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United States Patent Application 20050137713
Kind Code A1
Bertram, Morton III June 23, 2005

Anti-backout arthroscopic uni-compartmental prosthesis

Abstract

An improved uni-compartmental implant has a shaft having a proximal end attached to a head and a distal end, and one or more raised portions spaced apart along the shaft to resist back-out. The length between the head and distal end is preferably less than 50 mm, the distal end of the shaft has a diameter on the order of 2 to 3 mm, the proximal end of the shaft has a diameter on the order of 2 to 4 mm, and the head has a diameter ranging from 4 mm or less to 20 mm or more, making the device suitable for knee arthroscopy and other applications. The shaft and/or raised portions may include a bone-ingrowth or bone-ongrowth surface, and the shaft and/or raised portions may be made of a fiber-metal. The head portion is preferably ceramic, though a chrome-cobalt alloy, titanium, or other bio-compatible material may be used. The head portion may have a bi-convex shape, a plano-convex shape, or a concave-convex shape.


Inventors: Bertram, Morton III; (Naples, FL)
Correspondence Address:
    John G. Posa
    Gifford, Krass, Groh, Sprinkle,
    Anderson & Citkowski, P.C.
    280 N. Old Woodward Ave., Suite 400
    Birmingham
    MI
    48009-5394
    US
Serial No.: 738652
Series Code: 10
Filed: December 17, 2003

Current U.S. Class: 623/23.44; 623/20.3
Class at Publication: 623/023.44; 623/020.3
International Class: A61F 002/30; A61F 002/38


Claims



I claim:

1. A uni-compartmental implant, comprising: a shaft having a proximal end attached to a head and a distal end; and one or more raised portions spaced apart along the shaft to resist back-out.

2. The uni-compartmental implant of claim 1, wherein the length between the head and distal end is less than 50 mm.

3. The uni-compartmental implant of claim 1, wherein the distal end of the shaft has a diameter on the order of 2 to 3 mm.

4. The uni-compartmental implant of claim 1, wherein the proximal end of the shaft has a diameter on the order of 2 to 4 mm.

5. The uni-compartmental implant of claim 1, wherein the shaft includes a bone-ingrowth or bone-ongrowth surface.

6. The uni-compartmental implant of claim 1, wherein the raised portions include a bone-ingrowth or bone-ongrowth surface.

7. The uni-compartmental implant of claim 1, wherein the shaft is made of a fiber-metal.

8. The uni-compartmental implant of claim 1, wherein the raised portions are made of a fiber-metal.

9. The uni-compartmental implant of claim 1, wherein the head portion is ceramic.

10. The uni-compartmental implant of claim 1, wherein the head portion is constructed of a chrome-cobalt alloy or other bio-compatible alloy.

11. The uni-compartmental implant of claim 1, wherein the head portion has a bi-convex shape.

12. The uni-compartmental implant of claim 1, wherein the head portion has a plano-convex shape.

13. The uni-compartmental implant of claim 1, wherein the head portion has a concave-convex shape.

14. The uni-compartmental implant of claim 1, wherein the head portion has a diameter ranging from 2 mm to 20 mm.
Description



FIELD OF THE INVENTION

[0001] This invention relates generally to joint-related prosthetic devices and, in particular, to an arthroscopic, uni-compartmental prosthesis.

BACKGROUND OF THE INVENTION

[0002] Due in part to an aging population that wishes to remain active, arthritis of the knee is approaching epidemic proportions in the U.S. Another factor is obesity, since the knees bear much of increased weight in the body. It is estimated that approximately 750,000 surgical procedures are done in the U.S each year for knee problems, including total-knee replacements, partial-knee replacements, and arthroscopic procedures.

[0003] Quite often, patients treated with knee arthroscopy for arthritis of the knee do very poorly. There are a number reasons for this, but the low rate of success is largely due to the fact that these patients have a small area of their cartilage which is denuded of cartilage and they continue to have pain. Although the area of cartilage eburnation is not large enough to warrant joint replacement procedure, it is large enough to cause continued problems and significant patient dissatisfaction.

[0004] Uni-compartmental knee procedures have therefore become more popular in recent years. One reason is that smaller incisions are now used, to the extent that uni-compartmental knees are now carried out through a so-called minimally invasive approach. Still, however, in many case this involves a 4-inch incision, significant soft tissue dissection, and significant morbidity for the patient.

[0005] To improve these procedures, various implants and techniques are being devised. One of many is disclosed in Published U.S. Patent Application 2002/0099446 A1. This reference discloses a knee-joint prosthesis comprising at least one femoral component and at least one tibial component. The femoral component includes a first portion adapted for fixable attachment to a distal end of a femur and a second portion formed with a bearing surface. The femoral component is sized so as to permit attachment to the femur of a patient without severing at least one the cruciate ligaments. The tibial component has a first surface that is adapted to cooperate with a patient's tibia, while a second surface of the tibial component is adapted to cooperate with the femoral component. The tibial component is sized so as to permit attachment to the patient's tibia without severing at least one of the cruciate ligaments.

[0006] Despite advances such as these, however, the need remains for an improved implant, preferably one that resists back-out.

SUMMARY OF THE INVENTION

[0007] This invention resides in an improved uni-compartmental implant including a shaft having a proximal end attached to a head and a distal end, and one or more raised portions spaced apart along the shaft to resist back-out. The length between the head and distal end is preferably less than 50 mm, the distal end of the shaft has a diameter on the order of 2 to 3 mm, the proximal end of the shaft has a diameter on the order of 2 to 4 mm, and the head has a diameter ranging from 4 mm or less to 20 mm or more, making the device suitable for knee arthroscopy and other applications.

