Adaptor and drill for use with a driver and a cannula for drilling into bone

We claim: 1. An assembly for removal of material from bone and placement of at least a portion of the assembly in the bone, the assembly comprising: an adaptor having a proximal first end, an opposite distal second end, a mid-longitudinal axis extending through the proximal first end and the distal second end of the adaptor, a length extending between the proximal first end and the opposite distal second end of the adaptor, an end portion provided at the proximal first end, and the end portion including a channel formed at least adjacent the proximal first end of the adaptor, a head portion including a distal surface at least adjacent the distal second end of the adaptor, and the head portion including at least one coupler provided on or adjacent the distal surface, the at least one coupler being configured to releasably engage a cannula; a driver having a chuck configured to engage a portion of a drill; the drill having a proximal first end, an opposite distal second end, a portion for engaging the chuck of the driver at or adjacent the proximal first end of the drill, a collar portion being positioned between the proximal first end and the distal second end of the drill, and a shaft portion including flutes configured to facilitate removal of material from the bone extending from the collar portion to the distal second end, the collar portion including a recess defined by an interior sidewall surface, an interior endwall surface, and a key that interrupts portions of the interior sidewall surface and the interior endwall surface, the shaft extending through a central portion of the recess, and the key extending through the recess from the interior sidewall surface to at least adjacent the shaft, at least a portion of the end portion of the adaptor being receivable in the recess, and the key being receivable in the channel, and engagement of the key within the channel rotatably coupling the drill and the adaptor; and a cannula having at least one complementary coupler for engaging the at least one coupler on the adaptor, the engagement of the at least one coupler and the at least one complementary coupler preventing rotation of the adaptor and the cannula with respect to one another in at least one rotational direction. 2. The assembly of claim 1 , wherein the end portion of the adaptor includes an end surface, and the end surface of the adaptor is engageable to the interior endwall surface of the recess when the at least a portion of the end portion is received in the recess. 3. The assembly of claim 1 , wherein the at least one coupler includes at least one tab formed on the distal surface, the at least one tab being configured to engage a complimentary structure of the at least one complementary coupler. 4. The assembly of claim 1 , wherein the at least one coupler includes at least one recess formed on the distal surface, the at least one recess being configured to engage a complimentary structure of the at least one complementary coupler. 5. The assembly of claim 1 , wherein the at least one coupler includes threads formed in a passageway formed through a portion of the adaptor, the threads being configured to engage complimentary threads on the cannula. 6. The assembly of claim 1 , wherein rotation of the drill in the at least one rotational direction rotates the adaptor via interaction of the key of the drill with the channel of the adaptor, and rotation of the adaptor rotates the cannula via the interaction of the at least one coupler of the adaptor and the at least one complementary coupler of the cannula. 7. An assembly for removal of material from bone and placement of at least a portion of the assembly in the bone, the assembly comprising: an adaptor having a proximal first end, an opposite distal second end, a mid-longitudinal axis extending through the proximal first end and the distal second end of the adaptor, a length extending between the proximal first end and the opposite distal second end of the adaptor, an end portion provided at the proximal first end, and the end portion including a channel extending from the proximal first end of the adaptor toward the distal end of the adaptor, a head portion including a distal surface at least adjacent the distal second end of the adaptor, and the head portion including at least one coupler provided on or adjacent the distal surface, the at least one coupler being configured to releasably engage a cannula; a driver having a chuck configured to engage a portion of a drill, the driver being configured to rotate the drill engaged to the chuck in at least one rotational direction; the drill having a proximal first end, an opposite distal second end, a portion for engaging the chuck of the driver at or adjacent the proximal first end of the drill, a collar portion being positioned between the proximal first end and the distal second end of the drill, and a shaft portion including flutes configured to facilitate removal of material from the bone extending from the collar portion to the distal second end, the collar portion including a recess defined b an interior sidewall surface, an interior endwall surface, and a key that interrupts portions of the interior sidewall surface and the interior endwall surface, the shaft extending through a central portion of the recess, and the key extending through the recess from the interior sidewall surface to at least adjacent the shaft, at least a portion of the end portion of the adaptor being receivable in the recess, and the key being receivable in the channel, and engagement of the key within the channel rotatably coupling the drill and the adaptor; and a cannula having at least one complementary coupler for engaging the at least one coupler on the adaptor, the engagement of the at least one coupler and the at least one complementary coupler preventing rotation of the adaptor and the cannula with respect to one another in at least one rotational direction. 8. The assembly of claim 7 , wherein the end portion of the adaptor includes an end surface, and the end surface of the adaptor is engageable to the interior endwall surface of the recess when the at least a portion of the end portion is received in the recess. 9. The assembly of claim 7 , wherein the at least one coupler includes at least one tab formed on the distal surface, the at least one tab being configured to engage a complimentary structure of the at least one complementary coupler. 10. The assembly of claim 7 , wherein the at least one coupler includes at least one recess formed on the distal surface, the at least one recess being configured to engage a complimentary structure of the at least one complementary coupler. 11. The assembly of claim 7 , wherein the at least one coupler includes threads formed in a passageway formed through a portion of the adaptor, the threads being configured to engage complimentary threads on the cannula. 12. The assembly of claim 7 , wherein rotation of the drill in the at least one rotational direction rotates the adaptor via interaction of the key of the drill with the channel and of the adaptor, and rotation of the adaptor rotates the cannula via the interaction of the at least one coupler of the adaptor and the at least one complementary coupler of the cannula. 13. The assembly of claim 7 , wherein the end portion of the adaptor has an annular shape that is interrupted by the channel in the second plane. 14. The assembly of claim 13 , wherein the recess of the collar portion of the drill has an annular shape that is interrupted by the key portion. 15. An assembly for removal of material from bone and placement of at least a portion of t