ACETABULAR SHELL AND LINER SYSTEM

Abstract

A trial liner system for use in hip arthroplasty. The liner system includes a first trial liner having a generally convex outer surface and a generally concave inner surface, the generally concave inner surface having a first locking mechanism. The liner also includes a second trial liner having a generally convex outer surface and a generally concave inner surface The generally convex outer surface includes a second locking mechanism adapted to lock with the first locking mechanism of the first trial liner when the second trial liner is inserted into the first trial liner.

Claims

1. A trial liner system for use in hip arthroplasty including: a first trial liner having a generally convex outer surface and a generally concave inner surface, the generally concave inner surface having a first locking mechanism; and a second trial liner having a generally convex outer surface and a generally concave inner surface, the generally convex outer surface having a second locking mechanism adapted to lock with the first locking mechanism of the first trial liner when the second trial liner is inserted into the first trial liner.

2. The trial liner system of claim 1, wherein one of the first and second locking mechanisms include a plurality of recesses and the other of the first and second locking mechanisms include a plurality of protrusions sized and shaped to lock into the recesses.

3. The trial liner system of claim 2, wherein the plurality of recesses are in the inner generally concave surface of the first trail liner and extend across the inner surface.

4. The trial liner system of claim 2, wherein the plurality of protrusions are ribs extending across the outer generally convex outer surface of the second trial liner.

5. The trial liner system of claim 1, wherein the second trial liner includes a third locking mechanism on the generally concave inner surface.

6. The trial liner system of claim 5, wherein the third locking mechanism includes a plurality of recesses.

7. The trial liner system of claim 5, further comprising a third trial liner, wherein the trial liner has a generally concave inner surface and a generally convex outer surface, the generally convex outer surface having a plurality of locking mechanisms.

8. The trial liner system of claim 1, wherein the generally concave inner surface of the first and second trial liners are sized and shaped to receive a trial head.

9. A trial liner system for use in hip arthroplasty including: a plurality of nesting trial liners, with each one of the plurality of trial liners having an outer diameter and an inner diameter that is a different size than the others of the plurality of trial liners, wherein the outer diameter of at least one of the plurality of trial liners is sized so as to fit within the inner diameter of at least one of the plurality of trial liners.

10. The trial liner system of claim 9, wherein the outer diameter of at least one of the plurality of trial liners includes a first locking mechanism and the inner diameter of at least another of the plurality of trial liners includes a second locking mechanism, and the first locking mechanism is adapted to engage the second locking mechanism.

11. The trial liner system of claim 10, wherein the first locking mechanism is one of a groove and a rib, and the second locking mechanism is the other of a groove and a rib.

12. The trial liner system of claim 9, wherein the inner diameters of at least one of the plurality of trial liners is sized and shaped to receive a trial head.

13. The trial liner system of claim 9, wherein the inner diameters of each of the plurality of trial liners is sized and shaped to receive a trial head.

14. A hip arthroplasty system including: a plurality of nesting trial liners, with each one of the plurality of trial liners having an outer diameter and an inner diameter that is a different size than the others of the plurality of trial liners, wherein the outer diameter of at least one of the plurality of trial liners is sized so as to fit within the inner diameter of at least one of the plurality of trial liners; a plurality of trial heads, at least one of the plurality of trial heads having a diameter such that it fits within the inner diameter of one of the plurality of nesting trial liners; at least one stem including a neck for coupling with the plurality of trial heads.

15. The hip arthroplasty system of claim 14, wherein the outer diameter of at least one of the plurality of trial liners includes a first locking mechanism and the inner diameter of at least another of the plurality of trial liners includes a second locking mechanism, and the first locking mechanism is adapted to engage the second locking mechanism.

16. The hip arthroplasty system of claim 15, wherein the first locking mechanism is one of a groove and a rib, and the second locking mechanism is the other of a groove and a rib.

17. The hip arthroplasty system of claim 14, wherein the outer diameter of at least one of the plurality of trial liners includes a first locking mechanism and the inner diameter of the at least one of the plurality of trial liners includes a second locking mechanism.

18. The hip arthroplasty system of claim 14, wherein the outer diameter of one of the plurality of trial liners includes a first locking mechanism, the inner diameter of the one of the plurality of trial liners includes a second locking mechanism, and the inner diameter of another of the plurality of trial liners includes a third locking mechanism, the third locking mechanism adapted to engage the first locking mechanism of the one of the plurality of trial liners

19. The hip arthroplasty system of claim 14, wherein each of the plurality of liners has a generally convex outer surface and a generally concave inner surface.

Description

BRIEF DESCRIPTION OF FIGURES

[0013] FIG. 1 illustrates a trial shell according to one embodiment of the present invention.

[0014] FIG. 2 illustrates a trial nesting liner set inserted into the shell of FIG. 1.

[0015] FIG. 3a illustrates a single nesting liner according to one embodiment of the present invention.

[0016] FIG. 3b illustrates a single nesting liner of a size different than the liner of FIG. 3a.

[0017] FIG. 3c illustrates a single nesting liner of a size different than both the liners of FIG. 3a and FIG. 3b.

[0018] FIG. 4a illustrates a trial nesting liner set inserted into a shell and articulating with a head.

[0019] FIG. 4b illustrates a trial nesting liner with the single liner of FIG. 3a inserted into a shell and articulating with a head.