[0008] The shaft and/or raised portions may include a bone-ingrowth or bone-ongrowth surface, and the shaft and/or raised portions may be made of a fiber-metal. The head portion is preferably ceramic, though a chrome-cobalt alloy, titanium, or other bio-compatible material may be used. The head portion may have a bi-convex shape, a plano-convex shape, or a concave-convex shape.

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is a drawing that illustrates a preferred embodiment of the invention.

[0010] FIG. 2 is a drawing that illustrates an alternative head design;

[0011] FIG. 3 is a drawing that illustrates a different alternative head design; and

[0012] FIG. 4 is a drawing that illustrates yet a further alternative head design.

DETAILED DESCRIPTION OF THE INVENTION

[0013] FIG. 1 illustrates a preferred embodiment of the invention. The implantable device, shown generally at 100, includes a shaft portion 102 having a head portion 104 and one or more raised portions 106 to resist pull-out. In terms of dimensions, the length of the device is preferably on the order of 25 mm, though length in excess of this, or on the order of 10 mm or less, may be more appropriate depending upon the application. The distance between the raised portions, "D" is preferably a few millimeters; for example, between 5 and 10 millimeters, depending upon the number used and other considerations.

[0014] The shaft portion 102 preferably tapers from a diameter at "B" of 3 mm, or less, to a diameter at "A" of 2.5 mm, or thereabouts. The head 104 will preferably be offered in different diameters, such as 4, 6, 8, 10, 15, and 20 mm, and so forth, in which case smaller-diameter heads may have smaller dimensions of A and B, and larger-diameter heads may have larger dimensions of A and B. Smaller dimensions may use less raised portions 106, whereas larger dimensions may use more of them.

[0015] Although the head portion 104 is generally shown as a bi-convex shape, other head geometries may be appropriate, such as plano-convex, concave-convex, and different radii of curvature, whether concave or convex surfaces are used. In addition, although the edge of the bi-convex surfaces of the head 104 are shown in the drawing as smoothly transitioning through a smaller radius, the sharp edge may alternatively be used. FIGS. 2-4 show three possible alternative head configurations.

[0016] In terms of materials, the head portion may be made of any appropriate bio-compatible material, such as chrome cobalt or titanium, though in the preferred embodiment, ceramic is used. The shaft 102 and raised portions 106 preferably include some type of porous ingrowth or ongrowth surface such as hydroxyapetitite, and such surfaces may be used in conjunction with raised bumps to further assist in preventing backout. Although a metallic shaft in raised portions may be used, when available, a fibermetal one is the preferred technology.

[0017] The inventor has also devised a way to perform a procedure arthroscopically without large incisions so that we could take care of these patchy areas of ebumated bone within an isolated condyle in the knee. The procedure could be done on the lateral or medial side, and if the technique was altered slightly, it could even be applied to the patellofemoral groove. The technique would involve a variation of a procedure known as the OATS procedure. In this procedure, osteoarticular transfer of tissue is performed by using essentially a trephine to core out a plug of bad bone where the cartilage has been worn away or eburnated and then an area of the knee is harvested that has articular cartilage covering it but is not needed, for instance, the inner portion of the patellofemoral groove or inner portion of the medial and lateral femoral condyle along the intercondylar notch. These tissue plugs, which contain bone and cartilage, are then transferred over to this area. This procedure has had moderate success. It is mostly used for young people who have isolated articular defects.

[0018] According to this invention, the OATS procedure is converted to an arthroplasty technique where, instead of a plug of bone and cartilage, the plug of FIG. 1 is instead used. The area of defect would be isolated, identified, and measured, then a guide wire would be placed centrally into the defect. Over the guide wire, a cannulated reamer would be placed that we would ream to a specified depth. This would establish the canal size for the `stem` of the prosthesis. We would then over-ream with a secondary reamer which would then establish the size for the `rounded head` of the prosthesis. At this point, the prosthesis could be either press fitted or cemented into place in the defect.

[0019] I believe that this technique would have significant advantages over the OATS procedure since this would be more rigidly fixed and it would be sealing the defect with cement and/or cobalt chrome. It would be more applicable for the elderly population as they have more of a geographic ebumation of bone as opposed to small circumscribed lesions that are applicable to the OATS procedure. I would envision that for a typical arthritic knee, one would need multiple plugs of cobalt chrome that could be placed in these areas. With relative ease, the surgeon could place as many as four or five of these circular plugs in the knee to take care of the eburnated areas where the bone is exposed. An inventory would be maintained that would come in different diameter sizes and stem lengths for the prostheses. They could easily be used in a right or a left knee and each prosthesis implanted would be a separate charge. They are relatively small; therefore, they would not occupy a large amount of shelf space at the hospital or in the local distributor's office. The instrumentation would be easy to design and would fit very nicely in a self-contained unit.

[0020] In rare situations, we would find eburnated bone on the tibial side. This would obviously be more difficult to reach because of the anatomy of the knee. However, it is conceivable that lesions within the anterior two-thirds of the knee on the tibial plateau could easily be re-surfaced in a manner such as I just described. These plugs will actually be more flat as opposed to a slightly rounded plug that would be used on the femoral side.

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