Robotic system and method for bone preparation for intervertebral disc prosthesis implantation

The invention claimed is: 1. A system for implanting an intervertebral disc prosthesis in a vertebral disc space, the system comprising: a 3D modeling system configured to: create a 3D model of a first vertebrae and a second vertebrae adjacent the vertebral disc space, identify a position of each of the first and second vertebrae, and a center of rotation for the intervertebral disc prosthesis, and generate and store position data for the positions of the first and second vertebrae and the center of rotation for the intervertebral disc prosthesis; a computing system configured to store and process the 3D model and the position data; a disc selection interface on the computing system configured to allow a surgeon to select the intervertebral disc prosthesis to be implanted from a plurality of available intervertebral disc prostheses based on the 3D model and the position data for the first and second vertebrae; a bone cutting interface on the computing system configured to determine a bone cutting pattern based on the position data for the first and second vertebrae and the center of rotation for the selected intervertebral disc prosthesis; a cutting device for cutting a vertebral bone; and a robot configured to guide the cutting device to cut the vertebral bone in the bone cutting pattern to fit the selected intervertebral disc prosthesis. 2. The system of claim 1 , wherein the cutting device is surgeon-manipulated and robotically-guided to cut the vertebral bone in the bone cutting pattern. 3. The system of claim 1 , wherein the robot includes a guiding device to robotically guide the cutting device to a desired position for cutting the vertebral bone. 4. The system of claim 1 , wherein the position data includes a center of rotation for a plurality of candidate prostheses, wherein the intervertebral disc prosthesis is selected from the plurality of candidate prostheses. 5. The system of claim 1 , wherein the computing system is further configured to determine a desired location for the selected intervertebral disc prosthesis with respect to the positions of the first and second vertebrae and a center of rotation for the intervertebral disc prosthesis. 6. The system of claim 1 , wherein the robot is configured to place a tip of a cutter in a plane of a desired cut, and to limit cutting to the plane of the desired cut. 7. The system of claim 1 , wherein the 3D modeling system is further configured to create the 3D model of the first and second vertebrae at a location of a disc to be replaced from pre-operative imaging techniques. 8. The system of claim 7 , wherein the 3D modeling system is further configured to continuously verify the positions of the first and second vertebrae throughout the step of robotically guiding the cutting device. 9. The system of claim 8 , further comprising a plurality of radiopaque markers in the first and second vertebrae for verifying the positions of the first and second vertebrae. 10. The system of claim 1 , wherein the selected intervertebral disc prosthesis comprises: a first plate having an outer surface locatable against the first vertebra and an inner bearing surface; and a second plate having an outer surface locatable against the second vertebra and an inner bearing surface; and wherein the inner bearing surfaces of the first and second plates allow the plates to articulate and translate with respect to one another and wherein the intervertebral disc prosthesis has a center of rotation. 11. A system for implanting an intervertebral disc prosthesis in a vertebral disc space, the system comprising: a 3D modeling system configured to: create a 3D model of first and second vertebrae adjacent the vertebral disc space, identify a position of each of the first and second vertebrae, and a center of rotation for the intervertebral disc prosthesis, and generate and store position data for the positions of the first and second vertebrae and the center of rotation for the intervertebral disc prosthesis; a computing system configured to store and process the 3D model and the position data; a disc selection interface on the computing system configured to allow a surgeon to select an intervertebral disc prosthesis to be implanted between the first and second vertebrae from a plurality of available intervertebral disc prostheses based on the 3D model and position data for the first and second vertebrae; a locating interface configured to determine a desired location for the selected intervertebral disc prosthesis with respect to the positions of the first and second vertebrae, and store position data for the selected intervertebral disc prosthesis location; a bone cutting interface on the computing system configured to determine a bone cutting pattern based on the position data for the first and second vertebrae and the center of rotation for the selected intervertebral disc prosthesis; a cutting device for cutting a vertebral bone; and a robot configured to guide the cutting device to cut the vertebral bone in the bone cutting pattern to fit the selected intervertebral disc prosthesis. 12. The system of claim 11 , wherein the cutting device is surgeon-manipulated and robotically-guided to cut the vertebral bone in the bone cutting pattern. 13. The system of claim 11 , wherein the position data includes a center of rotation for each of the plurality of candidate prostheses, wherein the intervertebral disc prosthesis is selected from the plurality of candidate prostheses. 14. The system of claim 11 , wherein the 3D modeling system is further configured to create the 3D model from pre-operative imaging techniques of the first and second vertebrae at a location of a disc to be replaced. 15. The system of claim 14 , wherein the 3D modeling system is further configured to continuously verify the positions of the first and second vertebrae throughout the step of robotically guiding the cutting device. 16. The system of claim 15 , further comprising a plurality of radiopaque markers in the first and second vertebrae for verifying the positions of the first and second vertebrae. 17. A system for implanting an intervertebral disc prosthesis in a vertebral disc space, the system comprising: a 3D modeling system configured to create a 3D model of first and second vertebrae adjacent the vertebral disc space, and identify a position of each of the first and second vertebrae, and a center of rotation for the intervertebral disc prosthesis, and generate and store position data for the positions of the first and second vertebrae and the center of rotation for the intervertebral disc prosthesis; a computing system configured to store and process the 3D model and the position data; a disc selection interface on the computing system configured to allow a surgeon to select an intervertebral disc prosthesis to be implanted between the first and second vertebrae from a plurality of available intervertebral disc prostheses based on the 3D model and position data for the first and second vertebrae; a locating interface configured to determine a desired location for the selected intervertebral disc prosthesis with respect to the positions of the first and second vertebrae and a center of rotation for the intervertebral disc prosthesis, and store position data for the selected intervertebral disc prosthesis location and the center of rotation; a bone cutting interface on the computing system configured to determine a bone cutting pattern based on the position data for the center of rotation for the first and second vertebrae and the center of rotatio