Customized intervertebral prosthetic disc with shock absorption

What is claimed is: 1. A core for an intervertebral prosthesis, the core comprising: an upper component having an upper surface; a lower component having a lower surface, wherein a spacing between the upper component and the lower component defines an inner chamber of the core; a resilient material disposed between the upper component and the lower component, wherein the resilient material allows the upper component and the lower component to move toward and away from each other; and at least one spring disposed between the upper component and the lower component, wherein the at least one spring is disposed within the resilient material. 2. The core of claim 1 , further comprising at least one channel extending from the inner chamber to an external surface of the core to allow passage of a fluid through the inner chamber. 3. The core of claim 1 wherein the at least one channel includes at least two channels that extend from the inner chamber to the external surface of the core. 4. The core of claim 2 , wherein the at least one channel is shaped to pump the fluid out of the core when the upper component and lower component move toward each other and draw the fluid into the core when the upper component and lower component move away from each other. 5. The core of claim 1 , further comprising an upper support and a lower support, wherein the upper support and the lower support are locatable about the core. 6. The core of claim 5 , wherein each of the upper support and the lower support is configured to engage a respective vertebra and each support comprises an inner surface shaped to contact at least one of the upper surface and the lower surface of the core. 7. The core of claim 6 , wherein the upper support and the lower support are adapted to articulate when the core is positioned between the upper support and the lower support. 8. An intervertebral prosthesis comprising: a core including: an upper component having an upper surface; a lower component having a lower surface, wherein a spacing between the upper component and the lower component defines an inner chamber of the core; and a resilient material disposed between the upper component and the lower component, wherein the resilient material allows the upper component and the lower component to move toward and away from each other; first and second plates locatable about the core, each plate including: an outer surface configured to engage a vertebra, and an inner surface shaped to contact at least one of the upper surface and the lower surface of the core; and a retaining formation which is configured to hold the core captive between the first and second plates, wherein the retaining formation includes an inwardly facing groove at an edge of the inner surface of the first plate and an outwardly facing flange on an outer periphery of the core; wherein the first and second plates are adapted to articulate with respect to one another and the core. 9. The intervertebral prosthesis of claim 8 , wherein the core includes at least one spherical bearing surface. 10. The intervertebral prosthesis of claim 8 , wherein the resilient material includes a polymer. 11. The intervertebral prosthesis of claim 8 , wherein the outer surface of the first and second plates each have a fin extending in an anterior-posterior direction. 12. The intervertebral prosthesis of claim 8 , wherein the core includes an indicia indicating a respective one of a plurality of cores from which the core is selected, each of the plurality of cores having a respective height. 13. A method of assembling an intervertebral prosthesis, the method comprising: placing a core between a first plate and a second plate, the core including upper and lower surfaces, and having an outer periphery provided with an outwardly facing flange, wherein the core includes a resilient material disposed between the upper surface and the lower surface, wherein the resilient material allows the upper surface and the lower surface of the core to move toward and away from each other; holding the core captive between the first plate and the second plate with a retaining formation which includes the outwardly facing flange on the outer periphery of the core and an inwardly facing groove of the first plate; and allowing the first plate and the second plate to articulate with respect to one another when the core is positioned between the first plate and the second plate. 14. The method of claim 13 , wherein the core locks into place within the first plate or the second plate. 15. The method of claim 13 , wherein the first plate and the second plate articulate with respect to the core when the first plate and the second plate are inserted into an intervertebral space. 16. The method of claim 13 , wherein the core includes at least one spherical bearing surface.