RU2268699C2 - Method and device for treating patients for scoliotic posture and functional scoliosis - Google Patents

Abstract

FIELD: medicine; medical engineering.

SUBSTANCE: method involves administering relaxation massage to vertebral column muscles including body extension on ramp for eliminating head tilt, displaced shoulder and pelvic girdles and relative lower extremity shortening. Tonic musculoligamentous out-of-balance condition in transversospinal muscles of superior and medial distortion arc portions on convex part and in the inferior portion on concave part as well as paravertebral muscles out-of-balance condition is removed. Reduced thoracic kyphosis and lumbar lordosis are corrected on the background of lasting strain applied to musculoligamentous apparatus and muscle relaxation to reach physiological values. Platypodia is then corrected. Iliolumbar muscles and physical training exercises for dorsal muscles are carried out. The device has rest ladder and removable rollers as well as support ladder and belts for fixing patient position. The rest and support ladders are hingedly connected to each other with one set of ends and the other ends are connected to each other via tie rods of adjustable length hingedly connected to the ladders. The rest ladder deforms in elastic mode and is provided with handle for generating vibrations. The ladders have lockable wheels at tie rod connection places. Flat sections have locks on the edges for being attachable to rest ladder side frames and crossbars. The locks are manufactured as ribbons having fixed pin and oblong holes with covers for receiving a pin. The pins are arrangeable in through holes of lateral side frame and crossbar surfaces of the rest ladder with Velcro lock. Upper crossbars of the rest ladder have flexible washers for hands.

EFFECT: enhanced effectiveness of treatment.

4 cl, 2 dwg

Description

The invention relates to medicine, in particular to manual medicine, to vertebrology, orthopedics, neurology in the treatment of scoliotic posture, functional scoliosis.

According to statistical studies of Russian and foreign authors, scoliosis and scoliotic posture occupy up to 30% in the structure of childhood morbidity and tend to increase.

The etiopathogenesis of functional and structural scoliosis is different, but they are united by pathobiomechanical changes in the musculoskeletal system, and sometimes they differ only in the qualitative and quantitative characteristics of the deformations.

The generally accepted opinion is the primacy of the presence of abnormalities in the development of the spine, iliac dysplasia, true shortening of the leg, morphological changes in the nervous system in the development of structural scoliosis and the secondary nature of disorders of the musculo-ligamentous and dysfunctions of the articular apparatus. From modern perspectives, functional scoliosis combines scoliotic posture and scoliosis, which are characterized mainly by local impairment of muscle functions in such morphological changes that can be eliminated by conservative treatment methods, in particular, manual medicine.

A known method of treating scoliosis according to RU 2181277, publ. 04/20/2002, adopted as a prototype, includes general classical back massage, relaxing massage of all muscles that are in good shape, tonic massage of paralyzed muscles, deep massage in the area of the hip joint, buttocks, massage of the abdomen, kneading of the knee, ankle joints, feet.

However, the known method does not provide for relaxation of a differentiated approach to the muscles that form a local deformation in the curvature zone, in particular to the transverse-spinous muscles at various curvature levels, the state of physiological bends of the spine in the sagittal plane is ignored.

The known method does not eliminate the displacements of the shoulder, pelvic girdle, head tilt, relative shortening of the lower extremity, does not eliminate the tonus muscular-ligamentous imbalance of the transverse spinous muscles of the upper, middle parts of the curvature arc on the convex side and in the lower part on the concave side, responsible for the formation of curvatures during one arc of deformation, does not lead to a physiological state, impaired by scoliosis, chest kyphosis and lumbar lordosis.

The present invention was to find effective ways to eliminate pathobiomechanical disorders in the musculoskeletal system with scoliosis, scoliotic posture.

The problem is solved due to the fact that the body is stretched on an inclined plane until the head is tilted, the shoulders and pelvic girdles are removed with the relative shortening of the length of the lower extremity eliminated, the tonus muscular-ligamentous imbalance of the transverse-spinous muscles of the upper, middle parts of the curved arc is curved side and the lower part on the concave side, as well as the tonus-muscular imbalance of the paravertebral muscles, against the background of the ongoing stretching of the musculo-ligamentous apparatus and their relaxation the ratios correct coronary thoracic kyphosis and lumbar lordosis to physiological values, followed by correction of flat feet, perform auto-mobilization of the iliopsoas muscles to their symmetrical functioning and therapeutic exercises aimed at strengthening the spine muscle corset.

Unilateral flat feet, the continued existence of a relative difference in leg length, unrepaired functional blockages in the joints of the pelvic bones, a long static posture especially during the formation of the spine, the asymmetric function of the muscular apparatus of the trunk are the starting point in the mechanism of development of scoliotic posture and further functional scoliosis.

