RU2157123C2 - Method for treating coarse forms of axial vertebral column deformities - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves mobilizing proximal end of transplant on muscular pedicle using access along internal surface of a rib. Intercostal muscles are cut on the inferior boundary of the upper rib and superior boundary of the lower rib reaching the costotransverse articulation. One more feeding pedicle is formed from the corresponding portion of the musculus serratus anterior. Controlled distraction is carried out as much as possible using earlier implanted endocorrector unit having a set of supporting points to form anterior bearing column of the vertebral column with improved blood supply. EFFECT: enhanced effectiveness of treatment; improved blood supply. 8 dwg

Description

 The invention relates to medicine, namely to operative orthopedics, and can be used to restore spinal support in the area of multi-segment defect of the ventral sections in the complex of surgical treatment of gross and neurologically complicated forms of axial deformities of the spine of various origins.

 A known method of non-free plastic surgery of a ventral defect, which is used in the complex of surgical treatment of tuberculous spondylitis (Guseva V.N. "Anterior spinal fusion with a graft on the feeding leg for tuberculous spondylitis". Abstract for the degree of candidate of medical sciences, Leningrad, 1983, 24 with.). The graft is cut out from the sternal portion of the rib going to the apex of the curvature, while the distal end of the rib is crossed and the intercostal muscles are cut on both sides of the graft to the rib angle, from which the graft feeding leg is formed in the distal direction by means of a subperiosteal section of the rib length equal to the length of the feeding leg . Bandage or flashing and cross the posterior intercostal artery and the corresponding vein of the transposed rib (Fig. 1) in the projection of the lateral surface of the vertebral bodies together with the similar above and underlying vessels. After resection of the anterior sections, the graft-spacer is placed in the artifact ventral defect. The patient is in a horizontal position for 3-4 months, after which it is transferred to a vertical position using external immobilization for a period of 1 - 1.5 years.

 When a graft is formed from a rib leading to the apex of deformation, it is impossible to carry out radical resection of the anterior spine in the conflict zone (tuberculous abscess, Urban wedge) without crossing the posterior intercostal artery of the transposed rib. In this case, the blood supply to the graft suffers, supported only by collateral branches: the dorso-spinal, upper and lower intercostal branches of the overlying rib (Fig. 1). This is a leading factor disrupting the course of reparative regeneration and tissue adaptation, correcting fatigue fractures of the transplant with a violation of the process of transformation of the ribs into an adequate biological supporting column of the spine. Due to the fact that intercostal muscles are dissected only to the corners of the ribs, the length of the feeding leg is insufficient and inversely proportional to the length of the graft, therefore, when forming a long feeding leg, which is necessary when stabilizing scoliosis and kyphoscoliosis, we shorten the graft accordingly. This can lead to a mismatch between the length of the graft and the defect, which significantly limits the amount of correction and will require additional free bone grafting, which will significantly slow down the course of recovery processes in the defect and increase the likelihood of pseudarthrosis. Despite a strict 3-4-month bed rest followed by external immobilization for a period of 12-18 months, it is not possible to achieve reliable immobilization of the spine and reproduce the effect of stimulation of osteogenesis by obtaining the effect of tensile stress followed by a metered increase in transplant loads. In addition, in the period until the reconstruction of the transplant and its bone adhesion to the bed, a fracture or displacement of the transplanted rib may occur with the occurrence of associated undesirable complications.

 Closest to the claimed is a method of non-free plastic surgery of an artifical defect of the ventral departments with subsequent posterior fixation, used mainly in the treatment of acquired kyphosis with neurological deficiency (Bradford DS "Anterior vascular pedicle bone grafting for the treatment of kyphosis"., Spine V 5, N 4, Jul / August, 1980, 318-323 p.). The essence of the method is that they cut the intercostal muscles above and below the edges of the rib selected for transplantation, going to the top of the deformity or 2 levels above or below the top of the deformation, from the periphery to the center, to the costal-transverse joint. After crossing the distal end of the rib, the inferior intercostal artery and vein are secreted and mobilized from the costal transverse joint to the intervertebral foramen, and, if necessary, the proximal corresponding branch of the posterior intercostal artery above the anterior longitudinal ligament to the site of flow into the aorta and the corresponding section of the main vein. Then the proximal end of the rib is crossed in the area of the transverse costal articulation together with the soft tissue sleeve surrounding it, while maintaining the integrity of the mobilized vessels. The graft is placed in the defect of the anterior spine in the form of a spacer, immersing its ends in the nests formed in the vertebral bodies. After 10-14 days, posterior arthrodesis is performed with Harrington's instruments. In a vertical position, patients are transferred using external immobilization for a period of 8-10 months.

