Acetabular cup assembly for multiple bearing materials

The invention claimed is: 1. An acetabular cup system, comprising: a shell having a generally concave inner surface, an outer surface, an end face formed at an uppermost end of the shell, an apex formed at a lower end of the shell, and a central axis extending through the apex, wherein the inner surface comprises an inwardly-facing scallop defined in the inner surface and extending into the end face, at least a portion of the inner surface defining a taper with respect to the central axis, the tapered portion of the inner surface extending below the scallop, a protrusion located below the tapered portion of the inner surface, and a lower groove located below the protrusion; a first liner comprising generally convex first outer portion, the first outer portion including an outwardly-extending tab and a lower bump, wherein the first liner is formed of a polymer material; and a second liner comprising a generally convex second outer portion, the second outer portion including a tapered outer wall, wherein the second liner is formed of a metallic material; wherein the shell is configured to receive each of the first liner and the second liner; wherein when the first liner is seated in the shell, the tab is received in the scallop, the lower bump is received in the lower groove and engaged with a lower side of the protrusion, and an interference fit is formed between the first liner and the shell, the interference fit including at least engagement of the lower bump with the lower groove; and wherein when the second liner is seated in the shell, the tapered outer wall is engaged with the tapered portion of the inner surface upper wall of the shell, and the second liner is retained in the shell by engagement between the tapered portion of the inner surface and the upper wall. 2. The system of claim 1 , further comprising a third liner including a generally convex third outer portion, the third outer portion including a second tapered outer wall; wherein the third liner is formed of a ceramic material; and wherein when the third liner is seated in the shell, the tapered portion of the inner surface is engaged with the second tapered outer wall, and the third liner is retained in the shell by engagement of the tapered portion of the inner surface with the second tapered outer wall. 3. The system of claim 2 , further comprising a tapered band; wherein when the third liner is seated in the shell, the tapered band is positioned between the tapered portion of the inner surface and the second tapered outer wall such that the tapered portion of the inner surface is engaged with the second tapered outer wall through the tapered band. 4. The system of claim 1 , wherein a portion of the wall extending below the tapered portion defines an upper groove, and wherein the first liner further comprises an upper bump sized and shaped to be received in the upper groove. 5. The system of claim 4 , wherein a distance between the upper groove and the lower groove is between two millimeters and four millimeters. 6. The system of claim 1 , wherein the lower groove has a curved cross-section along a plane including the central axis. 7. The system of claim 4 , wherein the protrusion is positioned between the lower and upper grooves. 8. The system of claim 1 , wherein the lower groove is partially defined by the protrusion. 9. The system of claim 1 , wherein the inwardly-facing scallop includes a plurality of scallops and the outwardly-extending tab of the first liner includes a plurality of tabs sized and shaped to be received in the plurality of scallops. 10. The system of claim 1 , wherein, the inner surface of the shell has a polished finish, and the tapered outer wall of the second liner has a roughened finish. 11. The system of claim 10 , wherein a surface roughness of the inner surface is less than 16 microinches. 12. An acetabular cup system, comprising: a shell having a generally concave inner surface, an outer surface, an end face formed at an uppermost end of the shell, an apex formed at a lower end of the shell, and a central axis extending through the apex, wherein the inner surface comprises an inwardly-facing scallop defined in the inner surface and extending into the end face, at least a portion of the inner surface defining a taper with respect to the central axis, the tapered portion of the inner surface extending below the scallop, a protrusion located below the tapered portion of the inner surface, a lower groove located below the protrusion, and an upper groove formed in a portion of the wall extending below the tapered portion; a first liner comprising generally convex first outer portion, the first outer portion including an outwardly-extending tab, an upper bump, and a lower bump, wherein the first liner is formed of a polymer material; and a second liner comprising a generally convex second outer portion, the second outer portion including a tapered outer wall, wherein the second liner is formed of a metallic material; wherein the shell is configured to receive each of the first liner and the second liner; wherein when the first liner is seated in the shell, the tab is received in the scallop, the upper bump is received in the upper groove, the lower bump is received in the lower groove and engaged with a lower side of the protrusion, and an interference fit is formed between the first liner and the shell, the interference fit including at least engagement of the upper bump with the upper groove and the lower bump with the lower groove; and wherein when the second liner is seated in the shell, the tapered outer wall is engaged with the tapered portion of the inner surface upper wall of the shell, and the second liner is retained in the shell by engagement between the tapered portion of the inner surface and the upper wall. 13. The system of claim 12 , further comprising a third liner including a generally convex third outer portion, the third outer portion including a second tapered outer wall; wherein the third liner is formed of a ceramic material; and wherein when the third liner is seated in the shell, the tapered portion of the inner surface is engaged with the second tapered outer wall, and the third liner is retained in the shell by engagement of the tapered portion of the inner surface with the second tapered outer wall. 14. The system of claim 12 , wherein a distance between the upper groove and the lower groove is between two millimeters and four millimeters. 15. The system of claim 12 , wherein the protrusion is positioned between the lower and upper grooves. 16. The system of claim 12 , wherein the inwardly-facing scallop includes a plurality of scallops and the outwardly-extending tab of the first liner includes a plurality of tabs sized and shaped to be received in the plurality of scallops.