RU2449734C1 - Method of surgical treatment of severe scolioses with correction of concave deformation of chest - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of medicine, namely to traumatology and orthopedics, and can be applied in treatment of severe scolioses with correction of concave deformity of chest. Method includes carrying out, with patient in position on abdomen, of a skin cut above spinous processes from Th₁ to L₅ vertebra, layer-by-layer dissection of subcutaneous cellular tissue, fascia, correction of scoliotic deformation of spine by means of instruments Cotrel-Dubousset with fixation of spine, laying on posterior elements of spine autransplants from resected spinous and articular processes, suturing the wound and de-assembling of halo-apparatus. After skeleting posterior elements of spine from two sides, first additional mobilisation of spine by tenoligamentocapsulotomy is made. After that, subcostally from the same access ribs on concave side of chest are skeleted. Above rib-transversal joint osteotomy of five-six ribs is performed without injuring neuro-vascular bundle and parietal pleura. Area of osteotomated ribs is tamponed with wet tissue with physiological solution. After carrying out correction and fixation of spine with application of Cotrel-Dubousset instruments, halo-pelvic traction is removed and decortication of vertebra arches, resection of articular processes and elevation of osteotomated ribs on the rod of metal structure are carried out. By means of laminectomes on transected ribs cuts are made and ribs are fixed to the rod of metal construction and to spinous processes with application of wide tape from nonabsorbable lavsan. After that, on posterior elements of spine laid are autotransplant in form of resected spinous and articular processes and granules of macroporous bicalcium phosphate.

EFFECT: application of claimed invention makes it possible to reliably eliminate deformation of patient's chest on concave side, achieve simultaneous elimination of spine deformation, ensure preservation of initial correction of spine deformity, ensure elimination of patient's chest deformation with prevention of development of pulmonary-cardiac failure, as well as to ensure early social rehabilitation and increase patient's life quality.

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Description

The invention relates to medicine, namely to traumatology and orthopedics, to methods of surgical treatment of severe scoliosis with correction of concave deformation of the chest, and can be used in surgical, traumatological and other hospitals.

A known method of surgical treatment of severe scoliosis, including performing in the patient’s position on the abdomen a skin incision above the spinous processes from Th ₁ to L _{5 of the} vertebra, dissection of the subcutaneous tissue, fascia layer by layer, correction of scoliotic spinal deformity using Cotrel-Dubousset instruments with fixation of the spine and with laying on the posterior elements of the spine of autografts from resected spinous and articular processes, suturing of the wound and dismantling of the halo apparatus (see A.A. Kuleshov, Severe forms of scleosis. Surgical treatment learning and functional features of some organs and systems, the dissertation for the degree of Doctor of Medical Sciences, Moscow, 2007).

However, the known method in its use has the following disadvantages:

- does not always ensure the elimination of deformation of the chest of the patient on the concave side,

- does not allow to eliminate the deformation of the chest of the patient while eliminating the deformation of the spine

- does not always ensure the preservation of the initial correction of spinal deformity,

- does not always ensure the elimination of deformation of the chest of the patient with the prevention of the development of pulmonary heart failure,

- does not always provide early social rehabilitation and improve the quality of life of the patient.

The objective of the invention is to provide a method for the surgical treatment of severe scoliosis with correction of concave deformation of the chest.

The technical result is to achieve during surgery a reliable elimination of deformity of the patient’s chest on the concave side, to achieve reliable elimination of deformation of the patient’s chest with simultaneous elimination of spinal deformity, to preserve the initial correction of spinal deformity, to ensure the elimination of the patient’s chest deformation with the prevention of pulmonary-cardiac development insufficiency, as well as ensuring early social rehabilitation and raising achestva patient's life.

