RU2108763C1 - Device for carrying out perosseous vertebral column osteosynthesis - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has screws 1 with lateral slots 3 introduceable through arch roots of vertebrae under reposition. Central rods 9 are screwed in into central threaded holes 5 in the heads of screws 1. Two unions 12 are fitted over every central rod. Transverse and longitudinal rods 10 and 11 are movably brought through holes 13 in unions 12. After being mounted, repositioning system is formed for shifting vertebrae along the vertebral column axis, uniformly stretching and compressing anterior and posterior vertebral column regions, reclining vertebral column with anterior, posterior, lateral and rotating vertebrae dislocations, bending the vertebral column to the right and to the left in frontal plane. Reposition being over, rods 7 with circular projections 15 are introduced into lateral slots 3 for coming in engagement. Rods 7 are fixed relative to screws 1 by means of checking nuts 8 and the reposition system is removed. EFFECT: enhanced accuracy and reliability in fixing vertebrae. 5 dwg

Description

 The invention relates to medicine, namely to vertebrology.

 Known transverse fixation of the spine for the treatment of injuries of the spine, containing a pointed rod with a working threaded end, a cylindrical part and a fastening end with a metric thread [1]. A disadvantage of the known device is that it does not reposition the spine.

 A spinal fixator is also known for the surgical treatment of injuries and diseases of the spine, containing transverse and longitudinal screw ties and bone rods that together form the base in the form of a lever parallelogram with fixation nodes for bone rods [2]. The disadvantages of the known device is the inability to eliminate the displacement of the vertebrae and complex fixation nodes of the bone rods.

 Closest to the claimed is a universal spinal system containing screws with heads having side grooves, external thread, central threaded holes and edge recesses, rods, fixing nuts with washers and central rods [3]. The disadvantages of this design is that the reposition of the vertebrae is carried out underdosed using various manual devices. At the same time, vertebral reposition may not be performed in all planes, and holding the vertebrae in a repaired position until final fixation is possible only by hand. In addition, when fixing the rods in the side pockets of the screw heads, fixing washers with recesses are required without fail to prevent the rods from escaping from the side grooves. The disadvantage is that the surfaces of the lateral grooves and rods are smooth, which does not exclude the possibility of displacement of the rods in the grooves in the postoperative period.

 The aim of the present invention is to provide a dosed reposition of the vertebrae in all planes, keeping the vertebrae in an reached position at all stages of reposition and preventing displacement of the vertebrae in the postoperative period.

 This goal is achieved by the fact that in the known device containing screws on the heads having side grooves, an external thread, central holes and edge slots, rods, fixing nuts and central rods inserted into the central threaded holes according to the invention, there are transverse and longitudinal rods, couplings with holes, forming together with the central rods a reponentral system of the spine, where the couplings are placed on the central and longitudinal rods with transverse rods drawn through the holes in the couplings s, the lateral grooves in the heads of the screws disposed to the screw axis at an acute angle, and the surface of the base rod are formed as circular depressions and projections, and the locking nuts are made of wide bases.

 These distinctive features allow us to conclude that there is novelty in the proposed technical solution.

 In the course of patent information research on this solution, it was not found, except for the prototype, solutions that have features similar to the claimed, which allows us to conclude that there are significant differences in it.

 In FIG. 1 shows a screw, a fixing nut, a rod, and a coupling; figure 2 is a diagram of transosseous osteosynthesis of the spine by the device in reposition mode, side view, figure 3 is a diagram of transosseous osteosynthesis of the spine in reposition mode, top view; figure 4 is a diagram of transosseous spinal osteosynthesis by the device in reposition mode, rear view, figure 5 is a diagram of transosseous osteosynthesis of the spine by the device in fixation mode.

 The device for transosseous osteosynthesis of the spine consists of screws 1 about the heads 2, having side grooves 3, external thread 4, central threaded hole 5 and edge rubber 6, rods 7, fixing nuts 8, central rods 9; introduced into the central threaded holes 5, the transverse rods 10, the longitudinal rods 11 and the couplings 12. The couplings 12 have transverse mutually perpendicular angle-forming holes 13 for passing through them the central 9, transverse 10, longitudinal rods 11 and connecting them together to the reponent system of the spine. The side grooves 3 in the heads 2 of the screws 1 are located at an acute angle to the axis of the latter, while the bases of the side grooves 3 and the surface of the rods 7 are made in the form of circular recesses 14 and protrusions 15, and the fixing nuts 8 have a wide base 16.

 The proposed device for transosseous osteosynthesis of the spine is used as follows.

 In an open way, under the X-ray control, screws 1 are inserted through the left and right roots of the arches of the repaired vertebrae, while the lateral grooves 3 of the screws 1 are turned on each side to the midline to the opposite screws 1. The central rods 9 are screwed into the central threaded holes 5 in the heads of the screws 1 . Over the heads of 2 screws 1 on the central rods 9, fixing nuts 8 are freely placed. Two couplings 12 are placed on each central rod 9, one of which is located above the placed fixing nut 8, and the second is closer to the free end of the central rod. Through the second holes 13 in the couplings 12, the transverse rods 10 are drawn so that one transverse rods 10 pass through the couplings 12, which are located in front of the central rods 9, and the other transverse rods 10 pass through the holes 13 of the couplings 12 located at the free ends of the central rods 9. When conducting the transverse rods 10 through the holes 13 of the couplings 12 located at the free ends of the central rods 9, a clutch 12 is placed in the middle of the transverse rods 10 Without the clutch 12 located in the front of the central rods 9, it is also placed along the clutch 12. The installation of the reponent system of the spine is completed by passing two longitudinal rods 11 through the holes 13 in the couplings 12, which are located at the ends of the transverse rods 10 located in front of the central rods 9 and one longitudinal rod 11 through the holes 13 in the couplings 12 placed in the middle of the transverse rods 10 passing through the holes 13 in the couplings 12 located at the ends of the transverse rods 9. Thus made reskostny osteosynthesis of the spine in the repositioning mode allows the vertebrae displacement in all planes.