 During the formation of the vascular pedicle, the blood supply to the transplant suffers due to the violation of the integrity of the collaterals, dorsospinal, upper and lower silver overlying ribs (Fig. 1), which play a leading role in maintaining the necessary volume of blood flow, which is extremely important for adequate reproduction of regeneration processes and tissue adaptation. With severe curvature of the spine due to neurofibromatosis, occlusion of the main preserved trunk with neurofibromas located along the intercostal nerve can occur, which will invariably lead to a violation of the circulation in the graft. In case of tuberculous spondylitis, it is practically impossible to mobilize the posterior intercostal artery of the transposed rib scar-walled in the abscess walls without damaging it for the indicated length. The use of repeated dosed distraction to obtain the effect of tensile stress in order to stimulate osteogenesis in the area of the soft corn transplant - bed was not assumed, and it is impossible due to the lack of a device for dosed distraction in the distractor. The instruments used for posterior fixation with two support points are not able to provide rigid fixation and a gradual increase in the compression loads on the transplant necessary to stimulate the processes of reparative regeneration and tissue adaptation in the transposed rib, exposing the latter to a rapid rate of increase in loads due to resorption of bone tissue in the support area and fixing the hooks of the distractor. This leads to the untimely effect of destructive loads on the graft and its fracture and makes it necessary to resort to external immobilization for a period of 8-10 months and use additional bone grafts to avoid fractures and displacements, which increases the hospitalization time and the risk of complications.

 The objective of the invention is the formation of the anterior supporting column of the spine in the area of a multi-segmented ventral defect due to improved blood supply to the rib transposed into the defect and stimulation of osteogenesis in it.

 The technical result obtained by the method is expressed in the fact that biological and biomechanical conditions are created for the formation of an adequate front supporting column of the spine from a non-free rib graft, namely (Fig. 2) adequate blood supply to the bone is preserved (preservation of blood flow in the arterial pool: dorsospinal, the posterior intercostal, lower and upper intercostal overlying ribs, including the vessels of the additional feeding leg from the portion of the anterior dentate muscle attached to the transpon riveted edge). The use of additional dosed distraction leads to the appearance of tensile stress in the area of the formed soft callus graft - bed, stimulating osteogenesis. Rigid fixation by an endocorrector with many support points slows down the processes of loosening of the posterior fixation and thereby protects the transplant from displacement and the influence of transcendental loads that lead to its destruction, which leads to a gradual increase in the value of the compression functional loads on the transplant, which cause working bone hypertrophy and transformation of the graft to adequate biological support column.

 Clinical use of the proposed method for the reconstruction of the anterior support column in the complex of surgical treatment of gross and neurologically complicated forms of axial deformities of the spine of any etiological factor makes it possible to refuse to use additional transplants, external immobilization, reduces hospitalization, does not require strict adherence to the orthopedic regimen, and improves outcomes of surgical treatment, reducing the percentage of disability.

 This result is achieved by mobilizing the proximal end of the graft on the muscle leg from access along the inner surface of the rib with dissection of the intercostal muscles along the lower edge of the overlying and upper underlying ribs to the costal-transverse joint, form an additional feeding leg from the corresponding portion of the anterior dentate muscle, and then carry out dosed distraction with a previously implanted endocorrector with many support points to the stop state of the endocorrector.

 The proposed method is a separate stage in the complex of multi-stage surgical treatment of gross forms of scoliosis, at the first stages of which the front sections of the spine are resected in the localization area of the pathological focus (tuberculous abscess, Urban wedge) and stage-by-stage correction of spinal deformity using an implantable corrective device with many support points.

 The proposed method is as follows. For transposition into the defect zone, choose an edge 2-3 levels above the top of the curvature. Intercostal muscles are dissected along the lower edge of the overlying, in relation to the transposed rib from the costal-cartilaginous to the transverse costal joint. At the same time, a portion of the front dentate muscle, which is attached along the outer surface of the rib, to the place of its attachment to the corner of the scapula, is isolated with tuffers. In the vertebral bodies delimiting the defect, nests are formed (the receptive bed for the ends of the graft) to a depth of 2/3 of the height of the vertebra. The intercostal muscles below the transposed rib are also dissected along the upper edge of the underlying rib from the costal-cartilaginous joint to the costal-transverse. The distal end of the rib is crossed laterally 1-2 cm proximal to the costal-cartilaginous joint, together with the soft tissue sleeve surrounding it. The rib is pulled posteriorly and the parietal pleura is dissected along with the periosteum in the projection of the inner surface of the rib from the rib head to the periphery, by the value of the estimated length of the feeding leg, skeletoning the rib from the periosteum along the entire perimeter along the specified length. After that, with the help of nippers, the peripheral end of the rib is resected along the specified length and the whole graft of the rib is mobilized on the feeding leg. The ends of the graft are skeletonized from the periosteum and surrounding soft tissues by the depth of the corresponding nests in the vertebral bodies. At the same time, periosteal flaps formed during skeletonization do not cut off, but are used in the future to cover the transplant-body contact zone. The ends of the graft are inserted into the nests formed in the vertebral bodies, and if possible, the graft is covered with a vertebral pleura, which is fixed with interrupted sutures. The patient rises to a vertical position for 10 days without external immobilization. After 15-30 days, additional dosed distraction is carried out with a previously implanted endocorrector with many support points 4-6 mm to the stop state (absence of swinging movements of the endocorrector).

