RU21510U1 - DEVICE FOR OSTEOSYNTHESIS OF THE PROXIMAL FEM DEPARTMENT - Google Patents

Abstract

1. A device for osteosynthesis of the proximal femur containing a screw shaft, a diaphyseal pad with a hole for a screw-shaft, holes for screws to fix the diaphyseal lining on the bone, characterized in that, along with holes for fixing and diaphyseal lining, it is made at least one hole for inputting a microminiature radiation unit. 2. The device according to claim 1, characterized in that the microminiature radiation unit in it consists of an autonomous power source, a regeneration radiation source, a timer with sensors: radiation duration and number of sessions. The device according to claim 1, characterized in that the number of holes for microminiature radiation units depends on the length of the bone to be treated.

Description

Device for osteosynthesis of the proximal femur

The utility model relates to medicine, namely to traumatology and orthopedics, and is intended for osteosynthesis of fractures of the proximal femur and stimulation of osteogenesis in this area.

A device is known for osteosynthesis of the proximal end of the femur (US Patent No. 4465065, MKI A 61 F, 1984), comprising a shaft — a screw, a diaphyseal pad with a hole for the shaft — a screw, and a cavity having a cylindrical surface whose axis is parallel to the axis of the hole. A removable conductor is installed on the diaphysis pad, in the channels of which replaceable bushings are placed. The axes of the channels of the condz kgor are parallel and coaxial with the axes of the hole and the cylindrical cavity.

However, when holding the rod-screw into the head, its rotation and diametrical displacement are possible, moreover, the design does not provide compression and firm fixation in the fracture zone during treatment.

Closest to the claimed fifth utility model is a device for osteosynthesis of the proximal end of the femur (RF Patent No. 2074669, MKI A 61 V, publ. 10.03.97. BI No. 7), containing a screw rod and a diaphyseal pad with a hole for the rod - a screw and a cavity having a cylindrical surface, the axis of which is parallel to the axis of the hole, a removable conductor mounted on the diaphysis plate with channels for the removable bushings, the axes of which are parallel and coaxial to the axes of the hole and the cylindrical cavity, interchangeable in the removable conductor cores, while a cavity with a cylindrical surface is made in the form of a crawling cylindrical trough for a removable sleeve. Using the device, compression of fragments of the proximal end of the femur is performed and stable osteosynthesis at the fracture site is ensured.

A disadvantage of the known device for osteosynthesis of the proximal end of the femur is that it provides only the stability of the bone fragments without accelerating their fusion, which remains long - from 12 to 18 months.

The objective of the utility model is to accelerate bone fusion of the proximal femur and reduce surgical intervention.

IDVSPPIP. ;

IPC: A 61 V

The diaphyural adjustment section on the bone contains at least one hole for the insertion of the microminiature block.

In addition, the microminiature radiation unit in the device consists of an autonomous power source, a regeneration radiation source, a timer with sensors: radiation duration and number of sessions.

In addition, the number of holes for microminiature radiation blocks in the device depends on the length of the bone to be treated.

The inventive utility model is illustrated with the help of figures, where Fig. 1 shows a general view of a device for osteosynthesis of the proximal femur with an installed shaft - a screw and a microminiature radiation unit: Fig. 2 is a general view of the microminiature radiation unit.

The device in figure 1 contains a rod - a screw 1, a diaphysis pad 2, a hole for a rod - a screw 3, a nut for fixing the rod - a screw 4, holes for fixing on a bone 5, screws for holes for fixing on a bone 6, holes for placement in of them microminiature radiation units 7, microminiature radiation units 8. FIG. 2 shows a general view of a microminiature radiation unit 8 having an autonomous power supply 9, a regeneration radiation source 10, a timer 11 with a sensor 12: radiation duration and number of sessions.

The utility model works as follows.

The operation is performed in the position of the patient on the back. Access is external lateral. After dissection of the skin and soft tissues, the lateral surface of the greater trochanter and the proximal end and femoral head are exposed. After comparing the proximal end and the femoral head, the diaphyseal plate is attached with 2 screws 6 to the outer surface of the femur. A screw 1 is inserted into the femoral head. A nut 4 is screwed onto the end of the rod – screw 1. Microminiature radiation blocks 7 are inserted into the holes 7 of the diaphyseal plate 2 . After resolving the position of the fragments, layered wound closure is performed.

Emitting microminiature radiation units begin to work immediately after surgery for 5 minutes for 10 days. After the end of operation, the microminiature radiation blocks are switched off by means of a timer and they are removed together with the device after the fracture is fused.

scrap of the right femur. During the operation and in the postoperative period, the claimed utility model was used.

Fracture consolidation occurred 8 months after surgery. This is 1.5 times faster than in the traditional course of the fusion process. The design was removed 14 months after surgery. The patient freely controls the limb, walks with support on it, movements in the hip joint - in full, there are no pains in the joint.

The medical and social effect of the claimed utility model is that it is simple to manufacture and efficient to operate, while the installation and removal of the emitting blocks is atraumatic and painless for the patient, which helps to reduce the time of his treatment and its quickest rehabilitation.

Claims (3)

1. A device for osteosynthesis of the proximal femur containing a screw shaft, a diaphyseal pad with a hole for a screw-shaft, holes for screws to fix the diaphyseal lining on the bone, characterized in that, along with holes for fixing and diaphyseal lining, it is made at least one hole for input of a microminiature radiation unit.  2. The device according to claim 1, characterized in that the microminiature radiation unit in it consists of an autonomous power source, a regeneration radiation source, a timer with sensors: radiation duration and number of sessions. 3. The device according to claim 1, characterized in that the number of holes for microminiature radiation blocks depends on the length of the bone to be treated.