Tibial component with enhanced radial cement fixation

What is claimed is: 1. A tibial prosthesis configured for securement to a patient's tibia and for articulation with an adjacent femoral component, the tibial prosthesis comprising: an articulating component having a concave articulating surface to facilitate articulation with the femoral component; and a tray component comprising: a proximal receiving surface, to which the articulating component is coupled; a distal bone-contacting surface opposite the receiving surface, the bone-contacting surface comprising: a porous outer rim; a non-porous interior region arranged medially on the bone-contacting surface, from which an anchor extends distally; and at least one non-porous cement pocket interposed between the porous outer rim and the non-porous interior region on a lateral side of the non-porous interior region, the porous outer rim completely surrounding a radially inner region of the bone-contacting surface comprising both the non-porous interior region and the at least one non-porous cement pocket, and the porous outer rim having a higher porosity than the non-porous interior region and the at least one non-porous cement pocket. 2. The tibial prosthesis of claim 1 , wherein the at least one non-porous cement pocket comprises two non-porous cement pockets, one of the two non-porous cement pockets interposed between the porous outer rim and the non-porous interior region on a first lateral side of the non-porous interior region and the other of the two non-porous cement pockets interposed between the porous outer rim and the non-porous interior region on a second lateral side of the non-porous interior region. 3. The tibial prosthesis of claim 1 , wherein the at least one non-porous cement pocket is recessed proximally relative to the porous outer rim and the non-porous interior region of the bone-contacting surface. 4. The tibial prosthesis of claim 1 , wherein at least a portion of the at least one non-porous cement pocket is directly bordered by the porous outer rim of the bone-contacting surface. 5. The tibial prosthesis of claim 1 , wherein the non-porous interior region and the porous outer rim of the bone-contacting surface are substantially flush to define a substantially planar bone-contacting surface. 6. The tibial prosthesis of claim 1 , wherein the porous outer rim of the bone-contacting surface has a width between approximately 1 mm and 15 mm. 7. The tibial prosthesis of claim 1 , wherein the porous outer rim accounts for approximately between 3% and 20% of a total surface area of the bone-contacting surface of the tray component. 8. The tibial prosthesis of claim 1 , wherein the porous outer rim of the bone-contacting surface has a varying width along a perimeter of the tray component. 9. The tibial prosthesis of claim 1 , wherein the porous outer rim includes tantalum. 10. A tray component for a tibial prosthesis configured for securement to a patient's tibia and for articulation with an adjacent femoral component, the tray component comprising: a proximal receiving surface configured to receive and be coupled to an articulating component having a concave bearing surface; a distal bone-contacting surface opposite the receiving surface, the bone-contacting surface comprising: a high-porosity outer rim; a low-porosity interior region arranged medially on the bone-contacting surface, from which an anchor extends distally; and at least one low-porosity cement pocket interposed between the high-porosity outer rim and the low-porosity interior region on a lateral side of the low-porosity interior region, the high-porosity outer rim completely surrounding a radially inner region of the bone-contacting surface comprising both the low-porosity interior region and the at least one low-porosity cement pocket, and the high-porosity outer rim having a higher porosity than the low-porosity interior region and the at least one low-porosity cement pocket. 11. The tray component of claim 10 , wherein the at least one low-porosity cement pocket comprises two low-porosity cement pockets, one of the two low-porosity cement pockets interposed between the high-porosity outer rim and the low-porosity interior region on a first lateral side of the low-porosity interior region and the other of the two low-porosity cement pockets interposed between the high-porosity outer rim and the low-porosity interior region on a second lateral side of the low-porosity interior region. 12. The tray component of claim 10 , wherein the at least one low-porosity cement pocket is recessed proximally relative to the high-porosity outer rim and the low-porosity interior region of the bone-contacting surface. 13. The tray component of claim 10 , wherein at least a portion of the at least one low-porosity cement pocket is directly bordered by the high-porosity outer rim of the bone-contacting surface. 14. The tray component of claim 10 , wherein the low-porosity interior region and the high-porosity outer rim of the bone-contacting surface are substantially flush to define a substantially planar bone-contacting surface. 15. The tray component of claim 10 , wherein the high-porosity outer rim of the bone-contacting surface has a width between approximately 1 mm and approximately 15 mm. 16. The tray component of claim 10 , wherein the high-porosity outer rim accounts for approximately between 3% and 20% of a total surface area of the bone-contacting surface of the tray component. 17. The tray component of claim 10 , wherein the high-porosity outer rim of the bone-contacting surface has a varying width along a perimeter of the tray component. 18. The tray component of claim 10 , wherein the high-porosity outer rim includes tantalum.