RU2141807C1 - Device for treatment of kyphoscolioses - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device has detachable thoracic and pelvis carcasses coupled to each other and made in form of pelots provided with regulators and correcting rotary members. Thoracic carcass pelot has definite anthropologic dimensions, flexible plates in pockets and stiff belt loops. Pelots, adjusting, correcting and rotary members are provided with fixing appliances made either as parts of "Velkro" fastener or in form of button or hook. Correcting rotary members may be of different geometric shape, and they may also be multilayer. EFFECT: correction of vertebral column deformation. 15 cl, 5 dwg

Description

 The invention relates to medical equipment and can be used in orthopedics for the treatment of kyphosis, scoliosis and kyphoscoliosis.

 Existing devices can be divided into the following types.

1. Abbet's Corset
The corset is modeled on a patient with traction of the spine on a frame with a hip grasp on the side of the main curvature. If necessary, supplemented by a head holder.

2. Gaglund's Corset
The corset was modeled on the patient in the position of the torso in the direction opposite to the curvature, with subsequent replacement taking into account the correction of deformation.

3. Corsets Risser and Stagnari
The main distinguishing feature is the presence of a traction apparatus, which allows for stage-by-stage correction of strain by traction.

 Of removable orthopedic products, Blount and Milwaukee corsets are most widely used, allowing you to combine spinal traction with pressure in the rib hump area by adjustable pelots.

 At present, it is considered advisable to use rigid corsets for kyphoscoliotic deformity of the III - IV degree and the impossibility of surgical treatment. In percentage terms, the number of such patients is small.

 The bulk are patients with kyphoscoliotic posture and a lesion of I - II degree. For the treatment of these patients, various soft and semi-rigid products of various designs are used as external fixation, combined in Russia under the name "Leningrad-type corset."

 In the patent fund of Russia, both among domestic documents of protection, and in applications of PCT, EPO, Germany, the USA and others, there are dozens of technical developments on the design of devices for treating scoliosis or kyphosis.

 So, in USSR author's certificate N 1724215, 1992, an orthopedic corset is described that corrects the curvature of the spine by creating a frame around the curvature and exposure to it by pelots.

 USSR author's certificate N 367862, 1973 contains a description of a functionally corrective corset, including a pelvic sleeve, chest with a head holder with shock absorbers. This corset provides prevention of muscle atrophy.

 A similar corset is set out in USSR author's certificate N 336016.

 Closest to the claimed invention for its intended purpose, namely, the ability to eliminate deformation during scoliosis and spondylolsthesis, is a device according to the copyright certificate of the USSR N 1725876, class. A 61 F 5/02, 1992. This device contains 2 frames: the thoracic and pelvic, designed to fix the thoracic and lumbosacral region of the body, interconnected by distractors, while the frames, made in the form of half-shells, are interconnected by longitudinal regulatory straps elements.

 By changing the relative position of the belts and the magnitude of the elongation of the distractors, you can change the direction and magnitude of the effort on the musculoskeletal system, which leads to a dosed correction of the spine.

 The course of treatment is from 5 to 30 days. The wearing time of the device is 2-4 hours with breaks between wearing at least one hour. In total, up to 40 procedures are performed.

 However, this device rigidly fixes the corrected position, removing the load from the muscles of the body, ensuring its position in space, which can cause their hypotrophy.

 In addition, the above device does not provide correction of the rotational displacement of the vertebrae characteristic of scoliotic disease.

 In addition, the stabilization of the muscular spine with the simultaneous abduction of the shoulders back creates the most favorable biomechanical conditions for the functioning of the spine.

 One of the main advantages of the proposed device is that the device used practically does not limit the patient’s range of movements in ordinary life, and with significant statistical and dynamic loads it allows the muscles to function in light mode with a correct position of the spine.

