RU2130297C1 - Vertebral column stabilization device - Google Patents

Abstract

FIELD: medicine, in particular, traumatology, orthopedics. SUBSTANCE: device may be used for correction or prevention of serious scoliotic deformations of vertebral column. Distractor has circular recesses over entire length of rod. It is provided with clamps for its installation on sacrum, as well as hooks and facilities for their fixing on rod. Operating ends of hooks are sharpened. Operating end of upper hook is perpendicular to plane of longitudinal axis of symmetry of hook body. On remaining hooks (2-6 pieces) operating end is shifted relative to axis of symmetry. EFFECT: reliable fixing of device. 2 cl, 1 dwg

Description

 The invention relates to medicine, more specifically to traumatology and orthopedics, and can be used to correct, stabilize or restore the support ability of the spinal column.

 For surgical correction of curvature or stabilization of spinal segments, a significant number of devices have been proposed, of which static submersible devices are most widely used. The most famous distractors are Kazmina [1], Tsivyan [2], Rayet [3], Harrington [4], Kotrel-Debussy [5].

 The devices of Kazmin and Tsivyan consist of two support forks connected by a distractor body made in the form of a hollow rod with a thread on the inside. They are used to correct deformation of the lumbar arch.

 Their main disadvantage is that these are threaded structures with closed cavities supported by spongy bone elements (transverse processes of the vertebrae), which can become a source of such complications as: self-unwinding of the structure, formation of fistulas due to instability from pressure sores of supporting elements, secondary infectious complications.

 The Rayet device consists of a distractor rod with cone-shaped grooves in its upper third and two support hooks.

 This does not allow developing great efforts in the correction of deformation due to the fact that there is a high risk of structural failure at the start of the ratchet mechanism due to the uniform depth of the grooves on the distractor and the presence of only two hooks to fix the structure, as well as fracture of bone structures that support the distractor. This is especially dangerous with the kyphotic component of the deformity. The possibility of using only two fixation points significantly reduces the correction of deformation and increases the risk of secondary displacement of the structure in the postoperative period.

 The multi-support Kotrel-Debussy design uses self-cutting screws that are screwed into the vertebral bodies for fixation on the spine.

 However, the use of screws in dysplastic, anatomically altered and osteoporotic vertebrae is technically difficult, especially in the thoracic region, which increases the time of surgery and can lead to complications such as displacement of the screw into the spinal canal and destruction of the vertebral body. The use of additional screw and sleeve connections as screw fasteners on the distractor rod can lead to their self-unwinding and secondary displacement with loss of correction. The use of additional temporary devices (for example, an endocorrector) for installing the main structure significantly complicates the operation and takes a lot of time.

 Closest to the proposed device is the Harrington distractor [4], taken by us as a prototype. It consists of a distractor rod with cone-shaped grooves on its upper quarter and two hooks.

 The presence of two fixation points at the rod of this device and its rigidity exclude the possibility of deformation of the distractor rod, which reduces the effectiveness of its use. In this regard, it is often necessary to use two or more of these distractors for correction and stabilization of all deformation arcs. This complicates the course of the operation and increases the risk of secondary complications due to the large amount of implanted metal. The presence in the device of only two hooks does not allow to develop great efforts in the correction of deformation due to the possibility of fracture of the structure or bone structures that serve as a support for the distractor. The risk of fracture of the structure or bone support is especially great with the kyphotic component of the deformation. In addition, the design of the hooks does not allow them to be mounted on a bone support without first forming the bed in an acute way, which increases the invasiveness and time of the operation. Thus, this device does not provide reliable fixation of it, which caused a long postoperative bed rest and the need to use external immobilization (corset). This increases the time of inpatient treatment and rehabilitation of patients.

 The technical result of the present invention is to increase the reliability of the fixation of the distractor by increasing the number of hooks on it and the possibility of its deformation in accordance with the objectives of the operation.

 This result is achieved by a device containing a hook distractor, in which, according to the invention, the distractor shaft is provided with a bracket with a hole for its installation and is made with annular grooves along the entire length and with the possibility of giving it the shape of a spine, while the hooks have fixing means on the rod and a pointed shape at the working ends, on the upper one the working end is perpendicular to the plane of the longitudinal axis of symmetry of the hook body, and on the rest (2-6 pieces) it is offset relative to it.

 It is advisable to fixation means in the device in the form of a cylindrical hole in the hook with an axis perpendicular to the longitudinal axis of symmetry of the hook body and a recess along the generatrix of the cylinder to accommodate the fixation wire.

 Supply distractor bracket with a hole for fixing it provides a reliable installation on the lateral mass of the sacrum, without causing its resorption and subsidence of the structure.

 The implementation of the distractor rod with annular grooves along the entire length allows you to quickly and reliably fix the hooks on any part of the rod without the use of additional devices.