The technical result is achieved by the fact that a method for the surgical treatment of severe scoliosis with correction of concave chest deformity is proposed, including performing a skin incision above the spinous processes from Th ₁ to L _{5 of the} vertebra in the patient’s position on the abdomen, dissection of the subcutaneous tissue, fascia in layers, and correction of scoliotic spinal deformity using Cotrel-Dubousset instruments with fixation of the spine and laying on the posterior elements of the spine of autografts from resected spinous and articular processes, ears wound removal and disassembly of the halogen apparatus, while sequentially during one session of anesthetic management after skeletonization of the posterior elements of the spine on both sides, first an additional mobilization of the spine is performed with teno-ligamentocapsulotomy, then the ribs are skeletonized from the same access on the concave side of the chest and above the rib-transverse joint osteotomy of five to six ribs without damage to the neurovascular bundle and parietal pleura, tampon the osteotomyro region of these ribs with a wet towel with saline solution, after correction and fixation of the spine using Cotrel-Dubousset instruments, halo-pelvic traction is removed and the vertebral arches are decorticated, the articular processes are resected and the osteotomized ribs are elevated to the metal structure rod, using laminectomas on the crossed ribs notches and fix the ribs to the core of the metal structure and to the spinous processes using a wide tape of non-absorbable lavs and then to the rear of the spine elements (crura, joint and transverse processes) autografts are placed in a resected spinous and articular processes and macroporous beads BIOCERAMIC bikaltsiyfosfata osteoinductive material.

The method is as follows. When the patient is placed on his stomach, a skin incision is performed over the spinous processes from Th ₁ to L _{5 of the} vertebra. Subcutaneous tissue, fascia are dissected in layers. Then, during one session of anesthetic management after skeletonization of the posterior elements of the spine from two sides, additional mobilization of the spine by teno-ligamentocapsulotomy is performed. Elevation thoracoplasty is performed on the concave side of the chest with fixation of the spine. Ribs are skeletonized subcostally from the same access on the concave side of the rib cage and osteotomy of five to six ribs is performed sequentially over the rib-transverse joint without damage to the neurovascular bundle and parietal pleura. Tampon the region of osteotomized ribs with a damp cloth with saline. In the lumbar spine set transpedicular screws on both sides. Moreover, to determine the projection of the arc root, and therefore the insertion point of the transpedicular screw, transverse and articular processes are used as anatomical landmarks. A horizontal line is drawn through the transverse processes, and a vertical line through the articular processes. 2-3 mm lateral to the intersection of these lines, the root point of the arc of the spine is projected and a transpedicular screw is inserted through this point. Before the screw is introduced using an awl with a limiter or Volkman spoons, a channel is formed in the root of the arc, a mark is set and X-ray inspection is performed in two projections using a mobile X-ray surgical image intensifier. After checking the location of the mark in the root of the vertebral arch, the mark is removed and a transpedicular screw is inserted through the formed channel. Repeated x-ray quality control of the setting of the transpedicular screw. Then, in the upper thoracic spine on its concave side, pedicular hooks are installed on the concave side of the deformation in the amount of 2-3 pieces. Before their installation, resection of the lower edge of the articular process of the vertebra is performed. A special tool is used to expand the arched joint, then using the "finder" determine the root of the arch and then set the pedicular hook using a pusher. Correctly set hook tightly and motionlessly "sits astride" on the root of the bow. Laminar chest hooks are placed under the arch of the vertebra. In severe deformations, the distance between the arch of the vertebrae from the concave side is reduced, which complicates the installation of sublaminar hooks. To install them using laminotomes, a partial resection of the vertebral arch to the width of the “tongue” of the hook is performed and the yellow ligament is peeled off or removed. After that, a laminar hook is installed under the arch. The hook hook is carried out smoothly, without violence, in order to avoid pressure on the spinal cord. In this case, laminar hooks with an offset body are used to facilitate the installation of rods in them.

After placing the hooks and screws, the rod to be installed is bent in the form of thoracic kyphosis and lumbar lordosis and mounted on hooks and screws in the plane of scoliotic deformation and fixed to them with nuts. Then the rod is rotated 90 ° to the concave side, i.e. perform the so-called "derotational maneuver." In this case, the plane of the bending of the rod from the frontal plane is transferred to the sagittal plane, and along with the correction of scoliotic deformity, thoracic kyphosis and lumbar lordosis are formed. Then set the hooks and the rod on the convex side. After that, the rods are interconnected using transversal DTT, forming a closed rectangular system. In severe deformations, the implementation of the “derotational maneuver” is not always possible, and then from the concave side an additional short rod is installed on the central angle of the main deformation and a second long one on the end vertebrae of the main arch. With extremely severe scoliosis, it is also possible to install three rods on the concave side. The stems are bent to maintain sagittal balance: short in chest kyphosis, long in chest kyphosis and lumbar lordosis. After distraction, the rods are attracted to each other using DTT, which allows for additional correction of deformation.

