RU2186548C1 - Implant of intervertebral disk of lumbar department - Google Patents

Abstract

FIELD: medicine, spinal prosthetics. SUBSTANCE: implant suggested includes a hollow body with coaxial openings at anterior and posterior surfaces and fixation elements at the upper and lower surfaces being adjacent to locking plates of vertebral bodies. Fixation elements are designed as a comb with transverse triangular teeth. The shape of the surface enveloping the edges of these teeth corresponds to that of interfacing locking plates of vertebral bodies. At the upper and lower surfaces the longitudinal symmetric grooves are made for the guides of the device to install the implant and develop the area of fibrosis. Implant provides higher stability of fixation in a segment along with decreased traumaticity level. EFFECT: higher efficiency of spinal prosthetics. 3 cl, 4 dwg

Description

 The invention relates to medicine, namely to traumatology and vertebrology, and can be used for operations on the spine, mainly on the lumbar, associated with the removal of the intervertebral disc.

 A known implant for operations on the spine [1], comprising a cylindrical body with an internal cavity with through holes in the side wall, with a screw thread on the outer side surface and with a transverse partition from one of the ends of the cylindrical body with through holes on it.

 A known implant is used as follows. First, the patient is placed in a supine position and a skin incision is made in the ileo-inguinal region. Then carry out retroperitoneal approach to the operated vertebral segment. The vessels are moved with retractors and the wound limiters are driven in successively. Then, a groove equal to the diameter of the smooth part of the outer surface of the cylindrical body of the implant is selected with a crown mill, creating access for the use of special tools and visual control.

 Perform ventral decompression. After that, a thread adapted to the implant is cut with a tap adapted to the implant. Then place a smooth (without thread) part of the outer lateral surface of the implant in the groove. A special tool is used to screw the implant into the interbody gap. After screwing through the holes in the transverse septum, the dural sac is inspected and, if bone crumb is inside it, the implant is twisted, followed by cleaning and re-screwing. Then, a previously cut-out end plate is placed on the transverse septum, the cavity is filled with small chips obtained by cutting the sections of adjacent vertebral bodies with a cutter and the wound is sutured. The patient is raised 5-7 days after surgery without external immobilization (without a corset).

 The known implant design has the following disadvantages.

 The cylindrical shape of the implant is not a congruent form of the intervertebral space and thereby changes the anatomical position of the bodies of adjacent vertebrae, deflecting them to the side, and the entire lumbar region as a whole.

 Fixing the implant using a threaded connection in the absence of fixing (locking) elements does not guarantee reliable fixation of the implant in the intervertebral space and determines the possible displacement (twisting) of the latter with constant loads on the lumbar.

 Increased invasiveness of the implant installation associated with drilling a groove, cutting threads in the vertebrae and cutting the supporting supporting plates of the vertebral bodies.

 The complexity and complexity of screwing the implant.

 Long term rehabilitation period. (The rise of patients is carried out on 5-7 days).

 The closest in technical essence and the achieved result to the claimed one is an intervertebral disc implant for operations on the lumbar [2], containing a wedge-shaped body made of titanium or its alloy, with a cavity inside for the introduction of bone chips and other materials, with through holes on side, front and back surfaces of the housing. On its upper and lower surfaces facing the bodies of adjacent vertebrae, fixing elements are made in the form of spikes 1.0-1.5 mm high, in contact with the vertebral body, and perforation. The volume of the internal cavity is about 78-82% of the total volume of the implant.

 After performing discectomy (radial removal of the intervertebral disc), the manipulator is installed in the aperture of the implant, and it is inserted into the intervertebral foramen. When the implant is inserted, the end plates are damaged by the spikes of the latter, due to a decrease in the intervertebral space, observed in 100% of cases. The introduction of an implant into the intervertebral space is difficult, also due to its configuration. Damage to the vertebral closure plates is a prerequisite for the displacement of the implant into the vertebral bodies.

