RU2559275C1 - Method for spinal osteosynthesis in injuries and diseases - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: screws are inserted into vertebral bodies adjoining an injured one, and rods are fixed thereto along he spinal axis. Lower and upper limbs of overlying and underlying vertebras are visualised. Canals are formed V-shaped at an acute angle to each other from the middle of a lateral surface of the lower limb of the overlying vertebra in the same plane, from the bottom upwards through the body into the upper limb on the opposite lateral surface of the vertebra; the screws are then inserted into the canals, whereas their ends are brought out 2-3 mm from the vertebral body. That is followed by forming canals V-shaped at an acute angle to each other, from the middle of a lateral surface of the upper limb of the underlying vertebra also in the same plane , from up to down through the body into the lower limb on the opposite lateral surface of the vertebra; the screws are then inserted into the canals, whereas their ends are brought out 2-3 mm from the vertebral body.

EFFECT: method enables providing the stable and final fixation of the operated region of the spinal column in thoracic, thoracolumbar and lumbar spines from the same ventral approach by eliminating the screw structure migration from the fixed vertebral bodies when moving in all the planes, avoiding the use of accessory metal implants when fixing the screws in the vertebral bodies.

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Description

The invention relates to medicine, namely to neurosurgery and traumatology, and can be used for stabilizing operations on the thoracic and lumbar spine with a defect in one or more vertebral bodies due to trauma or tumor damage to the spine.

A known method of fixing unstable damage to the lumbar spine (Christopher E. Wolfa, Danial K. Resnik, Neurosurgical Operative Atlas \ Spine and Peripheral Nerves - Stuttgart, New York: Theme, 2007. - p. 219-221), adopted for the prototype. The method is as follows: in the patient’s position on the right side, a soft tissue incision is made in the left iliac region parallel to the edge of the 12th rib. Dissect the muscles of the abdominal wall to the peritoneum. The peritoneum is removed medially. Skeletonize the front-side surface of the vertebrae. The affected vertebra is verified. Using nippers and bone spoons, fragments of the body of the affected vertebra are removed with the formation of a groove for the transplant or endoprosthesis of the vertebral body with the removal of the posterior fragments of the body that have compressed (squeezed) the dura mater. A bone graft is tightly inserted into the formed groove after the reclamation of the vertebral bodies.

Two screws of the structure are introduced into the lateral surface of the vertebral bodies adjacent to the affected vertebra through the support pads parallel to each other in the horizontal plane. In this case, the screws are inserted monocortically into the thickness of the spongy substance of the vertebral bodies. The screws are articulated in pairs with two rods and fixed with clamping nuts. Produce hemostasis control. Active drainage is introduced into the retroperitoneal space. The wound is sutured in layers. Apply a bandage.

In the course of the operation, X-ray control is performed.

The disadvantages of this method: the design screws are inserted not into the densest and most supportive part of the vertebrae, but through the lateral cortical surface into the spongy part of the vertebral bodies in a narrow and parallel horizontal direction, which does not prevent the migration of screws from the vertebral bodies during lateral tilts of the body, bending, extension and during rotational movements; the introduction of screws in the middle part of the vertebral bodies requires exposure of the lateral surface of the vertebral bodies over a large area and the ligation of the arterial vessels supplying the spinal cord in the area of screw insertion, which is undesirable for blood supply in the area of operation, and the ligation of vessels directly departing from the aorta creates a certain operational risk ; the need for implantation in the body of an additional two foreign bodies - two metal support platforms for screws.

The objective of the invention is to provide a method for osteosynthesis of unstable injuries of the spine from the ventral access, providing stable fusion of two or more vertebral-motor segments and eliminating the above disadvantages.

The technical result of the invention consists in:

1. Ensuring stable and final fixation of the operated spine on the thoracic, thoracolumbar and lumbar from one ventral access by eliminating the migration of the helical structure from the bodies of the fixed vertebrae during movements in all planes (flexion, extension and rotation movements);

2. Eliminating the need to perform operations from the rear access for additional fixation of the spine;

3. Ensuring a less traumatic and safe approach to damaged vertebrae, which allows to reduce the amount of blood loss, as well as reduce the time of surgery and anesthesia;

4. The exception to the use of additional metal implants when fixing screws in the vertebral bodies.

The specified technical result in the implementation of the invention is achieved by visualizing the lower and upper limbs (lower and upper marginal borders of the body or vertebral platelets) of the overlying and underlying vertebrae, then form channels from the middle of the lateral surface of the lower limb of the overlying vertebral body in one plane V-shaped at an angle to each other at an acute angle from 30 to 45 ° from bottom to top through the body into the upper limb on the opposite lateral surface of the vertebra, after which screws are inserted into the canals with the removal their ends from the vertebral body by 2-3 mm, then form channels from the middle of the lateral surface of the upper limb of the underlying vertebral body, and also in the same plane, V-shaped at an angle to each other from top to bottom through the body into the lower limb on the opposite side surface of the vertebra, into which the screws are inserted also with the removal of their ends from the vertebral body by 2-3 mm.

The diagonal, through (bicortical) and at an acute angle insertion of two screws into each fixed vertebral body with the passage of screws through two limbs in the vertebral bodies, with fixation of rods to them along the axis of the spine, provides a stable and final spinal osteosynthesis from one ventral access, eliminates additional fixation the spine from the rear access, reduces blood loss, reduces the invasiveness of the operation and reduces the time of surgery.

In the course of patent information research in this technical field, no technical solutions were found, except for the prototype, having features similar to the claimed one, which allows us to conclude that there are significant differences in it.

The drawings show:

FIG. 1 - scheme of spinal osteosynthesis - side view.

