RU190172U1 - PLATE FOR STONE OSTEOSYNTHESIS - Google Patents

Abstract

The utility model relates to medicine, namely to traumatology and orthopedics, and is intended for fixing fragments in case of fractures of tubular bones in two perpendicular planes. Plate for osteosynthesis with holes for holding screws and fixing fragments in two planes, characterized in that the plate made titanium VT-6, has a body, longitudinally bent at an angle of 90 ° and arranged in a checkerboard pattern, petals with two holes directed relative to each other at an angle of 90 °, one of them serves To set the cortical screws, and one for screws with angular stability.

Description

The invention relates to medicine, namely to traumatology and orthopedics, and is intended for fixation of fragments in case of fractures of tubular bones in two perpendicular planes.

A device for plate osteosynthesis, made in the form of a plate with a rectangular cross-section with holes for screws and grooves on the contact side with the bone side, while the notches are made double and arranged in alternation along the bone side. [1] The disadvantage is that the fixation of bone fragments with screws is carried out in the same plane. This degree of fixation does not allow the load on the limb in the postoperative period.

An adaptive plate is known for connecting bone fragments with hinges at the ends of branches of the same name, interconnected by a bridge with the possibility of deviation of the branches from the common plane both individually and jointly, with stops on the branches to limit the movement of the hinges, and holes for mounting screws on one branch is offset relative to similar holes on the other branch, the axes of the hinges are located on both sides of the longitudinal axis of symmetry of the branches and on the working planes of the branches oriented to along the surfaces of the bone are stiffeners on which there are protrusions; branches at both ends are equipped with hinges with jumpers. [2]

The disadvantage is that the fragments are fixed in two planes, but these planes cannot be perpendicular to each other, which makes this structure unloaded in the postoperative period.

A plate for osteosynthesis with holes for fixing screws is known, the plate has a wave-like profile with the formation of concave surfaces along its edges, and convex along the center, along which in areas adjacent to concave surfaces, there are longitudinal oval holes for fixing screws, and the angle formed by straight lines drawn from the apex of the convex surface and the apex of the concave surfaces is in the range of 115-120 ° [3].

The disadvantage is that the fixation of fragments with the help of this plate is performed in two planes, but these planes cannot be perpendicular to each other, which makes this structure unloaded in the postoperative period. This model is taken as a prototype.

The purpose of the utility model is to create a plate for bone osteosynthesis. This goal is achieved by the fact that a plate made of titanium VT-6 has a body, longitudinally bent at an angle of 90 ° and arranged in a staggered pattern, petals with two holes directed relative to each other at an angle of 90 °, one of which serves to installation cortical screws, and another for screws with angular stability.

VT-6 titanium alloy has the best corrosion resistance and resistance to stress. The use of titanium VT-6 for the use of submerged grafts is permitted by GOST 26492-85, GOST 27265-87, GOST 19807-91, international standards ISO TS 150 5832/2, ISO TS150 5832/3, ASTM 136-92. [four]

The longitudinal curvature of the plate body at an angle of 90 ° is necessary for the formation of a stiffener, which allows increasing the strength characteristics of the plate. The chess arrangement of the petals, directed relative to each other at an angle of 90 °, allows to hold the screws in the bone in two perpendicular planes relative to each other. Chess arrangement of petals eliminates the possibility of contact between the screws.

The shape of the plate provides a low degree of bone coverage at the time of osteosynthesis, which minimizes damage to its periosteum.

Fixing the plate on the bone in two perpendicular planes and having a body longitudinally bent at an angle of 90 °, forming a stiffener, according to our research, increases fixing strength by 2 times and reduces the metal fatigue factor by 2 times compared to standard plates for osteosynthesis fixed in the same plane. This fact suggests that the new plate for plate osteosynthesis is a loadable structure in the postoperative period.

The plate, made of titanium VT-6, has a body, longitudinally bent at an angle of 90 ° and arranged in a staggered manner, directed towards each other at an angle of 90 ° petals with two holes, one of which serves to install cortical screws, and the other for screws with angular stability.

The utility model is illustrated with graphic material. The figure 1 shows the diagram of the proposed plate, where its body 1, petals 2, holes 3 for the installation of cortical screws and holes 4 for the installation of screws with angular stability are indicated.

The use of the plate is illustrated in the clinical example. Patient K, 19 years old, was admitted to the Clinic of Samara State Medical University with a diagnosis of a closed fracture of the middle third of the left femur with displacement of fragments. The operation was performed - open reposition of fragments, plate osteosynthesis with the proposed plate. Intraoperatively, no complications arose when using a new plate fixator, a stable fixation of fragments and a plate on the bone in two perpendicular planes was carried out. Osteosynthesis is stable. Gypsum immobilization of the patient is not required.

In the postoperative period, the patient was allowed to exercise a load on the limb 50% of body weight, and after 3 weeks the full load on the limb. At the same time, the stability of osteosynthesis was preserved, and no fixation migration was observed. The patient was able to carry out his daily activities, study, 1.5 months after osteosynthesis of the femur. Control examination 12 weeks after surgery: the patient has no complaints, active movements in the joints of the left lower limb in full, on the R-gram of the left femur in the middle third in 2 projections marked consolidation of bone fragments.

Plate for plate osteosynthesis can be used in trauma and orthopedic hospitals.

Information sources:

1) Patent of the Russian Federation No. 2093100 "Device for plate osteosynthesis", authors: E. Zverev, A. Degtyarev

2) Patent RF №2218123 "Adaptive plate for joining bone fragments", author: V. Soloviev

3) Patent of the Russian Federation No. 2205610 "Device for plate osteosynthesis", authors: A. Khabarov, M. Khabarov

4) Karpov A.V., Shakhov V.P. “External fixation systems and regulatory mechanisms of optimal biomechanics”

Claims (1)

A plate for plate osteosynthesis, which has openings for holding screws and fixing fragments in two planes, characterized in that the plate made of titanium VT-6 has a body longitudinally bent at an angle of 90 ° and arranged in a staggered pattern with respect to each other to a friend at an angle of 90 ° petals with two holes, one of which serves to install the cortical screws, and the other for screws with angular stability.

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