Method and apparatus for minimally invasive insertion of intervertebral implants

What is claimed is: 1. An access device for orthopedic surgery comprising: an access cannula having a longitudinal lumen extending between proximal and distal ends, wherein the distal end of the access cannula has a semi-annular cross-section; and a drill bit configured to be slidably received within the longitudinal lumen of the access cannula, the drill bit comprising first and second cutting portions, wherein the diameters of the first and second cutting portions differ, wherein the drill bit comprises a stop configured to limit slidable movement of the drill bit with respect to the access cannula, such that when the stop abuts the proximal end of the access cannula, 1) the first cutting portion of the drill bit extends beyond the distal end of the access cannula, and 2) the second cutting portion of the drill bit does not extend beyond the distal end of the access cannula. 2. The access device of claim 1 , wherein the drill bit is configured to be coupled to a powered drill. 3. The access device of claim 1 , wherein the position of the stop is adjustable. 4. The access device of claim 1 , wherein the access cannula has a substantially smooth outer surface. 5. The access device of claim 1 , wherein the longitudinal lumen has a diameter of approximately 12 mm. 6. The access device of claim 5 , wherein the drill bit has a largest diameter of approximately 11 mm. 7. The access device of claim 1 , wherein the diameter of the second cutting portion is greater than the diameter of the first cutting portion so as to define a radial shoulder at an interface between the first cutting portion and the second cutting portion. 8. The access device of claim 7 , wherein the second cutting portion has a greater length than the first cutting portion. 9. The access device of claim 8 , wherein the second cutting portion extends proximally from the first cutting portion. 10. A drill bit for orthopedic surgery comprising: a drill bit comprising a distal end and a proximal end, the proximal end configured to be grasped by the chuck of a drill to provide rotary force to the drill bit; a stop positioned near the proximal end; a first cutting portion at the distal-most tip of the drill bit; and a second cutting portion disposed proximal of the first cutting portion, wherein the second cutting portion has 1) a greater length than the first cutting portion and 2) a greater radius than the first cutting portion so as to define a radial shoulder at an interface between the first cutting portion and the second cutting portion, wherein the diameter of the first cutting portion is approximately 5 mm, while the diameter of the second cutting portion is approximately 11 mm. 11. The drill bit of claim 10 , wherein the length of the first cutting portion is approximately 6 mm, and the length of the second cutting portion is approximately 18 mm. 12. The drill bit of claim 10 , wherein the drill bit is cannulated and configured to allow the drill bit to be passed over a K-wire or guide wire. 13. The drill bit of claim 12 , wherein the cannula of the drill bit is approximately 1.7 mm. 14. The drill bit of claim 10 , wherein the diameter of one of the first and second cutting portions is substantially constant. 15. The drill bit of claim 14 , wherein the diameter of the second cutting portion is substantially constant. 16. The drill bit of claim 15 , wherein the diameter of the first cutting portion is substantially constant. 17. A drill bit for orthopedic surgery comprising: a drill bit comprising a distal end and a proximal end, the proximal end configured to be grasped by the chuck of a drill to provide rotary force to the drill bit; a stop positioned near the proximal end; a first cutting portion at the distal-most tip of the drill bit; wherein the first cutting portion has a substantially constant radius along its length; and a second cutting portion has 1) a greater length than the first cutting portion and 2) a greater radius than the first cutting portion so as to define a radial shoulder at an interface between the first cutting portion and the second cutting portion. 18. The drill bit of claim 17 , wherein the drill bit comprises three or more different cutting portions. 19. A drill bit for orthopedic surgery comprising: a drill bit comprising a distal end and a proximal end, the proximal end configured to be grasped by the chuck of a drill to provide rotary force to the drill bit; a stop positioned near the proximal end; a first cutting portion at the distal-most tip of the drill bit and has both a shorter length and a smaller radius than a second cutting portion, which is positioned proximal to the first cutting portion, wherein the radius of each of the first and second cutting portions is substantially constant, wherein the drill bit is cannulated and configured to allow the drill bit to be passed over a K-wire or guide wire. 20. The drill bit of claim 19 , wherein the diameter of the first cutting portion is substantially constant. 21. The drill bit of claim 19 , wherein the cannula of the drill bit is approximately 1.7 mm. 22. A drill bit, for orthopedic surgery comprising: a drill bit comprising a distal end and a proximal end, the proximal end configured to be grasped by the chuck of a drill to provide rotary force to the drill bit; a stop positioned near the proximal end; and a first cutting portion at the distal-most tip of the drill bit and has both a shorter length and a smaller radius than a second cutting portion, which is positioned proximal to the first cutting portion, wherein the radius of each of the first and second cutting portions is substantially constant, wherein the diameter of the first cutting portion is substantially constant, and wherein the diameter of the first cutting portion is approximately 5 mm, while the diameter of the second cutting portion is approximately 11 mm. 23. The drill bit of claim 22 , wherein the length of the first cutting portion is approximately 6 mm, and the length of the second cutting portion is approximately 18 mm. 24. A drill bit for orthopedic surgery comprising: a drill bit comprising a distal end and a proximal end, the proximal end configured to be grasped by the chuck of a drill to provide rotary force to the drill bit; a stop positioned near the proximal end; a first cutting portion at the distal-most tip of the drill bit and has both a shorter length and a smaller radius than a second cutting portion, which is positioned proximal to the first cutting portion, wherein the radius of each of the first and second cutting portions is substantially constant along its entire length.