RU70785U1 - DEVICE FOR OSTEOSYNTHESIS OF CERVICAL, HELICOPTER AND PREPARATIVE FEMORAL FRACTURES - Google Patents

Abstract

The utility model relates to medical equipment, namely to traumatology and orthopedics. The task to which the claimed utility model is directed is to increase the reliability and rotational stability of the device, to create the possibility of fixing fragments in various angular positions, as well as to change the position of the device relative to bone fragments and to regulate the depth of immersion of the rod in the neck and femoral head. The device (Fig. 1) for osteosynthesis of cervical, trochanteric and subrochanteric fractures of the femur 1 contains a diaphyseal pad 2, one side of which is made in the form of a cam 3, pivotally connected using an eccentric axis of rotation, which is screw 4, with a threaded rod 5, and the other has a number of holes 6. In the cam 3 of the diaphyseal pad 2, a slot 7 is made (Fig. 2). Both parts 8 and 9 of the cam 3 have, respectively, coaxial holes 10 and 11, arranged circumferentially on the same established radius R relative to the eccentric axis of rotation (screw) 4 of the rod 5 (Fig. 3), on the tail part 12 of which parallel flats 13 are made with holes 14. In this case, the distance L between the holes 14 is equal to the established radius R, and the diameter d _{1 is} threaded 15 and the diameter d _{2 of the} tail 12 parts exceeds the diameter d _{3 of} its middle part 16. The length L _{1 of the} threaded part 15 is less than the diameter d _{4 of the} head 17 the femur 1, and the diaphyseal lining 2 has a different length L _2. The total supporting area of both parts 8 and 9 of the cam 3 is selected so as to minimize the bursting of the underlying portion of the femur 1. The tail portion 12 of the threaded rod 5 is provided with bevels 18 associated with its middle part 16, and the holes 11 on the part 9 of the cam 3 are threaded 19. The threaded rod 5 is fixed in position with a screw 20, and the side with the holes 6 of the diaphyseal plate 2 is fixed with screws 21. 1 n.p. 5 wp f-ly, 3 pic.

Description

The utility model relates to medical equipment, namely to traumatology and orthopedics.

A known set for the osteosynthesis of fractures of the neck of the femur (thigh) and transverse fractures, including a plate with the installation of the blade at an angle of 130 °, a length of 72-104 mm, mainly with 4-6 holes for cortical screws of attachment and special tools containing, as rule: goniometer for determining the direction of introduction of the blade, punch, slotted hammer, guide, etc. (Traumatology and orthopedics: A guide for doctors. T.1. Edited by Yu.G. Shaposhnikov. - M .: Medicine, 1997, p. 487).

The disadvantages of this set are unchangeable, rigidly defined cervical-diaphyseal angle; the inability to create compression between fragments; insufficient structural strength; the complexity of implantation of the structure with a given angle of the position of the blade and the diaphyseal part of the plate in accordance with the position of the axis of the neck and the position of the cortical layer of the femoral diaphysis.

There is also known a device for osteosynthesis of cervical and trochanteric fractures of the thigh, containing a length-adjustable rod with an axial hole for the spoke and a thread at both ends, a tension element extended outside the bone tissue, a curved bar with holes for the mounting screws and a hole for the rod (USSR copyright certificate No. 363482, class А61В 17/58, 17/18, published on December 25, 72, Bull. No. 4 for 1973)

The disadvantages of this device include the invariance of the cervical-diaphyseal angle; inconvenience of compression of fragments with a nut placed in the groove of the lining; the output of the connection node and the shank of the rod

a significant distance from the cortical layer into soft tissues and even under the skin.

Closest to the proposed utility model in its technical essence is a device for arthrodesis of the hip joint containing a diaphyseal pad, one side (proximal end) of which is made in the form of a cam articulated using an eccentric axis with a threaded rod, and the other side (body of the pad) has a number of holes for attaching it to the diaphysis with cortical screws (USSR copyright certificate No. 1284538, class A61B 17/58. Publ. 23.01.87, Bull. No. 3).

