CS275948B6 - Artificial joint - Google Patents

Abstract

Articulated endoprosthesis, compound from shank, flange and head, with the stem is made of rigid or elastic of a point body (l) of at least two of elastic bars (2) on the root body (3).

Description

The invention relates to an articulated endoprosthesis consisting of a shaft, a flange and a head.

In the articulated endoprostheses hitherto used, the shaft is formed by a body of approximately cylindrical or truncated cone shape. In some cases, there is an opening in the shaft body along its longitudinal axis that either forms a cavity only or passes into an opening at the distal end of the shaft.

However, these structures do not ensure a continuous transfer of stress from the shaft to the femur walls. Normal forces are transmitted from the head to the resected portion of the bone mainly at the flange-to-bone contact site, partly through shear stresses along the shaft of the endoprosthesis. This creates a risk of breakage in the resected proximal femur. Furthermore, articulated endoprostheses used so far do not fully provide the necessary biocompatibility. In addition, the implants used so far have a significantly greater weight than the weight of the bone part taken. The disadvantage is also the removal of biologically valuable material, bone marrow from the feinur cavity.

The articulated endoprosthesis consisting of a stem, a flange and a head according to the invention significantly reduces these drawbacks. Its essence is that the shaft of the endoprosthesis is formed of at least two elastic rods which, on the proximal side, continuously extend into the root body and on the distal side continuously into the spike body. Elastic rods, which may be straight or spiral, do not touch, allowing the bone marrow to remain in the space between them, which is the original material of the femoral cavity, which will continue to be bioactive with the femur compact. Optionally, the root body and the elastic rods at the proximal end of the shaft are provided with at least one fin which is embedded in the spongiosis or cortical bone. Optionally, the aileron is provided with at least one opening. The wings are planar or with a spiral or otherwise curved median plane.

The main advantage of the articulated endoprosthesis according to the invention is to ensure a continuous transfer of tension from the shaft to the walls of the femur. Another advantage of the arthroplasty according to the invention lies in the biomechanical stabilization of the arthroplasty shaft in the femur. The stabilizing wings prevent the endoprosthesis from rotating around its longitudinal axis. The openings in the stabilizing wings allow compatibility with the tissues surrounding the stabilizing wings. Another advantage is to leave the bone marrow between the individual rods. Another advantage is the saving of expensive materials such as titanium, nickel, molybdenum, chromium and others. An important advantage of the articulated endoprosthesis of the invention is the reduction in implant weight.

The articulated endoprosthesis of the invention is described in more detail with reference to the drawing. Figures 1 and 2 show a shaft of the articulated endoprosthesis, and Fig. 3 shows a cross-section of a stabilized articulated endoprosthesis according to the invention.

Articulated prosthesis includes a rigid or elastically flexible spike element j> straight or spiral rod 2 and the root of the body 2 · Fig. 2 is a further view of a stem having stabilizing wings ^with two holes. At the articulation of the endoprosthesis of FIG. 3 on the distal side of the shank cylindrical body 2 passes continuously into the rods 2 ^and also at the root of a body 2 provided with a stabilizing aileron 2 · The root element 2 is mounted ^{on the} flange 2 ^and Oi hlaviďe in individual planes AA * Q- 8 * and CC * are individual cross-sections of the articulated endoprosthesis of the invention.

The articulated endoprosthesis of the invention in any case stabilizes the stem into a healthy bone, without the use of bone cement, reduces the weight of the implant as a whole, preserves a significant portion of the original bone marrow in the femoral cavity and ensures contact of the implant with the femur compact.

Claims (1)

PATENT CLAIMS l. Articulated endorpothesis, consisting of a rigid or elastic shaft, flange and head, » ♦ CS 275 940 B6 2, characterized in that the shaft is formed of at least two elastic rods (2) continuously extending to the proximal. end into the root body (3) and the tip body (1). 2. Articulated endoprosthesis according to point 1, characterized se by that elastic rods (2) are direct. 3. Articulated endoprozaza according to point l, characterized se by that elastic rods (2) are spi rální. 4. Articulated endoprosthesis according to point 1, characterized se by that elastic rods (2) they're on the free end. 5. Articular endoprosthesis according to at the distal end. point 1, characterized se by that Elastic Rods (2) are and. Articulated endoprosthesis according to point l, characterized se by that point body (1) is you- made of rigid material. 7 '. Articulated endoprosthesis according to point 1, characterized se by that point body (1) is you- made of elastic material. Articulated endoprosthesis according to point 1, characterized se tí m, that on the root body (3) and at least one stabilizing fin (4) is formed at the proximal end of the stem (2). Articulated endoprosthesis according to claim 0, characterized in that the stabilizing fin (4) is provided with at least one opening.