RU2217105C2 - Endoapparatus for repairing hip joint - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has rod having head, base having fastening members and rigid distance member with adjusting screw. One end of the adjusting screw is connected to rod head by means of monoaxial articulation member and the second end is movably connected to the base by means of biaxial articulation member mounted on the base allowing movement when using displacement mechanism of biaxial articulation member having screw mounted in threaded opening of base boss and means for fixing articulation position on the base. The biaxial articulation member is formed by bushing with connecting link mounted on free end of the screw and connected to an ears on the second end of the rigid distance member. EFFECT: reduced risk of traumatic complications; adjustability of articulation fissure in postoperative period. 3 cl, 4 dwg

Description

 The invention relates to medicine, namely to traumatology and orthopedics, and is intended for the surgical treatment of dysplastic and degenerative-dystrophic lesions of the hip joint.

 A known apparatus for the restoration of the hip joint containing a base with fastening elements, a rod with a head, a rigid spacer element with an adjusting screw, one end of which is connected by a biaxial hinge to the base and the other is a uniaxial hinge with a rod head, the biaxial hinge being formed in the boss hole base axis of rotation with an earring at the end, connected by means of the axis of the lead-cast with eyes at the end of the spacer element. The axis of rotation is fixed in the boss in the longitudinal direction by means of a pin interacting with the annular groove (SU, Auth. Certificate. 1835651, IPC A 61 F 2/32, 1987).

 The disadvantage of this design of the endoapparatus is the provision of regulation of the gap in the joint only along the axis of the spacer element.

 There is also known a device for the restoration of the hip joint, selected as the closest analogue, containing a rod with a head, a rigid spacer element with an adjusting screw, one end of which is connected by a uniaxial hinge to the head of the rod, a base made of two parts movable relative to the other, on one of of which fastening elements are placed, and the other is connected by a biaxial hinge to the second end of the spacer element, equipped with a mechanism for moving parts relative to one another, made in the form e screw installed in the threaded hole of one of the parts and interacting with the other part, and means for fixing the relative position of the parts (RU, patent 2085148, A 61 F 2/32, 94).

 In this endoapparatus, the base parts are connected by guides parallel to the axis of the screw of the movement mechanism, the screw is installed in the threaded hole of the base part, on which there is a biaxial hinge that interacts with the boss on the base part with fastening elements and is fixed in the axial direction relative to it, the biaxial hinge is provided with a spherical joint and, as a means for fixing the relative position of the base parts, additional screws are used, which fix the part with the biaxial hinge waving them into the ilium at the end of adjustment.

 The use of a spherical joint as a biaxial hinge does not provide constancy of the joint gap during the flexion-extension movement due to an excess degree of freedom, which is blocked only by the emphasis of the femoral head on the edges of the acetabulum. Fixing the relative position of the parts of the base with the help of additional screws entails excessive trauma of the installation, increases the time of the operation, and significantly limits the possibility of re-adjustment.

 When creating the invention, the task was to reduce the morbidity of the installation operation and postoperative regulation of the joint gap while maintaining its constancy during the movement of the extension-extension.

 The problem is solved by increasing the compactness of the design, which is ensured by the fact that in the endoapparatus containing a rod with a head, a base with fasteners, a rigid spacer element with an adjusting screw, one end of which is connected by a uniaxial joint to the head of the rod, and the second end is connected to the base a biaxial hinge mounted on the base with the possibility of movement by means of a mechanism for moving a biaxial hinge, including a screw installed in the boss of the base and means for fixing ation position biaxial hinge on the base, moving the screw biaxial hinge mechanism installed in the threaded hole of the lug base, and the biaxial hinge is formed is installed on the free end of the screw and axially fixed sleeve pierced associated axle lug at a second end rigid spacer element. Unlike the closest analogue, the function of the part of the base that carries the biaxial hinge and moves in guides to another part of the base is taken over by the screw of the mechanism for moving the biaxial hinge, the end of which is also part of the hinge, in addition, an extra degree of freedom is eliminated.

 By performing an annular groove at the end of the screw and positioning the axis with the possibility of interacting with it, an additional increase in the compactness of the structure is ensured by combining the functions of the hinge axis with the function of the axial retainer of the sleeve.

 The implementation of the means for fixing the position of the biaxial hinge on the base in the form of a locking screw located in the boss, provides fixation without additional injury when installing the endoapparatus and the least traumatic access during postoperative adjustment of the joint gap, if necessary.

