RU2651111C1 - Method of correction of idiopathic scoliotic deformity of the spine in the form of double thoracic arch of children - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely, to the surgery of idiopathic scoliotic deformity of the spine in the form of the double thoracic arch of children. Deformations of the thoracic spine of the osteotomy of the articular joints are performed from the concave sides of the upper and lower arcs over three vertebrae. Reduction transpedicular support elements are installed into three vertebrae from the concave side of the upper arch of the thoracic spine deformity. Reduction transpedicular support elements are installed into three vertebrae from the concave side of the lower arch of the thoracic spine deformity. Rest of the vertebrae are provided with standard transpedicular support elements. First rod is installed along the convex side of the upper arc of curvature and along the concave side of the lower arc of curvature, the rod is pre-curved along the physiological kyphosis of the thoracic spine with the implementation of the three-dimensional correction of the lower arch of the thoracic spine deformity by performing the vertebral derotation due to reduction screws and segmental contraction at the apex of the lower arc of deformity. At the same time, the second rod is pre-curved along the physiological kyphosis of the thoracic spine from the opposite side relative to the line of spinous processes with the implementation of the three-dimensional correction of the upper arch of the thoracic spine deformity by means of performing the vertebral derotation due to reduction screws and segmental contraction at the apex of the upper arc of deformation.

EFFECT: method restores the physiological profile of the thoracic region due to the three-dimensional correction.

1 cl, 7 dwg

Description

The invention relates to medicine, and in particular to vertebrology.

A known method of correction of idiopathic scoliotic spinal deformity in the form of a double pectoral arch (Mikhailovsky M.V., Fomichev N.G. Surgery of spinal deformities. - Novosibirsk, 2011. - 235-236 C.), including: the installation of supporting elements on the concave side of the lower thoracic arch; installation in the supporting elements of the rod on the concave side of the upper pectoral arch; derotation; the installation of the supporting elements of the convex side of the upper arc of curvature of a short rod; combining a short rod by means of connectors with a rod installed in the supporting elements of the concave side of the lower pectoral curvature.

The considered method for the correction of the double pectoral arch is not effective enough, because true derotation of the vertebral bodies at the apex of the arches of curvature is not achieved and there is no complete restoration of the physiological sagittal profile of the thoracic spine.

The objective of the invention is to increase the efficiency of correction of idiopathic scoliotic deformity of thoracic localization in children with two arches of curvature by achieving three-dimensional correction of the thoracic spine.

The technical result of the task is achieved by the fact that in the method of correction of idiopathic scoliotic deformity of the spine in the form of a double pectoral arch in children, including: rear access to the spine; the installation of a two-rod transpedicular metal structure on strategic vertebrae along the upper and lower concave and convex sides of the spinal deformity relative to the line of the spinous processes along the curvature arches, it is proposed: to perform from the concave sides of the upper and lower arches of the deformity of the thoracic spine of the osteotomy of the arched joints for three vertebrae; to establish reducing transpedicular supporting elements in three vertebrae from the concave side of the upper arch of the deformity of the thoracic spine, to establish reducing transpedicular supporting elements in three vertebrae from the concave side of the lower arch of the deformity of the thoracic spine, in the remaining vertebrae install standard transpedicular supporting elements; to establish on the convex side of the upper curvature arch and the concave side of the lower curvature arch the first rod preliminarily bent by physiological kyphosis of the thoracic spine with the three-dimensional correction of the lower arch of the deformity of the thoracic spine by means of vertebrae rotation through reduction screws and segmental contraction at the top of the lower deformity arch ; at the same time, install the second rod, previously bent along the physiological kyphosis of the thoracic spine from the opposite side relative to the line of the spinous processes with the implementation of three-dimensional correction of the upper arch of the deformity of the thoracic spine by derotation of the vertebrae due to reduction screws and segmental contraction at the top of the upper arch of deformation.

In fig. 1 presents a General view of the idiopathic scoliotic spinal deformity in the form of a double pectoral arch in children, where pos. 1 - upper arch of deformation of the thoracic spine; pos. 2 - lower arch of deformation of the thoracic spine; pos. 3 - osteotomy of the arched joints over three vertebrae from the concave side of the upper arch of the deformity of the thoracic spine; pos. 4 - osteotomy of the arched joints over three vertebrae from the concave side of the lower arch of deformity of the thoracic spine.

