Zero profile spinal fusion cage

We claim: 1. An intervertebral fusion cage comprising: a distal wall and a proximal wall spaced from the distal wall in a proximal direction; first and second side walls connecting the proximal and distal walls; an upper bearing surface adapted for gripping an upper vertebral endplate, and a lower bearing surface adapted for gripping a lower vertebral endplate, the upper bearing surface defining at least one upper opening therethrough adapted to promote bony fusion, and the lower bearing surface defining at least one lower opening therethrough adapted to promote bony fusion, the upper and lower openings together forming a throughhole, wherein the intervertebral fusion cage defines a first guide surface canal that 1) extends into the at least one of the upper and lower bearing surfaces, 2) extends through the distal wall so as to define a distal opening in the distal wall, and 3) defines a first guide surface, and wherein the intervertebral fusion cage is configured to receive a head of a bone screw through the distal opening in the proximal direction, such that the head is translatably received in the first guide surface canal and is guided within the first guide surface canal in the proximal direction toward the proximal wall. 2. The cage of claim 1 wherein the first guide surface canal is elongate along the proximal direction, and has a cross-section along a plane perpendicular to the proximal direction that is semi-circular. 3. The cage of claim 1 wherein the first guide surface canal extends substantially along a centerline of the cage. 4. The cage of claim 1 wherein the first guide surface canal includes an outwardly extending bump adapted to limit translational movement of the interbody cage with respect to the screw. 5. The cage of claim 1 wherein the first guide surface canal comprises a distal recess and a proximal recess, each recess having a depth, wherein the proximal recess depth is greater than the distal recess depth. 6. The cage of claim 5 wherein the distal recess is formed from a polymeric material and the proximal recess is formed from a metallic material. 7. The cage of claim 1 wherein the proximal wall has an opening that communicates with the head of the bone screw and is adapted to provide access by a screwdriver. 8. The cage of claim 1 further comprising: a second guide surface canal formed in another of the upper and lower bearing surfaces and extending substantially from the proximal wall to the distal wall, the second guide surface canal adapted for distal reception of a second screw head. 9. The cage of claim 8 , wherein: the first and second guide surface canals are elongate along the proximal direction; and the second guide surface canal is aligned with the first guide surface canal along a direction, perpendicular to the proximal direction. 10. The cage of claim 9 , wherein the proximal wall defines a slot that extends from the first guide surface canal to the second guide surface canal such that a proximal end of the first guide surface canal is open to a proximal end of the second guide surface canal. 11. The cage of claim 1 wherein the first guide surface canal is discontinuous. 12. The cage of claim 1 wherein the first guide surface canal has the head of the bone screw received therein. 13. The cage of claim 1 wherein the first guide surface canal comprises a proximal process. 14. The cage of claim 1 , wherein the first guide surface is smooth as it extends from the proximal wall to the distal wall. 15. The cage of claim 1 , wherein the first guide surface is configured to contact the head of the bone screw as the head translates in the proximal direction. 16. The cage of claim 1 , wherein: the first guide surface canal is elongate along the proximal direction and defines a width along a direction, perpendicular to the proximal direction; and the width decreases from the upper bearing surface toward the lower bearing surface. 17. The cage of claim 1 , comprising at least one protrusion that extends over the first guide surface canal at the proximal wall and terminates before the distal wall, wherein the at least one protrusion is configured to lock the head of the bone screw in the first guide surface canal at the proximal wall. 18. The cage of claim 17 , wherein: the first guide surface canal is elongate along the proximal direction and defines a maximum dimension along a second direction, perpendicular to the proximal direction; and the at least one protrusion comprises a first protrusion, and a second protrusion spaced from the first protrusion along the second direction by a dimension that is less than the maximum dimension. 19. The cage of claim 1 , wherein the first guide surface canal extends through the proximal wall so as to define a proximal opening, and the first guide surface canal slidably receives the head of the bone screw such that the head is received in the proximal opening. 20. A spinal assembly, comprising: the cage of claim 1 ; and a first bone anchor that includes the head of the bone screw and a shaft extending from the head. 21. The spinal assembly of claim 20 , wherein the head of the bone screw has a shape that conforms to a shape of the first guide surface canal. 22. The spinal assembly of claim 21 , wherein the head of the bone screw is substantially spherical. 23. An intervertebral fusion cage comprising: a proximal end and a distal end, the proximal and distal ends spaced from each other along a first direction; a first side and a second side, the first and second sides spaced from each other along a second direction that is perpendicular to the first direction; an upper bearing surface configured to engage an upper vertebral endplate; a lower bearing surface configured to engage a lower vertebral endplate, the upper and lower bearing surfaces spaced from each other along a third direction that is perpendicular to both the first and second directions; and a first guide surface that at least partially defines a first guide surface canal that 1) is elongate along the first direction, 2) extends through the distal end, and 3) extends into at least one of the upper and lower bearing surfaces to the first guide surface, the first guide surface canal configured to translatably receive a first bone screw head at the distal end such that the first bone screw head translates within the first guide surface canal in the first direction toward the proximal end until the first bone screw head is captured at the proximal end, wherein the first guide surface canal defines a width along the second direction, and the width decreases from the upper bearing surface toward the lower bearing surface along the third direction. 24. The cage of claim 23 , wherein the first guide surface canal has a cross-section along a plane perpendicular to the first direction that is semi-circular. 25. The cage of claim 23 , further comprising a second guide surface canal formed in another of the upper and lower bearing surfaces and extending substantially from the proximal end to the distal end, the second guide surface canal adapted for distal reception of a second bone screw head. 26. The cage of claim 25 , wherein the second guide surface canal is aligned with the first guide surface canal along the third direction. 27. The cage of claim 23 , wherein the first guide surface is smooth as it extends from the proxima