 The implementation of the hooks pointed at the working ends allows you to install them on the bone support without first forming the bed in a sharp way. In this case, the use of hooks, the working end of which is offset relative to the plane of the longitudinal axis of symmetry of the hook body, allows you to fix the segments of the spine even if it is impossible to accurately compare the distractor rod and the bone bed.

 The use of plastic material, for example, titanium alloys, for the manufacture of a distractor rod makes it easy to shape the spine during surgery and determine the number of hooks (2-6) to fix it to the spine.

 The means of fixation on hooks that we offer protect against possible displacement of the structure during and after the operation.

 For a better understanding of the design of the distractor, we present its image in the drawing, where 1 is the rod of the distractor, 2 is a straight hook, 3 is a hook with an offset center, 4 is a bracket, 5 is a fixing device.

Work using this device is as follows:
From the section in the projection of the spinous processes of the site proposed for the operation, the subperiosteal posterior elements of the vertebral bodies are isolated. Hooks, from 2 to 6, are installed under the articular processes of the vertebrae, and a bracket is installed on the lateral mass of the sacrum. The rod is shaped like a spine, inserted into the holes of the hooks and metered traction along the axis of the rod is performed. Upon reaching the necessary correction, fix the hooks on the rod and, if necessary, perform bone grafting, after which the wound is sutured in layers. Hemostasis during the operation.

Clinical examples:
and / b N 2628 Patient Enina E.N. 14 years.

 Diagnosis: Congenital kyphoscoliosis IV Art.

 Scoliosis since childhood. The first operation at the age of 9 years is the correction of deformity according to the Harrington technique at the Inst. Turner. After that, until 1997 she underwent 11 operations related to the loss of correction due to the displacement of the structure in the immediate (up to 2-4 months) period after the operation.

 In April 1997, she entered RNIITO named after R.R.Vredena in connection with the displacement of the structure installed to her. The patient is offered an operation - correction of deformation using the inventive device. Under the endotracheal anesthesia, the posterior vertebral body elements from 5 thoracic to 1 sacral were identified in a section in the projection of the old postoperative scar. Places for installing hooks and staples are defined, the rod is bent relative to the shape of the spine. After installing 3 hooks and staples, a rod was inserted into their holes and metered traction along the axis of the spine was performed. The hooks were fixed on the distractor shaft and, after checking the reliability of fixation, the wound was sutured in layers. Blood loss was 250 ml. As a result of the operation, it was possible to eliminate the misalignment of the pelvis and to correct the lumbar arch by 25 degrees, because the thoracic arch was fixed. The patient was raised to his feet on the 6th day after surgery, removal of sutures on the 10th day, rehabilitation therapy from 7 days. External corset immobilization was not used. Discharged after 3 weeks in satisfactory condition. At the control inspection after six months, the design is stable. The patient leads an active lifestyle, adhering to the general recommendations characteristic in the treatment of scoliosis with any metalwork.

 To date, 5 people have been operated on using this device. We did not observe any complications in the postoperative period with observation periods of up to 8 months. The correction obtained during surgery is preserved in all patients. In no case was a blood transfusion required during the operation, as blood loss did not exceed 300 ml, no complications were noted. The hospital period was 4-6 weeks.

The proposed device has the following positive qualities:
- allows you to get the maximum possible correction during the operation,
- provides reliable stabilization of the spine at all stages of treatment of the patient,
- the possibility of using it against a background of pronounced osteoporosis of the vertebral bodies,
- easy and quick to install with minimal trauma and blood loss.

 The device was developed at the Department of Pathology of Adolescents. R.R. Clinically tested and tested in 5 patients with a positive result.

Used Books
1. Kazmin A. I. The use of a metal distractor in the treatment of severe forms of scoliosis. Orthopedics, traumatology and prosthetics. N 6, 1961, pp. 11-16.

 2. Tsivyan Ya. L. Surgical treatment of scoliosis. Novosibirsk, 1964

 3. Paradise. Correction of scoliotic spinal deformities in children and adolescents. Herald of Surgery, vol. 123, pp. 123-127, 1979.

 4. Harrington, P. R. - Treatment of scoliosis. Correction and internal fixation by spine instrumentation. J.Bone Jt. Surg. 1962: 44A, 591.

 5. Waldemar Link 1995 Catalog

Claims (2)

 1. A device for stabilizing the spine, containing a distractor with hooks, characterized in that the distractor shaft is provided with a bracket with a hole for its installation and is made with annular grooves along the entire length and with the possibility of shaping the spine, while the hooks have means for fixing on the rod and a pointed shape at the working ends, on the upper one the working end is perpendicular to the plane of the longitudinal axis of symmetry of the hook body, and on the rest (2-6 pieces) it is offset relative to it.  2. The device according to claim 1, characterized in that the fixing means is made in the form of a cylindrical hole in the hook with an axis perpendicular to the longitudinal axis of symmetry of the hook body and a recess along the generatrix of the cylinder to accommodate the fixation wire.