In fig. Figure 2 presents the spine with established reduction transpedicular support elements for idiopathic scoliotic spinal deformity in the form of a double pectoral arch in children, where pos. 5 - reducing transpedicular supporting elements installed in three vertebrae from the concave side of the upper arch of deformity of the thoracic spine; pos. 6 - reducing transpedicular support elements installed in three vertebrae from the concave side of the lower arch of deformity of the thoracic spine.

In fig. Figure 3 shows the spine with the first shaft installed during idiopathic scoliotic spinal deformity in the form of a double thoracic arch in children, where pos. 7 - standard transpedicular support elements installed throughout the area of instrumental fusion; pos. 8 - the first rod mounted on the convex side of the upper arch of the curvature and the concave side of the lower arc of curvature of the thoracic spine.

In fig. 4 shows the spine with the second rod installed during idiopathic scoliotic deformity of the spine in the form of a double pectoral arch in children, where pos. 9 - the second rod mounted on the concave side of the upper arch of the curvature and the convex side of the lower arc of curvature of the thoracic spine.

In fig. 5 - normal physiological sagittal contour of the spine after surgery.

In fig. 6 - radiographs of patient N., 16 years old, with idiopathic scoliotic spinal deformity in the form of a double chest arch before surgery.

In fig. 7 - radiographs of patient N., 16 years old, with idiopathic scoliotic spinal deformity in the form of a double chest arch after surgery.

The method of correction of idiopathic scoliotic spinal deformity in the form of a double pectoral arch in children is as follows.

From one dorsal access, the posterior spine elements are skeletonized over the proposed zone of setting the metal structure and fusion, the wound is diluted with conservatives.

From the concave sides of the upper 1 and lower 2 arches of deformity of the thoracic spine, osteotomies of the arched joints are performed over three vertebrae 3 and 4 (Fig. 1). Reducing transpedicular supporting elements are installed in three vertebrae from the concave side of the upper arch of the thoracic spine 5, and reducing transpedicular supporting elements are installed in three vertebrae from the concave side of the lower arch of the deformity of the difficult spine 6 (Fig. 2). In the remaining vertebrae that are included in the area of instrumental spondlilosis, standard transpedicular supporting elements 7 are installed (Fig. 3). Then, the first rod 8, preliminarily curved by the physiological kyphosis of the thoracic spine with the three-dimensional correction of the lower arch of the deformity of the thoracic spine by performing derotation of the vertebrae due to reduction screws and segmental contraction, is installed on the convex side of the upper curvature 1 and the concave side of the lower curvature 6. the top of the lower deformation arc 6 (Fig. 3). Installation of the second rod 9, preliminarily bent by physiological kyphosis of the thoracic spine on the opposite side relative to the line of the spinous processes, with the implementation of three-dimensional correction of the upper arch of the deformity of the thoracic spine by derotation of the vertebrae due to reduction screws and segmental contraction at the top of the upper arch of deformation 5 (Fig. . 4-7).

The positive effect of the proposed technical solution is to increase the efficiency of correction of idiopathic scoliotic deformity of thoracic localization with two arches of curvature by achieving three-dimensional correction of the thoracic spine.

Claims (1)

A method for correcting idiopathic scoliotic spinal deformity in the form of a double pectoral arch in children, including: rear access to the spine; the installation of a two-rod transpedicular metal structure on the strategic vertebrae along the upper and lower concave and convex sides of the spinal deformity relative to the line of the spinous processes along the curvature arches, characterized in that: from the concave sides of the upper and lower arches of the deformity of the thoracic spine of the osteotomy of the arched joints for three ; establish reducing transpedicular supporting elements in three vertebrae from the concave side of the upper arch of the deformity of the thoracic spine, establish reducing transpedicular supporting elements in three vertebrae from the concave side of the lower arch of the deformity of the thoracic spine, in the remaining vertebrae install standard transpedicular supporting elements; establish on the convex side of the upper arch of curvature and the concave side of the lower arch of curvature the first rod preliminarily curved by physiological kyphosis of the thoracic spine with the three-dimensional correction of the lower arch of the deformity of the thoracic spine by performing vertebral rotation through reduction screws and segmental contraction on the top of the lower deformity arch ; at the same time, the installation of the second rod, previously bent along the physiological kyphosis of the thoracic spine from the opposite side relative to the line of the spinous processes, with the three-dimensional correction of the upper arch of the deformity of the thoracic spine by performing derotation of the vertebrae due to reduction screws and segmental contraction at the top of the upper arch of deformation.

Images