 In FIG. 1 shows an endoapparatus for the restoration of a hip joint, in a section; figure 2 - base with a biaxial hinge, top view; figure 3 is a section along aa in figure 1; figure 4 is a section along BB in figure 1.

 The endo-apparatus for the restoration of the hip joint contains a femoral shaft 1 with a head 2, a rigid spacer 3 with an adjusting screw 4, screwed into the pin 5, the conical part in contact with the conical bore in the head 2 of the femoral rod 1. The conical nut 7 is screwed onto the threaded shank 6 of the pin 5, 7 locked by a screw 8 and included in a conical bore on the other side of the head 2.

 The head 2, in contact with the conical bores with the conical surfaces of the trunnion 5 and the nut 7, forms a uniaxial hinge with the spacer element 3, and the axis of the hole in the trunnion 5 for the adjusting screw 4 is directed at an acute angle to the axis of the hinge. The adjusting screw 4 is locked in the hole of the trunnion 5 with the lock nut 9. The end of the adjusting screw 4 is connected, on a conical surface, to the tip 10 and secured with a clamping screw 11 installed in the axial hole of the adjusting screw, in which, to prevent the screw from falling out, an annular stop 12 is installed The tip 10 with the eyes 13 covers the earring 14 of the sleeve 15 and is connected to it by the axis of the lead-lead 16. The sleeve 15 is mounted on the free end of the screw 17 installed in the threaded hole of the boss 18 of the base 19. Eye 13, axis 16, the earring 14, the sleeve 15 and the end of the screw 17 form a biaxial hinge, and the screw 17 with the boss 18 - the mechanism of its movement along the base 19. At the end of the screw 17, at the level of placement of the axis 16, an annular groove 20 is made, and the axis 16 is placed so so that the side surface enters the groove, performing the function of the axial retainer of the sleeve 15.

 The base 10 is equipped with fastening elements in the form of a protrusion 21 and screws 22. A locking screw 23 is installed in the threaded hole of the base boss 18, which interacts with the threaded part of the screw 17. The femoral shaft 1 is provided with a fixing plate 24, covering the faceted base of the head 2 with its groove and provided with screws 25.

 The endoapparatus is used as follows.

 First, the rod 1 is assembled complete with the pin 5, screwing it into the prepared hole in the femur through the base of the greater trochanter to the stop of the head 2 in its surface. Screw the adjusting screw 4 complete with the tightening screw 11 and the ring stop 12 into the hole of the pin 5 and screw the lock nut 9 onto it (without tightening), bring the assembled pelvic assembly and join the end of the screw 4 with the tip 10.

 By turning the adjusting screw 4, the base 19 is brought to the ilium and the hole for the protrusion 21 and the screws 22 are prepared in place, the protrusion 21 is inserted into the hole, the screws 22 are screwed. The rotation of the adjusting screw 4 and screw 17 establish the necessary clearance in the acetabulum. The position of the screw 17 is fixed by the locking screw 23, and the position of the adjusting screw 4 is fixed by tightening the clamping screw 11 and the lock nut 9. The femoral rod 1 is fixed by installing the fixing plate 24 on it and fixing it with screws 25.

 If during treatment it is required to introduce an adjustment of the clearance in the hip joint, a small incision is made against the corresponding screw and a correction is performed.

Claims (3)

1. An endoapparatus for restoration of the hip joint, comprising a rod with a head, a base with fastening elements, a rigid spacer element with an adjusting screw, one end of which is connected with a uniaxial joint to the head of the rod, and the other is connected to the base with a biaxial joint mounted on the base with the possibility of movement by a mechanism for moving a biaxial hinge, including a screw installed in the boss of the base, and means for fixing the position of the biaxial hinge on the base, characterized in that the screw a biaxial hinge moving mechanism is installed in the threaded hole of the base boss, and a biaxial hinge is formed by a sleeve mounted on the free end of the screw and axially fixed with an earring connected to the eyes of the second end of the rigid spacer element. 2. The endoapparatus according to claim 1, characterized in that an annular groove is made at the end of the screw of the biaxial hinge moving mechanism included in the sleeve, and the axis is arranged to interact with the groove. 3. The endoapple according to claim 1, characterized in that the means for fixing the position of the biaxial hinge on the base is made in the form of a locking screw located in the boss and interacting with the screw of the biaxial hinge moving mechanism.

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