Mechanisms of different levels are involved in the regulation of posture or posture - from vision and the vestibular apparatus to proprioceptive receptors of various organs.

However, the executive mechanism of all regulatory processes is muscle strength, i.e. that active force that actively contributes to maintaining equilibrium. In this regard, the ligamentous apparatus acts as a passive force. A vertically located spine with ligaments, fixed at the base, retains its shape under a load not exceeding 2 kg. The limited role of the ligamentous apparatus is visible when trying to keep an upright person in an unconscious state. From this view, it follows that the main role in fixing both a single vertebral-motor segment and the entire spine part belongs to the muscles, which must be relaxed before performing manipulations and mobilization to eliminate functional blocks, eliminate vertebral displacements, and spinal deformities.

Biomechanical studies using electromyographic studies in children with initial forms of scoliotic posture and scoliosis without morphological changes in the skeletal system showed that in the upper and middle parts of the scoliotic arch, the muscles of the body lying on the convex side counteract transversely to the oblique course of the fibers. In this area, the spinous muscles whose fibers are arranged vertically do not have bioelectric activity. In the lower third of the scoliotic arch, the transverse-spinous muscles of the concave side of the arc counteract the body mass. Studies have shown that the transverse-spinous muscles are responsible for the position of the vertebral segments locally, i.e. in a certain vertebral-motor segment, and do not transfer their efforts to distant links of the spine. On the contrary, long back muscles, spinous with a vertical direction of the fibers, i.e. paravertebral, provide an act of standing, are responsible for the shape of the entire spinal column and take minimal participation in the stabilization of one vertebral-motor segment of the spine. The results of such studies forced a change in the method of muscle relaxation during the elimination of scoliotic deformity: in case of scoliotic posture and functional scoliosis with a localized scoliotic, for example, C-shaped, arc, it was primarily a relaxing massage of the transverse-spinous muscles in the upper and middle parts of the curved arc along the convex side, and in the lower part - on the concave side. With curvatures that occupy the entire spine, for example, S-shaped scoliosis, all paravertebral muscles are also subjected to relaxing massage.

Each vertebra is affected by the resulting force from the action of body mass located above the vertebra, the efforts of muscles, ligaments. In the upper sections of the curvature, equilibrium is maintained due to the tension of the muscles of the convex side, leveling the effect of the resulting force directed to the convex side. In the lower sections, the tense muscles of the concave side of the curvature counteract the resultant force directed toward the concave side.

Constant and excessive muscle tension to maintain body balance leads to the involvement of the ligamentous apparatus of the spine - ligaments stretch on the side of the overstressed muscles, i.e. on the convexity side of the curvature in the frontal plane, and shortened on the concave side of the curvature.

The presented alignment of the primary forces acting, first aimed at deformation in individual segments, and then, on the spine as a whole, and the mechanisms of the forces opposing them, ultimately leads to biomechanical disturbances revealed during instrumental research and manual testing.

These violations are reduced to the following: unilateral (sometimes bilateral) flat feet, relative shortening of the length of the lower extremity, displacement of the pelvis, deviation of the spine in the lumbar toward the inclination of the pelvic girdle, the formation of anti-curvature in the thoracic spine with a bulge opposite the bulge of the lumbar, tilt of the shoulder girdle the same side as the pelvic girdle, tilting the head to the opposite side from tilting the shoulder girdle. At the same time, a decrease was found within 2-3 ° of chest kyphosis and lumbar lordosis compared with physiological norms, an increase in the tone of the transverse-spinous muscles of the upper, middle parts of the curvature arc along the convex side, and in the lower part of the curvature arc on the concave side, revealed tonus muscular imbalance on the paravertebral muscles.

The method is carried out in the following sequence:

1. Elimination of head tilt, displacement of the shoulder, pelvic girdles relative shortening of the length of the lower extremities. When implementing the method, a device for correction of the spine is used. The device (Fig. 1) consists of a supporting ladder, a retaining ladder with crossbeams between the racks of the stairs, the stairs are connected in the upper part by hinges, have the ability to change the angle of inclination, below are connected by a coupler with an adjustable length. The supporting ladder is made elastically deformed to create the necessary vibrations leading to bending-extension of the spine during stretching on the inclined plane of the supporting ladder.

