PL234332B1 - An implant for stabilization of the knee joint by TTA method - Google Patents

Description

Description of the invention

The subject of the invention is an implant for stabilization of the knee joint using the TTA method, used in the case of torn anterior cruciate ligaments. The implant is intended for use in veterinary medicine.

The knee stabilization procedure with TTA-CF implants is aimed at the treatment of lameness of the hind limb of animals caused by rupture of the cranial cruciate ligament (CCL). During the procedure, an incision is made in the tibial tuberosity, followed by the expansion of the resulting osteotomy. The implant, placed and locked in the cut, maintains the appropriate width of the osteotomy. In the cross-section, the implant has the form of a trapezoid, which fits tightly into an extended osteotomy.

In procedures with the use of implants, due to the need to obtain and maintain osteotomies of different widths, a range of implants of different width is necessary. Moreover, significant differences in the size and shape of the tibia, resulting from the diversity of animal breeds and species, necessitate a range of implants of different sizes.

The locking of the implant in the bone is done with two screws.

Implants for stabilizing the knee joint after cruciate ligament rupture are known, for example, from patents US9186252, US20130338781, US2016128748, EP2854677.

US20130030540 describes a TTA implant having a lattice structure in the peripheral frame of the cage with bars extending at least in two planes. The implant is tapered downwards on the frontal surface of the implant, depending on the size of the implant, 4 or 6 holes through which the locking screws are screwed. On the side surfaces, it is equipped with additional spikes to prevent migration of the implant. The tibial tuberosity is not completely dissected during the TTA implant procedure.

From another US patent application, US20130338781, a solution is known that presents an implant consisting of two parts: a trapezoidal-shaped implant body and a faceplate. The implant is blocked by 2 screws passing through the front plate. The tuberosity of the tibia is completely cut off and the cut piece of bone is secured against migration with an additional plate screwed with several screws.

From the US patent specification US2016128748, also published as European patent EP2854677, a solution is known that presents an implant composed of parallel plates. The tiles taper gradually to form a trapezoidal shape. On the side surfaces, the implant is equipped with angular spikes to protect against implant migration. During the TTA procedure, the tibial tuberosity is completely cut off and the cut bone piece is secured with an additional plate screwed with several screws.

The essence of the solution according to the invention is an implant for stabilization of the knee joint by the TTA method in the form of a cage with an internal mesh structure with round-section bars extending at least in two directions, characterized by the fact that on the side surfaces of the cage mesh structure equipped with a peripheral frame there are holes for locking screws, the frame and the mesh being inseparably connected, forming an integral whole.

It is preferable that the structure filling the implant is a spatial mesh with open meshes through which the bone grows. The implant is equipped with a stop plate that protects against too deep embedment of the implant in the bone.

The side holes are equipped with a thread that works with the screws and protects against migration of the implant and screws. It is advantageous if there is an oblong hole in the stop plate for attaching the implant target.

It is advantageous when the side surfaces of the implant are inclined at an angle a.

The solution of the implant for stabilization of the knee joint according to the invention allows for the elimination of the additional plate and locking screws. The implant itself is also blocked by a limited number of screws. The internal structure of the mesh is very rough, which accelerates the bone growth process and the patient's return to physical fitness. This solution allows you to reduce the costs of the procedure and reduce the invasiveness of the procedure, which may result in a shorter convalescence time.

PL 234 332 B1

The implant according to the invention is shown in the embodiment in the drawing, in which Fig. 1 shows an isometric view of the implant, Fig. 2 shows a front view of the implant, and Fig. 3 shows the implant blocked in a dilated tibia osteotomy.

The implant shown in Figs. 1 and 2 is a three-dimensional cage, comprising a mesh structure 2 in the peripheral frame 1, with round bars extending in at least two directions. There are holes for locking the implant on the side surfaces of the implant. Thanks to this solution, the locking elements in the form of screws 6, 7 are compressed and not bent as in the case of blocking from the face of the implant. The mesh 2 is to allow the implant to overgrow with bone.

The implant has a support plate 1A and a filling mesh 2, the internal structure of which is highly rough.

There is an oblong hole 1B in the support plate 1A, which is used to attach the sight. On the side surface of the implant, through holes 3 and 4 are made, through which the locking screws 6, 7 pass. The TTA implant in a plane parallel to the abutment plate 1A has the form of a trapezoid, the side walls of which form the angle α, as shown in Fig. 2 The? Angle ensures tight contact between the side surfaces of the implant and the bone. Figure 3 shows an implant embedded in an extended tibial osteotomy 5, locked by two screws 6 and 7.

Claims (5)

Patent claims 1. Implant for stabilization of the knee joint with the TTA method, in the form of a cage, with an internal mesh structure with round-section bars extending at least in two directions, characterized in that on the side surfaces of the mesh structure (2) there are through holes (3, 4 ) for the locking screws (6, 7). 2. Implant according to claim 6. A device as claimed in claim 1, characterized in that it has a stop plate (1A) on the circumferential frame (1) of the spatial cage provided with a net (2), the frame (1) and the net (2) being permanently connected to form an integral whole. 3. Implant according to claim The device according to claim 2, characterized in that the support plate (1A) has an elongated hole (1B) for fixing the target. 4. Implant according to claim The method of claim 1, characterized in that the side surfaces of the circumferential frame (1) are inclined at an angle (a). 5. The implant according to claim 1 A method as claimed in claim 1, characterized in that the oblong holes (1B) on the side surfaces are provided with a thread that enables the screws (6, 7) to be locked. PL 234 332 Β1 Drawings Fig. 1 Fig-2 PL 234 332 Β1 Fig. 3