CZ34522U1 - Angularly stable tibial distal plate - Google Patents

Description

Angularly stable tibial distal plate

Field of technology

The technical solution relates to an angularly stable tibial distal plate, which is intended for fixation of fractures of the distal part of the tibia and is suitable for use especially in articular fractures.

Prior art

The system of angularly stable plates, which is currently one of the greatest advances in the treatment of fractures, is based on the principle of an internal fixator, in which an angularly stable connection of the plate system to the bone is achieved by means of a fixed screw-plate connection. This transfers part of the load of the plate system from the screw-bone connection to the screw-plate connection and thanks to this the system can be successfully used even in lower quality and osteoporotic bone. The plate does not have to be pressed against the bone, as a result of which the blood supply to the bone is not weakened, and the screws can be inserted monocortically without weakening the strength of the assembly or fracture fixation, since the screws are firmly anchored in the plate.

In the case of hitherto known angularly stable plates, intended for fixing fractures of the distal part of the tibia and manufactured in the Czech Republic by MEDIN, the angles of insertion of screws into the distal part of the tibia are chosen to fix as many fragments as possible while minimizing the possibility of pulling screws out of bone. The plates are made of implant steel ISO 58321E or titanium TÍ6A14V ELI ISO 5832-3.

Similar solutions are also known from a number of mostly foreign patents, one of the most recent being the solution according to EP 3533402 of Globus Medical Inc., the subject of which is a system for fixing fractures of the distal part of the tibia, which consists of a bone plate. provided with through holes for the connecting means of the plate with the bone and possibly also additional holes for Wires or other accessories.

The task of the presently presented technical solution is to expand the range of angularly stable plates for fixing fractures of the distal part of the tibia in order to further improve them compared to the prior art in this field.

The essence of the technical solution

This task is largely solved by an angularly stable tibial distal plate, consisting of an anatomically shaped plate body formed by a head part and an adjoining stem part, according to the presently presented technical solution, the essence of which consists in that the head part of the plate body is provided with lockable holes for polyaxial angularly stable bolts and the stem part of the plate body by a set of combined holes for angularly stable compression bolts and / or for tension bolts. The choice of using angularly stable compression bolts passing through the lockable threaded part of these combined holes or tension bolts passing through their second part depends on the different types of fractures in order to achieve their optimal fixation.

The essence of the technical solution further lies in the fact that the plate body, as well as individual polyaxial angularly stable screws, angularly stable compression screws and tension screws are preferably made of biodegradable material, such as magnesium alloys, eg LAE442 (Mg-4Li-3.6Al -2.4RE), WE43 (Mg-3.5Y-2.3Nd-0.5Zr) or AM60B (Mg-6Al-0.4Mn-0.2Zn-0.1Si) or polyetheretherketone (PEEK), as the implant made from these materials is absorbed and not it must be extracted.

- 1 CZ 34522 UI

The angularly stable tibial distal plate according to this technical solution fully fulfills the functionality of osteosynthesis of extra-articular and simple intra-articular fractures of the distal tibia as well as the functionality of osteosynthesis of fractures of the distal tibia with intervention in the diaphysamic part of the tibia. By using a target, this plate allows for mini-invasive surgery, resp. Minimizing the need for a large surgical wound without having sharp edges so as not to irritate the surrounding soft tissues. Polyaxial angularly stable screws then allow their precise positioning in the desired position.

Explanation of drawings

The technical solution is further closer to the drawings of an exemplary embodiment of an angularly stable tibial distal plate according to this technical solution, where Fig. 1 shows this plate in a spatial view with an indication of its fixing in the distal part of the tibia. part of the plate body, Fig. 3 is a section of an angularly stable compression screw in the combined hole of the shank part of the plate body and Fig. 4 is a section of a tension screw in another combined hole of this shank part.

Example of implementing a technical solution

The angularly stable tibial distal plate in an exemplary embodiment of this technical solution consists according to Fig. 1 of an anatomically shaped plate body 1 formed by a head part 2 and an adjoining stem part 3. The head part 2 is provided with lockable holes 4 for polyaxial angularly stable screws 5 and the shank part 3 with a set of combined holes 6 for angularly stable compression bolts 7 and for tension bolts 8,

As can be seen from Fig. 2, the heads of the polyaxial angularly stable screws 5 are provided on their outer surface with a reinforced locking thread 9, allowing the thread to "deform" in the lockable hole 4 in the head part 2 of the plate body 1 and form a firm joint at the angle required by the operator. doctor.

Fig. 3 shows the location of the angularly stable compression screw 7 in the lockable threaded part of the combined hole 6 formed in the shank part 3 of the plate body 1 and Fig. 4 shows the location of the tension screw 8 in the second combined hole 6 next to its lockable threaded part.

The plate body 1 and the individual polyaxial angularly stable screws 5 as well as the angularly stable compression and tension screws 7, 8 are made of polyetheretherketone (PEEK).

Claims (3)

CLAIMS FOR PROTECTION An angularly stable tibial distal plate, consisting of an anatomically shaped plate body (1), 5 formed by a head part ( 2) and the adjacent shank part (3), characterized in that the head part (2) of the plate body (1) is provided with lockable holes (4) for polyaxial angularly stable screws (5) and the shank part (3) of the body (3). 1) the plate is provided with combined holes (6) for angularly stable compression screws (7) and / or tension screws (8). Angularly stable tibial distal plate according to claim 1, characterized in that the plate body (1), as well as its individual polyaxial angularly stable screws (5), angularly stable compression screws (7) and tension screws (8), are made of biodegradable magnesium alloy. Angularly stable tibial distal plate according to claim 1, characterized in that the plate body (1), 15 as well as its individual polyaxial angularly stable screws (5), angularly stable compression screws (7) and tension screws (8), are made of PEEK polyetheretherketone.