 A wedge-shaped shape of the implant body is preferable to a cylindrical one, however, it is also not a congruent form of the intervertebral space, which poses a threat to the implant migration into adjacent vertebral bodies due to uneven pressure.

 A large number of micro- and macroperforations on the upper and lower surfaces reduces the supporting properties of the implant, which is especially important for the lumbar region, and also increases the likelihood of the implant moving into adjacent vertebral bodies.

 The tenon-shaped fixing elements of this implant, due to their small height, do not provide reliable fixation in the event of shear loads in the vertebral segment. The implementation of the fixing elements in the form of spikes in combination with a wedge-shaped form of the implant leads to the formation of tissue necrosis at the most loaded points of the latter.

 In addition, when an implant of this form is immersed in the intervertebral space, damage to the anterior and posterior limbs of adjacent vertebrae inevitably occurs.

 The basis of the invention is the task of improving the quality of fixation of the implant, increasing its stability in the segment while reducing trauma, simplifying the operation of its installation and reducing the postoperative period.

 The problem is solved in that in the implant of the lumbar intervertebral disc, including a hollow body with coaxial openings on the front and rear surfaces and fixation elements on the upper and lower surfaces in contact with the contact plates of the vertebral bodies, the fixation elements are made in the form of a comb of transverse triangular teeth wherein the surface shape of the envelope of the edges of these teeth corresponds to the shape of adjacent closure plates of the vertebral bodies, and on the lower and upper surfaces of the implant Symmetrical longitudinal grooves are filled.

The teeth of the comb on the upper surface of the implant are straight, and the teeth of the comb on the bottom are oblique, with a tooth angle of 45 ^o to the surface of the closure plate of the underlying vertebra. The recesses are made in two on each side.

 On the front and rear surfaces, two on each, symmetrical chamfers with a curved surface and curvature radii on the front wall corresponding to the anatomical front radius of curvature of the fibrous ring of the intervertebral disc, and on the back to the back, are made.

 The implementation of the body shape corresponding to the anatomical shape of the intervertebral lumbar space provides a uniform biomechanical load on adjacent closure plates of the vertebral bodies and prevents their destruction (necrosis).

 The presence on the upper surface of the comb of straight triangular teeth ensures a secure fit on the implant of the upper vertebra, creating a single body with the implant along the axial axis. Subsequent filling of the cavities between the teeth of the comb is carried out by bone and cartilage tissue, which ensures the necessary stabilization of the implant.

The presence on the lower surface of the comb of oblique teeth with an acute angle of inclination of 45 ^° to the locking plate of the underlying vertebra provides due to the glide barrier a stable position of the implant in the intervertebral space in the event of supermaximal loads on the vertebral segment.

 The rounded chamfers on the front and back surfaces ensure tight contact of the implant with the inner sections of the dorsal-fibrous ring and with the inner surface of the ventral-fibrous ring of the intervertebral disc when it is sutured and in conjunction with the presence of an internal cavity in the implant, further forms a fibrous scar from ventral to dorsal departments of the fibrous ring, thereby increasing the stability of the vertebral segment.

 The presence on the upper and lower surfaces of symmetrical recesses, two on each, which are guides for the implant installation device (the device is the subject of a separate invention and is not presented in this application) further serves as a place for the formation of a fibrosis zone that prevents the transverse displacement of the implant.

 Thus, the claimed invention can dramatically reduce the morbidity of operations on the lumbar spine, to achieve a high degree of stabilization of the operated vertebral segment, to restore the anatomical relationship in the motor vertebral segment.

 In addition, an important advantage of the claimed device is the simplicity and the possibility of implementation on technological equipment, widely used in industry.

 As a result of using the implant, primary reliable stabilization of the segment is created, which allows the patient to be activated the day after surgery with the subsequent formation of a fibrous block.

 The invention is illustrated by drawings.

 Figure 1 presents the inventive implant, a General view.

 Figure 2 is a front view.

 Figure 3 is a top view.

 Figure 4 is a side view.

