each patient, and significantly reduces the risk of adverse events during traction therapy, increases the effectiveness of therapeutic and rehabilitation measures.

The utility model can be used in hospitals, rehabilitation centers, sanatorium conditions for diseases, spinal injuries, their consequences, pathology of the joints of the lower extremities, in neurological, traumatological, orthopedic patients, as well as in sports medicine and aerospace medicine. 1 ill.

Description

The utility model relates to the field of medicine, namely to devices for medical rehabilitation and recreational activities, and can be used in diseases and injuries of the spine and their consequences, as well as pathology of the joints of the lower extremities.

At present, traction therapy in the form of dry or underwater traction is a pathogenetically substantiated method of treatment and rehabilitation of patients with orthopedic-traumatological and neurological profiles [1, 2].

It is known that traction therapy contributes to the unloading of the spine by increasing the distance between the vertebral bodies, reducing pathological muscle tension, reducing intradiscal pressure, resulting in reduced protrusion. Traction in diseases of the spine, such as osteochondrosis, spondylosis, etc., allows you to increase the vertical diameter of the intervertebral foramen, which leads to decompression of the nerve root, a decrease in edema and irritation of the interoreceptors of the veins and endings of the sinuvertebral nerves, resulting in pain relief. With traction, along with a purely mechanical effect, there is a regression of the clinical manifestations of reflex extravertebral syndromes of osteochondrosis of the spine, due to the compression-mechanical factor. The therapeutic effect of traction is manifested by the elimination of subluxations of the facet joints and a decrease in muscle contractures in the affected spinal motion segment of the spine due to the removal of the functional block, the removal of regional and generalized myopically and the formation of an optimal motor stereotype.

Among the main pathogenetic factors of osteoarthritis of the lower extremities, hip, knee, static-dynamic disturbances and mechanical effects are distinguished, manifested in the compression of the articular surfaces, the violation of their congruence and, as a result, traumatization of the articular cartilage, disorders of the trophism and function of the joint. In view of this, the complex rehabilitation of patients with osteoarthritis of the hip and knee joints, along with medications and various physiotherapeutic factors, includes medical technologies to counteract chronic compression of the articular surfaces, namely traction therapy.

Currently, when providing medical and rehabilitation measures to patients with injuries and diseases of the musculoskeletal system and their consequences, various types of traction therapy are used. They have their own advantages and disadvantages, which should always be taken into account when prescribing this medical technology. A general important requirement for the correct choice of one or another type of traction and the achievement of high therapeutic efficacy is the strict definition of indications and the individual selection of the optimal value of the acting load, which ensures an adequate dosed effect during the treatment procedure.

A well-known stand for the treatment of ischemic conditions of the lower extremities [3], the structural elements of which provide exposure to a gravitational field with a head-leg action vector, using a short-range centrifuge in combination with a dosed muscle load and the possibility of adjusting the angle of inclination of the centrifuge bed relative to the horizontal axis, which created an additional blood flow to the lower extremities and more favorable conditions for reparative processes by ensuring the direction of the resulting centrifugal force along the axis of the main vessels of the lower extremities. The disadvantage of this stand is the low efficiency of treatment, due to the inability to carry out a dosed traction action along the axis of the spine and in the lower extremities during rotation.

The prototype of this utility model is taken as a stand for therapeutic effects on the patient's body by a gravitational field [4], containing a platform placed on the base with the possibility of rotation from the drive and equipped with a bed for the patient with a headrest located in the center of rotation, with a fixation unit for the patient's body in the form axillary rings with rods or Glisson's loops and a rod lock made in the form of rods vertically installed on the platform behind the center of rotation, and on the platform there are fixators of the shoulder sections of the patient's arms. The disadvantage of this stand model is that its design features carry out traction along the axis of the spine under the action of centrifugal force without the possibility of implementing a dosed traction effect on the segments of the spinal column. At the same time, the distal segments of the spinal column do not have a free movement in the caudal direction, and during the procedure there is always a counteraction in the form of the friction force of the patient's body on the surface of the centrifuge bed. In cases of increased body weight, it becomes necessary to increase the centrifuge rotation speed in order to achieve the effect of shifting the patient's body weight, which increases the risks of negative physiological reactions of the body during rotation. Also, this stand does not allow setting therapeutically justified parameters of spinal traction for patients, usually expressed quantitatively in kg or as a percentage of body weight in each case, taking into account the clinical course of the spinal disease, and therefore does not provide the ability to objectively control the required range changes in traction load during rotation. In addition, this device does not allow traction of the joints of the lower extremities. All this reduces the effectiveness of treatment and rehabilitation of patients with diseases of the spine and joints of the lower extremities.

