Suture anchor with improved drive head

What is claimed is: 1. A method for attaching tissue to bone, comprising: forming a bone tunnel within a bony structure; manipulating an inserter tool to insert a suture anchor into the bone tunnel such that free ends of first and second sutures extend from the bone tunnel, the first suture extending through a first suture tunnel formed in an oval shaped drive head on the suture anchor and the second suture extending through a second suture tunnel formed in the drive head, the first and second suture tunnels intersecting a longitudinal axis of the suture anchor at a non-zero angle to one another, the first and second suture tunnels being formed entirely in the oval shaped drive head on the suture anchor, each of the first and second sutures extend through corresponding first and second suture grooves formed in the oval shaped drive head on the suture anchor and spaced proximally from a distal end of the drive head; and removing the inserter tool and attaching the free ends of the sutures to tissue to proximate and attach the tissue to the bony structure. 2. The method of claim 1 , wherein the inserter tool includes an oval drive socket that receives and engages the oval shaped drive head of the suture anchor. 3. The method of claim 1 , wherein the drive head has a failure torque of at least about 5.0 inch pounds. 4. The method of claim 1 , wherein the drive head has a tensile strength of at least about 60 pounds force. 5. The method of claim 1 , wherein inserting the suture anchor into the bone tunnel includes rotating the suture anchor to cause a helical thread on a shaft of the suture anchor to engage the bone tunnel. 6. The method of claim 1 , wherein the drive head of the suture anchor has a cross-sectional surface area at a proximal-most surface that represents about 72% of a nominal cross-sectional surface area within a perimeter of the drive head. 7. The method of claim 1 , wherein the drive head includes at least one longitudinally oriented suture-receiving channel formed in an outer surface of the drive head and extending proximally from an opening of the suture tunnel such that at least a portion of one of the first and second sutures is seated therein. 8. The method of claim 1 , wherein the first and second suture tunnels extend from longitudinally oriented suture channels such that a longest dimension of each suture channel extends parallel to a longitudinal axis of the suture anchor. 9. A method for attaching tissue to bone, comprising: forming a bone tunnel within a bony structure; manipulating a driver tool to thread a threaded shank of a bioabsorbable suture anchor coupled to the driver tool into the bone tunnel, the driver tool having an oval shaped drive socket formed in a distal end thereof that seats oval shaped drive head on the suture anchor, wherein the drive head has a failure torque of at least about 5.0 inch pounds and a tensile strength of at least about 60 pounds force; and removing the driver tool and attaching free ends of first and second sutures to tissue to proximate and attach the tissue to the bony structure, the first and second sutures extending through first and second suture tunnels formed entirely in the drive head of the suture anchor, the first and second suture tunnels intersecting a longitudinal axis of the suture anchor at a non-zero angle to one another, each of the first and second sutures extend through corresponding first and second suture grooves formed in the oval shaped drive head on the suture anchor and spaced proximally from a distal end of the drive head. 10. The method of claim 9 , wherein the free ends of the first and second sutures are spaced radially around a perimeter of the drive head. 11. The method of claim 9 , wherein the drive head has a cross-sectional surface area at a proximal-most surface that represents about 72% of a nominal cross-sectional surface area within a perimeter of the drive head. 12. The method of claim 9 , wherein the drive head has four longitudinally oriented suture-receiving channels formed therein and extending proximally from the first and second suture tunnels, the suture-receiving channels seating at least a portion of the first and second sutures therein. 13. A method for attaching tissue to bone, comprising: forming a bone tunnel within a bony structure; manipulating an inserter tool to insert a suture anchor into the bone tunnel such that free ends of first and second sutures extend from the bone tunnel, each of the first and second sutures extending through corresponding first and second suture grooves formed in an oval shaped drive head on the suture anchor and spaced proximally from a distal end of the drive head, the first and second suture grooves being longitudinally oriented such that a longest dimension of each of the first and second suture grooves extends parallel to a longitudinal axis of the suture anchor, the first suture groove connecting to a first suture-receiving tunnel formed in the oval shaped drive head, the second suture groove connecting to a second suture-receiving tunnel formed in the oval shaped drive head, the first and second suture tunnels intersecting a longitudinal axis of the suture anchor at a non-zero angle to one another, the first and second suture tunnels being formed entirely in the oval shaped drive head on the suture anchor; and removing the inserter tool and attaching the free ends of the at least one suture to tissue to proximate and attach the tissue to the bony structure. 14. The method of claim 13 , wherein the inserter tool includes an oval drive socket that receives and engages the oval shaped drive head of the suture anchor. 15. The method of claim 13 , wherein the drive head has a failure torque of at least about 5.0 inch pounds. 16. The method of claim 13 , wherein the drive head has a tensile strength of at least about 60 pounds force. 17. The method of claim 13 , wherein inserting the suture anchor into the bone tunnel includes rotating the suture anchor to cause a helical thread on a shaft of the suture anchor to engage the bone tunnel.