RU2067433C1 - Endoprosthesis stem - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has hollow rod with relief wall. Free rod end wall has the form of ring-shaped sinusoidal corrugations. EFFECT: improved stability and damping properties. 1 dwg

Description

 The invention relates to traumatology and orthopedics and can be used for arthroplasty of the hip joint.

 An endoprosthesis is known (1), in which the leg, inserted into the medullary canal of the femur, is made in the form of a metal cylindrical core rod, for example, with a diameter of 8.85 to 9.00 mm, on the lateral outer surface of which are made flat rings with an outer diameter from 13.00 to 13.15 mm and a thickness of from 0.64 to 0.7 mm. Flat rings are evenly spaced along the entire length of the shaft. It is assumed that during the introduction of the leg into the medullary canal, the flat rings deviate towards the endoprosthesis head, and during operation they prevent the leg from arbitrary exit from the specified canal. Due to the elasticity of the flat rings, the possible curvature of the medullary canal with a rigid shaft is compensated.

 The main disadvantage of the known endoprosthesis is the insufficiently rigid fastening of its legs in the bone marrow canal, due to the elasticity of the flat rings in contact with the walls of the bone marrow canal, and during the operation of the endoprosthesis, the flat rings of the legs can be deformed in the most loaded places of the bone marrow canal and the legs can loosen in it.

 Known artificial hip joint (2), adopted by the applicant as a prototype, which contains the leg of the endoprosthesis, made in the form of a hollow rod with a relief wall.

 The prototype endoprosthesis leg has high rigidity and can be fixed more stably in the rectilinear bone marrow canal of the femur.

 The main disadvantage of such a rigid leg is that it cannot be elastically deformed in the bone marrow canal of the curved femur, i.e., to track its curvature during the introduction of the leg into the specified canal. As a result of the resistance of the legs to bending along the shape of the canal, local increased stresses occur in the femur, which can lead to destruction of bone tissue.

 The claimed leg of the hip joint implant is required to be highly stable from loosening in the medullary canal and to have sufficient elastic deformation when it is inserted into a curved medullary canal, i.e. the leg of the endoprosthesis should be flexible in the process of its introduction into the curved bone marrow canal of the femur and at the same time should have hard contact surface portions mating with the walls of the bone marrow canal so that it cannot become loose during operation of the endoprosthesis.

 This technical result is achieved by the fact that the claimed leg of the hip joint prosthesis containing a hollow shaft with a relief wall, the wall of the free end of the shaft has the form of circular sinusoidal corrugations. The sinusoidal profile of the free end of the leg gives it the property of elastic flexibility in bending. The leg of the claimed endoprosthesis, having elastic flexibility of the free end to bend, can be introduced into the medullary canal of the femur, even if the channel is not rectilinear. This property of the leg allows, when clearing the medullary canal, to reduce the degree of development (cutting) of the hard tissues of the femur, thereby preserving its initial strength and increasing the reliability of the installation of the endoprosthesis. In addition, the leg of the claimed endoprosthesis, while being flexible in bending, retains longitudinal and point radial stiffness and thereby allows the endoprosthesis to be installed in the bone marrow canal with hard contact with the solid tissue of the femur, which reduces the likelihood of loosening of the leg of the endoprosthesis in the bone marrow canal of the femur in the process of functioning of the endoprosthesis in the postoperative period.

 In FIG. 1 shows a General view of the legs of the endoprosthesis with a partial longitudinal section.

 The leg of the hip joint implant contains a head 1 and a rod 2 connected by a neck 3. The head 1 is made in the form of a ball. The rod 2 of the legs has a longitudinal through hole 4. The wall 5 of the free end of the hollow rod 2 is in the form of annular sinusoidal corrugations.

 The rod 2 can be made of titanium alloy VT5-1. The wall thickness 5 of the free end of the rod 2 can be taken equal to one millimeter, and its other structural parameters are determined through a series of numerical experiments.

 Example 1. When the diameter D of the free end of the rod 2 is 14 mm, the amplitude of the DN of the sinusoidal corrugation of wall 5 is (1.42-1.5) mm, and the step length of the corrugation is t (7.6-8.0) mm.

 Example 2. At D 16 mm, DN (1.61-1.6) mm, t (8.97-9.0) mm.

 The structural parameters of the wall 5 of the free end of the hollow rod 2, made in the form of annular sinusoidal corrugations, provide sufficient elastic deformation of the legs and maximum rigidity of its fixing in the medullary canal of the femur.

Claims (1)

 The leg of the hip joint prosthesis containing a hollow shaft with a relief wall, characterized in that the wall of the free end of the shaft has the form of circular sinusoidal corrugations.