RU2392888C1 - Staging surgical correction of spine deformation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine area, namely to traumatology, orthopaedics and neurosurgery and can be used for surgical correction and fixation of spine deformations in diseases, injures and their consequences. The technique is two-staged: posterior percutaneous external fixation osteosynthesis, then after staging correction of spine deformation, the second stage follows that is replacement of the external transpedicular fixator by an implanted one while being corrected.

EFFECT: method allows restoring physiological spinal curvatures with minimum traumatising the tissues.

1 ex, 2 dwg

Description

The invention relates to medicine, namely to traumatology, orthopedics and neurosurgery, and can be used to restore normal anatomical relationships with subsequent osteosynthesis in the thoracic and lumbar regions during the surgical treatment of injuries and diseases of the spinal column.

Recently, the interest of orthopedic traumatologists and neurosurgeons in the problem of treating injuries and diseases of the spine, accompanied by significant deformities of the spinal column (dislocations, fractures, scoliotic disease, post-traumatic deformities), has increased. It is not always technically possible to eliminate such deformations simultaneously (during one operation), which is associated with the duration, invasiveness of the operation and the risk of developing neurological disorders. Stage-by-stage correction of deformation with subsequent stabilization in the norm-correction mode can significantly reduce the invasiveness of the operation and avoid neurological deficit in the postoperative period.

It is known “External transpedicular fixation device of the spine and the method of its use” [RF Patent for the invention No. 2220676]. The device contains no more than nine fixation nodes, on each of which are fixed two elements of the vertebra fixation, made in the form of rods-screws. The working ends of the latter are introduced into the roots of the arch of the vertebra, and each of them is fixed with clamps. Fixation nodes are interconnected by means of threaded ties, forming supporting blocks. Dosed movement of the support blocks is carried out by moving the distraction and power nuts. The movement of intact vertebrae is carried out before the normal correction of the spine and the creation of bone and bone-fibrous blocks. Due to the fact that the elements of the device are percutaneous and located outside the patient’s body, the use of this device and the method of its use can eliminate significant spinal deformities.

However, fixation of the spine in the device averages 121 days [Shevtsov V.I. External transpedicular fixation in the treatment of patients with fractures of the thoracic and lumbar spine / V.I. Shevtsov, A.T. Khudyaev, S.V. Lyulin. - Kurgan: Dummy, 2003. - 307 s], despite the fact that on average 1-4 weeks are required to eliminate deformations, according to the same authors.

During the entire time the device is used, there is a risk of soft tissue inflammation around the screw rods. The patient experiences significant inconvenience associated with standing parts of the device above the surface of the skin (cannot lie on his back), difficulties in selecting clothes, and therefore the quality of life of the patient is significantly reduced.

The well-known “Method of minimally invasive spinal osteosynthesis” [RF Patent for the invention No. 2320286]. The essence of the method is as follows: perform symmetrical skin incisions at the projection sites of the further introduction of transpedicular screws, on each side relative to the posterior midline of the body. The length of each section is from 1.5 to 2 cm. The vertebral body is perforated symmetrically on each side through the legs of the arches with an awl. Screws are inserted through the upper cuts. Select the required length of the rods. Through the lower incisions, rods are introduced on each side, with which the muscle or subcutaneous fat layer is longitudinally perforated to the heads of the superior screws. Insert the bottom screws. Fix the rods to the screw heads. This method was used as a prototype.

The disadvantages of the “Method of minimally invasive spinal osteosynthesis” is the inability to correct the deformation of the spinal column, since the transpedicular fixation system is installed in a neutral mode and is uncontrollable.

The well-known “Method for the treatment of spinal injuries complicated by spinal disorders” [RF Patent for the invention No. 2147844], characterized in that after performing a closed simultaneous and (or) controlled dosage decompression of the spinal cord using an extra-focal device, without stopping the fixation of the spine, open anterior corporodesis of damaged vertebrae with bone autografts.

The disadvantage of this invention is the invasiveness of the second stage of treatment, carried out by the principle of open anterior corporodesis, and as a result, an increase in the inpatient and rehabilitation period.

It is known “Device and method for extrafocal osteosynthesis of the spine” [RF Patent for the invention No. 2115381]. The essence of this method is as follows: extrafocal spinal osteosynthesis is performed by introducing threaded rods transpedicularly into the bodies of several adjacent intact vertebrae with an external support, characterized in that the transpedicular vertebral fixation is supplemented by fixation to the spinous process, and the rods are inserted into the damaged vertebra directly into the body, bypassing the arch.

The disadvantages of this method are the likelihood of inflammation of the soft tissues around the rods, a decrease in the patient’s quality of life, since the rods are percutaneous and located outside the patient’s body for the entire treatment period.

