Driver instruments and related methods

The invention claimed is: 1. A method of applying a fastener to a bone anchor, comprising: inserting a drive tip of a driver instrument into a drive recess of the fastener; applying an axial force to a driver shaft of the instrument to impact the drive tip into the drive recess of the fastener and retain the fastener to the drive tip by an interference fit; sliding a handle of the instrument along a longitudinal axis of the driver shaft; positioning the instrument and the fastener retained thereto with respect to a bone anchor; and rotating the driver shaft to apply the fastener to the bone anchor, wherein the fastener is a set screw and wherein applying the fastener comprises threading the set screw into opposed threaded arms the bone anchor to retain a spinal rod within the bone anchor. 2. The method of claim 1 , wherein applying the axial force comprises sliding the handle of the instrument distally along the driver shaft to exert an axial force on a shoulder of the driver shaft. 3. The method of claim 1 , wherein retaining the fastener comprises wedging a tapered portion of the drive tip within the drive recess of the fastener. 4. The method of claim 3 , wherein the tapered portion tapers continuously from a reduced distal diameter to an enlarged proximal diameter, and wherein the drive recess of the fastener has a diameter that is greater than or equal to the reduced distal diameter and less than the enlarged proximal diameter. 5. The method of claim 1 , further comprising locking the handle at a fixed longitudinal position along the driver shaft. 6. The method of claim 5 , wherein locking the handle comprises rotating a locking collar coupled to the handle with respect to the handle about a central longitudinal axis of the driver shaft to a locked position. 7. The method of claim 6 , wherein, when the locking collar is in the locked position, a projection formed in a central passage of the locking collar is received within a corresponding recess formed in the driver shaft to prevent longitudinal translation of the locking collar relative to the driver shaft. 8. The method of claim 7 , wherein, when the locking collar is in the locked position, an indicator finger of the locking collar is received within a groove formed in the handle to maintain the locking collar in the locked position and provide an indication to a user that the locking collar is in the locked position. 9. The method of claim 5 , further comprising unlocking the handle from a fixed longitudinal position along the driver shaft. 10. The method of claim 9 , wherein unlocking the handle comprises rotating a locking collar coupled to the handle with respect to the handle about a central longitudinal axis of the driver shaft to an unlocked position. 11. The method of claim 10 , wherein, when the locking collar is in the unlocked position, a projection formed in a central passage of the locking collar is positioned outside of a corresponding recess formed in the driver shaft to allow longitudinal translation of the locking collar relative to the driver shaft. 12. The method of claim 11 , wherein, when the locking collar is in the unlocked position, an indicator finger of the locking collar is received within a groove formed in the handle to maintain the locking collar in the unlocked position and provide an indication to a user that the locking collar is in the unlocked position. 13. The method of claim 1 , further comprising rotating a locking collar of the instrument to lock or unlock a longitudinal position of the handle with respect to the driver shaft, wherein rotating the locking collar comprises rotating a plurality of retention fingers extending from the locking collar within an annular groove formed in the handle. 14. The method of claim 1 , further comprising, without separating the driver shaft from the fastener, sliding the handle to a distal position along the driver shaft, attaching a second handle to a proximal end of the driver shaft, and rotating the second handle to further tighten the fastener to the bone anchor. 15. A method of applying a fastener to a bone anchor, comprising: inserting a drive tip of a driver instrument into a drive recess of the fastener; applying an axial force to a driver shaft of the instrument to impact the drive tip into the drive recess of the fastener and retain the fastener to the drive tip by an interference fit; positioning the instrument and the fastener retained thereto with respect to a bone anchor; rotating a handle of the instrument to rotate the driver shaft and apply the fastener to the bone anchor; and locking the handle at a fixed longitudinal position along the driver shaft; wherein locking the handle comprises rotating a locking collar coupled to the handle with respect to the handle about a central longitudinal axis of the driver shaft to a locked position; wherein, when the locking collar is in the locked position, a projection formed in a central passage of the locking collar is received within a corresponding recess formed in the driver shaft to prevent longitudinal translation of the locking collar relative to the driver shaft. 16. The method of claim 15 , wherein, when the locking collar is in the locked position, an indicator finger of the locking collar is received within a groove formed in the handle to maintain the locking collar in the locked position and provide an indication to a user that the locking collar is in the locked position. 17. A method of applying a fastener to a bone anchor, comprising: inserting a drive tip of a driver instrument into a drive recess of the fastener; applying an axial force to a driver shaft of the instrument to impact the drive tip into the drive recess of the fastener and retain the fastener to the drive tip by an interference fit; positioning the instrument and the fastener retained thereto with respect to a bone anchor; rotating a handle of the instrument to rotate the driver shaft and apply the fastener to the bone anchor; and rotating a locking collar of the instrument to lock or unlock a longitudinal position of the handle with respect to the driver shaft, wherein rotating the locking collar comprises rotating a plurality of retention fingers extending from the locking collar within an annular groove formed in the handle.