SU1156674A1 - Fixative for osteosynthesis of the femur neck - Google Patents

Abstract

The fixator for osteosynthesis of the neck of the femoral bone, having a threaded cylindrical body, in which a rod is installed with the possibility of longitudinal movement, sliding bars with a sliding mechanism. including an adjusting screw and fastening elements, characterized in that, in order to ensure constant compression between the bone fragments and to reduce trauma when removing the retainer, the sliding bars are installed in the holes of the housing in mutually perpendicular planes and connected to the hinges, the sliding mechanism made in the form of a spring-loaded gripper attached to the end of the rod and an adjusting screw in contact with the protrusion, and in the housing there is a compression spring in contact with the extreme p sliding slats.

Description

The invention relates to medical technology, more specifically to traumatology and orthopedics.

A known fixture for osteosynthesis of the femoral neck, comprising a round stem with a sliding end, associated with a plate made in the form of a bifurcated band with holes, the plate is provided with adjusting screws and fastening elements 1.

However, this fixative does not provide a constant compression between the bone fragments, and also injures the bone tissue very much during its removal, since irregularities of its surface are overgrown with bone tissue, as a result of which the fixator must be knocked out of the bone.

Also known is a clamp for osteosynthesis of the femoral neck, which has a threaded cylindrical body in which a rod is installed with longitudinal movement, sliding bars with a sliding mechanism, including an adjusting screw and fastening elements 2. The disadvantages of the known fixator are that they do not provide permanent compression between the bone fragments, as well as excessively injure bone tissue during its removal.

The purpose of the invention is to provide a constant compression between the bone fragments and to reduce trauma when removing the fixative.

The goal is achieved by the fact that in the femoral neck osteosynthesis clamp, having a threaded cylindrical body in which a rod is longitudinally displaced, sliding bars with a sliding mechanism including an adjusting screw and fastening elements, sliding bars are installed in the body openings mutually perpendicular planes and are connected with the rod pivotally, the expansion mechanism is made in the form of a spring-loaded grip fixed on the end of the rod and contacting with the protrusion of the adjusting screw, and in the case there is a compression spring in contact with the extreme sliding bars.

FIG. 1 shows a fixator for osteosynthesis of the femoral neck, mounted in the working position on the thigh; in fig. 2 - locking device in the pre-working position, general view in section.

The retainer consists of a threaded cylindrical body 1 with holes 2. A plug 3 is screwed into the upper part of the body 1. A compression spring 4 is placed under the plug 3. A bar 5 of square section is installed along the axis of the housing 1 with the ability to move up and down freely. On both sides

the square rod 5 is hingedly mounted with a pointed sliding bars 6-9, the bars 6 and 7 being in the same plane, and bars 8 and 9 in mutually perpendicular. The slats 6-9 have the ability to rotate around the axes 10 fixed on the square rod 5. In the off position, the slats 6-9 occupy an inclined arrangement (Fig. 2). Their pointed ends are inserted into longitudinal, rectangular grooves 11, made on the case 1 of the retainer, and the sliding bars 6-9 in this position do not protrude beyond its limits. An adjusting screw 12 is screwed into the threaded cylindrical body 1, the tip of which ends with a cone-shaped protrusion 13. The lower end of the square rod 5 ends with a spring-loaded clamp 14 fixed to the rod 5. A cone-shaped protrusion 13 can penetrate into the spring-loaded clamp 14, which together with the spring-loaded clamp 14 and adjusting screw 12 form a sliding mechanism. Through holes 15 are made in housing 1 and screw 12, which are closed with screws 16. Outside the threaded housing 1 a washer 17, nut 18 and locknut 19 are put on. The femur where the retainer is inserted is indicated by the numeral 20.

The latch is used as follows.

After successful reposition of the bone fragments and incision of soft tissues, a channel is drilled under the body 1, which passes through the neck, fracture line and the head of the thigh. A retainer is inserted into the drilled channel until it stops. After that, the adjusting screw 12 is screwed in with a screwdriver, pressing in on the lock. Raising upward, the cone-shaped protrusion 13 falls into the spring-loaded clamp 14. Continuing to rotate

0, the screw 12, the protrusion 11 raises the rod 5 upward and causes the sliding strips 6-9 to straighten out. From the inclined position of the strap 6-9, they occupy a straight position, perpendicular to the axis of the housing 1, and their ends extend beyond the limits of the housing 1 and

 crashing into fragments. FIG. 2 shows the bars 6-9 in a non-working inclined position; FIG. 1 - the same slats in the working position. Thereafter, a washer 17, a nut 18 and a lock nut 19, which secure the fixer to the bone, are put on the body 1, bringing the fragments together. Then the screw 12 is unscrewed for several turns (2-3), and then the compression spring 4 begins to act, creating a constant compression of the fragments.

5 During the operation, after its termination and when the fixer is removed, through the openings 15 into the cavity of the housing 1, and through it, various drugs can be injected into the bone tissue, the fracture zone and the joint cavity, after which the openings 15 are closed with screws 16.

When the retainer is removed with a screwdriver, the screw 12 is unscrewed, which does not have a rod 5 behind it. The bars 6-9 return to their original position and the retainer is easily removed, for which a minimum cut is used.

Fixation of fragments diverging in two mutually perpendicular planes of strips 6-9 on both sides of the fracture line and the placement of these strips along the whole of fixture body 1 ensures their reliable fixation and eliminates all possible types of fragment displacement.

The design of the retainer allows you to create a constant compression of the fragments, which ensures the fracture fusion at the optimum time.

The presence of perforated openings 2 on the fixer body 1 and in the adjusting screw 12 of the openings 15 allows for the introduction of various drugs into the bone, fracture zone and joint cavity during surgery, after it ends and when removing the fixture after the fracture has become fractured. This makes it possible to conduct effective anesthesia, radiopaque studies, prevention of suppuration when imbibing the bone with antibiotics, monitor the quality of the osteosynthesis performed and the fracture of the fracture.

Claims (1)

LOCK FOR OSTEOSYNTHESIS OF THE FEMORAL NECK, having a threaded cylindrical body in which · with the possibility of longitudinal movement a rod, sliding slats with a sliding mechanism including an adjustment screw and fastening elements, characterized in that, in order to provide a permanent compression between bone fragments and to reduce injuries when the latch is removed, the sliding strips are installed in the openings of the housing in mutually perpendicular planes and are connected to the rod pivotally, the sliding mechanism is made in the form of a spring-loaded gripper mounted on the end of the rod and in contact with the protrusion of the adjusting screw, and a compression spring is placed in the housing in contact with the extreme sliding strips. Qui. 1