RU2164098C2 - Method of anterior spondylosyndesis - Google Patents

Abstract

FIELD: medicine, particularly, traumatology and orthopedics; applicable in stabilization of vertebral column in cases of its diseases and injuries. SUBSTANCE: method includes wedge resection of intervertebral disc and transverse osteotomy of vertebral arch at bases of symmetrical articular processes located in projection of resected disc, juxtaposition of wound surfaces of vertebra bodies with their subsequent dosed displacement relative to each other up to restoration of axis of vertebral column and formation of interbody wedge osteal regenerate with the help of compression-distraction apparatus to prevent damage of arch-process joints in the course of formation of osteal block. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to medicine, in particular to traumatology and orthopedics, and can be used to stabilize the spinal column with its diseases and injuries.

 Currently known methods of anterior fusion include the use of various grafts and implants (bones, plastics, ceramics, biopolymers, metals, including shape memory alloys). However, their use does not always allow to achieve positive results, which is due to the low regenerative (allost) and biomechanical (biopolymers, ceramics) properties of these materials, violation of the transplant (implant) contact and the receiving bed due to bone resorption, as well as the impossibility of creating a full fixation operated spine to the formation of a stable bone block of the vertebral bodies [1, 2].

 There is also a method of anterior spinal fusion of vertebral bodies [3], which includes resection of the intervertebral disc, comparison of wound surfaces and subsequent restoration of the axis of the spinal column with the formation of interbody bone regenerate using a compression-distraction apparatus. However, when using this method, traumatic damage to the arched joints is noted at the level of formation of the anterior bone block, which subsequently leads to the development of degenerative-dystrophic changes in them and, as a result, the appearance of a pain syndrome.

 The present invention is to develop a method of anterior spinal fusion, which prevents traumatic damage to the arched joints during the formation of the bone block of the bodies of stabilized vertebrae.

 This problem is solved in that in a method that includes performing a wedge-shaped resection of the intervertebral disc, comparing the wound surfaces of the vertebral bodies with their subsequent metered displacement relative to each other until the axis of the spinal column is restored and the interbody sphenoid bone regenerate is formed using the compression-distraction apparatus, an additional transverse the osteotomy of the vertebral arch at the bases of the symmetrical articular processes that form the arched joints data in the projection of the resected disk.

 New in the proposed method is that they additionally produce a transverse osteotomy of the vertebral arch at the bases of the symmetrical articular processes that form the arched joints located in the projection of the resected disk. The above allows us to conclude that the claimed method meets the criterion of "novelty."

 Analysis of the known technical solutions in the field of treatment of pathology of the spinal column shows that the proposed method is not obvious and does not follow from the level of knowledge achieved in this area, which allows us to conclude that it meets the criterion of "inventive step".

 The application of the method is confirmed by the fact of its successful use in the RRC "WTO" them. Acad. G.A. Ilizarova.

 The method is as follows.

 The first stage of the operation under general anesthesia after processing the surgical field provides front access to the anterolateral surfaces of the stabilized vertebrae. To do this, at the level of these and adjacent vertebrae, an incision is made in the skin and subcutaneous fat. Stupidly stratify the muscles, expose the front-side surfaces of the vertebrae and the disc to be removed. Next, the anterior longitudinal ligament is dissected above and below the disc to be removed and its wedge-shaped resection is performed together with the bone locking plates of the stabilized vertebrae. In this case, the top of the formed wedge-shaped diastasis should be directed towards the spinal canal and be located at the level of its front wall. A thorough hemostasis is performed and the wound is sutured in layers.

 The second stage is the fixation of the stabilized spinal column by compression-distraction apparatus. To do this, the fixators are passed through the bodies and posterior vertebral structures located above and below the stabilized segments (at least two segments on each side). The ends of the clamps are fixed on external supports, from which two subsystems of the apparatus are formed, each of which fixes one of the stabilized vertebrae. The subsystems of the device are interconnected using articulated devices. In this case, the main pair of hinges is installed at the level and in the plane of the resected disk. Auxiliary swivel joints are optionally installed.

 The third stage is the transverse osteotomy of the posterior structures of the stabilized vertebrae. To do this, perform rear operative access to these vertebrae. The incision is carried out in the projection of the apices of the spinous processes. The raspator bluntly peels the muscles on both sides of the spinous process and the arc of one of the vertebrae. An osteotomy is performed transversely on both sides along the arc of the vertebra at the bases of the symmetrical articular and spinous processes to the edge of the intervertebral foramen formed by stabilized vertebrae. Then hemostasis is performed and the wound is sutured in layers, leaving drainage in it.

 Surgery ends with a comparison of the wound surfaces of the vertebral bodies facing the inside of the diastasis, until tight contact is achieved over the entire surface of the resected areas with the formation of temporary kyphotic deformation, which eliminates the wedge-shaped defect originally created between the vertebral bodies. In this case, the relative position of the articular processes in the arched joints located at the level of the resected disk is not disturbed. Comparison of the resected surfaces is achieved by moving the subsystems of the device relative to each other using articulated devices, which is controlled radiologically.

 In the early postoperative period, for 5-7 days, stable fixation of the operated spine is performed by the apparatus in the position of stabilized vertebrae achieved at the time of comparison in order to form a primary bone adhesion between them. Then, metered distraction of the stabilized vertebrae is performed until the axis of the spinal column is restored, which is accompanied by filling of the area of the resected disk with interbody bone regeneration of a wedge-shaped shape. In this case, osteotomized fragments of the posterior vertebral structures were compared.

 The process of formation of interbody bone fusion ends with a fixation period, the duration of which is determined by the results of x-ray control.

