JP2012115356A5 - - Google Patents

Description

The stem portion S and the bone head H are both formed of a hard material, and since these are directly contacted and fixed by fitting, almost all the force applied to the bone head H is transmitted to the stem portion S. Such a force applied to the stem portion S embedded in the femur F induces loosening of the adhesion and micromotion on the adhesion surface between the stem portion S and the femur F, and the stem portion S is worn or broken. It is thought that it is a cause, and it is contributed to a thigh pain and a femur fracture.
On the contrary, since the force applied to the stem S is transmitted to the bone head H without being attenuated, this also contributes to the loosening of the acetabular component relative to the patient after the hip replacement or the patient after the hip replacement. It is considered to be or become the cause of deformation and osteoarthritis of the acetabular cartilage against.
In view of such a viewpoint, an object of the present invention is to alleviate a force transmitted between a stem portion and a bone head in a femoral component of an artificial hip joint.

In order to solve the above problems, the present invention has the following configuration.
According to the first aspect of the present invention, there is formed a bone head made of a spherical body provided with an insertion hole, and an engagement neck having a size and a shape that fits into the insertion hole that is fitted into the insertion hole and fixed at the tip. A thin, viscoelastic body sandwiched between at least part of the stem portion embedded in the femur and the opposed inner surface of the insertion hole and the outer surface of the engagement neck, or more elastic than the bone head and stem portion Ri Do from deformable elastic member is a femoral component for a hip prosthesis having a cushioning member which antibiotics are added.
According to a second aspect of the present invention, in the femoral component for an artificial hip joint, the buffer member is provided so as to go around the side peripheral surface of the engagement neck at least.
According to a third aspect of the present invention, in the femoral component for an artificial hip joint, the buffer member is provided at least on the bottom surface of the insertion hole.
The invention according to claim 4 is an artificial hip joint comprising the femoral component for an artificial hip joint and a acetabular component having a cup for rotatably holding the bone head.

According to the first aspect of the present invention, since the buffer member made of a viscoelastic body is sandwiched between at least a part of the opposing surfaces of the engagement neck of the stem portion and the insertion hole of the bone head, The force transmitted between the stem portion and the bone head is alleviated by the elastic deformation or the creep deformation of the buffer member made of the viscoelastic body or the elastic body. As a result, loosening and micromotion of the adhesion between the stem part and the femur are suppressed, wear and tear of the stem part, thigh pain, femoral fracture, femoral deformation, acetabular component loosening, acetabular cartilage Can be suppressed. In addition, by adding antibiotics to the cushioning member, even when artificial hip joint replacement or artificial head replacement is performed without cement, the antibiotics in the surrounding tissue, tissue fluid, and blood are gradually removed over a long period of time. The postoperative infection can be suppressed.
According to the second aspect of the present invention, by providing the buffer member so as to go around the peripheral surface of the engagement neck, the force in all directions applied from the side of the engagement neck can be reduced.
The invention according to claim 3 can relieve the force applied in the central axis direction of the engagement neck by providing the buffer member on the bottom surface of the insertion hole.
The invention according to claim 4 can achieve the above-described effects in an artificial hip joint.

Claims (4)

A bone head made of a spherical body provided with a fitting hole;
A stem portion embedded in the femur, in which an engagement neck having a size and a shape that fits into the insertion hole that is fitted into and fixed to the insertion hole at a distal end is formed;
Opposite the insertion hole inner surface and thin are held at least partly between said engagement neck outer surface, Ri Do a viscoelastic body or the bone head and elastically deformable elastic body from the stem portion, antibiotics A femoral component for an artificial hip joint having a cushioning member added thereto .   The femoral component for a hip prosthesis according to claim 1, wherein the buffer member is provided so as to go around at least a side peripheral surface of the engagement neck.   The femoral component for an artificial hip joint according to claim 1, wherein the buffer member is provided at least on a bottom surface of the insertion hole. An artificial hip joint comprising the femoral component for an artificial hip joint according to any one of claims 1 to 3 and a acetabular component having a cup that rotatably holds the bone head.