The task is ensured by the fact that in the known device containing the supporting thoracic and pelvic frames, interconnected with the possibility of a connector, equipped with regulatory elements that contain fasteners on the free ends to fix the frames on the patient’s body, additionally introduced corrective-rotational elements made in in the form of flexible elastic rods with an elongation of 5-50% with elements for fixing the rods to the pegs of the supporting frames located at the ends. The outer surface of the frames made with the possibility of fixing them corrective-rotational elements. The chest frame pelot is made in the form of a flexible inextensible plate, the height of which corresponds to the distance from the 7th cervical vertebra to the lower edge of the user's shoulder blades, and the width corresponds to the distance between the vertical lines limiting the medial portions of the shoulder blades equal to 1/4 - 1/2 of their width, at the same time, longitudinal flexible plates are mounted on the outer side of the pellet parallel to each other in the pockets so that the distance between them is at least 2 cm greater than the distance between the inner edges of the user's blades. Above the plates, at an angle to their longitudinal axes and at an angle to each other, there are 2 rigid loops, through which regulatory elements are passed in the form of a figure eight, which are weakly extensible flexible hooks, the outer surface of which is equipped with devices for fixing them to corrective rotational elements, free the ends of the hooks are equipped with devices for mutual fixation; a device for fixing it to the pelvic frame is made on the lower edge of the frame pelot. At the same time, this device performs the proclaiming function of the spine at the level of T ₇ - L ₂ . This device is made with the ability to carry out the spinal column.

 The pelvic frame is made in the form of a bandage on the lower part of the trunk and a reinforcing belt superimposed on top of it, the bandage consists of a pelot, on the free ends of which fixing elements are installed. On the upper edge of it is a reciprocal device for reclining the fixation of the bandage and to the chest frame. On the outer surface of the pelot, 4 elastic elements are installed symmetrically from the center line in the pockets, 2 of which are at a distance equal to the distance between the paravertebral regions, and 2 between Sp. iliaca ant.sup. user. The reinforcing belt is also made in the form of a pelot, to the free ends of which regulatory elastic bands are fixed. Lock elements are installed at their free ends, while the outer surface of the pelot is equipped with elements fixing the corrective-rotational elements, and its inner part is equipped with elements for fixing the bandage.

 The fixation elements of the outer surfaces of the pelots of the supporting frames and flexible choppers can be made either as part of the Velcro fastener, or buttons, or buttons, or loops, or hooks.

 The fixing elements at the ends of the flexible hooks are fixed to them by strips of braid and can be either a loop, or a button, or a Velcro fastener, or a button, or a hook.

 Flexible haulage can be fixed to the pelota between the lower poles of the flexible elements.

 Devices on the thoracic and pelvic pelots for fixation and reclining can be made either in the form of Velcro fasteners, or hard loops, or buttons - loops, or buttons, or hooks - loops.

 Flexible haul-offs and corrective-rotating elements can be made of Tricor or Neoprene fabric.

 Fixation elements of corrective and rotary rods to the supporting frames can be made either in the form of Velcro fasteners, or buttons, or buttons, or loops, or hooks.

 The reinforcing belt with respect to the pelvic pelvic frame can be either removable or non-removable.

 The elements of the lock at the ends of the elastic bands of the reinforcing belt can be made either in the form of parts of Velcro fasteners, or loops, or buttons, or hooks.

 The rods of the corrective-rotational elements can be multilayer spring type. At the junction they can be detachable. These rods can have different geometric shapes and have perforations. The device may contain additional pelots to affect areas of the body. The outer surface of the pelots and hauls can be made of knitwear that can connect with the hook side of the Velcro fastener.

 The device is illustrated in FIG. 1 to 5, where in FIG. 3 - chest frame; in FIG. 4 - bandage of the pelvic frame; in FIG. 3 - reinforcing belt of the pelvic frame.

 In FIG. 1 shows a front view of the device, and in FIG. 2 is a rear view of the device with elastic rods of corrective-rotational elements.

 The device comprises a chest frame 1 with hard loops 2, into which are threaded regulatory elements 3, having lock type 4 at the ends for their mutual fixation, pockets 5 with flexible plates 6 embedded in them, and a device for attaching the chest frame to the pelvic bandage frame made in the form of Velcro hooked 7 and hook 8 ribbons, pelvic bandage pelvic bandage 9 with pockets 10, into which flexible plates 11, rigid belt loops 12, elements of mutual fastening of the ends of the pilot made from looped 13 and hooked 14 Velcro tapes.

 The reinforcing belt of the pelvic frame contains the pelot 15, the regulatory elastic tape 16 and the elements of the mutual fixation of the ends of the belt loop 17 and interconnected loop 18 and hook 19 of the tape "Velcro".

 In FIG. Figures 1 and 2 show corrective and rotational rods 20, which are attached at their ends to the pellet 9 of the brace and the pulls of the regulatory elements 3 of the chest frame (the rod mounting device in Fig. 1 is not shown).

