RU2653806C2 - Hip endoprosthesis leg - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: leg of the hip arthroplasty contains rod with decompression longitudinal grooves on the lateral surfaces, a supporting flange, a neck and a rectangular frame. Decompression grooves are made along the entire length of the rod and are open on both sides, and on its end surfaces there are transverse grooves connecting the decompression grooves. In longitudinal and transverse grooves the longitudinal and transverse sides of the rectangular frame are placed and fixed by the coring, respectively.

EFFECT: invention provides simplification of construction of the endoprosthesis leg and simplification of its strength characteristics.

1 cl, 6 dwg

Description

The invention relates to medical equipment and can be used in orthopedics and traumatology in the treatment of diseases and injuries of the hip joints.

Known leg endoprosthesis of the hip joint (Pat. Ru No. 2066153 C1, IPC A61F 2/32).

Closest to the claimed invention in terms of design and principle of action is the leg of the hip joint endoprosthesis adopted as a prototype according to the patent of Ukraine No. 102453, IPC A61F 2/32, Bull. No. 13 dated 07/10/2013, comprising a stepped through hole made in the rod, in which a flexible element is placed in the form of a metal rope, fixed from displacement in the longitudinal direction from one end using a collet and a compression nut, and from the other using a loop placed in tapered part of the through hole.

The disadvantage of the prototype is as follows.

Firstly, manufacturing a through hole of large length and small diameter in a titanium rod is a complex and expensive technological task.

Secondly, the presence of a large number of structural elements (collet, nut, cable) complicates and increases the cost of the foot structure.

Thirdly, the presence of a step-shaped hole creates stress concentration zones in the rod, contributing to the formation of fatigue cracks, leading to breakage of the rod.

Signs of the prototype, which coincide with the existing features of the claimed invention, is the presence of a rod with decompression longitudinal grooves on the side surfaces, a support flange and a neck.

The reasons that impede the provision of a prototype of the necessary positive result, which consists in increasing reliability and reducing cost, are design flaws and complexity.

The problem that is solved by the invention is to simplify the design of the legs of the endoprosthesis and simplify its strength characteristics.

To solve this problem, in the existing leg of the hip joint prosthesis containing a rod with decompression longitudinal grooves closed at one end on the lateral surfaces, a support flange and a neck, a transverse groove for a U-shaped jumper is made on the end surface of the rod end installed inside the bone cavity staples, cantilever elastic elements of which are placed in decompression grooves.

The second solution to this problem is to perform transverse grooves on both end surfaces of the rod under the transverse sides of a rectangular frame, the longitudinal sides of which are located in the decompression grooves.

Between the totality of differences of the claimed invention and the technical results provided by it, there is a causal relationship.

Firstly, there is no need to perform a complex operation of drilling long (deep) holes in titanium, threading, and manufacturing internal conical holes of small diameter, which significantly reduces the cost of the endoprosthesis and makes it accessible to wide layers of patients.

The proposed endoprosthesis leg differs in design only in the presence of grooves, either on one or on two end surfaces obtained by simple milling. The manufacture of a U-shaped bracket or a rectangular frame from an elastic strip material or from a round elastic wire does not require large time and material costs, and for their placement on the leg stem, existing closed or open decompression grooves are used to allow air and liquid to escape the internal cavity of the bone when it is pressed in (installation).

Secondly, the reliability of the operation of the endoprosthesis increases, since its leg is not weakened by internal holes with stress concentrations leading to the appearance of fatigue cracks and to destruction of the leg.

Thirdly, in the event of a leg breakage, the separated fragment remaining in the bone cavity is easily removed using the cantilever parts of the U-shaped bracket or enclosing the rod of a rectangular frame.

In FIG. 1 shows the leg of an endoprosthesis; in FIG. 2 is a view along arrow B in FIG. one; in FIG. 3 is a view along arrow A in FIG. one; in FIG. 4 is a section BB in FIG. one.

The endoprosthesis leg (Fig. 1, 2) contains a rod 1 with a neck 2 and a flange 3. On the lateral surfaces of the rod, decompression grooves 4 are closed at one end, in which elastic cantilever elements 5 of the U-shaped bracket are placed, and its jumper 6 is inserted into the transverse groove 7 and is fixed, for example, by punching 8 along the edges of the transverse groove (Fig. 3, 4).

U-shaped bracket, depending on the shape of the cross section and the size of the decompression grooves, can be made of strip elastic titanium or of elastic titanium wire of circular cross section.

In the case of a deep installation of the leg in the bone cavity, which makes it difficult to access the ends of the cantilever elements of the U-shaped bracket used to extract the fragment separated from the fracture rod, the leg stem is supplied with decompression grooves on the lateral surfaces open at both ends, and instead of П- shaped brackets use a rectangular frame (Fig. 5 and 6). In this case, the transverse grooves 7 are made on both end surfaces of the rod and the transverse sides of the frame are placed in them, the longitudinal sides of which, such as in the previous design, are placed in the decompression grooves.

A rectangular frame is formed by bending a strip of titanium and welding its ends after placement in the longitudinal and transverse grooves of the rod. In the event of a fracture of such an endoprosthesis leg, the presence of elastic cantilever elements of a U-shaped bracket or a rectangular frame, it is possible to easily remove a fragment of the rod located in the bone cavity, which helps to eliminate the initial consequences of revision operations, reduce its time and, as a result, improve the quality of life of the patient.

Claims (1)

A hip endoprosthesis leg containing a shaft with decompression longitudinal grooves on the side surfaces, a support flange and a neck, characterized in that the decompression grooves are made along the entire length of the shaft and are open on both sides, and there are transverse grooves on its end surfaces connecting the decompression grooves grooves, while in the longitudinal and transverse grooves are placed and fixed by punching, respectively, the longitudinal and transverse sides of the rectangular frame.

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