Intervertebral spacer that dynamically promotes bone growth

What is claimed is: 1. A dynamic intervertebral spacer comprising: a monolithic ring having an anterior portion, a posterior portion, a first lateral portion, a second lateral portion opposite the first lateral portion, and an open center portion; wherein the ring is split in the anterior portion and superior and inferior surfaces on a first side thereof are vertically offset from superior and inferior surfaces on a second side thereof; wherein the posterior portion of the ring is configured to act as a torsion spring to allow the vertical offset of the first and second lateral portions to decrease under load on the ring; and wherein the first and second sides of the ring each have at least one bone screw, wherein the bone screw(s) on one side are configured to attach to a superior vertebral body and the bone screw(s) on the another side are configured to attach to an inferior vertebral body. 2. The spacer as in claim 1 , wherein the ring has first and second opposed faces at the split which move with respect to one another under load on the ring from adjacent vertebral bodies. 3. The spacer as in claim 2 , wherein the opposed faces are planar. 4. The spacer as in claim 2 , wherein the vertical offset resists the compression with a spring force in the range from 20 N/mm to 40000 N/mm. 5. The spacer as in claim 1 , wherein the monolithic ring is configured to elastically resist flexion as a patient's spine goes through flexion and extension. 6. The spacer as in claim 5 , wherein the monolithic body comprises a polymer. 7. The spacer as in claim 6 , wherein the polymer is selected from the group consisting of polyether ether ketones (PEEK), polyaryl ether ketones (PAEK), and their composites, such as carbon fiber reinforced or with radiopaque compounds. 8. The spacer as in claim 5 , wherein the monolithic body comprises a metal. 9. The spacer as in claim 8 , wherein the metal is selected from the group consisting of titanium, and its alloys such as nitinol, cobalt chrome molybdenum and variants. 10. The spacer as in claim 1 , wherein the vertical offset is in the range from 0.05 mm to 3.0 mm. 11. The spacer as in claim 1 , wherein the superior surface has a convex geometry. 12. The spacer as in claim 1 , wherein the ring includes an open center space extending from the superior to the inferior surface configured to receive a bone graft material. 13. The spacer as in claim 1 , wherein a first portion of the anterior portion connected to the first lateral portion has the bone screw and a second portion of the anterior portion connected to the second lateral portion has another bone screw. 14. The spacer as in claim 1 , wherein at least a part of the posterior portion has an attachment feature on at least one of the superior and anterior surfaces thereof.