Prosthesis (i.e. – artificial body members) – parts thereof – or ai – Implantable prosthesis – Bone
Reexamination Certificate
2001-02-08
2003-02-25
Snow, Bruce (Department: 3738)
Prosthesis (i.e., artificial body members), parts thereof, or ai
Implantable prosthesis
Bone
C623S023190, C623S023210, C623S023220, C623S023340
Reexamination Certificate
active
06524344
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a cement jacket for a cemented artificial joint stem, and particularly to a cement jacket for a cemented artificial joint stem, with jacket secured to the bone in such a manner that the artificial joint stem can slide relative to the bone and said jacket enclosing the surface of the artificial joint stem. The invention also relates to an artificial joint having the artificial joint stem enclosed in the cement jacket.
2. Description of the Prior Art
Generally, an artificial hip joint, for example, consists of an acetabular part and a femoral or thigh bone part, wherein the acetabular and femoral parts are made of either metal, plastic, or ceramic, independently.
The human femur is formed of the cortical bone containing soft marrow. Therefore, in order to insert an artificial joint into the human body, operation is conducted in such a way that the bone canal is reamed out, the stem of artificial joint is inserted and finally anchorage is conducted by using cement(cemented) or mechanical tight fit (cementless).
In the cemented system, the cement used for fixing the artificial joint stem to the human femur has no chemical bonding or adhesive strength but only physical binding strength.
The art for surgical operation based on the artificial joint as described above is disclosed in the Korean patent publication 1814/1985 to the present applicants as the patentee, titled “Torsion resistant artificial hip joint”.
Referring to
FIG. 1
, the art is briefly reviewed.
The artificial joint
1
is integrally composed of a head
2
, neck
3
, collar
4
and stem
5
, starting with the top. The leading end of the collar
4
is curved to be secured tightly in the inner top edge of the cortex of the femur. The stem
5
is in a curved column with the top cross section resembling an ellipse which gradually varies to a circle at the bottom. Such a shape of the stem
5
is intended for protection from rotating due to the compressive force applied vertically from the top of the joint and the lateral force applied in the perpendicular direction to the stem of the joint.
Further, on the upper external surface of such a stem
5
a blade
7
with an appropriate thickness is provided protrusively in the longitudinal direction to prevent the joint from turning in the femur even in the case of a torque generated in an arbitrary direction after a surgery, wherein a fixing hole
8
is formed in the center of the blade
7
.
On the inward side of the blade
7
, the stem
5
is formed with a number of lateral grooves at certain longitudinal intervals, in which grooves iron wires
9
in chain form are inserted in a manner of wrapping the stem. On the surface of the stem
5
including the surface with chain-like wires
9
, cement
6
is coated to a certain thickness. Such a process of pre-coating with cement
6
is to facilitate adhesion with the cement used in the surgical operation and to reduce the heat generated during the curing period through the reduced use of cement.
In order to introduce such an artificial joint in a human long bone, reaming is carried out at the bone canal beforehand so that the artificial joint
1
may be inserted with the stem
5
, after appropriate amount of cement is injected thereto. Subsequently, the stem
5
is inserted in the cement-injected area, so that this cement may adhere with the pre-coated cement layer
6
on the surface of the stem
5
, with the result that the stem
5
can be firmly secured in the femur.
As hinted before, while the artificial joint implanted in a human body is used, the cement layer used for fixing the stem of the artificial joint frequently falls apart from the femur, causing a gap between the femur and the stem.
In addition, the stem of the artificial joint according to a conventional art tends to be adhered with the cement layer formed during an operation or manufacturing. Such cement layer can lead to the formation of the fibrous tissue membrane on the femur due to the action of the shear force at the boundary between the femur and the stem, initiated by the vertical force acting at the head of the stem, to thereby form an effective joint space. Then the wear particles produced by the sliding action between the acetabular cup and the femoral head may penetrate into the gap or effective joint space formed between the bone and the stem and accelerate osteolysis of the bone as a serious drawback.
Further, for an artificial joint according to the conventional art, a substantial part of the vertical force is transferred to the lower side and therefore the upper side of a femur is depleted of stress and so associated with the defect of weakening due to stress shielding.
Moreover, the cement layer formed during an operation for a cemented implant such as an Exeter stem, exhibits a poor mechanical property (for example, the tensile strength amounting to less than a half of the normal value) and so has the risk of easy breakage. Additionally, a risk of mutual contact of the stem and the bone exists due to the difficulty in securing a uniform thickness of cement, which may provide a passage of wear particles from the acetabulum cup into the femoral bone-cement interface and invoke osteolysis at the site. There is also a possibility of break at the tip portion of the stem, when the stem sinks under a vertical load.
SUMMARY OF THE INVENTION
Therefore, the present invention was created to resolve the problem with the conventional art as described above and the object of the present invention is to provide a cement jacket for a cemented artificial joint stem, wherein shear force negative to the service life of an artificial joint can be markedly reduced and stress shielding phenomena can also be markedly relieved, due to the construction of the jacket which can be fixed to the bone canal(for example, femoral canal) and can enclose the surface of the stem so as to allow for the cemented artificial joint stem to slide vertically relative to the bone, and wherein osteolysis of a bone due to the infiltration of wear particles can be minimized by suppressing the gap formation between the bone and the stem.
Further, another object of the present invention is to provide an artificial joint in which the stem is covered by a cement jacket for cemented artificial stem.
To achieve the above first object, there is provided, according to an aspect of the invention, a cement jacket for the cemented artificial joint stem for enclosing at least a part of the cemented artificial joint stem which is inserted longitudinally in the opening formed in the proximal end part of the femur of a human body.
Preferably, the cement jacket is made of cement.
Preferably it is also provided that the inner surface of said cement jacket is formed with a plastic film having a high resistance to abrasion.
Further, it is provided, the outer surface of said cement jacket is formed with discharging paths in the longitudinal direction, so that the cement poured in the bone canal previously for the surgical purpose can be easily discharged upward at the time of inserting the jacket as well as enhancing anchorage of the new cement mantle with the jacket.
To achieve the above-described second object of the invention, according to another aspect of the invention, there is provided an artificial joint with a cement jacket for the artificial joint stem, said artificial joint is integrally formed of a head, neck and stem so as to be inserted into an opening formed by digging out a part of the bone(femur) in a human body, wherein the cement jacket is so formed that it may enclose at least a part of said stem and the stem may slide vertically in a longitudinal direction and wherein the lower end part of the jacket has a surplus empty space to allow for the stem to slide downward.
In the case of using an artificial joint equipped with a cement jacket for the stem according to the invention, predominantly a compressive force comes into action between the bone and the cement jacket to suppress the formation of fibrous tissue m
Goldberg Richard M.
Korea Advanced Institute of Science and Technology
Miller Cheryl J
Snow Bruce
LandOfFree
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