 A device for the treatment of kyphoscoliosis is used as follows.

 He is put on a patient in a standing position. First, the chest frame 1 is formed. For this purpose, the patient’s hands are drawn into the loop of the tyanok of regulatory elements 3 and the tyanok is applied to the patient’s shoulders, the pelot of the chest skeleton 1 is set on the interscapular region so that the upper edge of the pelot is at the level of the 7th cervical vertebra, and the lower - at the level of the lower edge of the user’s blades, the side edges of the pilot should extend beyond the inner edges of each user’s shoulder blade at a distance of at least 1/4 - 1/2 of the shoulder blade width. Moreover, the longitudinal flexible elements of the chest 6 are located at a distance of 1 cm lateral to the inner edge of the user's shoulder blades. Stretch the flexible chute 3 to the necessary abduction of the upper shoulder girdle back and fix the chest structure in the position reached by fixing elements 4.

After that, the pelvic skeleton 2 is formed on the patient by installing a pelvic brace 12 on his body. For this, the pelvic pelvic brace 9 is installed on the lumbar region so that two flexible elements 11 are in the vertebral areas and two (11) are above Spina ilciaca anterior superior user. After that, the pelota of the pelvic brace 9 is fixed on the patient's body. To do this, the free edges of the pelot are fixed using the fixing elements of the pelvic brace 13, 14. Then, the reinforcing belt 15 is placed over the brace, elastic regulatory ribbons of the pelvic skeleton 16 are pulled, and the belt is fixed using fixation elements 17, 18, 19. After this, the interfixation of the pelots of the thoracic 1 and pelvic 9 scaffolds is carried out using devices 7, 8, 12. The connection elements are installed in such a way that they create a wedging effect of the spine in the region of T ₄ -L ₅ . Subject to these T ₄ 4 - L ₅ conditions, a propping effect will be created at the level of T ₄ - L _{5 of the} pelvic bandage of the pelvic frame 9.

 Further, the elastic rods of the corrective-rotational elements [20] are fixed to the outer surfaces of the frames and regulatory elements [3], for which the fixation elements of these rods are connected to the fixation elements of the pelot [9] and regulatory elements [3] (not shown in the figure).

 In that case, if the elements of fixation of rods are part of the Velcro fastener, then the elements of fixation of the outer surface of the pelots [9] and regulatory elements [3] are the counterpart of this fastener.

 The rods of the corrective-rotational elements are set in such a way that they bring the spine to the position closest to the physiological one.

 Clinical example.

 Patient M., 14 years old.

 D-s: ideopathic C-shaped left-sided kyphoscoliosis of the first degree. The patient complained of impaired posture, rapid fatigue of the back muscles under static loads.

Clinically: C-shaped left-sided kyphoscoliosis with an apex angle in the region of Th ₇ , an angle of deformation <L - 6 ^o according to Cobb, slight wedge-shaped deformation of the body Th ₇ . compensatory arc is not formed.

 Appointed: a reclining system with corrective and rotational rods, exercise therapy, massage, physical education classes in a special group. Orthopedic mode: the use of an orthopedic product for at least 8 hours per day with prolonged static loads, limitation of lifting, jumping.

 Results.

 Primary - deformation correction visually occurred when dressing and fitting the system. The patient in the system sits freely, stands, moves, makes inclinations with a slight restriction of the amplitude of movement.

 Distant.

 A month later: the patient notes the disappearance of rapid fatigue of the back muscles with a corrected position in the system. After 6 months: the patient notes the possibility of maintaining a corrected position under static loads without using the system.

After a year: no complaints. With an external examination, deformation is not detected. Able to maintain a correct posture under static loads for a long time. X-ray <L - 4 ^o according to Kobby while maintaining a slight deformation of Th ₇ . Negative dynamics were not detected. The treatment is continued.

 Dosed wearing of the device eliminates pathology. The following effects of using the device are noted.

 1. Due to the use of elastic material, the muscles are not switched off from the work of preserving static, but their work is only facilitated, which improves trophicity, in contrast to products made of inextensible matter, which provoke muscle hypotrophy.

 2. Constantly acting force of the rods produces a gradual correction of deformation and develops a corrected posture in the patient, which is maintained even after removal of the product.

 3. The product is planned to be mass-produced and supplied to the patient from selection, which dramatically reduces the time and cost of orthosis.

