CS231694B1 - Isoelastic inner hip aid - Google Patents

Abstract

The invention relates to an isoelastic hip endoprosthesis consisting of pliable the shaft on which they are stacked, bioceramic cells, for example. On Biocsram Cell Links hinge surfaces are preferably formed spherical shape. Bioceramic cells are preferably provided with projections formed eg grooves, grooves and so on. The iselastic hip endoprosthesis is applicable in orthopedic surgery and travmatology of locomotive organs.

Description

(54)

Supple isoelastic hip endoprosthesis

BACKGROUND OF THE INVENTION The present invention relates to an isoelastic hip prosthesis consisting of a pliable shaft on which bioceramic cells are supported, for example, pushed over one another.

Hinged surfaces, preferably spherical in shape, are formed on the contact surfaces of the biocramming elements. The bioceramic cells are preferably provided with protrusions, such as grooves, grooves, and the like.

Isoelastic hip endoprosthesis is applicable in the field of orthopedic surgery and travmatology of the locomotive organs.

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231 694

The invention relates to an isoelastic hip endoprosthesis intended for orthopedic surgery and locomotive organ traumatology.

Ceramic for hip endoprostheses such as head or hip shaft is still used for this purpose because it has a high modulus of elasticity or high hardness and reliably transmits high compressive stresses. Attempts have been made to use bioceramics as a stem. Due to the material properties of ceramics, even with massive implants, fractures occurred, so that the stems in this form cannot be used in general.

The hitherto known hip endoprosthesis is improved by a flexible isoelastic hip endoprosthesis / provided with a flexible shaft, at the top of which the head is placed, according to the invention. The essence of the invention is that they are located on the flexible shaft, e.g.

ice slide, bioceramic articles. The function of the hip endoprosthesis according to the invention is further improved if the bioceramic elements are provided with articulated, e.g. spherical, bearing surfaces at the point of contact thereof. It is further preferred that the bioceramic cells are provided with protrusions on the outer surface, such as annular or the like.

One of the main advantages of a flexible isoelastic hip prosthesis is that it is not necessary to use bone cement, which usually entails biological and mechanical deficiencies. Another advantage is that it is not necessary to curl the medullary cavity of the femur, it is sufficient to prepare a path with a flexible rasp. The spongy bone remains compressed in place, which becomes the base material for reconstruction, thereby firmly fixing the proximal portion of the stem with the newly formed bone. There will be no bleeding accompanying curettage and

- 2 231 694 preparation of the implant bed. Thinness of the procedure will also reduce the possibility of infection. Relatively easy implant extraction will be possible. The possibility of implant micro-movements is minimized, thereby eliminating some adverse bone reactions. The positive biological properties of bioceramics, especially if the surface is specially treated, will allow osteogenesis and fixation of the flexible stem of the endoprosthesis in the medullary canal in a manner that is biomechanically consistent with the isoelastic behavior of the bone-implant system.

The application of the compliant isoelastic hip prosthesis of the invention with bioceramic cells filling the medullary canal contributes significantly to the reduction of stress in the metal stem of the prosthesis. The system of bioceramic cells eliminates the possibility of unsuitable fractures, as was the case with continuous ceramic and, in some cases, metal stems.

The invention and its advantages are explained in more detail by way of a description of an exemplary embodiment below with reference to the drawing in which the hip endoprosthesis according to the invention is shown in section.

The compliant isoelastic hip endoprosthesis consists of a shaft 1 on which the bioceramic members 2 are made. other material of similar characteristics. On it there are bioceramic elements 2, enveloping the stem I, which abut one another. This system allows the implant to fit in the uneven and very irregular marrow canal of the femur.

The individual bioceramic elements 2 are shaped on the contact surfaces into the articulated bearing surfaces 4 in order to allow the implant to be shaped as a result of unevenness in the medullary canal. The surface of the bioceramic cells 2 is provided with protrusions 5 so that it is uneven and irregular and is adapted to allow ingrowth of bone and scar tissue.

The casing-forming bioceramic elements 2 are fixed to the shaft 1 by physical or chemical methods, or they can be loosely fixed.

- 3 231694 slid onto shank 1 and fixed to end 3 of blade shank 1 to prevent it from sliding back.

The isoelastic hernia endoprosthesis of the invention is useful in the field of orthopedic surgery and locomotive organ traumatology.

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SUBJECT OF THE INVENTION

Claims (3)

1. A compliant isoelastic kitsch endoprosthesis having a pliable shaft, at the top of which a head is located, characterized in that bioceramic members (2) are placed on the pliable shaft (1). 2. A compliant isoelastic hip endoprosthesis according to claim 1, characterized in that the bioceramic links (2) are provided with a hinge contact surface (4) at their point of contact. 3. A compliant isoelastic hip endoprosthesis according to items 1 and 2, characterized in that the bioceramic members (2) are provided with protrusions (5) on the outer surface. 1 drawing 231 694