RU118544U1 - SELF-LOCKED BRACKET - Google Patents

Abstract

1. A lamellar self-fixing bracket made of titanium nickelide with a shape memory effect, containing an extraosseous body with counter-curved legs for intraosseous fixation, characterized in that the extraosseous body is made in the form of an elongated X-shaped plate with extraal branches ending in legs, with an internal bend angle not more than 70 °. ! 2. The lamellar self-fixing bracket according to claim 1, characterized in that the bone body with branches has perforations for screws. ! 3. A lamellar self-fixing bracket according to claim 1, characterized in that the bone body can be curved. ! 4. A lamellar self-fixing bracket according to claim 1, characterized in that the extra-bone branches can have different lengths. ! 5. A lamellar self-fixing bracket according to claim 1, characterized in that the branches can have an angle of deviation from the plane of the plate.

Description

The utility model relates to medicine, namely to maxillofacial surgery and can be used for osteosynthesis of the bones of the facial skeleton.

After osteosynthesis of the bones of the facial skeleton with bone plates as a result of migration from the cancellous bone of the mini-screws that fix the plate, mobility of bone fragments occurs up to the formation of a false joint. In addition, the technique of bone osteosynthesis often does not allow the use of intraoral access.

To eliminate these drawbacks, elastic titanium plates were developed containing screw holes along the entire surface of the plate, which may have a rectangular, cross-shaped, arc-shaped, triangular shape (RF patent for utility model No. 77539, А61В 17/00, 09/26/2007). An advantage of the plate for maxillofacial surgery is the ability to choose the shape of the plate adapted to the nature of the fracture and the localization of the fracture. For more reliable fixation of the plate with screws, use bone sections with pronounced cortical plates, sufficient volume and density of the trabecular bone. The disadvantage of the plates for maxillofacial surgery is the need to install a significant number of screws, which significantly increases the time and injuries of the operation at the stages of both installation and removal of the plate. Unscrewing screws from osteoporotic bone is not excluded. No compression is created between the bone fragments.

Known osseous mini-plate for osteosynthesis of condylar fractures of the mandible (patent of the Russian Federation for utility model No. 74558, A61B 17/58, 03/17/2008). The plate has holes for screws, at one end of the plate there is an intraosseous element in the form of a hook bent at an angle of 90 ° with respect to the plate. After installing the intraosseous hook in one of the bone fragments, it becomes possible to create simultaneous compression by drawing bone fragments closer by pulling the plate. Compression between bone fragments is linear in nature and does not extend to the entire area of abutted surfaces of bone fragments, in addition, as a result of bone resorption between adjacent bone fragments, diastasis appears, which can cause the formation of a false joint, plate mobility, and migration of screws.

The closest to the claimed device can be considered an osteosynthesis device (RF patent No. 2307615, АВВ 17/68, November 30, 2005) made of titanium nickelide wire with a shape memory effect twisted into a bundle in such a way that the ends of the wire are opposite apart in the bone part of the device forming a ring-shaped extension, the end parts of the device are counter-bent at an angle of 100-120 °, forming intraosseous legs. The advantage of the device is the self-fixation of the legs in the bone. Due to the implementation of the shape memory effect, a constant uniform interfragmental compression is maintained until bone fragments are fused.

The disadvantage of the device for osteosynthesis is the linear nature of the compression directed along the axis of the legs, which limits the use of the device for comminuted fractures. The rectilinear shape of the osseous back of the device for osteosynthesis also limits the ability to perform osteosynthesis in fractures of the bones of the facial skeleton having a complex surface topography.

The objective of the utility model is to create fixing plate legs located at least in two planes, to create the shape of the osseous back, adapted to the complex relief of the bones of the middle zone of the facial skeleton and the comminuted nature of the lesions, providing the possibility of additional fixation of intermediate bone fragments with screws.

This problem is achieved by the fact that in a self-locking plate bracket made of titanium nickelide with a shape memory effect containing a bony body with counter-curved legs for intraosseous fixation, the bone body is made in the form of an elongated X-shaped plate with bone branches ending in legs with an internal bend angle no more than 70 °.