The purpose of creating this utility model is to increase the effectiveness of treatment of diseases of the spine and joints of the lower extremities.

The technical result of the utility model is achieved due to the fact that the treatment and rehabilitation stand for gravitational therapy, mounted on a base with a fixed vertical axis and the possibility of rotation from the drive, equipped with a device for dosed muscle loading of the lower extremities, contains a horizontal platform, consisting of 3 connected between are sections that can be disconnected before the procedure, depending on the treatment tasks. At the same time, the section of the platform, located under the head and thoracic spine, is fixed and equipped with a headrest installed in the center of the stand rotation axis, a chest bodice and shoulder pads for fixing the patient's upper body. The middle section of the platform, corresponding to the level of the pelvic region, is movably connected to the chest section and the mobile leg section. Moreover, the middle section of the platform has the possibility of axial movement in the caudal direction along the guide lodgements simultaneously with the leg section and is equipped with a mechanism that provides dosed traction of the spine in the lumbar and thoracic regions and the possibility of remote control of the level of traction force and its correction during the procedure, and also contains elements fastenings in the form of a pelvic semi-corset. On the leg part of the section, corresponding to the level of the thigh and lower leg, there are straps for fixing the limbs at the level of the upper third of the thigh and ankle joint. The leg section has the ability to move independently along the axial line with a rigid connection between the middle pelvic section and the chest section of the platform, which creates conditions for dosed traction for the hip and knee joints. To normalize venous circulation, a simulator is installed on the leg section, which provides a dosed muscle load on the lower limbs.

The design features of the proposed model make it possible to provide a smooth controlled increase and decrease in the degree of traction on the corresponding segments of the spine and joints of the lower extremities by remotely adjusting the speed of the short-range centrifuge. The therapeutic effect under these conditions is achieved due to the positive synergy of dosed traction action and favorable systemic hemodynamic shifts caused by centrifugal force in the head-to-foot direction.

The device allows selection of the optimal value of the impact load in each specific case for each patient and significantly reduces the risk of adverse events during traction therapy, increases the effectiveness of therapeutic and rehabilitation measures.

The claimed utility model of a treatment and rehabilitation stand for gravitational therapy is illustrated by the graphic materials of Fig. 1. The treatment and rehabilitation stand for gravitational therapy contains a base (1) with a vertical axis (2) and the possibility of rotation from the drive, a platform (3) on which 3 sectional panels are installed: chest (4), pelvic (5) and foot sectional panel (6). The sectional panel (4) intended for the thoracic spine and head is fixed and equipped with a headrest (7) installed in the center of the stand rotation axis, a chest bodice (8) and shoulder pads (9) for fixing the upper body of the patient. The middle section of the platform (5) is movably connected to the chest section and the mobile leg section. The middle section of the platform has the possibility of axial movement in the caudal direction along the guide lodgements (10) simultaneously with the leg section and is equipped with a mechanism (11) that provides dosed traction of the spine in the lumbar and thoracic regions and the possibility of remote control of the level of traction force and its correction during the procedure , and also contains fastening elements in the form of a pelvic semi-corset (12). On the leg part of the section (6) there are straps for fixing the limbs at the level of the upper third of the thigh (13) and the ankle joint (14). With a rigid connection of the middle pelvic section and the chest section of the platform, the leg section has the ability to independently move along the axial line, which creates conditions for dosed traction for the hip and knee joints. To normalize venous circulation, a simulator was installed on the leg section, which provides a dosed muscle load on the lower limbs (15).

The platform is controlled and the level of the applied gravitational load is controlled remotely from the control panel. The design features of the short-range centrifuge provide a smooth change in rotation speed from 0 to 60 rpm, and the centrifugal force of the head-leg direction that occurs in this case causes the movement of the pelvic or leg section, depending on the type of their connection to each other and the chest section. Moreover, the traction force is set in the given optimal parameters due to the traction load control mechanism and is achieved by appropriate selection of the centrifuge rotation speed individually.

The method of carrying out the procedure of gravitational therapy is as follows. The patient is placed on the centrifuge platform so that the head is in the center of the axis of rotation, the thoracic spine is located on the fixed section of the platform, and the pelvis and limbs are on the corresponding movable platforms corresponding to the pelvic and leg sections. Before the start of the procedure, the sections connected into a single block are disconnected from each other, depending on the therapeutic purpose.

