DE3314038A1 - Knee prosthesis - Google Patents

Abstract

Knee prosthesis having a tibial part and a femoral part, the tibial part having a recess which essentially corresponds to a spherical cap, whereas the femoral part is provided with a protuberance which is adapted to the recess and essentially forms part of a ball surface, which protuberance is adapted to the recess in such a way that it permits a sliding articulated movement in the latter about an axis of rotation about an angle corresponding to the bending range of the human knee. At the same time, the tibial part has an essentially plane surface area in the direction of the axis of rotation and at a distance from the recess, the extension of this surface area intersecting the recess with a circular surface cross-section, and the femoral part has a cylindrical surface area which partly surrounds the axis of rotation and is arranged so to be rollable on the essentially plane surface area.

Description

description

The invention relates to a knee joint prosthesis in the preamble of claim 1 specified Art.

Such a prosthesis is known from US Pat. No. 3,748,662 The prosthesis described allows a physiologically correct inward rotation the tibia when extending the joint and a corresponding outward rotation when Bending the same to - however, it is also disadvantageous that the rolling over one another Surfaces have to be shaped in a relatively complex manner in three dimensions and furthermore, the power transmission from the femur part to the tibia part is not physiological definitely takes place. In particular, also occur because of the relatively large curvature the area shaped like the medial condyle of the femur part has relatively high frictional forces on. Furthermore, the relative rotational movement of the tibial part corresponds to the longitudinal axis of the tibia while flexing or stretching the joint with respect to the center of rotation not the actual physiological conditions.

The invention is based on the object of providing a knee joint of the initially mentioned Specify mentioned genus, which while avoiding the above disadvantages has the greatest possible load-bearing capacity with little wear and tear and with regard to its kinematics is largely adapted to the natural conditions.

This task is carried out by means of a knee joint prosthesis with the characteristic Part of claim 1 specified features solved.

It is particularly advantageous that such a prosthesis also can be used favorably in arthrosis knees, as the force is transmitted through the ligaments occurs especially in the medial area of the knee joint, because this is where the largest Loads occur which are optimally absorbed with the arrangement according to the invention and introduced into the opposite bone area.

Preferred developments of the invention are set out in the subclaims specified.

The invention is based on the knowledge that - as already mentioned - In the bicondylar knee joint, the collateral ligaments and the lateral support area load more than the medial. It corresponds to the embodiment according to the invention the natural conditions that the medial femoral condyle from a lateral point of view is rounded, while the medial tibial plateau is more concave than the lateral is shaped. The lateral femoral condyle is elongated from a lateral point of view, see above that this is the area of the preferred introduction of force. Since in particular In the pathological knee, the wear is greater in the medial area than in the lateral area, the stress causing this wear suggests that a structure It is particularly advantageous that these ratios by a corresponding Formation of the force transfer areas takes into account. The cylindrical area of the femur part, which with the essentially flat area of the tibia part in Interaction occurs, has an additional supportive effect, being an attachment and supportive Power transmission is possible regardless of the position of the out-inward rotation.

Overall, wear and tear is the main burden because of the relatively large size receiving spherical, medial contact area, especially in the case of a polyethylene version the articular surfaces are reduced in size. The support function rolling on the flat surface part cylindrical area is concentrated on the less stressed side.

The edge of the cylindrical part is also effective in the event of tilting only with such a small force on the flat supporting surface that permanent deformations are prevented. The recess in the essentially corresponding to a spherical cap Tibial part provides with the concave area of the femur part adapted therefrom for a maximum mobility with good centering stability. The the joint is perpendicular Forces loading the AP plane occur as moments lateral to the loaded part and generate a rotational movement. This rotational movement is in the invention Joint controlled in a physiological way. Since the tibia part to accommodate the essentially a spherical cap corresponding recess and the adjacent one can be made relatively small in the substantially flat area, needs only a small part of the proximal tibia to be removed, so that their natural periphery can essentially be preserved. The one made of metal Tibial plateau is preferred with various types of polyethylene components Strength combined so that a joint prosthesis that meets the individual requirements can be put together without difficulty in individual cases.

The front area of the tibia part has a shield-like extension in the proximal direction, which one Trochlear gutter carries that preferably an inclination towards the medial - i.e. towards the spherically convex area of the support - has. The latter convex area of the tibia part is favorable approximated to a spherical surface.

However, such three-dimensional shapes are also suitable here, which allow a relative movement around two mutually perpendicular axes in such a way that that the movement about one of the axes is only a few degrees.

In this case, the convex spherical shape is preferred by a To approximate design, which corresponds to the outer surface of a ring with a circular cross-section, i.e. a solid of revolution that is generated by a circular disk.

A preferred embodiment of the invention is shown in the drawings and is described in more detail below. They show: FIG. 1 the complete Left-hand prosthesis according to the invention seen from the posterior, FIG. 2 the same prosthesis seen from the medial side, FIG. 3 shows the prosthesis according to FIG. 2 in bent position, Figure 4 shows the tibia part of the prosthesis according to the invention in the Top view, FIG. 5 corresponding to the femur part in the top view and FIG. 6 the Prosthesis according to the invention in a perspective view in a bent position with the surrounding bones.

In the representation shown in FIG. 1, the femur part is located 1 in its position, as it corresponds to the extended leg.