An example of a specific implementation of the method. Patient P.I., born in 1974. Medical history N 1359; N 952 was first admitted to the vertebrology clinic of childhood and adolescence of the Novosibirsk NIIIT on July 18, 1988, with a diagnosis of Neurofibromatosis. Grade 4 progressive fixed subcompensated upper chest kyphoscoliosis with a predominance of the kyphotic component (hyperkyphosis 145 ^o , Fig. 3a, b; scoliosis 132 ^o , Fig. 4a, b). Deficiency of the anterior spinal cord. The treatment and diagnostic preoperative complex developed at the clinic revealed an aggravation of neurological disorders from the level of the deformity apex during traction and compression tests. 12/18/1989, anterior decompression of the spinal cord was performed according to the type of its transposition at 4 levels (Th5-Th8). In the period from 1.04.90 to 12.12.92, a stepwise controlled radical correction of the deformity was performed by performing posterior osteotomy on top of it and implanting an endocorrector with many support points. On July 14, 1993, the ventral post-decompression defect of the spine was replaced by a graft of 5 ribs on the feeding leg according to the developed technique (Fig. 5a, b). Intercostal muscles are dissected along the lower edge of the overlying 4th rib, from the costal-cartilaginous to the transverse costal joint. With the help of tuphers, a portion of the anterior dentate muscle that secures along the outer surface of the 5th rib to the point of attachment to the corner of the scapula is secreted and mobilized without violating the integrity of the vessels. The pleural cavity is opened. Pleural adhesions are separated, the defect zone and the anterolateral surface of the vertebral bodies Th5 and Th9-10 are exposed. The vertebral pleura of Th5 and Th9-10 is dissected along the lateral surface of the bodies without crossing the segmental vessels of the same name. The defect between 1/2 of the Th5 and Th9 bodies is made by scar tissue, the diastasis between the edges of the bodies delimiting the defect is 4.5 cm. Nests are formed in the vertebral bodies delimiting the defect Th5 and Th9 (the receptive bed for the ends of the graft) to the depth of the remaining body height Th5 and 2/3 Th9 vertebrae. The intercostal muscles below the transported rib are dissected along the upper edge of the underlying regenerator 6 ribs from the costal-cartilaginous joint to the costal-transverse. The distal end of the rib intersects transversely 1-2 cm proximal to the costal-cartilaginous joint with the soft tissue sleeve surrounding it. The rib is pulled posteriorly and the parietal pleura is dissected together with the periosteum in the projection of the inner surface of the rib from the rib head to the periphery, by the value of the estimated length of the feeding leg. The rib is skeletonized from the periosteum along the entire perimeter along the specified length. After that, with the help of nippers, the peripheral end of the rib is resected along the specified length and the whole rib graft is mobilized on the feeding leg. The ends of the graft are skeletonized from the periosteum and surrounding soft tissues by the depth of the corresponding nests formed in the vertebral bodies. At the same time, periosteal flaps formed during skeletonization do not cut off, but are used in the future to overlap the transplant-body contact zone. The ends of the graft are inserted into the nests formed in the vertebral bodies, and the graft, if possible, is covered with a vertebral pleura, which is fixed with interrupted sutures. Layer-by-layer sealing of the pleural cavity. The patient rises in an upright position for 10 days without external immobilization. After 15-30 days, additional dosed distraction is carried out with a previously implanted endocorrector with many support points. For this, in the patient’s position on the abdomen, a soft tissue incision is made in the projection of the screw nut of the endocorrector and the screw shaft, proximal 2 cm from the end of the nut. In this case, the swinging movements of the distractor in the craniocaudal direction with an amplitude of 3-5 mm are determined. With the help of special grips, the endocorrector is untwisted by rotating the nut on the screw rod until the endocorrector is brought to the stop state (no swinging movements). Stitches on the wound. After 5-6 days, rise to a vertical position without external immobilization. The course of the postoperative period without complications. The design is removed after a year and a half. One year after removal, the correction is maintained, the angle of kyphosis is 42 ^° (Fig. 6 a, b), scoliosis is 30 ^° (Fig. 7a, b). Comparative x-ray in a standard projection showed that the graft hypertrophied by 104.8% (Fig. 8A). A CT scan confirms bone adhesion at the graft poles and an increase in graft thickness due to the cortical layer (Fig. 8b).

Claims (1)

 A method of treating gross forms of axial spinal deformities by transposition of a non-free rib graft into the ventral defect zone and posterior fixation of the spine, characterized in that the proximal end of the graft is mobilized on the muscle leg from access along the inner surface of the rib with dissection of the intercostal muscles along the lower edge of the overlying and upper underlying ribs to the costal-transverse joint, an additional feeding leg is formed from the corresponding portion of the anterior dentate muscle, after which they show the metered distraction by the previously implanted endocorrector with many support points to the endocorrector stop state.

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