RU2085145C1 - Apparatus for surgical treatment of vertebral column deformation - Google Patents

Abstract

FIELD: surgical equipment. SUBSTANCE: invention relates to treatment of kyphotic and scoliotic deformations of backbone. Apparatus has a bar with holes on its ends, upper and lower backbone attachment fittings in the form of combs with legs installed on bar ends, the combs being joined in pairs by aid of pins and nuts located on legs. Pin of upper attachment fitting is joined with upper bar end through cap screw installed in hole of bar and having hole for pin and nut. Pin of lower attachment fitting is placed in hole of lower bar end by aid of nuts. Bar is made in the form of plate with cut on its lower end, casing with shaped aperture, and spring, plate end and spring being installed in casing such as to allow the spring to be placed in plate cut. EFFECT: improved design. 3 dwg

Description

 The invention relates to medicine, and specifically to devices for the surgical treatment of kyphotic and scoliotic spinal deformities.

 The closest analogue is the Rodniansky-Gupalov endocorrector.

 The endocorrector consists of a plate, a screw that regulates the initial length of the device, the upper and lower blocks of attachment to the spine, consisting of combs, racks, chest and lumbar hooks, studs, staples-clips and earrings.

 However, the device has a number of negative sides, which lead to complications and errors in the surgical treatment of scoliosis in children and adolescents. One of the significant design flaws is an earring, the purpose of which is the ability of the endocorrector plate to slide between fixed combs. When the vertebral bodies rotate, it becomes jammed, the endocorrector plate ceases to slide in the earring and the spine growth between the upper and lower combs is sharply hampered, but since vertebral body growth cannot be stopped, the spine bends between the fixed combs and the spinal deformity increases sharply.

 In addition, the load on the combs, which are rigidly fixed to the base of the spinous processes, sharply increases, and this in turn leads to the fact that the upper combs cut off the spinous processes, and, consequently, the fixation and correction of the spine stops.

 Another disadvantage of the endocorrector is that when the plate is stuck in the earring, the load on the adjusting screw increases sharply and it often breaks (especially when the screw has a diameter of 4 mm). The integrity of the structure is violated and this leads to a relapse of scoliotic deformity of the spine. The swinging of the structure also leads to the fact that the metal structures of the endocorrector injure the soft tissues and their perforation occurs, which in turn leads to suppuration of the soft and bone tissues. In addition, when a child changes his posture from a standing position to a lying position, as well as when bending and tilting the body to the side or forward, using this design does not occur physiological lengthening of the spinal column, resulting in a sharp increase in the load on the discs of the vertebral bodies fixed by the plate endocorrector.

 The technical result of the invention is a smooth, uniform distribution of the load on the disks and bodies of the vertebrae within the fixed by the device of the spine while eliminating kyphoscoliotic deformation, as well as maintaining the physiological mobility of the spine when changing the position of the patient.

 This problem is solved due to the fact that the lower end of the rod is made in the form of a plate, has a cutout to cover a spring placed in a case with a figured hole and connected to the lower attachment point.

 In FIG. 1 shows the proposed device; figure 2 spring element; figure 3 the lower end of the rod with a neckline.

 A device for the surgical treatment of spinal deformities contains a rod 1 made in the form of a plate, at one end of which there is a figured protrusion 2 for a screw 3 with a conical head having an oval hole for a stud 4 with a thread, fixing the upper combs 5 in the uprights 6 by means of nuts 7. The lower end of the rod (figure 2) has a cutout 8 and is inserted into the housing 9 of the rectangular spring element with a figured hole 10 into which the spring 11 is inserted. At the end of the spring element there is a round hole 12 for the stud 4 lower comb 5, and secured in the racks 6, 7 by means of nuts.

 The operation is as follows.

 In the supine position, the patient is given internal and then endotracheal anesthesia. Two linear incisions are made about 10-12 cm long in the projection of the spinous processes in the thoracic and lumbar spine. The spinous processes skeletonize on both sides to the base. In the thoracic region, this is usually 4, 5, 6, 7 of the vertebral body, in the lumbar region 3, 4, 5. Hemostasis with tamponade. Then, two combs 5 are brought to the base of the spinous processes, first in the thoracic and then in the lumbar spine: one on the left, the other on the right with two struts mounted on them 6. Using the studs 4 with nuts 7, the combs 5, connecting, are inserted into the base of the spinous processes. Further, from top to bottom on the convex surface of the spine having scoliotic deformation, the rod 1 of the device is carried out. Hemostasis is performed. The lower end of the rod 1 with a cutout 8 is inserted into the housing 9 of the spring element and is attached to the stud 4 of the combs 5 with nuts 7, and the upper end with the help of the screw 3 to the stud 4 of the upper combs 5 also with the nuts 7. In this case, before the screw 3 is attached to the stud 4 of the upper combs 5 on the upper end of the rod 1 is given a moderate load in the range of 5-7 kg along the axis of the rod, which leads to compression of the spring 11 of the spring element approximately half its length. Then, within 25-30 minutes, correction of the spinal deformity is carried out by tightening the nuts 7 on the studs 4 of the upper and lower combs 5.

