Self in-fusing pedicle screw implant

What is claimed is: 1. An anchoring system configured to be implanted in bone, comprising: a screw including a screw head, a screw shaft, and a plurality of interface elements extending radially outward from the screw, each pair of the interface elements having an interface by-pass channel located therebetween; a boring ring including an upper surface, a lower surface including an interface seating surface, a wall portion extending between the upper surface and the lower surface, a plurality of cutting teeth along the wall portion extending longitudinally from the upper surface to the lower surface, and a ring by-pass channel disposed between each of the cutting teeth; and a coupling assembly that is adjustable with respect to a longitudinal axis of the screw, the coupling assembly being adapted to attach to the screw head, wherein each of the plurality of interface elements contain an interface surface specifically configured to engage the interface seating surface to seat the boring ring on top of the plurality of interface elements; wherein the upper surface of the boring ring includes an annular portion that directly engages with the coupling assembly to facilitate polyaxial angulation, pivoting, and rotation of the coupling assembly. 2. The anchoring system of claim 1 , wherein the coupling assembly comprises: a coupling body that receives and holds an elongate rod; and a clamp that couples the coupling body to the screw head. 3. The anchoring system of claim 2 , wherein the coupling assembly further comprises: a saddle that attaches to the clamp. 4. The anchoring system of claim 1 , wherein the plurality of interface elements extend radially from the screw in a direction that is substantially normal to the longitudinal axis of the screw, and each of the interface by-pass channels extend substantially parallel to the longitudinal axis of the screw. 5. The anchoring system of claim 1 , wherein the plurality of interface elements include an upper boring ring interface surface and a lower bone-facing surface, the upper boring ring interface surface comprising a tapered surface configured to engage the interface seating surface of the boring ring. 6. The anchoring system of claim 1 , wherein the screw further includes a neck portion located between the screw head and the plurality of interface elements. 7. The anchoring system of claim 6 , wherein the neck portion is configured to receive tissue, blood and bone to promote graft formation. 8. The anchoring system of claim 1 , wherein the boring ring is configured to float between the plurality of interface elements and the coupling assembly. 9. An anchoring system configured to be implanted in bone, comprising: a screw including a screw head and a plurality of interface elements extending radially outward from the screw; a boring ring including an upper surface, a lower surface including an interface seating surface, a wall portion extending between the upper surface and the lower surface, a plurality of cutting teeth along the wall portion extending longitudinally from the upper surface to the lower surface, and a by-pass channel disposed between each adjacent pair of cutting teeth, the boring ring being disposed between the screw head and the plurality of interface elements; and a coupling assembly that attaches to the screw head, wherein each of the plurality of interface elements contain an interface surface specially configured to engage the interface seating surface to seat the boring ring on top of the plurality of interface elements; the coupling assembly is adjustable with respect to a longitudinal axis of the screw, wherein the upper surface of the boring ring includes an annular portion that directly engages with the coupling assembly to facilitate polyaxial angulation, pivoting, and rotation of the coupling assembly. 10. The anchoring system of claim 9 , further comprising: a by-pass channel disposed between each adjacent pair of the plurality of interface elements. 11. The anchoring system of claim 10 , wherein the coupling assembly comprises: a coupling body that receives and holds an elongate rod; a clamp that attaches the coupling body to the screw head; and a saddle that attaches to the clamp. 12. The anchoring system of claim 10 , wherein the plurality of interface elements extend radially from the screw in a direction that is substantially normal to a longitudinal axis of the screw, and each of the interface by-pass channels extend substantially parallel to the longitudinal axis of the screw. 13. The anchoring system of claim 10 , wherein the screw further includes a neck portion located between the screw head and the plurality of interface elements. 14. The anchoring system of claim 10 , wherein the wall portion includes a flat portion, wherein said flat portion is configured to interface a boring driver during implantation of the anchoring system. 15. The anchoring system of claim 9 , wherein the boring ring is configured to float between the coupling assembly and the plurality of interface elements. 16. An anchoring system configured to be implanted in bone, comprising: a boring ring including an upper surface, a lower surface including an interface seating surface, a wall portion extending between the upper surface and the lower surface, a plurality of cutting teeth along the wall portion extending longitudinally from the upper surface to the lower surface and along the lower surface; and a screw including a screw head, a screw shaft and a plurality of interface elements extending radially outward from the screw, each adjacent pair of the plurality of interface elements having an interface by-pass channel located therebetween, wherein each of the plurality of interface elements contain an interface surface specifically configured to engage the interface seating surface to seat the boring ring on top of the plurality of interface elements; a coupling assembly disposed at the screw head and is adjustable with respect to a longitudinal axis of the screw, wherein the upper surface of the boring ring includes an annular portion that directly engages with the coupling assembly to facilitate polyaxial angulation, pivoting, and rotation of the coupling assembly. 17. The anchoring system of claim 16 , wherein the boring ring further comprises: a ring by-pass channel disposed between each adjacent pair of the plurality of cutting teeth. 18. The anchoring system of claim 1 , wherein the plurality of cutting teeth extend along the lower surface of the boring ring.