Bone body with branches has perforations for screws. The bone body may be arched. Bone branches can have different lengths. Branches may have an angle of deviation from the plane of the plate.

Description of the utility model is illustrated by drawings.

Figure 1 presents the bracket with a rectilinear osseous body, figure 2 with a curved body, figure 3 with a rectilinear body and branches of different lengths, figure 4 with a curved body and branches of different lengths.

The self-locking plate bracket is made of a 1.0 mm thick plate with a shape memory effect in the form of an X-shaped figure containing the plate body 1 and four branches 2, perforations for screws 3. From both ends, the plate body goes into two diagonally diverging branches 2 ending in legs 4, with an internal bend angle of not more than 70 ° with respect to the plane of the plate to prevent the legs from falling out of the bone. The branches of the plate can have different lengths and are located in the same plane with the body of the plate and at an angle. The body of the plate can be rectilinear (figure 1, figure 3) or curved at different angles (figure 2, figure 4).

The novelty of the utility model:

1. The plate bracket has 4 self-locking intraosseous legs located in two planes.

2. The body of the osseous back of the plate bracket and its diagonally located 4 branches have holes for screws.

3. The body of the plate may be straight and curved.

4. The branches of the plate can be symmetric or asymmetric, ie have different lengths.

5. The branches of the plate bracket may be in the same plane with the body of the plate or have a different angle of deviation from the plane of the plate.

The implementation of the plate self-locking staples taking into account the anatomical features of the middle zone of the facial skeleton allows you to maximize adapt the plate tightening bracket at the place of its installation. The presence of screw holes allows for additional fixation of intermediate bone fragments. Self-locking intraosseous legs exclude plate mobility, screw migration. In the process of rapprochement of the legs during shaping, compression of bone fragments is carried out.

The self-locking plate bracket is installed as follows.

In oblique or comminuted fractures of the lower jaw, a bracket with a rectilinear back is selected. After an open reposition at an equal distance from the fracture plane, the staples form channels under the intraosseous legs of the staple. When cooling -5 ÷ -10 ° C, the legs of the bracket are bent at an angle of 90 ° relative to the back and installed in the prepared channels. In the process of form restoration, the legs take their initial position, bringing together bone fragments throughout the fracture. If necessary, intermediate bone fragments are fixed with screws. Osteosynthesis in fractures of the zygomatic orbital complex is performed from the oral cavity. After the reposition, taking into account the features of the relief of the middle zone of the face and the nature of the fracture, a plate bracket is selected that is most appropriate to the anatomical features of the lesion area and the nature of the fracture. Optimal is an asymmetric plate bracket with branches of various lengths installed at an angle. After installing the legs of the plate bracket in the zygomatic bone and maxillary, additional fixation with screws is performed.

Example 1. In patient C., 23 years old, with an oblique fracture of the body of the lower jaw on the right, a plate self-fixing bracket was used for osteosynthesis (Fig. 5). Open reduction and osteosynthesis are made from intraoral access. Bone fragments are additionally fixed with two screws. The osteosynthesis is durable, there was no need for splinting. On examination, 2 months after surgery, bone fragments fused together in an anatomically correct position. The movements of the lower jaw, chewing function are not impaired, there is no cosmetic defect in the area of intervention.

Claims (5)

1. A plate-shaped self-locking bracket made of titanium nickelide with a shape memory effect, comprising a osseous body with bent counter legs for intraosseous fixation, characterized in that the osseous body is made in the form of an elongated X-shaped plate with osseous branches ending in legs, with an internal bend angle not more than 70 °. 2. The plate self-locking bracket according to claim 1, characterized in that the bone body with branches has perforation holes for screws. 3. The plate self-locking bracket according to claim 1, characterized in that the bone body can be curved. 4. The plate self-locking bracket according to claim 1, characterized in that the osseous branches can have different lengths. 5. The plate self-locking bracket according to claim 1, characterized in that the branches can have an angle of deviation from the plane of the plate.