To carry out traction of the thoracic and lumbar regions, the pelvic and leg sections are installed in a rigid connection. The pelvis is fixed with the help of a pelvic semi-corset to the middle section, the limbs are fixed with straps in the region of the upper third of the thigh and ankle joint. When the centrifuge rotates under the influence of centrifugal force, the pelvis and limb move as a single block along with the leg section along the guide lodgements in the caudal direction. As a result, a smooth dosed axial traction is created at the level of the lumbar and thoracic regions. Moreover, the traction force control mechanism installed on the platform makes it possible to maintain the specified parameters of the traction force and carry out its adjustment remotely during the release of the procedure.

In order to influence traction mainly on the joints of the lower limb (hip and knee joint), before the procedure, the middle pelvic section is rigidly connected to the chest section, after which the pelvis is firmly fixed with the help of a pelvic semi-corset without the possibility of its movement in the head-leg direction. In this case, the leg section is disconnected from the middle pelvic section, which allows it to move freely under the influence of centrifugal force in the caudal direction, together with fixed lower limbs at the level of the upper third of the thigh and ankle joint, which provides traction in the hip joints and at the same time creates conditions axial unloading for the knee joint.

When the centrifuge rotates, the action of the centrifugal forces of the "head-legs" direction causes the redistribution of circulating blood in the body with its predominant deposition in the lower extremities. To normalize venous circulation, patients perform dosed muscle work with their lower limbs using an installed leg simulator.

Remote control of the traction force and adjustment of the centrifuge speed is carried out from the control panel.

Thus, the design features of the presented model of the stand provide dosed traction of the spine and traction in the joints, which is provided by the mechanism for controlling the level of traction force installed on the platform. At the same time, the device makes it possible to remotely carry out a controlled smooth increase and subsequent decrease in traction in various modes in accordance with the set medical tasks. Stretching under these conditions prevents undesirable generalized tension of the muscles of the lumbar region observed during intense traction and contributes to their relaxation to a greater extent, reduces the amount of intradiscal pressure, and eliminates functional blockades in the spinal motion segments in patients with signs of osteochondrosis of the thoracic and lumbar regions.

The stand model provides for the implementation of dosed traction of the lower extremities, which allows to relieve pressure on the articular cartilage and the underlying subchondral bone of the hip and knee joint, to achieve a pronounced analgesic effect in arthrosis. The combined traction effect and activation of general and regional blood circulation caused by increased gravity will help improve blood circulation in articular and periarticular tissues, synovial fluid circulation, normalize muscle balance, and increase trophism. The synergy of positively acting physical factors creates conditions for activating the mechanisms of sanogenesis in patients with osteoarthritis of the hip and knee joint, stopping degenerative-dystrophic and aseptic inflammatory processes of various origins in the joint, contractures, and reduces the intensity of drug therapy.

The claimed utility model of a treatment and rehabilitation stand for gravitational therapy can be used in hospitals, rehabilitation centers, sanatorium conditions for diseases, injuries of the spine, their consequences, pathology of the joints of the lower extremities, in neurological, traumatological, orthopedic patients, as well as in sports medicine and aerospace medicine.

INFORMATION SOURCES

1. Ya.Yu. Popelyansky, Orthopedic neurology (vertebroneurology), 3rd edition. A guide for doctors, - M .: "MEDpress-inform", 2003. - p. 479-489.;

2. Private physiotherapy Textbook / Ed. G.N. Ponomarenko. - M .: JSC "Publishing house" Medicine ", 2005. - p. 627-630.).

3. STAND FOR THE TREATMENT OF ISCHEMIC CONDITIONS OF THE LIMB, Patent for invention RU 2192236.

4. STAND FOR THERAPEUTIC INFLUENCE ON THE PATIENT'S ORGANISM BY THE GRAVITATIONAL FIELD, utility model patent RU 64058.

Claims (1)

Treatment and rehabilitation stand for gravitational therapy, containing a platform mounted on bases with a fixed vertical axis and the possibility of rotation from a drive that provides exposure to centrifugal forces with a head-leg action vector, characterized in that the stand contains a 3-section platform, while the chest section of the platform fixed and equipped with a headrest installed in the center of the stand rotation axis, a chest belt and shoulder pads for fixing the upper body of the patient, and the mobile pelvic and leg sections have the possibility of dosed axial movement in the caudal direction along the guide lodgements; at the same time, the pelvic and leg sections are equipped with a mechanism that provides metered traction and the ability to remotely control the level of traction force and its correction during the procedure from the control panel, and also contain elements for connecting to each other and fastening the distal torso in the pelvis and lower extremities, providing the possibility of differentiated traction of the spine and lower extremities; at the same time, in order to normalize venous circulation in the lower extremities, a simulator for dosed muscle load of the lower extremities with control of the power of the performed muscular work is installed on the leg section.

Images