All spaces between the transverse crossbeams of the support ladder of the device are closed with removable sections to form an even flat solid support for the whole body of the patient. They lay the patient with his back on an inclined support ladder, the upper part of the ladder is installed at the level of the patient's knee. The head end of the stairs is raised until the patient feels the beginning of the body sliding down an inclined plane. Then lay the patient on the stomach. The body sliding along the plane prevents the patient by grabbing the crossbeam over his head with his hands at the level of his arms, which is stretching. The doctor monitors the tension of both hands, asks the patient to strengthen the traction of the arm muscles on the side of the lowered shoulder girdle, and transfer the capture of the cross member with the other hand to the side opposite to the tilt of the head. Due to asymmetric traction, the tilt of the head and the omission or displacement of the shoulder girdle are eliminated - the line connecting the clavicular-acromial joints located in the frontal plane should be horizontal at the end of the described manipulation.

Then eliminate the misalignment of the pelvis, installing the posterior superior iliac spine at the same level from the support and on one line located horizontally in the frontal plane with respect to the patient’s body. The lines characterizing the elimination of the displacement of the pelvis and shoulder girdle should be parallel, while the relative difference in the length of the lower and upper limbs disappears by itself.

2. Elimination of the tonus muscular-ligamentous imbalance of the transverse spinous muscles of the upper, middle parts of the curvature arc along the convex side and the lower part on the concave side, as well as the tonus-muscular imbalance of the paravertebral muscles.

According to the authors' studies, the transverse-spinous muscles are responsible for the formation of curvatures over one arch of the deformity: lumbar or pectoral, while paravertebral muscles are responsible for the shape of the entire spine, especially when standing, in a sitting position.

The patient is still on the supporting ladder on his stomach, holds the bar with his hands, thereby preventing the body from moving downward, self-traction occurs on an inclined flat plane. The doctor performs a relaxing massage of the superficial muscles of all parts of the spine, muscles of the shoulder girdle, gluteal and hip joints. Having achieved relaxation of these muscles, a relaxing massage is carried out first of the transverse-spinous muscles of the upper, middle part of the convex side, then in the lower part of the arc on the concave side.

With a relaxing massage, it is necessary to carry out movements along the transverse-spinous muscles, i.e. from the transverse processes to the spinous processes, avoiding the direction from the spinous to the spinous processes.

Tono-muscular imbalance of the paravertebral muscles is not always completely eliminated by means of a relaxing massage, and therefore it is necessary to apply stretching by hanging on the hands on an inclined plane using the patient’s entire body mass as the pulling force. For several sessions, it is possible to stretch the contracted muscles and ligamentous apparatus on the concave side of the curvature by almost a third of their original length.

A relaxing massage of the transverse-spinous muscles deprives the spine of their action in the upper, middle and lower parts of the deformity arch; during this period, only ligamentous structures exert resistance to stretching, which stretch primarily on the concave side, which leads to the disappearance of deformation in the frontal plane.

Conducting a relaxing massage of all muscles with increased tone, as recommended in the known prototype method, without differentially taking into account their effect on certain parts of the curvature arc, leads to muscle relaxation, but the angle of deformation remains either the same or increases. The relaxation of the transverse-spinous muscles by this method, taking into account their effect on the upper, middle parts of the convex curvature and on the lower part of the concave part of the arch, always leads to the elimination of the curvature between the individual vertebral-motor segments, and the elimination of the tonus-muscular imbalance of the paravertebral muscles fixes the achieved correction .

Further techniques are aimed at normalizing natural bends in the thoracic and lumbar regions, which, as established, are reduced from 2 to 3 °. Identified violations play a significant role in the biomechanics of violations of the functions of these parts of the spine, they are the forerunners of rotation of the vertebrae and must be eliminated without fail.

3. Correction of reduced kyphosis of the thoracic and lumbar lordosis.

On the supporting ladder of the device, only a section is left to support the shoulder girdle, and a roller performing the existing lordosis is brought under the lumbar region. All other sections of the support are removed. The angle of inclination of the supporting ladder is left unchanged. The patient in the supine position grabs the crossbeam with his hands, the body is supported at the level of the back surface of the shoulder girdle and the roller in the lumbar region. By the handles of the support ladder, the support ladder is rocked, its deflections due to the elastically deforming properties are transferred to the body and tell the spine to flex and extend. The action of the roller with relaxed muscles and ligaments stretched along the concave surface of the curvature leads to a gradual increase, i.e. normalization of physiological bending in the lumbar region. Lack of support over the chest portion of the curvature in combination with flexion-extension under conditions of stretching of the ligamentous apparatus, relaxed muscles leads to an increase in previously reduced chest scoliosis to normal, i.e. physiological bending in the sagittal plane.

After the manipulations, the support for the pelvis of the lower extremities is restored on the supporting ladder. The support under the shoulder girdle and the roller in the uterine region remain in place. The inclination of the supporting ladder is reduced to the initial one, the patient is on the supporting ladder for at least 30-60 minutes. Early exercise and active movement in conditions of complete relaxation of the spinal muscles can lead to spinal deformity.