Upon completion of the installation of metal structures, decortication of the vertebral arches, resection of the articular processes and elevation of previously osteotomized ribs to the metal structure rod are performed. Using laminectomas in the ribs, notches are performed. The ribs are fixed to the core of the structure and to the spinous processes using a wide dacron tape. Then, autografts in the form of resected spinous and articular processes and HRV granules (BiCalcium Phosphate, a large-porous bioceramic material manufactured by Medtronic Sofamor Danek), which represents a new generation of synthetic materials replacing bone tissue, and which have osteoins, are placed on the back elements of the spine (arches, articular and transverse processes). properties.

Among the essential features characterizing the proposed method for the surgical treatment of severe scoliosis with correction of concave deformation of the chest, the following are distinguishing:

- sequential performance during one session of anesthetic support after skeletonization of the posterior elements of the spine from two sides, first additional mobilization of the spine by teno-ligamentocapsulotomy, then ribs on the concave side of the chest are skeletonized from the same access,

- then performing over the costal-transverse joint of the osteotomy of five to six ribs without damaging the neurovascular bundle and parietal pleura,

- plugging the area of osteotomized ribs with a wet cloth with saline and after performing correction and fixation of the spine using the Cotrel-Dubousset instrumentation, removal of halo-pelvic traction,

- performing decortication of the arches of the vertebrae, resection of the articular processes and elevation of osteotomized ribs to the metal structure rod,

- the implementation using laminectomas on the crossed ribs of the notches and fixing the ribs to the rod of the metal structure and to the spinous processes using a wide tape of non-absorbable lavsan,

- laying on the back elements of the spine (arches, articular and transverse processes) of autografts in the form of resected spinous and articular processes, as well as granules of large-porous bioceramic osteoinductive material of bicalcium phosphate.

Experimental studies of the proposed method for the surgical treatment of severe scoliosis with correction of concave deformation of the chest showed its high efficiency. The proposed method for the surgical treatment of severe scoliosis with correction of concave chest deformation when used provides reliable elimination of the patient’s chest deformation on the concave side, provides reliable elimination of the patient’s chest deformation with simultaneous elimination of the spinal deformity, ensures the preservation of the initial correction of spinal deformity, and eliminates the chest deformity cells of the patient with the prevention of pulmonary heart disease and, as well as provides an early social rehabilitation and improving the quality of life of the patient. At the same time, patient satisfaction with the achieved results of surgical treatment was established.

The essence of the proposed method for the surgical treatment of severe scoliosis with correction of the concave deformation of the chest is illustrated by the figures, in which Fig. 1 shows a diagram of the elevation of thoracoplasty - osteotomy of the rib over the rib-transverse joint, Fig. 2 shows the diagram of the elevation of thoracoplasty - fixation of the ribs to the metal construction rod and the spinous process, figure 3 is an intraoperative view after fixing the ribs, figure 4 shows the appearance of the patient before and after surgical treatment, and figure 5 on Computed tomography (CT) results are shown before (Fig. 5 A) and after (Fig. 5 B) surgical treatment.

The implementation of the proposed method for the surgical treatment of severe scoliosis with correction of concave chest deformation is illustrated by the following clinical example.

Example 1. Patient C, 24 years old, was admitted to the spinal pathology department of the Federal State Institution of Cytology and Cytology with a diagnosis of dysplastic right-sided thoracic scoliosis of the 4th degree.

The patient underwent dorsal correction and fixation of the spine using the SD system under conditions of intraoperative halo-pelvic traction, elevated thoracoplasty on the left, posterior spinal fusion using autografts and HRV granules.