DETAILED DESCRIPTION

[0020] An acetabular trial shell 10 according to one embodiment of the present invention is shown in FIG. 1. As illustrated, the trail shell includes an outer convex surface 12 and an inner concave surface 14. The outer convex surface 12 is to engage the prepared bone of a patient's acetabulum. The inner concave surface 14 is designed to accept a trial liner system 20 as shown in FIG. 2.

[0021] As shown in FIG. 2, the trial liner system 20 includes three trial liners 22, 24, 26 in nesting engagement with each other and with the trial shell 10. The illustrated embodiment shows three trial liners 22, 24, 26 as being the trial liner system 20, but it should be understood that any number of trial liners may be used.

[0022] Turning now to FIG. 3a, the largest of the illustrated trial liners 22 will be described. The trial liner 22 has a generally convex outer surface 30. The convex outer surface 30 is sized and shaped to engage the inner concave surface 14 of the shell 10. The diameter of the outer surface 30 is approximately the same as the diameter of the inner concave surface 14. The outer surface 30 may also include locking features 31 such as a taper (as shown) or a thread at the center of the cup and liner (not shown). In other embodiments, tapers and locking rings could be used. Alternatively, there may not be a locking feature and the trial could be loose. The trial liner 22 also includes a generally concave inner surface 32. The inner surface 32 is interrupted by a plurality of locking mechanisms 34. In the illustrated embodiment, the locking mechanisms 34 are recesses. Alternatively, the locking mechanisms may be protrusions. The generally concave inner surface 32 has a diameter, d1, which is large enough to receive the largest size head (36 in FIG. 4b) that may be used with the system.

[0023] FIG. 3b illustrates the next largest trial liner 24. The trial liner 24 has a generally convex outer surface 40. The diameter d2 of the generally convex outer surface 40 is approximately the same as the diameter d1 of the concave inner surface of the largest trial liner 22. The convex outer surface 40 also includes a locking mechanism 46 sized and shaped to engage the locking mechanism 34 of the largest trial liner 24. As shown, the locking mechanism 46 is a protrusion that engages the recess 34 of the liner trial 22. As shown, there are a plurality of protrusions 46 and corresponding recesses 34. Alternatively, there may be only a single protrusion 46 and corresponding recess 34. In other embodiments, the second liner 24 may include recesses and the first liner 22 may include protrusions. In yet other locking mechanisms such as tapers or tongue-in-groove mechanisms may be utilized.

[0024] The trial liner 24 also includes a generally concave inner surface 42. The inner surface 42 is interrupted by a plurality of locking mechanisms 44. In the illustrated embodiment, the locking mechanisms 44 are recesses. Alternatively, the locking mechanisms may be protrusions. The generally concave inner surface 42 has a diameter, d3, which is large enough to receive the second largest size head that may be used with the system.

[0025] FIG. 3c illustrates the smallest trial liner 26. The trial liner 26 has a generally convex outer surface 50. The diameter d4 of the generally convex outer surface 50 is approximately the same as the diameter d3 of the concave inner surface 42 of the second trial liner 42. The convex outer surface 50 also includes a locking mechanism 56 sized and shaped to engage the locking mechanism 44 of the second trial liner 34. As shown, the locking mechanism 56 is a protrusion that engages the recess 44 of the liner trial 24. As shown, there are a plurality of protrusions 56 and corresponding recesses 44. Alternatively, there may be only a single protrusion 56 and corresponding recess 44. In other embodiments, the third liner 26 may include recesses and the second liner 24 may include protrusions. In yet other locking mechanisms such as tapers or tongue-in-groove mechanisms may be utilized.

[0026] The third trial liner 26 also includes a generally concave inner surface 52. In the illustrated embodiment, the inner surface is smooth to receive a head. The inner surface 52 may interrupted by a plurality of locking mechanisms (not shown) which may be recesses or other known locking mechanisms. The generally concave inner surface 52 has a diameter, d5, which is large enough to receive the smallest size head that may be used with the system.

[0027] In the system, there may be any number of trial liners with differing sizes of diameters. The invention provides that they are all able to nest. In some embodiments, the locking mechanisms may be ribs that extend all the way around the outer surface of the liner or they may just be tabs at the edges. Also, other known locking mechanisms may be used.

[0028] Turning now to FIG. 4a, the system is shown in use with a trial head 36. As shown, the trial shell 10 is coupled to the first trial 22, second trial 24, and third trial 26. The inner surface 52 of the third trial liner 26 is sized and shaped to receive the trail head 36. The trial head 36 is coupled to either a trial stem or a stem implant 65. In other embodiments, the trial head 36 may be coupled to a reamer (not shown) acting as a trail stem.

[0029] If during the surgery, the surgeon decides to trial a larger head, the surgeon may simply remove the smallest trial liner 26 and insert the next larger trial head into the trial liner 24. Alternatively, as shown in FIG. 4b, the surgeon may start with the largest trial liner 22 and trial the largest head 66 and continue the trialing process by trying successively smaller heads.

[0030] The trial shell 10 is made of stainless steel. Alternatively, polymers may be used. The trial liners may be made of durable polymers that are able to be sterilized in an autoclave. Other polymers may be used that are designed to only be used a single time.

[0031] In use, any number of nesting trial liners may be used with corresponding size heads. In some embodiments, the trial liners may be used with an actual shell implant and head implants and not trials.