 A control radiography of the spine is done. If the deformation is corrected, the nuts 7 are clamped and the ends of the studs bite so that in the postoperative period, the nuts 7 do not untwist. Hemostasis, layered suture of wounds. Iodine, aseptic dressing. The patient is transferred to a shield on a special mattress.

 In the postoperative period, on day 10-12, the patient is put on his feet and is trained to walk with the methodologist of therapeutic gymnastics. When lifting a patient from a lying position to a standing position, the length of the spine decreases due to the weight of the patient’s body, the spring 11 of the spring element is compressed by the remaining half of its length due to the lower end of the rod having a cutout 8 fully enters the body 9 of the spring element. When the patient tilts forward, or when changing position from a lying position, the length of the spine increases, since the load on the spine becomes less, because the pressure on the weight of the body decreases, the discs expand, put pressure on the vertebral bodies and, accordingly, on the upper and lower combs 5 The lower end of the rod 1 slides up the body 9 of the spring element, the spring 11 straightens and pushes it up a distance of 8 10 cm, corresponding to the physiological norm of the increase in the spinal column in children and adolescents a change in the position of the child both with scoliosis and without it.

 Clinical example. Patient R-va, 14 years old, IsT. disease N 158020, diagnosis: dysplastic, progressive C-shaped thoracolumbar scoliosis of the spine of the III degree with a right rib hump, unfixed uncompensated.

 Anesthesia: intravenous + endotracheal. The position of the patient on the stomach. 06/17/93. Surgery correction and fixation of the thoracolumbar spine with a device developed at NIITO.

 Linear section in projections TN-5-6-7-8, which are skeletonized to the base on both sides. Hemostasis with tamponade. Then, two combs were brought to the base of the spinous processes and fixed to them using racks, studs and nuts. Hemostasis. A similar linear section 10-12 cm long in the projection of the spinous processes 2, 3, 4, 5 of the lumbar spine, the spinous processes are skeletonized from both sides to the base. Hemostasis. Two combs are brought up and fixed to the base of the spinous processes with the help of studs, stack and nuts. Hemostasis. Then, from top to bottom on the convex surface of the spinal deformity, a rod of the proposed device is drawn. The plate spring-loaded element was installed and slightly fixed through a round hole in the device case with the help of nuts to the pin of the lower combs. The lower end of the boom with the cutout is immersed in the device. Then, the load along the axis of the spine is given, and the end of the rod is immersed in the device body with a load of 5-7 kg, and then the upper end of the rod is fixed to the studs of the upper combs by nuts. Within 30 min, correction of scoliotic spinal deformity was carried out. Control radiography of the spine and then fixation of the achieved position with nuts on the heels. Hemostasis, layered suture of wounds. Iodine, an aseptic wound dressing. Gypsum corset in the postoperative period was not used. On the 13th day after the operation, the patient was put on his feet, and then gradually trained to walk. On the 30th day after the operation, she was discharged home.

 After 3 months after surgery: x-ray control and examination. There are no complaints, the design is intact, scoliotic deformation does not progress.

 Control inspection in a year. According to the radiograph, the structure is intact, there is no progression of deformation. The patient has no complaints, moves freely, does not feel the implantable structure. Pleased with the operation. The immediate result is regarded as good.

 Thus, the device due to the use of a spring-loaded element in it, allows you to smoothly distribute the load on the disks and bodies of the spines, stimulating their uniform growth within the fixed device of the spine. In addition, the device allows you to increase or decrease the length of the spinal column, in connection with which the load is evenly transmitted along the axis of the spine to the upper and lower combs, combing of the spinous processes does not occur, which helps to reduce the percentage of relapses during surgical treatment of scoliosis.

Claims (1)

 A device for the surgical treatment of spinal deformities, comprising a rod with holes at the ends, upper and lower attachment points mounted on the ends of the rod in the form of combs with racks connected in pairs with studs and nuts placed in the racks, while the stud of the upper attachment point is connected with the upper end of the rod by means of a head screw installed in the hole of the rod having a hole for the pin and nuts, and the pin of the lower attachment point is placed in the hole of the lower end of the rod through tion nuts, characterized in that the rod is formed as a plate with a cutout at the lower end of the housing with a shaped opening and the spring and the end plate and the spring mounted in the housing with the possibility of placing the spring in the recess of the plate.

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