When the patient was positioned on the abdomen, a skin incision was made over the spinous processes from Th ₁ to L _{5 of the} vertebra. Subcutaneous tissue, fascia, were dissected in layers. Then, during one session of anesthetic management after skeletonization of the posterior elements of the spine, an additional mobilization of the spine with teno-ligamentocapsulotomy was performed on both sides. Elevated thoracoplasty was performed on the concave side of the chest with fixation of the spine. Ribs on the concave side of the chest were skeletonized subcostally from the same access and osteotomy of five to six ribs was performed sequentially over the rib-transverse joint without damage to the neurovascular bundle and parietal pleura. The region of osteotomized ribs was tamped with a damp cloth with saline. In the lumbar spine installed transpedicular screws on both sides. Moreover, to determine the projection of the arc root, and hence the insertion point of the transpedicular screw, transverse and articular processes were used as anatomical landmarks. A horizontal line was drawn through the transverse processes, and a vertical line through the articular processes. A 2-3 mm lateral intersection of these lines projected the root point of the arc of the spine and a transpedicular screw was introduced through this point. Before the screw was introduced using an awl with a limiter or Volkman spoons, a channel was formed in the root of the arc, a mark was set, and X-ray inspection was performed in two projections using a mobile X-ray surgical image intensifier. After checking the correct location of the mark in the root of the arch of the vertebra, the mark was removed and a transpedicular screw was inserted through the formed channel. Repeated x-ray quality control of the setting of the transpedicular screw. Then set the pedicular hooks on the concave side of the deformation in the amount of 2-3 pieces. Before their installation, resection of the lower edge of the articular process of the vertebra was performed. The extension of the arched joint was performed with a special tool, then using the “finder” we determined the root of the arch and then set up a pedicular hook using a pusher. Correctly set hook tightly and motionlessly "sits astride" on the root of the bow. Laminar hooks were placed under the arch of the vertebra. In severe deformations, the distance between the arch of the vertebrae from the concave side is reduced, which complicates the installation of sublaminar hooks. Then, with the help of laminotomes, a partial resection of the vertebral arch to the width of the “tongue” of the hook was performed and the yellow ligament was removed. After that, a laminar hook was installed under the arch. The hook hook was carried out smoothly, without violence, in order to avoid pressure on the spinal cord. In this case, laminar hooks with a displaced body were used to facilitate the installation of rods in them. After placing the hooks and screws, the rod to be installed was bent in the form of thoracic kyphosis and lumbar lordosis and installed on hooks and screws in the plane of scoliotic deformation and fixed to them with nuts. Then the rod was rotated 90 ° to the concave side, i.e. performed the so-called "derotational maneuver." In this case, the plane of the bending of the rod from the frontal plane was transferred to the sagittal plane, and along with the correction of scoliotic deformity, thoracic kyphosis and lumbar lordosis were formed. Then set the hooks and the rod on the convex side. After that, the rods were interconnected using transversal DTT, forming a closed rectangular system. Upon completion of the installation of metal structures, the vertebral arches were decorticated, the articular processes were resected, and the earlier osteotomized ribs were elevated to the metal structure rod. Using laminectomas in the ribs, incisions were made. The ribs were fixed to the core of the structure and to the spinous processes using a wide dacron tape. Then, autografts in the form of resected spinous and articular processes and HRV granules (BiCalcium Phosphate, a large-porous bioceramic material manufactured by Medtronic Sofamor Danek), which represents a new generation of synthetic materials that replace bone tissue and have bone tissue, were placed on the back elements of the spine (arches, articular and transverse processes). properties.

As a result of surgical intervention, reliable removal of the patient’s spinal deformity is achieved, reliable deformation of the patient’s chest deformity on the concave side is achieved, the initial correction of the patient’s spinal deformity is maintained, the patient’s chest deformation is eliminated, preventing the development of pulmonary heart failure, and early social rehabilitation and improving the quality of life of the patient. A satisfactory cosmetic effect has been achieved. The patient expressed satisfaction with the achieved results of surgical treatment.

Claims (1)

A method for surgical treatment of severe scoliosis with elevated thoracoplasty with correction of concave chest deformity, including performing a skin incision above the spinous processes from Th ₁ to L _{5 of the} vertebra in the patient’s position on the abdomen, dissection of the subcutaneous tissue, fascia in layers, correction of scoliotic spinal deformity using Cotrel instruments Dubousset with fixation of the spine and laying on the posterior elements of the spine of autografts from resected spinous and articular processes, suturing of the wound and dismantling halo apparatus, characterized in that sequentially during one session of anesthetic management after skeletonization of the posterior elements of the spine on both sides, first an additional mobilization of the spine is performed with teno-ligamentocapsulotomy, then ribs are subcostally from the same access on the concave side of the chest and over the rib-transverse joint osteotomy of five to six ribs without damage to the neurovascular bundle and parietal pleura; the region of osteotomized rabies is plugged After performing correction and fixation of the spine using Cotrel-Dubousset instruments, a halogen-pelvic traction is performed and a decortication of the vertebral arches, resection of the articular processes and elevation of osteotomized ribs onto the metal structure rod are performed using laminectomas on the crossed ribs using a wet wipe with saline solution. and fix the ribs to the rod of the metal structure and to the spinous processes using a wide tape of non-absorbable lavsan, then on the back elements of the spine (arches, articular and transverse processes) lay autografts in the form of resected spinous and articular processes and granules of large-porous bioceramic osteoinductive material of bicalcium phosphate.

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