Standard or customized tibial implant with multiple convexities and concavities, and variable slope

What is claimed is: 1. A tibial implant for implantation in a knee joint of a patient, comprising: a weight bearing surface configured to articulate with an opposing surface along an articulating region in a generally sagittal direction when the tibial implant is implanted in the knee joint of the patient, and a bone-facing surface configured to abut a surface of a tibia of the patient when the tibial implant is implanted in the knee joint of the patient, wherein the weight bearing surface includes at least a convex weight bearing surface portion in a generally anteroposterior direction and a concave weight bearing surface portion in a generally anteroposterior direction. 2. The knee implant system of claim 1 , wherein the concave weight bearing surface portion is positioned posteriorly relative to the convex weight bearing surface portion. 3. The knee implant system of claim 1 , wherein the concave weight bearing surface portion is positioned anteriorly relative to the convex weight bearing surface portion. 4. The knee implant system of claim 1 , wherein the concave weight bearing surface portion substantially is positioned anteriorly relative to the convex weight bearing surface portion, and further comprising a second concave weight bearing surface portion substantially in an anteroposterior direction that is positioned posteriorly relative to the convex weight bearing surface portion. 5. The knee implant system of claim 1 , wherein the weight bearing surface is curved in a mediolateral direction. 6. The knee implant system of claim 1 , wherein the concave weight bearing surface portion is curved in a mediolateral direction. 7. The knee implant system of claim 1 , wherein the convex weight bearing surface portion is curved in a mediolateral direction. 8. The knee implant system of claim 1 , wherein the weight bearing surface is concave substantially in a coronal plane. 9. The knee implant system of claim 1 , wherein the concave weight bearing surface portion is concave substantially in a coronal plane. 10. The knee implant system of claim 1 , wherein the convex weight bearing surface portion is concave substantially in a coronal plane. 11. A knee implant for implantation in a knee joint of a patient, comprising: a femoral component, and a tibial component configured to be implanted in a lateral compartment of a knee joint and having a weight bearing surface configured to articulate with an opposing surface of the femoral component and extending in a generally sagittal direction when the tibial implant is implanted in the knee joint of the patient, and a bone-facing surface configured to abut a surface of a tibia of the patient when the tibial implant is implanted in the knee joint of the patient, wherein the weight bearing surface includes at least one convex weight bearing surface portion in a generally anteroposterior direction, wherein the weight bearing surface includes a concave weight bearing surface portion substantially in an anteroposterior direction. 12. The knee implant of claim 11 , wherein the weight bearing surface includes a concave weight bearing surface portion substantially in an anteroposterior direction that is positioned posteriorly relative to the convex weight bearing surface portion. 13. The knee implant of claim 11 , wherein the weight bearing surface includes a concave weight bearing surface portion substantially in an anteroposterior direction that is positioned anteriorly relative to the convex weight bearing surface portion. 14. The knee implant of claim 11 , wherein the weight bearing surface includes a first concave weight bearing surface portion substantially in an anteroposterior direction that is positioned anteriorly relative to the convex weight bearing surface portion, and a second concave weight bearing surface portion substantially in an anteroposterior direction that is positioned posteriorly relative to the convex weight bearing surface portion. 15. The tibial knee implant of claim 11 , wherein the weight bearing surface is curved in a mediolateral direction. 16. The tibial knee implant of claim 11 , wherein the weight bearing surface is concave substantially in a coronal plane. 17. A tibial implant for implantation on a tibia of the patient, comprising: a weight bearing surface configured to articulate with an opposing surface along an articulating region in a generally sagittal direction when the tibial implant is implanted in the knee joint of the patient, and a bone-facing surface configured to abut a surface of a tibia of the patient when the tibial implant is implanted in the knee joint of the patient, wherein the tibial lateral weight bearing surface includes at least one convex weight bearing surface portion in a generally mediolateral direction, wherein the weight bearing surface includes a concave weight bearing surface portion substantially in an anteroposterior direction. 18. The tibial implant of claim 17 , wherein the weight bearing surface includes a concave weight bearing surface portion substantially in an anteroposterior direction that is positioned posteriorly relative to the convex weight bearing surface portion. 19. The tibial implant of claim 17 , wherein the weight bearing surface includes a concave weight bearing surface portion substantially in an anteroposterior direction that is positioned anteriorly relative to the convex weight bearing surface portion. 20. The tibial implant of claim 17 , wherein the weight bearing surface includes a first concave weight bearing surface portion substantially in an anteroposterior direction that is positioned anteriorly relative to the convex weight bearing surface portion, and a second concave weight bearing surface portion substantially in an anteroposterior direction that is positioned posteriorly relative to the convex weight bearing surface portion. 21. The tibial implant of claim 17 , wherein the weight bearing surface is curved in a mediolateral direction. 22. The tibial implant of claim 17 , wherein the weight bearing surface is concave substantially in a coronal plane. 23. A tibial knee implant for implantation in a knee joint of a patient, comprising: a tibial component configured to be implanted in a lateral compartment of a knee joint and having a weight bearing surface configured to articulate with an opposing surface and extending in a generally sagittal direction when the tibial implant is implanted in the knee joint of the patient, and a bone-facing surface configured to abut a surface of a tibia of the patient when the tibial implant is implanted in the knee joint of the patient, wherein the weight bearing surface includes a variable slope having a at least one portion forming a negative slope relative to the bone facing surface and at least one portion forming a positive slope relative to the bone facing surface, wherein the negative slope and the positive slope are on a substantially the same sagittal plane, wherein the variable slope of the weight bearing surface forms a convex weight bearing surface portion substantially in an anteroposterior direction and a concave weight bearing surface portion substantially in an anteroposterior direction. 24. The tibial knee implant of claim 23 , wherein the variable slope of the weight bearing surface forms a convex weight bearing surface portion substantially in an anteroposterior direction and a concave weight bearing surface portion substantially in an anteroposterior direction that i