The objective of the invention is to develop a method of osteosynthesis for injuries and diseases, allowing to restore physiological bends and anatomical relationships in the spinal column with a minimal risk of developing inflammatory phenomena that do not reduce the quality of life of the patient.

The problem is solved in that the method of spinal osteosynthesis involves performing the first step of the posterior minimally invasive transpedicular osteosynthesis of the damaged vertebra (s) and adjacent vertebrae (s) with an external fixation apparatus. According to computed tomography, the maximum possible length of the threaded part (from the root of the leg of the vertebral arch to the front cortical plate of the vertebral body) and the diameter of the screw rods are selected. After the introduction of the screw rods, the external fixation apparatus is installed according to the traditional method.

The existing types of deformity of the spinal column are gradually eliminated and, after norm correction (within 1 to 4 weeks), the second stage of surgical treatment is performed - screw rods for percutaneous transpedicular fixation are removed and screws for immersed transpedicular fixation are inserted into the same channels and transmedicular are mounted subcutaneously clamp. The optimal difference in the diameters of the screw-rod and the immersed transpedicular screw is calculated immediately before the second stage using computed tomography data. Thus, a strong fixation of transpedicular screws in the vertebrae is achieved.

A subcutaneous mounted transpedicular fixator stabilizes the spine in the position of the achieved correction. The latch is located subcutaneously, so the risk of developing infectious processes is minimal. Replacing the percutaneous fixative with a submersible one allows the patient to lie on his back (which is very important for patients with neurological disorders), there are no difficulties in selecting clothes, thus, the patient's quality of life does not decrease.

The proposed method is applied as follows.

If there is a spinal deformity associated with damage or illness, during the first stage of surgical treatment, percutaneous transpedicular fixation with screw rods of the damaged vertebra (s) and (or) adjacent to the interested is performed. The length of the threaded part of the screw rods is selected as much as possible based on the data of computed tomography performed before the operation. Mount the external fixation device with support on the screw rods according to the traditional method. In the postoperative period, by compression, distraction or rotation between the screw rods, the existing deformation is gradually eliminated. After the deformations are completely eliminated, the second stage of surgical treatment is performed - screw rods for percutaneous transpedicular fixation are replaced with immersion screws so that the length of the threaded part is equal and the diameter is larger than that of the screw rods of the external fixation apparatus, which is performed using computed tomography data. Then, a submersible transpedicular fixator is mounted subcutaneously by the traditional method.

The description of the proposed method is illustrated by graphic material, where in figure 1 the 1st stage of the operation is illustrated: 1 - skin incisions in the projection of the legs of the arches, 2 - vertebrae adjacent to the damaged, 2A - damaged vertebra, 3 - projection of the introduction of screw-rods of the external fixation device, 4 - screw rods. The figure 2 illustrates the 2nd stage of the operation, where 1 - skin incisions in the projection of the legs of the arches, 2 - vertebrae adjacent to the damaged, 2A - damaged vertebra, 3 - channels formed by the screw-rods of the external fixation device, 4 - screw-rods, 5 - immersed transpedicular screws, 6 - immersed longitudinal rods.

Example. Patient K., born in 1971, diagnosis: improperly consolidating comminuted, unstable fracture of the body of the L _I vertebra, fracture of the arch of the _I L vertebra on the right, transverse processes on both sides, post-traumatic kyphotic deformation at the level of damage.

Due to the fact that it is not possible to eliminate the existing kyphotic deformity at the same time (the chronic nature of the damage), the first stage was performed external transpedicular fixation of Th _XI-XII , L _I-III vertebrae. In the postoperative period, a gradual reclination was performed in the external fixation apparatus for 8 days, and after complete elimination of kyphotic deformity, the second stage of surgical treatment was performed - screw rods for percutaneous transpedicular fixation were replaced by screws for immersion fixation, a transpedicular fixation was mounted subcutaneously.

The proposed method of spinal osteosynthesis is used at the Department of Traumatology, Orthopedics and VPH of the Tyumen State Medical Academy, 10 patients with spinal deformities were operated on. All patients managed to restore physiological bends of the spine and perform reliable osteosynthesis.

Claims (1)

The method of staged surgical correction of spinal column deformity, characterized in that the restoration of physiological relationships is carried out in two stages: the first stage is posterior minimally invasive transpedicular osteosynthesis of damaged vertebra (s) and adjacent vertebra (s) with the apparatus external fixation, the second stage - the screw-rods of the external fixation apparatus are removed one by one with replacing them with the screws of the submersible transpedicular system inserted into the same channels in the mode of achieved normal correction of the spinal column, and wines you select the immersed transpedicular system so that the length of the threaded part is equal, and the diameter of the immersed transpedicular screws is larger than that of the screw rods of the external fixation device, then immersed the immersed transpedicular system subcutaneously.

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