The implant consists of a hollow body 1, on the upper surface of which is made a comb of straight triangular teeth 2. On the lower surface of the body 1, a comb of oblique teeth 3 is made with an angle of 45 ^° to the surface of the closure plate of the underlying vertebra. Teeth 2 and 3 are elements of fixation of the implant. The teeth 2 are made so that the shape of the plane of the envelope of their edges corresponds to the shape of the upper end plate, and the shape of the plane of the envelope of the edges of the teeth 3 corresponds to the shape of the lower end plate.

 On the upper and lower surfaces of the housing 1, symmetrical recesses 4 are made, two on each surface. Coaxial holes 5 are made on the front and rear surfaces of the housing 5. Curved chamfers 6 are made on the front surface, and curved chamfers 7 are made on the back surface. . The height of the teeth 2 and 3 is at least 3 mm, and the walls of the housing have a thickness of at least 2 mm.

 To ensure the possibility of carrying out various control studies after surgery, in particular computed tomography, nuclear magnetic resonance, the implant is made of non-magnetic material - titanium, in particular VT - 1.0.

 Install the implant as follows. Under general anesthesia in the position of the patient on the back, ventral access to the discs of the lumbar spine is performed. After x-ray control of the affected disk, it is removed while maintaining the integrity of the end plates of adjacent vertebrae.

 Ventral ligamentous fibrous flap before nucleectomy "P" -shaped and cut up. The implant of the required size in terms of area and height is “charged into the“ chamber of the “distractor-reponator”, the last to restore the necessary dimensions of the intervertebral space and the implant is moved to the intervertebral space along its guide. After implantation, visual and radiographic monitoring of the position of the implant is performed. The distractor is removed, a “P” -shaped ligament flap is sutured over the implant, and the wound is sutured in layers.

 High stabilizing properties of the implant allow the operated patients to get up and walk from 1-3 days after surgery without external immobilization. Their use leads to a rapid regression of orthopedic and neurological disorders, and its manufacture from titanium ensures its biological inertness.

 The invention is illustrated by a clinical example. Patient D., 35 years old, was admitted to the neurosurgical department with complaints of constant pain in the lumbar spine and right leg, fatigue when walking. Six months ago, he was operated on for a posterolateral hernia of the L 4-5 disc from the posterior inter-arterial access.

 Orthopedic deficiency: vertebrostatic instability syndrome. In neurological status - radiculopathy L 5, S on the right. According to MRT, a hernia (paramedian) in the interval L 4 -5, with functional radiography - hypermobility in the horizontal plane of 6 mm. An operation was performed from ventral access: discectomy, removal of recurrent hernia, stabilization with a titanium implant. The postoperative period without complications, activated on 3 days, the regression of orthopedic and neurological disorders is complete. Discharged on the 14th day after the operation. For five months, 10 patients were operated using an implant.

Sources of information
1. RF patent, N 2145199, publication date 06/17/1999, A 61 F 2/44, "Implant for spinal surgery."

 2. US patent, N 5888227, publication date 03/30/1999, A 61 F 2/44, "Intervertebral implant" (prototype).

Claims (4)

 1. The lumbar intervertebral disc implant, comprising a hollow body with coaxial openings on the front and rear surfaces and fixation elements on the upper and lower surfaces in contact with the contact plates of the vertebral bodies, characterized in that the fixation elements are made in the form of a comb of transverse triangular teeth, the surface shape of the envelope of the edges of these teeth corresponds to the shape of adjacent closure plates of the vertebral bodies, and symmetrical longitudinal sections are made on the lower and upper surfaces s recess intended for guide device and implant fibrosis formation zone.  2. The implant according to claim 1, characterized in that the teeth of the upper comb are made straight and the teeth on the bottom are oblique.  3. The implant according to claim 1 or 2, characterized in that the recesses are made in two on each of the lower and upper surfaces.  4. The implant according to claim 1 or 2, characterized in that on the front and rear walls are made, two on each, symmetrical chamfers with a curved surface and radii of curvature on the front wall corresponding to the front anatomical radius of curvature of the fibrous ring of the intervertebral disk, and back to back.

Images