However, this device has the following disadvantages: a fixed length of the threaded rod, which does not allow you to adjust the depth of its immersion in the neck and femoral head when the proximal part is damaged; the cam supporting part, limited in area, requires an additional part, for example, a plate, to prevent the bone from being pressed through; there is no possibility of fixing the angle between the neck and diaphysis of the thigh in various positions.

The task to which the claimed utility model is directed is to increase the reliability and rotational stability of the device, to create the possibility of fixing fragments in various angular positions, as well as changing the position of the device relative to bone fragments and regulating the depth of immersion of the rod in the neck and femoral head.

This object is achieved in that in a device containing a diaphyseal pad, one side of which is made in the form of a cam pivotally connected using a rotation axis with a threaded rod, and the other has a number of holes, a slot is made in the cam, both parts of the cam have coaxial holes, located around a circle on the same established radius relative to the eccentric axis of rotation of the rod, on the tail of which parallel

flats with holes. Moreover, the distance between these holes is equal to the established radius, and the diameter of the threaded and tail parts of the rod exceeds the diameter of its middle part. Moreover, the length of the threaded part is less than the diameter of the femoral head, and the diaphyseal pad has a different length. The common supporting part of both parts of the cam is selected with the possibility of minimizing the bursting of the underlying portion of the bone. The tail of the rod is equipped with bevels associated with its middle part. The holes on one of the parts of the cam are threaded.

The presence of a slit in the cam diaphyseal plate allows you to reliably install a threaded rod in it, eliminating its rotation and lateral deviations.

Coaxial holes on both parts of the cam, located around a circle on the same established radius relative to the eccentric axis of rotation of the rod, allow you to fix fragments in several, for example, in three different angular positions, change the position of the structure relative to bone fragments, and also change the depth of immersion of the rod in neck and femoral head.

And the execution of parallel flats on the tail of the rod from opposite sides of the rod serves to eliminate the rotation of the device, contributing to its rotational stability and for the possibility of using a rotating tool, for example, a socket wrench.

Holes made on the flats, the distance between which is equal to the established radius, makes it possible to move the rod in the fork of the lining cams along the axis of the neck and femoral head, i.e. also make the rod adjustable in depth of immersion in the bone.

The choice of the diameter of the threaded part of the rod more than the diameter of its middle part allows for a more durable insertion of the threaded part into the femoral head, increases the safety of the bone structure of the femoral neck by placing a smaller diameter in the body of the thigh, which is an optimization factor for fracture consolidation conditions.

The larger, relative to the middle part of the rod, diameter of the tail of the rod allows you to get a sufficient area of the flats necessary for the location of the mating holes and holes for the eccentric axis of rotation, which increases the reliability of the device.

The choice of the total supporting area of both parts of the cam with the possibility of minimizing the bursting of the underlying spongy portion of the undertrochanteric zone of the femur prevents the release of stress compressing fragments, which also optimizes the conditions for fracture consolidation.

The different length of the diaphyseal lining makes the device universal, allowing you to record fractures of the subtrochanteric localization as well.

The presence of bevels conjugated with its middle part on the tail of the rod forms a smooth transition of the middle part to a larger shank diameter, facilitates the partial immersion, if necessary, of the shank in the bone tissue, reducing its injury.

The threaded holes on one of the parts of the cam serve to fix the threaded rod with a screw in the desired position.

The technical result is to optimize the conditions for the consolidation of the fracture and reduce trauma.

Figure 1 schematically shows a General view of the device, figure 2 - diaphyseal plate, and figure 3 - a threaded rod.

The device (Fig. 1) for osteosynthesis of cervical, trochanteric and subrochanteric fractures of the femur 1 contains a diaphyseal pad 2, one side of which is made in the form of a cam 3, pivotally connected using an eccentric axis of rotation, which is screw 4, with a threaded rod 5, and the other has a number of holes 6. In the cam 3 of the diaphyseal pad 2, a slot 7 is made (Fig. 2). Both parts 8 and 9 of the cam 3 have, respectively, coaxial holes 10 and 11, located around the circumference on the same established radius R relative to

