CS232050B1 - Isoelastic hip endo-aid - Google Patents

Description

(54) Isoelastic hip endoprosthesis

The invention relates to an isoelastic hip endoprosthesis consisting of a spherical joint to which a flexible shaft is attached. At least one spiral (2) is supported on the flexible shaft (1). The spiral (2) is firmly attached to the yielding shaft (1) at one end thereof, while at the other end it is slidably mounted thereon.

Endoprosthesis will be used in the field of orthopedic and traumatological medicine.

JL ·

232 050

The invention relates to isoelastic hip endoprosthesis.

The prior art isoelastic hip replacements, which do not use cement, consist of a flexible shaft, generally metal, carrying a ball joint at the upper end, while the end of the shaft to be inserted into the medullary canal is tapered and has inserts, e.g. made of plastic or ceramic sleeves.

These hitherto known, cementless isoelastic hip endoprostheses further refine the invention. The essence of the invention lies in this. That at least one spiral is supported on the pliable shaft that carries the ball joint. This spiral is preferably fixedly attached to the flexible shaft at one end, while at the other end it is slidably mounted thereon.

The isoelastic hip arthroplasty of the present invention has a number of advantages over biomechanical and biological aspects compared to hitherto known hip arthroplasties. The shape and size of the implant will suit universally different anatomical variants of the medullary canal as well as different sizes of femur. After the reactive remodeling of the tissues in the femoral medullary canal, a single functional support structure will be formed consisting of bone and implant. The described isoelastic bone-implant system suppresses dynamic effects and eliminates the possibility of fatigue fractures in the endoprosthesis shaft. The flexible elastic spiral or the spirals surrounding the implant shaft with a firm and sliding bond optimizes the stress in the endoprosthesis shaft. It is not necessary to use bone cement for its biological and biomechanical deficiencies. It is not necessary to curette the medullary cavity of the femur. It is sufficient to prepare a path with a pliable rasp.

The compressed spongy bone remains in place, which becomes the base of the OSO material for remodeling, thereby firmly fixing the proximal portion of the shaft with the newly formed bone. There will be no bleeding accompanying curettage and preparation of the implant bed. Also, the possibility of infection will be reduced by careful performance. Compared to existing cemented implants, it will be easier to extract the hip endoprosthesis.

The isoelastic hip prosthesis of the invention is described in more detail in the following description with reference to Figures 1 and 2, wherein Fig. 1 denotes a fixed spiral endoprosthesis to the upper pole of the shaft and Fig. 2 denotes a fixed spiral endoprosthesis with multiple spirals to the lower pole.

Fig. 1 is a sectional view of a compliant isoelastic hip endoprosthesis consisting of two main components. The core of the shank 1 is made of an anti-corrosion alloy or other material of similar properties, around which one spring spiral 2 is fixed with its upper end to the shank, while the opposite end is slidably attached to the shank 1, allowing elastic deformation of the implant as a whole. the shape of the femoral medullary canal. In the same way a variant with multiple spirals can be provided.

FIG. 2 shows a cross-sectional view of a compliant isoelastic hip endoprosthesis of a compliant shaft consisting of a core 1 made of stainless steel or other material of similar properties around which there are two or more flexible spirals 2 fixed by their lower end to the lower pole of the shaft 1; while their upper end is slidably mounted on the shank 1. In the same way a variant of one spiral can be provided. The implant is maximally stabilized in the medullary canal of the femur as a result of the radial prestressing force generated, while the implant-bone system forms an optimal unit in terms of stress. The invention allows for a flexible and elastic fit of the implant to any anatomical shape and size of the femur.

Endoprosthesis will be used in the field of orthopedic and trauma logic medicine.

SUBJECT OF THE INVENTION

Claims (2)

232 050 An isoelastic hip endoprosthesis consisting of a spherical joint to which a flexible shaft is attached, characterized in that at least one helix (2) is supported on the flexible shaft A /. Isoelastic hip endoprosthesis according to claim 1, characterized in that the spiral (2) is firmly attached to the compliant shaft A at one end thereof, while at the other end it is slidably mounted thereon.