Method and apparatus for fixation of an ACL graft

What is claimed is: 1. A method of graft fixation for use in a knee reconstruction procedure, comprising: forming a femoral tunnel in a femur and a tibial tunnel in a tibia, the femoral tunnel having a first end adjacent to a joint space between the femur and the tibia, and the tibial tunnel having a first end adjacent to the joint space and an opposite second end spaced apart from the joint space; positioning a first femoral fixation member coupled to a first self-locking adjustable flexible member construct into the femoral tunnel and retaining the first femoral fixation member relative to the femoral tunnel, the first flexible member construct including a first pair of adjustable loops; tensioning free ends of the first flexible member construct to reduce a size of the first pair of adjustable loops and draw the graft into the femoral tunnel; passing the graft through the tibial tunnel; tensioning the graft relative to the femoral and tibial tunnels; implanting a tibial fixation member relative to the tibial tunnel to fix the tensioned graft to the tibia; and implanting a second femoral fixation member in the femoral tunnel such that a distal end of the second femoral fixation member is positioned adjacent the first end of the femoral tunnel to fix the graft relative to the first end of the femoral tunnel, wherein implanting the second femoral fixation member in the femoral tunnel includes receiving the second femoral fixation member in the femoral tunnel in an interference fit relationship in the femoral tunnel so that movement of the second femoral fixation member in at least one axial direction in the femoral tunnel is resisted. 2. The method of claim 1 , wherein tensioning free ends of the first flexible member construct to reduce a size of the first pair of adjustable loops and draw the graft into the femoral tunnel includes tensioning the free ends of the first flexible member construct to draw the graft and a second self-locking adjustable flexible member construct coupled to the first flexible member construct through the joint space and into the femoral tunnel. 3. The method of claim 2 , further comprising positioning graft strands of the graft around the first pair of adjustable loops extending from the femoral tunnel before tensioning the free ends of the first flexible member construct. 4. The method of claim 2 , wherein the second flexible member construct is directly interconnected to the first flexible member construct. 5. The method of claim 2 ; wherein implanting the second femoral fixation member in the femoral tunnel such that the distal end of the second femoral fixation member is positioned adjacent the first end of the femoral tunnel includes tensioning free ends of the second flexible member construct to draw the second femoral fixation member through the joint space and into the femoral tunnel. 6. The method of claim 5 , further comprising compressing leg members of the second femoral fixation member upon implanting the second femoral fixation member in the femoral tunnel so as to compress the graft between the leg members and the femoral tunnel and resist movement of the second femoral fixation member relative to the femoral tunnel. 7. The method of claim 2 , wherein implanting the tibial fixation member relative to the tibial tunnel includes: coupling a second pair of adjustable loops of the second flexible member construct to the tibial fixation member, the second flexible member construct being interconnected to the first flexible member construct via the second femoral fixation member; and tensioning free ends of the second flexible member construct to reduce a size of the second pair of adjustable loops and draw the tibial fixation member into the tibial tunnel about the graft to fix the graft to the tibia. 8. The method of claim 7 , further comprising: moving the tibia relative to the femur after implanting the tibial fixation member in the tibial tunnel; and tensioning the free ends of the first flexible member construct to reduce a size of the first adjustable loops and apply additional tension to the graft strands after moving the tibia relative to the femur. 9. The method of claim 7 , further comprising drawing the tibial fixation member into the tibial tunnel using the second flexible member construct until radially outwardly extending projections on a distal end of the tibial fixation member engage an outer surface of the tibia adjacent the tibial tunnel. 10. The method of claim 7 , wherein coupling the second pair of adjustable loops of the second self-locking adjustable flexible member construct to the tibial fixation member includes coupling the second pair of adjustable loops about a distal end of the tibial fixation member and along notches in opposed lateral sides of the tibial fixation member. 11. The method of claim 7 , further comprising: forming a counterbore at the second end of the tibial tunnel; and wherein tensioning free ends of the second flexible member construct to reduce a size of the second pair of adjustable loops and draw the tibial fixation member into the tibial tunnel about the graft to fix the graft to the tibia includes tensioning the free ends of the second flexible member construct to reduce a size of the second pair of adjustable loops and draw the tibial fixation member into the counterbore to fix the graft to the tibia. 12. The method of claim 2 , wherein implanting the tibial fixation member into the tibial tunnel to fix the tensioned graft to the tibia includes: positioning a sheath member coupled to a second pair of adjustable loops of the second flexible member construct into the tibial tunnel about the graft; and tensioning free ends of the second flexible member construct to reduce a size of the second pair of adjustable loops and draw a plug member interconnected to the second pair of adjustable loops into an inside of the sheath member to expand the sheath member against the graft and tibial tunnel to fix the graft to the tibia. 13. The method of claim 12 , wherein positioning a sheath member includes positioning a sheath member having plurality of leg members into the tibial tunnel such that radially outwardly extending tabs at a distal end of the leg members engage an outer surface of the tibia adjacent the tibial tunnel. 14. The method of claim 1 , further comprising: passing the graft through an opening in the second femoral fixation member before drawing the second femoral fixation member into the femoral tunnel, the second femoral fixation member being interconnected to the first flexible member construct; and tensioning the free ends of the first flexible member construct to reduce a size of the first pair of adjustable loops and draw the second femoral fixation member and the graft into the femoral tunnel. 15. The method of claim 14 , further comprising tensioning the free ends of the first flexible member construct to draw the second femoral fixation member into the femoral tunnel such that a distal end of the second femoral fixation member supporting the graft strands is positioned adjacent the first end of the femoral tunnel. 16. The method of graft fixation for use in a knee reconstruction procedure, comprising: forming a femoral tunnel in a femur and a tibial tunnel in a tibia, the femoral tunnel having a first end adjacent to a joint space between the femur and the tibia; and the tibial tunnel having a first end adjacent to the joint space and an opposite second end spaced apart from the joint space; positioning a first femoral fixation member coupled to a first self-locking adjustable flexib