 4. The fastening system allows the patient to put on and take off the product alone, unlike the Leningrad-type corsets, the lacing system of which makes this procedure very difficult.

Claims (15)

1. A device for the treatment of kyphoscoliosis, comprising interconnected supporting chest and pelvic frames made in the form of pelots equipped with regulatory elements that contain fasteners on the free ends for fixing the frames on the patient’s body, characterized in that the device further comprises corrective rotational elements made in the form of flexible rods with an elongation of 5 - 50% with elements for fixing the rods to the supports of the support frames located at the ends, the outer surface of the frames flax with the possibility of fixing corrective rotational elements to them, the chest frame pellet is made in the form of a flexible inextensible plate, the height of which corresponds to the distance from the 7th cervical vertebra to the lower edge of the user's shoulder blades, and the width to the distance between the vertical lines that limit the medial portions of the shoulder blades, equal 1/4 - 1/2 of their width, while on the outer side of the pelot, longitudinal plates are installed parallel to each other in the pockets so that the distance between them is at least 2 cm greater than p the distance between the inner edges of the user's blades, and above the plates at an angle to their longitudinal axes and at an angle to each other are 2 rigid loops, through which regulatory elements are passed in the form of a figure eight, which are weakly extensible flexible hooks, the outer surface of which is equipped with devices for fixing them to the corrective-rotational elements, the free ends of the chutes are equipped with devices for mutual fixation, on the lower edge of the chest of the chest frame there is a device for fixing it to AZOV frame, with the ability to simultaneously perform rekligiruyuschuyu function level TH ₇ - L _2, pelvic frame is formed as a bandage on the lower torso separated and overlaid on top of it a reinforcing belt bandage consists of pelota, the free ends of which there are mounted locking elements, on the upper edge it is a reciprocal device for reclining and fixing the bandage and reklination to the chest frame, on the outer surface of the pelot 4 elastic elements are installed symmetrically from the center line in the pockets, 2 of which are located on a state equal to the distance between the paravertebral regions, and 2 between Sp.iliaceant Sup. user reinforcing belt is also made in the form of a pelot, to the free ends of which are fixed elastic straps, on the free ends of which are installed elements of the lock, while the outer surface of the pelot is equipped with elements that fix corrective-rotational elements, and its inner part - with bandage elements.  2. The device according to claim 1, characterized in that the fixation elements of the outer surfaces of the pelots and flexible hooks can be made as part of the Velcro fastener, or buttons, or buttons, or hooks.  3. The device according to claim 1, characterized in that the fixation elements of the ends of the flexible hooks are fixed to them by strips of braid and can either be a loop, or a button, or a Velcro fastener, or a button, or a hook.  4. The device according to claim 1, characterized in that the flexible hooks are fixed at one end to the pellet between the lower poles of the flexible elements.  5. The device according to claim 1, characterized in that the devices on the thoracic and pelvic pelots for their mutual fixation can be made either in the form of Velcro fasteners, or hard loops, or buttons - loops, or buttons, or hooks - loops.  6. The device according to claim 1, characterized in that the pelots, flexible chutes and corrective rotational elements are made of fabric "Tricor".  7. The device according to claim 1, characterized in that the fixation elements of the flexible rods to the supporting frames can be made in the form of Velcro fasteners, or buttons, or buttons, or loops, or hooks.  8. The device according to claim 1, characterized in that the reinforcing belt can be removable or non-removable with respect to the pelvic pelvic skeleton.  9. The device according to claim 1, characterized in that the elements of the lock at the ends of the elastic bands of the reinforcing belt can be made in the form of Velcro fasteners, or loops, or buttons, or hooks.  10. The device according to claim 1, characterized in that the traction of the corrective-rotational elements can be multilayer spring type.  11. The device according to claim 1, characterized in that the connection of the various layers of corrective-rotating elements is made with the possibility of a connector.  12. The device according to claims 1 and 3, characterized in that the corrective-rotational elements can have a different geometric shape.  13. The device according to claim 1, characterized in that the corrective rotational thrusts have perforations.  14. The device according to claim 1, characterized in that, in addition to acting on various parts of the body, it contains pelots of various geometric shapes that are mounted on corrective rotational elements.  15. The device according to claim 1, characterized in that the outer surface of the pilots and hauls is made of knitwear that can connect with the hook side of the Velcro fastener.

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