During the rest period, a tonic massage is carried out according to the type of “zipper” of the foot muscles, and individually selected arch supports are put into shoes. They are prescribed to wear disciplinary harness belts to maintain correct posture, for 7-10 days a disciplinary corset of the Leningrad type, gymnastics to strengthen the muscles of the back, swimming, auto-mobilization of the iliopsoas muscles.

As the closest analogue of the device for correction of the spine, a well-known decision is made according to the patent of the Russian Federation No. 2122392, which describes the use of the gymnastic ladder and removable rollers for the treatment of degenerative diseases of the chest, thoracolumbar and cervicothoracic spine in combination with arthrosis of the vertebral joints. However, this use does not allow the patient to be positioned at an angle to reduce the load on him, and there is no possibility of additional vibration exposure in the form of flexion-extensor movements of the spine, which contributes to the improvement of treatment results.

The technical result of the proposed invention is to provide improved treatment results due to the possibility of additional vibrational flexion-extensor effects on the spine and regulation of the load on the spine by changing the angle of the patient's position.

The technical result is achieved due to the fact that the device for the correction of the spine, containing a supporting ladder and removable rollers and planar sections for supporting the body, has a retaining ladder and straps for attaching the patient, and the supporting and retaining ladders are connected to each other at one end pivotally, and the other with the help of couplers with adjustable length having swivel joints with the stairs, the supporting ladder is made elastically deformable and with handles for the possibility of creating its vibration in the form of flexion and extension the spine, the stairs at the junction with the couplers have wheels with stoppers, removable rollers and planar sections are made along the edges with locks for placement on the sides and crossbars of the supporting ladder.

The locks can be made, each in the form of a tape with a pin fixed on it and oblong holes with lids for the pin, the latter has the ability to place side walls and rungs of the supporting ladder in the through holes and with a Velcro fastener.

The upper rungs of the support ladder may have elastic hand pads.

Figure 1 shows the device in General view, figure 2 is a section aa in figure 1.

The device comprises a supporting ladder 1 and a retaining ladder 2, connected to each other by one end pivotally, and the other by means of couplers 3 with adjustable length, having swivel joints with the stairs 1, 2.

The supporting ladder 1 is made, for example, of steel 12 × 18H 10T, elastically deformable and with handles 4 for the possibility of creating its vibration. Stairs 1 and 2 at the junction with screeds 3 have wheels 5 with stoppers.

The device also has removable rollers 6 and removable planar sections, not shown, made along the edges with locks 7 for placement on the sidewalls 8 and crossbars 9 of the supporting ladder 1.

The device is equipped with straps for attaching the patient (figure 1, 2, not shown). The locks 7 can be made, for example, each in the form of a tape 10 with a pin 11 fixed on it and oblong holes 12 with covers 13 for a pin 11, which can be placed in the through holes 14 of the side surfaces of the sidewalls 8 and the crossbars 9 of the supporting ladder 1, and with Velcro fastener 15. The upper crossbars 9 of the supporting ladder 1 can have elastic hand pads 16.

Claims (4)

1. A method for the treatment of scoliotic posture and functional scoliosis, including relaxing massage of the muscles of the spine, characterized in that the body is stretched on an inclined plane until the head is tilted, the shoulders, pelvic girdles are removed, and the relative shortening of the length of the lower limb is eliminated, the tonus muscular-ligament imbalance is eliminated transverse-spinous muscles of the upper, middle parts of the curvature arc along the convex side and in the lower part on the concave side, as well as tono-muscular imbalance paravert bralnyh muscles, due to the ongoing extension of musculo-ligamentous apparatus and relaxation correcting reduced thoracic kyphosis and lumbar lordosis to physiological values with subsequent correction of flat feet, spend automobilizatsiyu iliopsoas and exercises to strengthen the back muscles. 2. A device for correction of the spine, comprising a supporting ladder and removable rollers, characterized in that it has a retaining ladder and straps for attaching the patient, the supporting and retaining ladders are connected to each other at one end pivotally, and the other using couplers with adjustable length, having swivel joints with ladders, the supporting ladder is made elastically deformable and with handles for the possibility of creating its vibration, the stairs at the joints with the couplers have wheels with stoppers, removable rollers and planar sections made along the edges with locks for placement on the sidewalls and crossbeams of the supporting ladder. 3. The device according to claim 2, characterized in that the locks are each in the form of a tape with a pin fixed on it and oblong holes with covers for the pin, the latter has the ability to be placed in the through holes of the side surfaces of the sidewalls and crossbars of the supporting ladder and with a clasp type Velcro. " 4. The device according to claim 2 or 3, characterized in that the upper crossbars of the supporting ladder have elastic hand pads.

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