the eccentric axis of rotation (screw) 4 of the rod 5 (figure 3), on the tail part 12 of which are parallel flats 13 with holes 14. Moreover, the distance L between the holes 14 is equal to the set radius R, and the diameter d _{1 is} threaded 15 and the diameter d ₂ the tail part 12 exceeds the diameter d _{3 of} its middle part 16. The length L _{1 of the} threaded part 15 is less than the diameter d _{4 of the} head 17 of the femur 1, and the diaphyseal pad 2 has a different length L ₂ . The total supporting area of both parts 8 and 9 of the cam 3 is selected so as to minimize the bursting of the underlying portion of the femur 1. The tail portion 12 of the threaded rod 5 is provided with bevels 18 associated with its middle part 16, and the holes 11 on the part 9 of the cam 3 are threaded 19. The threaded rod 5 is mounted in a predetermined position by means of a screw 20, and the side with the holes 6 of the diaphyseal plate 2 is mounted by means of screws 21.

A device for osteosynthesis of cervical, trochanteric and undertrochanteric hip fractures is used as follows.

Under anesthesia or spinal anesthesia on the orthopedic table, a preliminary closed reposition of proximal fragments (not indicated) of the thigh 1 is carried out and the limb is fixed in the internal rotation position. Then carry out a two-projection radiography in order to control the achieved comparison of fragments. Then, under aseptic conditions, an incision of 10-12 cm is made along the outer surface of the thigh 1 in the projection of the undertrochanteric zone (not indicated), making access to the cortical layer of the undertrochanteric zone (not marked) of the damaged femur 1. Enter 22 thighs in this section into the neck 1 Kirschner needle (not shown) and repeat x-ray. Given the fixed position of the spokes, the insertion direction of the threaded rod 5 is adjusted and a channel (not shown) is drilled in the neck 22 and head 17 of the femur 1 parallel to the axis above the Adams arch, the diameter of which is equal to the diameter of the middle part 16 of the threaded rod 5, the tail part 12 of which is located in

the slots 7 between the parts 8 and 9 of the cam 3. Then, the corresponding length of the threaded rod 5 is inserted into the drilled channel with a special socket wrench with the threaded part 15 immersed in the head 17 of the femur 1 to the subchondral layer (not indicated). While the flats 13, made on the tail portion 12 of the threaded rod 5, are placed in the frontal plane. The diaphyseal pad 2 is connected to the tail portion 12 of the threaded rod 5 with a screw 4 and the cam 3 is positioned so that the eccentric axis, which is the screw 4, is facing the cortical layer of the thigh 1, and the diaphyseal pad 2, having a number of holes 6, is facing cranially. Then it is rotated in the distal direction until it fits to the diaphysis of the thigh 1 and through holes 6, with the help of screws 21, is fixed on the cortical layer of the diaphysis. In this case, the cam 3, abutting against the cortical layer of the undertrochanteric zone of the femur 1, creates a compression of fragments of the neck 22, head 17 or trochanteric zone (not indicated) of the femur 1. The reached position is fixed by a screw 20 inserted through one of the holes 10, then through the hole 14 into a coaxial hole 10, a hole 11 having a thread 19. In this way, the position of the fragments and the cervical-diaphyseal angle are fixed. After which the operation ends with suturing the wound.

Claims (6)

1. A device for osteosynthesis of cervical, trochanteric and undertrochanteric fractures of the femur, containing a diaphyseal pad, one side of which is made in the form of a cam pivotally connected using an eccentric axis of rotation with a threaded rod, and the other side has a series of holes, characterized in that in the cam of the diaphyseal pad, a slot is made, both parts of the cam have coaxial holes located around a circle on the same, established radius relative to the eccentric axis of rotation of the rod, on the tail part whose parallel flats are made with holes, while the distance between these holes is equal to the established radius, and the diameter of the threaded and tail parts of the rod exceeds the diameter of its middle part. 2. The device according to claim 1, characterized in that the length of the threaded part is less than the diameter of the femoral head. 3. The device according to claim 1, characterized in that the diaphyseal pad has a different length. 4. The device according to claim 1, characterized in that the total supporting area of both parts of the cam is selected with the possibility of minimizing the bursting of the underlying portion of the bone. 5. The device according to claim 1, characterized in that the tail of the rod is provided with bevels associated with its middle part. 6. The device according to claim 1, characterized in that the holes on one of the parts of the cam are threaded.