Biceps Tenodesis Implants and Delivery Tools

What is claimed is: 1 . An anchor driver tool, comprising: an outer shaft having first and second prongs extending distally from a distal end thereof and configured to extend into opposed slots formed in a sheath of an anchor assembly; an inner shaft extending through the outer shaft and having a distal end configured to mate with an expander of an anchor assembly; and a handle assembly coupled to a proximal end of each of the inner and outer shafts, the handle assembly including an actuator configured to rotate the inner shaft relative to the outer shaft to drive an expander coupled to a distal end of the inner shaft into a sheath coupled to the first and second prongs of the outer shaft, the outer shaft being configured to hold the sheath in a substantially fixed position during rotation of the inner shaft. 2 . The anchor driver tool of claim 1 , wherein the actuator comprises a knob on a proximal end of the inner shaft, and the handle assembly includes a stationary handle on a proximal end of the outer shaft. 3 . The anchor driver tool of claim 1 , wherein the outer shaft includes opposed viewing windows formed in a distal portion thereof. 4 . The anchor driver tool of claim 1 , wherein the outer shaft includes opposed cut-outs formed in the distal end thereof for seating a graft. 5 . The anchor driver tool of claim 1 , wherein the outer shaft is freely rotatably movable relative to the inner shaft, and axial translation of the outer shaft relative to the inner shaft is limited to a predetermined distance. 6 . The anchor driver tool of claim 1 , further comprising at least one marking formed on at least one of the inner and outer shafts for indicating when an expander is fully seated within a sheath. 7 . A tendon anchoring system, comprising: an anchor assembly having a sheath having a generally elongate cylindrical configuration with at least two sidewalls at least partially separated by at least first and second slots, the sidewalls defining an inner lumen therebetween, and an expander configured to be received within the inner lumen of the sheath; and an inserter assembly having an outer shaft having first and second prongs formed on a distal end thereof, the prongs being sized and dimensioned to be received within the first and second slots in the sheath, an inner shaft extending through the outer shaft and having a distal end configured to mate with the expander, and a handle assembly coupled to a proximal end of each of the inner and outer shafts, the handle assembly having an actuator configured to rotate the inner shaft to drive the expander into the sheath while the outer shaft prongs hold the sheath in a substantially fixed position. 8 . The tendon anchoring system of claim 7 , wherein the actuator comprises a knob on a proximal end of the inner shaft, and the handle assembly includes a stationary handle on a proximal end of the outer shaft. 9 . The tendon anchoring system of claim 7 , wherein the outer shaft includes opposed viewing windows formed in a distal portion thereof. 10 . The tendon anchoring system of claim 7 , wherein the outer shaft includes opposed cut-outs formed in the distal end thereof for seating a tendon. 11 . The tendon anchoring system of claim 7 , wherein the outer shaft is freely rotatably movable relative to the inner shaft, and axial translation of the outer shaft relative to the inner shaft is limited to a predetermined distance. 12 . The tendon anchoring system of claim 7 , further comprising markings formed on at least one of the inner and outer shafts for indicating when the expander is fully seated within the sheath. 13 . The tendon anchoring system of claim 7 , wherein the prongs have a length that is less than a length of the first and second slots such that the prongs extend only partially therein. 14 . The tendon anchoring system of claim 7 , further comprising a loader having a pathway extending therethrough between proximal and distal ends thereof for seating the expander and a distal portion of the outer shaft, the loader including a funneled distal end. 15 . A method for anchoring a tendon to bone, comprising: advancing a sheath and a tendon into a bone hole in bone such that the tendon extends between the sheath and the bone hole; inserting a pair of prongs on a distal end of an outer shaft of a driver tool into opposed slots formed in the sheath implanted in the bone hole; manipulating an actuator on a handle assembly of the driver tool to rotate an inner shaft extending through the outer shaft and thereby advance an expander coupled to a distal end of the inner shaft into the sheath, the pair of prongs on the outer shaft holding the sheath substantially stationary while the inner shaft rotates the expander into the sheath. 16 . The method of claim 15 , wherein the prongs prevent sidewalls of the sheath from collapsing radially inward. 17 . The method of claim 15 , wherein the inner shaft is freely rotatable relative to the outer shaft, and axial movement of the inner shaft to advance the expander into the sheath is limited to a predetermined distance. 18 . The method of claim 15 , wherein tabs on the sheath limit an insertion depth of the sheath into the bone hole. 19 . The method of claim 15 , wherein the outer shaft includes opposed cut-outs formed in a distal end thereof, and wherein the tendon extends into the opposed cut-outs when the prongs are inserted into the slots such that the outer shaft is positioned against a surface of the bone. 20 . The method of claim 15 , wherein the inner shaft is cannulated to receive a guidewire coupled to the sheath such that the guidewire axially aligns the inner shaft and the outer shaft relative to the sheath.