Knee joint prosthesis and related method

We claim: 1. A knee joint prosthesis comprising: a tibial component having a fixation portion comprised of a ceramic material adapted to be fixed to an upper end of a prepared tibia in a patient, and a bearing portion presenting at least one articulation surface formed from a ceramic material; and a femoral component adapted to be fixed to a lower end of a prepared femur in a patient, the femoral component having a body portion presenting at least one articulation surface formed from a ceramic material for engagement with the respective articulation surface of the tibial component, wherein the articulation surfaces of the tibial and femoral components are configured for essentially congruent engagement over a full range of movement of the prosthesis, the articulation surfaces following a curve in a sagittal plane defined by a constant radius over a full extent of their engagement, wherein the bearing portion of the tibial component is adapted for translational and rotational movement relative to the fixation portion during said full range of movement of the prosthesis, wherein an axis of rotational movement of the bearing portion relative to the fixation portion is configured for movement with the bearing portion, wherein a projecting member extending from the fixation portion is received or accommodated in an aperture in the bearing portion and extends beyond the at least one articulation surface of the bearing portion, and wherein the projecting member includes one or more abutment member to limit the translational and rotational movement of the bearing portion relative to the fixation portion. 2. The knee joint prosthesis according to claim 1 , wherein each of the articulation surfaces consists essentially of a partial circular-cylindrically shaped surface, or a partially spherical surface, or a partial toric-shaped surface. 3. The knee joint prosthesis according to claim 1 , or 2 , wherein the bearing portion of the tibial component presents two laterally spaced apart articulation surfaces, and the body portion of the femoral component presents two corresponding laterally spaced apart articulation surfaces for engagement with the respective articulation surfaces of the tibial component. 4. The knee joint prosthesis according to claim 3 , wherein each of the articulation surfaces of each of the tibial and femoral components has a separate centre of curvature, and wherein the respective centres of curvature are spaced from one another in the medio-lateral direction. 5. The knee joint prosthesis according to claim 1 , wherein the bearing portion is adapted for translational movement relative to the fixation portion in an antero-posterior direction, and wherein the bearing portion is adapted for rotational movement relative to the fixation portion about a substantially vertical axis. 6. A knee joint prosthesis comprising: a tibial component comprising a fixation portion formed of a ceramic material and adapted to be attached to an upper end of a prepared tibia in a patient, and a bearing portion formed from a ceramic material and presenting at least one articulation surface, wherein the at least one articulation surface follows a curve in a sagittal plane defined by a constant radius over a full extent of said articulation surface, wherein the bearing portion is adapted for translational and rotational movement relative to the upper end of the tibia during a full range of movement of the prosthesis implanted in the patient, wherein an axis of the rotational movement of the bearing portion is movable relative to the upper end of the tibia, wherein a projecting member extending from the fixation portion is received or accommodated in an aperture in the bearing portion and extends beyond the at least one articulation surface of the bearing portion, and wherein the projecting member includes one or more abutment member to limit the translational and rotational movement of the bearing portion relative to the fixation portion. 7. The knee joint prosthesis according to claim 6 , wherein the bearing portion of the tibial component presents two laterally spaced apart articulation surfaces and wherein each of the articulation surfaces has a separate centre of curvature. 8. The knee joint prosthesis according to claim 6 or 7 , further comprising: a femoral component adapted to be fixed to a lower end of a prepared femur in a patient, the femoral component having a body portion formed from a ceramic material and presenting at least one articulation surface for engagement with the respective articulation surface(s) of the tibial component, wherein the articulation surfaces of the tibial component and the femoral component are configured to maintain essentially congruent engagement over a full range of movement of the prosthesis. 9. The knee joint prosthesis according to claim 1 or 6 , wherein the fixation portion of the tibial component comprises a seating member upon which the bearing portion is movably supported, the bearing portion being adapted for sliding movement on the seating member, and wherein the seating member is configured as a plate-like member, an upper surface of which forms a seating surface upon which the bearing portion is supported and is adapted to move relative to the fixation portion. 10. The knee joint prosthesis according to claim 1 or 6 , wherein the fixation portion of the tibial component comprises an anchoring member to be inserted into a recess formed in an upper end of the prepared tibia, the anchoring member being adapted to extend into the tibia and being configured to inhibit rotation of the fixation portion relative to the tibia. 11. The knee joint prosthesis according to claim 1 or 8 , comprising joint stabilising means adapted to limit the relative movement between the tibial component and the femoral component, wherein the joint stabilising means comprises a member which defines a limit to the movement of the prosthesis at a fully extended position and/or at a fully flexed position, and wherein the stabilising means is adapted to retain the articulation surfaces of the tibial and femoral components in registration with one another to prevent the components from inadvertently moving or slipping, in a lateral direction, out of proper engagement or alignment. 12. The knee joint prosthesis according to claim 11 , wherein the bearing portion of the tibial component presents two laterally spaced apart articulation surfaces, and the body portion of the femoral component presents two corresponding laterally spaced apart articulation surfaces for engagement with the respective articulation surfaces of the tibial component, and wherein the joint stabilising means comprises a projecting member located upstanding between, and extending upwardly beyond the two laterally spaced articulation surfaces of the tibial component, whereby the projecting member is within an opening or aperture formed between the corresponding articulation surfaces of the femoral component of the knee prosthesis. 13. The knee joint prosthesis according to claim 12 , wherein the projecting member of the tibial component cooperates with the opening or aperture of the femoral component to form means for registering the position of the femoral component on the tibial component and means for laterally stabilizing a position of the femoral component relative to the tibial component, and wherein the projecting member extends from the fixation portion through an aperture in the bearing portion to form a pivot for rotational movement of the bearing portion relative to the fixation portion of the tibial component. 14. The knee joint prosthesis accord