A wrist implant requires minimal resection of the distal radius and preserves the sigmoid notch and articulation with the head of the distal ulna. The wrist implant generally includes a radius portion, a carpal portion and a carpal ball. The wrist implant includes a primary articulation and a second
A wrist implant requires minimal resection of the distal radius and preserves the sigmoid notch and articulation with the head of the distal ulna. The wrist implant generally includes a radius portion, a carpal portion and a carpal ball. The wrist implant includes a primary articulation and a secondary rotational articulation. The primary articulation occurs between the radius portion and the carpal ball. The secondary articulation occurs between the carpal ball and the carpal portion.
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What is claimed is: 1. An implantable wrist prosthesis for implantation in a wrist joint comprising: (a) a radius component having an articular receiver and an intramedullary stem integral with and extending from the articular receiver, the articular receiver having a concave inner wall and further
What is claimed is: 1. An implantable wrist prosthesis for implantation in a wrist joint comprising: (a) a radius component having an articular receiver and an intramedullary stem integral with and extending from the articular receiver, the articular receiver having a concave inner wall and further having a convex outer wall, the convexity of the outer wall generally matching a concavity of an unresected distal portion of a patient's radius bone, the concavity of the inner wall of the articular receiver generally matching a contour of a toroid; (b) a carpal plate; and (c) a carpal ball situated between the radius component and the carpal plate, the carpal ball comprising a convex surface having a major radius and a minor radius that engages and articulates with the concave inner wall of the articular receiver of the radius component. 2. The implantable wrist prosthesis of claim 1, wherein the carpal plate further comprises a buttress surface and a secondary articular surface. 3. The implantable wrist prosthesis of claim 2, wherein the buttress surface is substantially flat. 4. The implantable wrist prosthesis of claim 2, wherein the secondary articular surface comprises a generally spheroidal protrusion. 5. The implantable wrist prosthesis of claim 1, wherein the carpal ball further comprises a back surface comprising a generally spheroidal socket. 6. The implantable wrist prosthesis of claim 5, wherein the back surface of the carpal ball is curved. 7. The implantable wrist prosthesis of claim 5, wherein the generally spheroidal socket comprises a rim having a first diameter and a spheroidal portion having a second diameter. 8. The implantable wrist prosthesis of claim 7, wherein the first diameter is less than the second diameter. 9. The implantable wrist prosthesis of claim 1, wherein the carpal ball engages the carpal plate via an interference fit between a generally spheroidal protrusion on the carpal plate and a generally spheroidal socket on the carpal ball. 10. The implantable wrist prosthesis of claim 1, wherein the carpal plate comprises a stem. 11. The implantable wrist prosthesis of claim 1, wherein the carpal plate comprises at least one carpal screw. 12. The implantable wrist prosthesis of claim 1, wherein the carpal ball has at least two degrees of freedom relative to the articular receiver, the carpal ball engaging the carpal plate and having limited rotational freedom relative to the carpal plate, the carpal ball engaging the carpal plate via an interference fit between a generally spheroidal protrusion on the carpal plate and a generally spheroidal socket on the carpal ball. 13. The implantable wrist prosthesis of claim 1, wherein the concave inner wall of the articular receiver further comprises a major radius and a minor radius. 14. The implantable wrist prosthesis of claim 13, wherein the major radius of the concave inner wall and the major radius of the convex surface are generally matching, and wherein the minor radius of the concave inner wall and the minor radius of the convex surface are generally matching. 15. The implantable wrist prosthesis of claim 1, wherein a juncture between the intramedullary stem and the articular receiver is configured to approximate anatomical volar tilt and ulnar inclination angles of the distal portion of the radius bone. 16. The implantable wrist prosthesis of claim 1, wherein the carpal ball articulates with the carpal plate about a rotational axis generally parallel to the long axis of the third metacarpal. 17. An implantable wrist prosthesis for implantation in a wrist joint comprising: (a) a radius component having an articular receiver and an intramedullary stem integral with and extending from the articular receiver, the articular receiver having a concave inner wall and further having a convex outer wall, the convexity of the outer wall generally matching a concavity of an unresected distal portion of a patient's radius bone, the concavity of the inner wall of the articular receiver generally matching a contour of a toroid; (b) a carpal plate comprising: 1) a substantially flat buttress surface; 2) a secondary articular surface comprising a generally spheroidal protrusion; 3) a stem integral with the plate; and 4) at least one carpal screw; and (c) a carpal ball situated between the radius component and the carpal plate, the carpal ball comprising a convex surface having a major radius and a minor radius that articulates with the concave inner wall of the articular receiver of the radius component and a back surface comprising a generally spheroidal socket, wherein the carpal ball engages the carpal plate via an interference fit between the generally spheroidal protrusion and the generally spheroidal socket, further wherein the carpal ball has at least two degrees of freedom relative to the articular receiver, and further wherein the carpal ball has limited rotational freedom relative to the carpal plate. 18. The implantable wrist prosthesis of claim 17, wherein a juncture between the intramedullary stem and the articular receiver is configured to approximate anatomical volar tilt and ulnar inclination angles of the distal portion of the radius bone. 19. The implantable wrist prosthesis of claim 17, wherein the carpal ball articulates with the carpal plate about a rotational axis generally parallel to the long axis of the third metacarpal. 20. An implantable wrist prosthesis for implantation in a wrist joint comprising: (a) a radius component having an articular receiver and an intramedullary stem integral with and extending from the articular receiver, the articular receiver having a concave inner wall, the concavity of the inner wall generally matching a contour of a toroid; (b) a carpal plate; and (c) a carpal ball situated between the radius component and the carpal plate, the carpal ball comprising a convex surface having a major radius and a minor radius that engages and articulates with the concave inner wall of the articular receiver of the radius component, the carpal ball articulating with the carpal plate about a rotational axis generally parallel to the long axis of the patient's third metacarpal.
Hossainy, Syed F. A.; Pacetti, Stephen D.; Fong, Keith E.; Bhat, Vinayak; Sanders Millare, Deborra; Guruwaiya, Judy A.; Mirzaee, Daryush; Mandrusov, Evgenia, Coating for implantable devices and a method of forming the same.
Hollister Anne (Downey CA) Truman Mari S. (Warsaw IN) Bodell Leonard (Paradise Valley AZ) Focht Louise (San Diego CA), Prosthetic thumb joint and method of manufacture.
Hasselman, Carl T., Method of preparing an ankle joint for replacement, joint prosthesis, and cutting alignment apparatus for use in performing an arthroplasty procedure.
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