The femur part 1 is - as also from the illustration in Figure 2 in side view can be seen - tub-shaped, hollow, so that it connects to the femur after its appropriate resection, is connectable. When shown in Figure 1 The arrangement is a left prosthesis viewed from the front. The tibial part 2 consists of a lower base area 3 made of titanium, which is covered with a polyethylene layer 4 is provided. The polyethylene overlay can be kept in stock in different thicknesses so that an adaptation to individual circumstances can easily be carried out is. The base part 3 has two pins 5 and 6 with which a stable anchoring can be done with the tibial bone substance by means of bone cement.

The further description of the prosthesis is intended with simultaneous reference to FIGS. 3 to 6, the reference numerals corresponding to one another are provided.

The different figures each indicate the nature of the prosthesis clarifying views in their various aspects. In particular, show Figures 4 and 5 show the tibia part 2 and the femur part 1 in plan view. FIG. 6 shows a position of the prosthesis corresponding to the bent knee, wherein in Figure 6 in a perspective view of the femur part 1 in connection with a femur bone 7 and the bones 8, 9 in the tibia area is shown.

The polyethylene overlay 4 of the tibia part 2 has a recess 10 on, which is shown in section in FIG. In this recess engages a correspondingly spherically shaped area of the femur part 1. The spherical Design is designed such that the femur part 1 rotates around a in Figure 1 can run horizontally extending axis 17, as shown in the figures 2 and 3 is shown in phantom.

To carry out this movement, the surface of the femur part 1 in the area 11 have the shape of a body of revolution to which the recess 1O is adapted. To continue a physiological rotational movement of the femoral part to allow the vertical axis of the tibial bone, as shown in Figure 6 by the arrows 11 and 12 is indicated, grip the tibia and femur part in the spherically shaped Area into each other.

An outward rotation of the tibia part indicating arrow 11 belongs to Bending movement of the knee, as indicated by arrow 13, while the Inward rotation of the tibial part (arrow 12) in a physiological stretching movement (arrow 14) heard.

With the additional rotational movement in the direction of the arrows 11 or 12, a region 15 with a cylindrical surface of the femur part 1 slides on a substantially flat area 15a of the polyethylene pad 4. The axis of the horizontal The axis of rotation 16 in Figures 1 and 6 coincides with the axis of the area 15 with cylindrical Surface together and also forms the axis of the rotational body with spherical Surface.

The axis of rotation 17, which is oriented vertically in FIGS. 1 and 6, runs centrally through the spherical recess 1O, which is designed in such a way that a rotational movement of the tibial part 2 about the vertical axis by a few degrees is possible is how it is conditioned by the physiological requirements in the AP level laterally acting forces.

The broad support of the cylindrical part 15 takes place the guidance and centering of all movements through the spherically shaped areas 10 and 11, so that to this extent defined distributions of forces occur. The areas 10 and 11 have the largest contact surfaces, so that here - physiologically correct Way - the greatest loads can be absorbed while the area 15 has a more or less supportive function. There is an additional Degree of freedom of movement in such a way that with a lateral bending movement of the joint, the cylindrical portion 15 from the base 4 by a slight Length, which is also due to the natural movement behavior of the Knee equals.

The femur part 1 has a shield 18 forming on its front Area has a trochlear groove 19, which extends laterally in the proximal direction extends.

The tibia part can - since it is only the support areas for the surfaces 11 and 15 of the femur part must have, be designed accordingly narrow, so that the resection of bone material on a relatively small Limited space and thus the function of the belts and peripherals largely preserved can stay. Blank page

Claims (7)

Knee joint prosthesis claims 1. Knee joint prosthesis with a tibia part and a femoral part, the tibial part having a substantially spherical cap Has recess, while the femur part with a matched to the recess, essentially forming part of a spherical surface lifting is provided, which is adapted to the recess that it is in the latter sliding a joint movement about an axis of rotation about one of the flexion of the human Knee corresponding angle allows, characterized in that the tibia part (2) in the direction of the axis of rotation from the recess (10) one substantially away has flat surface area (15a), the extension of which the recess (10) with circular surface cross-section intersects, and that the femur part (1) one the Has the axis of rotation (17) partially surrounding the cylindrical surface area (15), which is arranged in a rollable manner on the essentially flat surface area (15a) is. 2. Knee joint prosthesis according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the elevation (11) of the femur part (1) is spherical and the recess (10) of the tibia part is adapted in such a way that a relative movement about an axis (17) perpendicular to the flat surface area within at least a small angular range is made possible. 3. Knee joint prosthesis according to one of the preceding claims, d a d u r c h e k e n n n z e i c h n e t that the recess (10) in relation to the plane Area is arranged medially. 4. Knee joint prosthesis according to one of the preceding claims, d a D u r c h e k e n nn n e i n e t that on the rolling on the tibial part (2) Area (11, 15) of the femur part (1) is connected to an area (shield 18) which in the prosthesis position corresponding to an extension of the leg to the with the tibial part (1) in engagement or this adjacent area of Prosthesis extends in a direction which is substantially perpendicular to the planar Area is directed. 5. knee joint prosthesis according to claim 4, d a d u r c h g e k e n n z e i c h n e t that the shield (18) has a trochlear groove (19) which starts out from a position of the prosthesis corresponding to the extension of the leg the area adjacent to the tibial part (1) in the direction moving away from it that side is inclined, which is spherically shaped. Knee joint prosthesis according to one of the preceding claims, d a d u It is noted that the tibia part (2) has a support (4) made of polyethylene having. 7. Knee joint prosthesis according to one of the preceding claims, d a it is not indicated that the tibial part (1) is so small Width extension has that in the implanted state, the side ligaments of the natural Preserved bone structure can stay.