Method and spacer device for spanning a space formed upon removal of an intervertebral disc

What is claimed is: 1. A method of spanning a space formed upon removal of an intervertebral disc, the method comprising: performing a discectomy to remove disc material between two adjacent vertebral bodies; cutting at least one slot in at least one of the adjacent vertebral bodies; placing an intervertebral spacer between the two adjacent vertebral bodies, the spacer comprising: two end plates, each end plate having a metallic vertebral body contacting surface, an inner surface and a fin extending from the vertebral body contacting surfaces; a connector interconnecting the inner surfaces of the two end plates in a rigid manner which limits motion between the end plates, the connector being a solid cylindrical member; wherein each of the vertebral body contacting surfaces of the end plates have no holes therein or have holes which cover only a portion of the vertebral body contacting surfaces; wherein the intervertebral spacer including the two end plates and connector is formed of a single piece; placing the fin of one of the end plates into the at least one slot, thereby inhibiting rotation of the spacer relative to the at least one adjacent vertebral body having the at least one slot; and maintaining the disc space between the two adjacent vertebral bodies with the intervertebral spacer without the use of bone graft or bridging bone, wherein no part of the intervertebral spacer extends outside the intervertebral disc space. 2. The method of claim 1 , wherein the connector is a rigid connector. 3. The method of claim 1 , wherein the two end plates and connector are formed of a single piece of metal. 4. The method of claim 1 , wherein the intervertebral spacer is selected, such that when the spacer is positioned between the adjacent vertebral bodies the spacer fills at least 50 percent of a vertebral space formed between the adjacent vertebral bodies. 5. The method of claim 1 , wherein each of the vertebral body contacting surfaces of the end plates has holes which cover less than 25 percent of the vertebral body contacting surfaces. 6. The method of claim 1 , further comprising at least one fixation means provided on each of the vertebral body contacting surfaces the intervertebral spacer. 7. The method of claim 6 , wherein the fixation means is at least one of a screw, teeth, serrations, or grooves. 8. The method of claim 1 , wherein at least one of the metallic vertebral contacting surfaces is formed of titanium or a titanium alloy. 9. The method of claim 1 , wherein the two adjacent vertebral bodies are stabilized without the use of external plates or screws. 10. The method of claim 1 , wherein the two end plates and connector are formed of a single piece of PEEK with metallic vertebral body contacting surfaces. 11. The method of claim 1 , wherein the fin on each of the two end plates comprises two fins. 12. The method of claim 1 , wherein the fin includes at least two canted fins, the at least two canted fins are not perpendicular to the metallic vertebral body contacting surface of each end plate. 13. The method of claim 1 , wherein the fin includes parallel opposite side surfaces. 14. An intervertebral spacer for spanning a space formed upon removal of an intervertebral disc, the spacer comprising: two end plates sized and shaped to fit within an intervertebral space between two vertebrae, each end plate having a metallic vertebral contacting surface and an inner surface; a connector interconnecting the inner surfaces of the two end plates in a rigid manner which limits motion between the end plates, the connector being a solid cylindrical member; at least one fin projecting from one of the vertebral contacting surfaces, wherein the at least one fin is configured to be inserted into a slot cut in at least one of the two vertebrae to inhibit rotation of the spacer with respect to the vertebrae, wherein at least one of the two end plates comprises two fins canted away from one another with bases of the two fins closer together than edges of the two fins; and wherein the two end plates and connector are formed of a single piece of PEEK with metallic screens or metallic coatings formed directly on the PEEK to provide the vertebral body contacting surfaces. 15. The spacer of claim 14 , wherein each of the vertebral body contacting surfaces of the end plates include holes, and wherein the holes cover less than 40 percent of the vertebral body contacting surfaces. 16. The spacer of claim 14 , wherein the intervertebral spacer is configured such that when placed within the intervertebral space no part of the intervertebral spacer extends outside the intervertebral disc space. 17. The spacer of claim 14 , wherein the at least one fin on each of the two end plates comprises two fins. 18. The spacer of claim 14 , wherein the at least one fin includes canted fins, the canted fins are not perpendicular to the metallic vertebral body contacting surface of each end plate. 19. The spacer of claim 14 , wherein each of the at least one fin includes parallel opposite side surfaces. 20. An intervertebral spacer for spanning a space formed upon removal of an intervertebral disc, the spacer comprising: two end plates sized and shaped to fit within an intervertebral space between two adjacent vertebral bodies, each end plate having a vertebral contacting surface and an inner surface; a connector interconnecting the inner surfaces of the two end plates in a rigid manner which limits motion between the end plates, the connector being a solid cylindrical member; at least two fins projecting from each of the vertebral contacting surfaces, wherein the at least two fins are each configured to be inserted into a slot cut in the adjacent vertebral bodies to inhibit rotation of the spacer with respect to the adjacent vertebral bodies, and wherein the at least two fins on each end plate are canted away from one another, wherein the at least two fins are closer together at the at least two fins' respective bases than at the at least two fins' respective edges. 21. The spacer of claim 20 , wherein each of the at least two fins include parallel opposite side surfaces.