FIG. 2 - arrangement of screws and rods relative to the fixed vertebra - front view;

FIG. 3 - arrangement of screws in the vertebral body - top view;

FIG. 4 - radiograph of patient I. before surgery - front view;

FIG. 5 - radiograph of the patient I. after surgery according to the proposed method - front view.

Screws, rods, clamping nuts are made of titanium alloy. The rods have a diameter of 6 or 7 mm and a length of 50 mm or more, depending on the height of the vertebrae and the number of affected vertebrae. The screws have a polyaxial head, a length of 30-70 mm and a diameter of the threaded part from 3.5 to 7.5 cm, depending on the size of the vertebral body.

The method is as follows. Perform anterolateral access to the lateral surface of the spine on its thoracic, thoracolumbar or lumbar regions. In the position of the patient, a soft tissue incision is made on the side. On the thoracic and thoracolumbar, access is transthoracic, and on the lumbar - extraperitoneally. Using markers, an x-ray machine, or an image intensifier tube (electron-optical transducer) determine the body of a damaged vertebra. Skeletonize the lateral surface of the body of the affected vertebra and expose the lateral parts of adjacent intervertebral discs and the outer edges of the locking plates (hereinafter, the limb) of the bodies of healthy vertebrae. Using nippers and bone spoons, the destroyed parts of the body of the affected vertebra and intervertebral discs are removed, if necessary, to the dura mater. A bone graft (allo- or autograft) or an endoprosthesis of the vertebral body filled with bone crumbs (auto- or allo crumbs) or bone cement is introduced into the interbody defect formed. Under the control of the electron-optical transducer (C-arc), the lower and upper limbs of the overlying and underlying vertebrae are visualized, in which two channels for introducing screws are formed.

From the middle of the lateral surface of the lower edge of the limb of the overlying vertebral body, V-shaped relative to each other at an angle from 30 ° to 45 °, depending on the diameter of the vertebral body, two channels are formed diagonally from the bottom up into the opposite upper limb of the body of the same vertebra. Channel inlets are formed at the same level in the middle of the lateral surface of the lower limb of the vertebral body so that the distance between adjacent edges of the heads of the screws inserted into the channels is no more than 10 mm. Then, a screw is inserted into the canals, the length of which is selected depending on the length of the formed channels, taking into account the fact that the ends of the threaded part of the screws prolapse the opposite cortical layer of the upper limb of the vertebral body until 2-3 mm from it, which contributes to a more reliable fixation of the screw in the vertebral body without the risk of damage to the paravertebral tissues, after which the screw heads are placed in the plane necessary for the installation of the rods in them.

From the middle of the lateral surface of the underlying vertebral body to the upper edge of its limb, V-shaped relative to each other at an angle from 30 ° to 45 °, depending on the diameter of the vertebral body, diagonally form two threaded tapes diagonally from top to bottom in the lower body limb of the same vertebra channel. Channel inlets are formed at the same level in the middle of the lateral surface of the upper limb of the vertebral body so that the distance between adjacent edges of the heads of the screws inserted into the channels is no more than 10 mm. Then, a screw is inserted through the channels, the length of which is selected depending on the length of the formed channels, taking into account the fact that the ends of the threaded part of the screws prolapse the opposite cortical layer of the lower limb of the vertebral body until 2-3 mm from it, which contributes to a more reliable fixation of the screw in the vertebral body without the risk of damage to the paravertebral tissues, after which the screw heads are placed in the plane necessary for the installation of the rods in them.

Two rods are placed in the heads of the upper and lower screws parallel to each other along the axis of the spine, which are fixed to the screws with clamping nuts. Schemes of spinal osteosynthesis according to the proposed method are shown in figures 1, 2 and 3. Perform intraoperative x-ray control. Produce hemostasis control. Active drainage is introduced into the retroperitoneal space. Perform a layered suture of the wound. Apply a bandage.

Clinical example. Patient I., 61 years old, was admitted with a diagnosis of PSMT, unstable compression-comminuted fracture L _{1 of the} vertebra, anterior compression of the spinal cord at the level of L ₁ , urinary retention, lower paraparesis from the compression level, kyphotic deformation of the damaged spine 26 degrees, pain syndrome.

The operation was performed: anterior decompression of the spinal cord by resection of the posterolateral part of the body of the L _I vertebra, discectomy of adjacent intervertebral discs, corporodesis by autobone, and osteosynthesis throughout the Th _XII- L _II vertebrae with a four-screw construction (Fig. 4, 5).

Post-traumatic spinal deformity was eliminated, the damaged section is fixed. On the fifth day, the patient is activated in an upright position. Control computed tomography of the spine, performed a year after the operation, showed the preservation of the achieved correction of the spine and the formation of the interbody bone block throughout the Th _XII- L _II vertebrae.

Thus, the use of the claimed invention allows you to create a stable spondylosynthesis of two or more vertebral-motor segments by eliminating the migration of screws from the vertebral bodies throughout the entire fixation time. In addition, the method of spinal osteosynthesis for injuries and diseases is safe for the patient and convenient to perform.

Claims (1)

The method of spinal osteosynthesis in injuries and diseases, including the introduction of screws into adjacent vertebral bodies and fixing rods to them along the axis of the spine, characterized in that the lower and upper limbs of the overlying and underlying vertebrae are visualized, then channels are formed from the middle of the lateral surface of the lower limb of the overlying vertebral bodies in one plane V-shaped at an acute angle to each other from bottom to top through the body into the upper limb on the opposite side surface of the vertebra, after which they are introduced into the canals ints with the removal of their ends from the vertebral body by 2-3 mm, then form channels from the middle of the lateral surface of the upper limb of the underlying vertebral body also in the same plane V-shaped at an acute angle to each other from top to bottom through the body to the lower limb on the opposite side surface vertebra into which screws are inserted with the removal of their ends from the vertebral body by 2-3 mm.

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