Intervertebral prosthetic disc

What is claimed is: 1. An intervertebral prosthetic disc for insertion between adjacent vertebrae, the disc comprising: upper and lower plates having outer surfaces locatable against the respective vertebrae, inner bearing surfaces, and lateral portions; a core between the plates, the core having upper and lower surfaces complementary in shape to the inner bearing surfaces of the plates to allow the plates to slide over the core; a projection formed on the upper or lower surface of the core; a slot formed on at least one of the inner bearing surfaces, the slot arranged to receive and cooperate with the projection to retain the core between the plates when the plates slide over the core, wherein the projection and slot are located between a central axis of the plates and an outer periphery thereof, and wherein the lateral portions of the upper and lower plates are adapted to contact one another during sliding movement of the plates over the core. 2. The prosthetic disc of claim 1 , wherein the projection is located with clearance in the slot. 3. The prosthetic disc of claim 2 , wherein at a limit of sliding movement of the plates over the disc, the projection abuts against the slot. 4. The prosthetic disc of claim 1 , wherein the inner bearing surfaces is a curved surfaces. 5. The prosthetic disc of claim 4 , wherein the upper and lower surfaces of the core are convex surfaces. 6. The prosthetic disc of claim 1 , wherein the projection extends from the core in a direction substantially perpendicular to the surface of the core. 7. The prosthetic disc of claim 1 , wherein the projection comprises an annular projection. 8. The prosthetic disc of claim 1 , wherein the upper and lower plates comprise metal. 9. The prosthetic disc of claim 8 , wherein the core comprises polyethylene. 10. The prosthetic disc of claim 1 , further comprising at least one fin extending from the outer surfaces of the upper and lower plates. 11. The prosthetic disc of claim 1 , wherein the slot is formed in a curved inner bearing surface which cooperates with the core. 12. A method of retaining a core in a prosthetic disc, the method comprising: providing upper and lower plates and a core; providing a slot in at least one of the plates and a projection on the core, with the slot located between a central axis of the plates and an outer periphery thereof; positioning the core between the upper and lower plates; holding the core captive between the plates while the plates slide over the core by locating the projection within the slot; and restricting movement of the plates by allowing for contact between a lateral portion of the upper plate with a lateral portion of the lower plate. 13. The method of claim 12 , wherein the upper and lower plates are allowed to slide over the core. 14. The method of claim 12 , wherein the core comprises at least one spherical surface. 15. An intervertebral prosthetic disc for insertion between adjacent vertebrae, the disc comprising: upper and lower plates having outer surfaces locatable against the respective vertebrae, inner bearing surfaces, and lateral portions; a core between the plates, the core having upper and lower surfaces complementary in shape to the inner bearing surfaces of the plates to allow the plates to slide over the core; at least one projection formed on the upper or lower surface of the core; at least one slot formed on at least one of the inner bearing surfaces, the slot arranged to receive and cooperate with the projection to retain the core between the plates when the plates slide over the core, wherein each slot is located entirely between a central axis of the plates and an outer periphery of the core. 16. The prosthetic disc of claim 15 , wherein the projection is located with clearance in the slot. 17. The prosthetic disc of claim 16 , wherein at a limit of sliding movement of the plates over the disc, the projection abuts against the slot. 18. The prosthetic disc of claim 15 , wherein the inner bearing surface of the upper plate is a curved surface. 19. The prosthetic disc of claim 18 , wherein the upper surface of the core is a convex surface. 20. The prosthetic disc of claim 15 , wherein the projection extends from the core in a direction substantially perpendicular to the surface of the core. 21. The prosthetic disc of claim 15 , wherein the projection comprises an annular projection. 22. The prosthetic disc of claim 15 , wherein the upper and lower plates comprise metal. 23. The prosthetic disc of claim 22 , wherein the core comprises polyethylene. 24. The prosthetic disc of claim 15 , further comprising at least one fin extending from the outer surfaces of the upper and lower plates. 25. The prosthetic disc of claim 15 , wherein the slot is formed in a curved inner bearing surface which cooperates with the core. 26. A method of retaining a core in a prosthetic disc, the method comprising: providing upper and lower plates and a core; providing at least one slot in at least one of the plates and at least one projection on the core, with each slot located entirely between a central axis of the plates and an outer periphery of the core; positioning the core between the upper and lower plates; and holding the core captive between the plates while the plates slide over the core by locating the projection within the slot. 27. The method of claim 26 , wherein the upper and lower plates are allowed to slide over the core. 28. The method of claim 26 , wherein the core comprises at least one spherical surface.