 The method is illustrated in FIG. 1 and 2.

To illustrate the practical implementation of the method, we present the following observation: dog N 1341; condition after a penetrating fracture of L ₅ vertebra. To stabilize the L ₅ -L ₆ vertebral segments, the animal was placed under anesthesia on its right side. A left-sided extraperitoneal access was made to the front and front-side surfaces of the L ₅ -L ₆ vertebral bodies. To do this, they performed a resection of the left transverse process of the L ₅ vertebra, bluntly using a raspator to exfoliate soft tissues from the left lateral and anterior surfaces of the deformed disk, transversely dissecting the anterior longitudinal ligament at the level of the disk on both its sides. A thorough hemostasis was performed. Then made a wedge-shaped resection of the disk along with the locking plates of the bodies L ₅ and L ₆ vertebrae. The top of the wedge-shaped diastasis formed during this was located at the level of the anterior wall of the spinal canal. After discectomy, the surgical wound was sutured, leaving drainage in it.

The second stage was performed external fixation of the operated spine by the apparatus. To do this, the animal was laid on its stomach and in the horizontal plane they carried spokes through the bodies and posterior structures of L ₃ , L ₄ , L ₅ , L ₆ , L _{7 of the} vertebrae and pelvis. The posterior vertebral structures were fixed by conducting two intersecting spokes through their spinous or spinous and simultaneously articular processes. The pelvis was fixed with three needles simultaneously with the L ₇ vertebra. To do this, one of them was passed through the iliac wing, vertebral body and wing of the opposite ilium. Two other knitting needles passed through the spinous process of the L ₇ vertebra and both ilium. The ends of the spokes after their tension, directly or indirectly through the brackets, were fixed on the external supports (arcs). Two subsystems of the apparatus were formed from arches: the first, on which the knitting needles held through the L ₃ , L ₄ and L ₅ vertebrae were fixed, and the second, on which the knitting needles held through the L ₆ , L ₇ vertebrae and pelvis were fixed. The subsystems of the device are interconnected by two pairs of articulated devices. The central pair was set so that the axis of rotation passing through their centers corresponded to the top of the wedge-shaped defect.

The third step was a transverse osteotomy of the posterior structures of the L ₅ vertebra. To do this, performed rear operative access to the L ₅ -L ₆ vertebrae through an incision made in the projection of the apices of their spinous processes. The raspator stupidly exfoliated the muscles on both sides of the spinous process and arch. An osteotomy was performed transversely along the arc of the L ₅ vertebra on both sides at the bases of the symmetrical articular processes that form the arched joints to the edge of the L ₅ -L ₆ intervertebral foramen. Then hemostasis was performed and the wound was sutured in layers, leaving drainage in it.

After performing control radiographs, the formed wound surfaces of the vertebral bodies were compared until their complete contact. To do this, with the help of neutral hinges, a metered turn of the subsystems of the apparatus among themselves at an angle to each other was made. The central pair of hinges served as the axis of rotation. In this case, a temporary kyphotic deformation of the spinal column formed. The top of this deformation corresponded to the level of the stabilized segment of the spine. Between the posterior structures of the L ₅ vertebra, a wedge-shaped diastasis was formed along the line of their osteotomy with an angle open in the dorsal direction. This eliminated the discrepancy of the articular processes of L ₅ -L ₆ vertebrae and, accordingly, trauma to the arched joints at the level of discectomy performed. The performance of these manipulations was monitored radiologically.

The pre-distraction period was 7 days. Next, over the next 28 days (at a rate of 0.25 mm x 2 times a day), the apparatus subsystems were dosed with each other until the initial axis of the spine was restored with the formation of a wedge-shaped distraction regenerate between the resected surfaces of the bodies of the stabilized vertebrae. On the spondylograms, a wedge-shaped defect was determined, which reached the height of the removed disk by the end of the distraction period along the ventral surface. Fragments of the posterior structures of the L ₅ vertebra were compared, and the sphenoid diastasis between them disappeared. After reaching the initial height of the stabilized segment of the spine, the apparatus was put into fixation mode, the duration of which was 60 days. The long term follow-up was one year. Neurological complications, as well as changes of a degenerative-dystrophic nature were not observed.

 The proposed method provides a stable interbody fusion, eliminating trauma to the articular processes and the arched joints formed by them, thereby preventing postoperative complication.

Sources of information taken into account
1. Silberstein B.M. Experimental and clinical aspects of plastic restoration of vertebral support ability by structures made of porous titanium nickelide // Traumatol., Orthopedist. Of Russia. - 1994. - N 3. - S. 22-29.

 2. Pulbere O.P., Mikhailov S.G. Ceramic endofixers of the cervical spine // V All-Russian Congress of Orthopedic Traumatologists / Abstracts. - Part 2. - Yaroslavl, 1990 .-- S. 200-202.

 3. Shevtsov V.I., Kirsanov K.P., Marchenkova L. 0., Chirkova A.M. Experimental substantiation of the method of anterior spinal fusion by transosseous osteosynthesis // Traumatology and Orthopedics of Russia. - 1995. - N 5. - S. 49-53.

Claims (1)

 The method of anterior spinal fusion, including performing a wedge-shaped resection of the intervertebral disc, comparing the wound surfaces of the vertebral bodies with their subsequent metered movement relative to each other until the axis of the spinal column is restored and the interbody wedge-shaped bone regenerate is formed using a compression-distraction apparatus, characterized in that they additionally produce transverse osteotomy vertebral arches at the bases of symmetric articular processes that form the arched joints, aspolozhennye projected resected disk.

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