 So, according to the scheme of transosseous osteosynthesis of the spine by the device in the reposition mode shown in Fig. 2, by changing the distance between the same couplings 12 along the axis of the longitudinal rods 11, the vertebrae are displaced along the axis of the spine. In this case, the same increase in the distance between the couplings 12 along the howl of the longitudinal rods 11 provides uniform distraction in the front and rear parts of the spine, and the same decrease in the distance between the couplings 12 along the howl of the longitudinal rods 11 gives uniform compression in the front and rear parts of the spine. According to the same scheme, a decrease in the distance along the longitudinal rod 11 between the couplings 12 located in the middle of the transverse rods 10, which are located at the ends of the central rods 9, allows the spine to be reclaimed. This is achieved by increasing the distance along the longitudinal rods 11 between the couplings 12 located at the ends of the transverse rods 10, which are located in front of the central rods 9. Reclining of the spine can also not only be performed, but also reinforced by simultaneously increasing the distance between the couplings 12 along the longitudinal rods, located closer to the vertebrae and reducing the distance between the couplings 12 along the longitudinal rods 11 located further from the vertebrae. Reducing the distance between the couplings 12 along the longitudinal rods 11 located in front of the central rods 9, leads to kyphosis of the operated spine. In addition to these displacements of the vertebrae according to the schemes of transosseous spinal osteosynthesis by the device in the reposition mode shown in Figs. 2 and 3, the movement of the central rods 9 in the horizontal plane in the couplings 12 relative to all longitudinal rods 11 allows front and rear displacements of the vertebrae, and one-sided lateral movement of the connected still central to each other 9 and transverse rods 10 relative to all longitudinal rods 11 provides lateral displacement of the vertebrae in a horizontal plane to the left or right.

 According to the scheme of transosseous osteosynthesis of the spine in the reposition mode shown in FIG. 3, rotational displacements of the vertebrae are performed by simultaneous circular movement clockwise or counterclockwise of the central rods 9 and the transverse rods 10 located further from the vertebrae along howling couplings 12 located on the indicated rods with an unchanged position of all longitudinal rods 11 and the transverse rod 10, which is closer to the vertebrae.

 According to the scheme of transosseous osteosynthesis of the spine in the reposition mode shown in Fig. 4, increasing the distance between the couplings 12 along the left longitudinal rod 11 and along the longitudinal rod 11 located in the middle of the transverse rod 10 located at the free ends of the central rods 9 allows you to tilt the overlying vertebra to the right in the frontal plane. Likewise, the overlying vertebra can be tilted to the other side. The inclination of the overlying vertebra in the frontal plane to the right can be realized by reducing the distance between the couplings 12 along the right longitudinal rod 11 and along the longitudinal rod 11 located in the middle of the transverse rod 10 located further from the vertebrae. Similarly, you can tilt the overlying vertebra to the left.

 After completion of the necessary reposition of the vertebrae, the operated spine is fixed, which is performed as follows: rods 7 are inserted into the lateral grooves of 3 heads of 2 screws 1 located on each side of the midline of the spine, after which the 4 threads of 2 heads of 1 screws are screwed into in the free position in front of the transverse rods 9, fixing nuts 8 with a wide base 16, which, as they are screwed in, immerse the rods 7 to the bases of the side grooves 3 of the heads of 2 screws 1. At an eye by tightening the nuts 8, the circumference of their wide bases 16 enters the recesses 14 of the rods 7, and the surfaces of the bases of the side grooves 3 of the heads of the 2 screws 1 and the surfaces of the rods 7 are tightly in contact with each other due to the fact that the bases of the side grooves of the 3 heads of 2 heads 1 and the surface rods 7 have the same circular recesses 14 and projections 15. Entering recesses 14 at the base of the side grooves 3 of the heads 2 of the screws 1 of the protrusions 15 located on the surface of the rods 7 and the protrusions 15 available on the bases of the side grooves of the 3 heads 2 of the screws 1 into the recesses 14 w the tang 7, in addition to the tight contact of the screws 1 with the rods 7, also eliminates the displacement of the rods 7 relative to the screws 1. After fixing the rods 7 in the lateral grooves of 3 heads of 2 screws 1 with fixing nuts 8 on a wide base 16, the reponent system of the device for transosseous spinal osteosynthesis is removed , the wound is sutured and the operation ends there.

Using the proposed invention in comparison with the prototype will allow:
1. Perform a metered reposition of the vertebrae in all planes,
2. To carry out reliable fixation of the operated spine.

3. To simplify the device for transosseous osteosynthesis of the spine,
4. To exclude the use of complex additional structures to perform reposition of the vertebrae after the introduction of transosseous screws into the vertebral bodies.

 5. To exclude displacement of the vertebrae in the postoperative period.

 On the day of application for the proposed invention, a prototype device for percutaneous spinal osteosynthesis was developed and clinical testing was carried out.

Claims (1)

 Device for transosseous osteosynthesis of the spine, containing screws with heads having side grooves, external thread, central threaded holes and edge slots, rods, fixing nuts and central rods inserted into central threaded holes of screw heads, characterized in that it has transverse and longitudinal rods, couplings with holes, forming together with the central rods a reponent system of the spine, the side grooves in the screw heads are located at an acute angle to the axis of the screws, and their bases surface rods are formed as circular depressions and projections and the fastening nuts - with broad bases.

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