RU2217091C2 - Device for performing osteosynthesis - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has screw and expansion bolt manufactured from fetal bone. The expansion bolt has longitudinal canal transformed into longitudinal slit in the distal part. Transverse ribs are made on the external surface to produce better conditions for fixing expansion bolt in the bone tissue. EFFECT: reliable bone fragment fixation; highly differentiated regenerate formation. 2 dwg

Description

 The invention relates to medicine, namely to traumatology and orthopedics, and is intended for fixation of bone fragments.

 A known method of osteosynthesis of the femoral neck and a device for its implementation, which consists in the fact that after reposition and fixation of the fragments by a pin after inserting the pin into the neck and femoral head under pressure through the axial channel of the pin, a pasty biologically active substance is introduced, for example, crushed brefosteomatrix filling the area between fragments of the femur through the through holes made on all three faces of the pin between its blades (patent of the Russian Federation 2076647).

 The disadvantages of this method are its applicability only to the neck of the thigh, a decrease in the strength of the metal structure due to drilling, the lack of mechanical strength of the introduced biologically active substance, for example, crushed brematomatrix.

 The closest adopted for the prototype is a device for osteosynthesis, containing a screw and a sleeve made of synthetic material with a stepped longitudinal hole, while the diameters of its extreme steps are equal to and smaller than the outer diameter of the screw thread, and the diameter of the middle step of the hole of the sleeve is smaller than the inner diameter of the thread screws, and the ribs are made longitudinal. In order to ensure x-ray control, the sleeve is made with a metal coating from the outside (patent of the Russian Federation 1591799). The disadvantages of the known device are the massiveness of the introduced implant, requiring mandatory subsequent removal, the danger of developing metallosis, a decrease in structural strength due to bone resorption around the synthetic material and the formation of diastasis between the implant and the bone.

 The aim of the invention is to simplify the device for osteosynthesis of fractures without increasing the time of the operation and its trauma, increasing the temporal characteristics of the mechanical reliability of fixation of fragments, combining the function of the retainer with the properties of a biological one-piece, mechanically strong, structurally organized framework for reparative regeneration around the implant, the universality of application during fixation in any parts of the bone.

 Figure 1 shows a device for osteosynthesis in the analysis, figure 2 is the same in the working position.

 The device for osteosynthesis consists of a metal screw 1 and a dowel 2 made of brefosti. The dowel is made with a longitudinal channel 3, where a screw is screwed, passing in the distal section into a longitudinal slot 4. The diameter of the channel is slightly less than the diameter of the external thread of the screw. Therefore, the screw is easily screwed into the dowel channel, crashing into the walls. Having plunged into the channel, which ended and goes into the slot, with further screwing it begins to push the dowel halves in the plane perpendicular to the axis of the screw advancement to the diametrically opposite sides, due to which the dowel is firmly fixed in the bone tissue. For better fixation of the dowel in the bone on the outer surface, transverse ribs are provided 5. In the process of treating the fracture, along with the mechanical fixation of the fragments, conditions are created for the formation of a highly differentiated regenerate by integrating the dowel made from brefost into the structure of the patient’s bone tissue. The likelihood of weakening the fixation force of the implant due to lysis of the bone around the metal is reduced, because living bone tissue does not come into direct contact with the metal at the time of insertion and the beginning of fixation. Thus, mechanically reliable fixation of the bone by the implant is carried out, combining the fixation function with the properties of a biologically integral, mechanically strong, structurally organized framework for reparative regeneration around the implant.

 The device is used as follows.

 A channel is drilled into the bone into which the dowel is inserted. A screw is screwed into the dowel channel. As the screw is screwed into the distal part of the dowel, its parts diverge due to a slot in the plane perpendicular to the axis of advancement of the screw and are fixed in the fabric. If necessary, a washer or plate is placed under the screw head. As a result of close contact of the expansion bolt tissue of the dowel, which is a solid, mechanically strong, structurally organized framework, a regenerate adequate to the surrounding bone tissue, integrated into the recipient's tissue, develops with the bone tissue. Subsequently, the dowel does not require removal, only the screw is removed.

Claims (1)

A device for osteosynthesis containing a screw with a dowel, characterized in that the dowel is made of brefosti, has transverse ribs on the outer surface, a longitudinal slot in the distal section.

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