Vertebral body placement and method for spanning a space formed upon removal of a vertebral body

What is claimed is: 1. A vertebral body replacement for replacing at least one vertebral body between remaining upper and lower vertebral bodies, the vertebral body replacement comprising: a first end plate having an upper surface configured to engage against a surface of the upper remaining vertebral body, and a lower surface opposite the upper surface spanning the first end plate; a second end plate having a lower surface configured to engage against a surface of the lower remaining vertebral body; a compliant connector section between the first end plate lower surface and the second end plate lower surface, the compliant connector section comprising a plurality of separate stackable spacers each having at least one helical cut configured and arranged to permit limited rotation between the first end plate and the second end plate in an anterior/posterior direction and a lateral direction; and a rotational interlock on the first end plate lower surface and an upper surface of at least one of the spacers, the rotational interlock being configured and arranged to inhibit rotational motion between the first end plate lower surface and the at least one spacer upper surface, wherein the rotational interlock comprises a first raised elongate portion extending in the anterior/posterior direction or the lateral direction on one of the first end plate lower surface or the at least one spacer upper surface and a first complementary elongate recess in the opposite surface. 2. The vertebral body replacement of claim 1 , wherein the second end plate includes an upper surface opposite the second end plate lower surface and spanning the second end plate, the compliant connector section located between the second end plate lower and upper surfaces. 3. The vertebral body replacement of claim 2 , wherein said rotational interlock is a first rotational interlock, and further comprising a second rotational interlock on the first end plate lower surface and the second end plate upper surface, the second rotational interlock configured and arranged to at least inhibit rotational motion between the first end plate lower surface and the second end plate upper surface. 4. The vertebral body replacement of claim 1 , wherein the compliant connector section is configured and arranged to limit motion to less than 10 degrees between said remaining vertebral bodies. 5. The vertebral body replacement of claim 1 , wherein the at least one helical cut in each of the separate stackable spacers are oppositely oriented. 6. The vertebral body replacement of claim 1 , wherein said rotational interlock is a first rotational interlock, wherein the at least one spacer has a lower surface spanning the at least one spacer, wherein the second end plate has an upper surface spanning the second end plate, and further comprising: a second rotational interlock on the second end plate upper surface and the at least one spacer lower surface, the second rotational interlock configured and arranged to at least inhibit rotational motion between the second end plate upper surface and the at least one spacer lower surface, wherein the second rotational interlock comprises a second raised elongate portion extending in the anterior/posterior direction or the lateral direction on one of the second end plate upper surface or the at least one spacer lower surface and a second complementary elongate recess in the opposite surface. 7. The vertebral body replacement of claim 6 , wherein the first and second rotational interlocks are different. 8. The vertebral body replacement of claim 1 , further comprising: an adjustment mechanism between the first and second end plates, the adjustment mechanism configured and arranged to selectively move the first and second end plates towards and away from each other. 9. The vertebral body replacement of claim 1 , further comprising at least one bone ingrowth hole in at least one of the first and second end plates. 10. The vertebral body replacement of claim 1 , wherein each of the first and second end plates comprise a lateral surface, and wherein the at least one bone ingrowth hole extends between said lateral surface and said surface configured to engage against a surface of a remaining vertebral body. 11. The vertebral body replacement of claim 1 , wherein the vertebral body replacement is sized and shaped to replace one or more entire vertebral bodies of the human spine. 12. A vertebral body replacement for replacing at least one vertebral body between remaining upper and lower vertebral bodies, the vertebral body replacement comprising: a first end plate having an upper surface configured to engage against a surface of the upper remaining vertebral body, and a lower surface opposite the upper surface spanning the first end plate; a second end plate having a lower surface configured to engage against a surface of the lower remaining vertebral body; a compliant connector section between the first end plate lower surface and the second end plate lower surface, the compliant connector section comprising a plurality of separate stackable spacers each having at least one helical cut configured and arranged to form a continuous spring coil element; and a rotational interlock on the first end plate lower surface and an upper surface of at least one of the spacers, the rotational interlock being configured and arranged to inhibit rotational motion between the first end plate lower surface and the at least one spacer upper surface, wherein the rotational interlock comprises a raised elongate portion extending in the anterior/posterior direction or the lateral direction on one of the first end plate lower surface or the at least one spacer upper surface and a complementary elongate recess in the opposite surface. 13. The vertebral body replacement of claim 12 , wherein the vertebral body replacement is sized and shaped to replace one or more entire vertebral bodies of the human spine. 14. A vertebral body replacement for replacing at least one vertebral body between remaining upper and lower vertebral bodies, the vertebral body replacement comprising: a first end plate having an upper surface configured to engage against a surface of the upper remaining vertebral body, and a lower surface opposite the upper surface spanning the first end plate; a second end plate having a lower surface configured to engage against a surface of the lower remaining vertebral body and an upper surface; a compliant connector section between the first end plate lower surface and the second end plate lower surface, the compliant connector section comprising a plurality of separate stackable spacers each having at least one helical cut configured and arranged to form a continuous spring coil element; and a rotational interlock on the second end plate upper surface and a lower surface of at least one of the spacers, the rotational interlock being configured and arranged to inhibit rotational motion between the second end plate upper surface and the at least one spacer lower surface, wherein the rotational interlock comprises a raised elongate portion extending in the anterior/posterior direction or the lateral direction on one of the second end plate upper surface or the at least one spacer lower surface and a complementary elongate recess in the opposite surface. 15. The vertebral body replacement of claim 14 , wherein the vertebral body replacement is sized and shaped to replace one or more entire vertebral bodies of the human spine. 16. A vertebral body replacement for replacing at least one vertebral body between remaining upper and lower