Retro-cutting instrument with adjustable limit setting

The invention claimed is: 1. A cutting instrument, comprising: an elongate body having proximal and distal ends, the distal end defining a drilling tip; a cutting blade pivotally disposed within a cavity formed in the elongate body such that the cutting blade is positionable in a retracted position in which the cutting blade does not protrude from the elongate body and one or more deployed positions in which the cutting blade protrudes from the elongate body; an actuation shaft extending through the elongate body and having a distal end coupled to the cutting blade such that longitudinal translation of the actuation shaft relative to the elongate body is effective to move the cutting blade between the retracted position and the one or more deployed positions; an actuation knob coupled to the actuation shaft such that rotation of the actuation knob about a longitudinal axis of the elongate body is effective to longitudinally translate the actuation shaft relative to the elongate body; and an adjustment element having a ring with a stepped stop surface formed thereon, the stepped stop surface having a plurality of steps, and the adjustment element being configured to limit the degree to which the actuation shaft can be longitudinally translated relative to the elongate body based on which step of the plurality of steps is engaged by the actuation shaft. 2. The instrument of claim 1 , wherein the cavity in which the cutting blade is disposed is spaced a distance apart from the distal end of the elongate body. 3. The instrument of claim 1 , wherein the actuation knob is coupled to the actuation shaft by a threaded interface. 4. The instrument of claim 1 , wherein the actuation shaft includes a first tab that extends through a first slot in the elongate body. 5. The instrument of claim 4 , wherein the adjustment element is disposed over at least a portion of the first slot to limit the degree to which the first tab can slide within the first slot. 6. The instrument of claim 1 , wherein rotation of the adjustment element about the longitudinal axis of the elongate body is effective to change which step of the plurality of steps is engaged by the actuation shaft to limit the longitudinal translation of the actuation shaft relative to the elongate body. 7. The instrument of claim 1 , further comprising a fixed handle portion having a plurality of protrusions formed thereon configured to be received within a plurality of detents or openings formed in a distal-facing surface of the adjustment element. 8. The instrument of claim 7 , further comprising a bias spring configured to urge the adjustment element into engagement with the fixed handle portion. 9. The instrument of claim 1 , wherein the actuation knob includes a torque limiter configured to limit the amount of torque which can be applied in rotating the actuation knob and configured to provide tactile feedback to a user when the cutting blade has reached a desired position. 10. The instrument of claim 1 , wherein the distal end of the actuation shaft is coupled to the cutting blade by a linkage mechanism. 11. The instrument of claim 10 , wherein the linkage mechanism comprises a link bar having a proximal end coupled to a yoke of the actuation shaft by a first cross pin and a distal end coupled to a yoke of the cutting blade by a second cross pin. 12. The instrument of claim 1 , wherein proximal translation of the actuation shaft relative to the elongate body is effective to rotate the cutting blade about a pivot pin to deploy the cutting blade into the cavity and wherein distal translation of the actuation shaft relative to the elongate body is effective to rotate the cutting blade about the pivot pin to retract the cutting blade from the cavity. 13. A method of cutting bone, comprising: drilling a first opening in the bone having a first diameter using a distal tip of a cutting instrument, a cutting blade of the cutting instrument being retracted into a body of the cutting instrument during said drilling; setting a cutting blade deployment diameter to one of a plurality of a diameter settings of the cutting instrument, the cutting blade being in one of a plurality of fully-deployed positions at each of the plurality of diameter settings, with the cutting blade being configured to cut an opening of a predetermined diameter at each of the plurality of fully-deployed positions, the predetermined diameter being different for different fully-deployed positions of the plurality of the fully -deployed positions: after setting the cutting blade deployment diameter, deploying the cutting blade to the fully-deployed position of the plurality of fully-deployed positions that is associated with the set cutting blade deployment diameter such that the cutting blade at least partially protrudes from the body of the cutting instrument; and after deploying the cutting blade, cutting a second opening in the bone having a second diameter which is larger than the first diameter using the cutting blade of the cutting instrument. 14. The method of claim 13 , wherein the first and second openings are contiguous with one another such that the first and second openings define a stepped bone tunnel. 15. The method of claim 13 , wherein the first opening is drilled in an antegrade direction and the second opening is cut in a retrograde direction. 16. The method of claim 13 , wherein the first opening is drilled in an antegrade direction and the second opening is cut in an antegrade direction. 17. The method of claim 16 , wherein the first opening is formed in a tibia and the second opening is formed in a femur. 18. The method of claim 16 , wherein the first opening is formed in a medial portion of a femur and the second opening is formed in a lateral portion of the femur. 19. The method of claim 13 , further comprising, after cutting the second opening, retracting the cutting blade into the body of the cutting instrument and withdrawing the cutting instrument through the first opening. 20. A cutting instrument, comprising: a handle having a plurality of protrusions formed thereon; an elongate body extending distally from the handle, the elongate body having proximal and distal ends, the distal end defining a drilling tip; a cutting blade pivotally disposed within a cavity formed in the elongate body such that the cutting blade is positionable in a retracted position in which the cutting blade does not protrude from the elongate body and one or more deployed positions in which the cutting blade protrudes from the elongate body; an actuation shaft extending through the elongate body and having a distal end coupled to the cutting blade such that longitudinal translation of the actuation shaft relative to the elongate body is effective to move the cutting blade between the retracted position and the one or more deployed positions; an actuation knob coupled to the actuation shaft such that rotation of the actuation knob about a longitudinal axis of the elongate body is effective to longitudinally translate the actuation shaft relative to the elongate body; and an adjustment element having a plurality of detents or openings formed on a surface thereof, the plurality of detents or openings being configured to receive the plurality of protrusions of the handle to limit the degree to which the actuation shaft can be longitudinally translated relative to the elongate body based on which one or more protrusions of the plurality of protrusions are received by which one or more detents or openings of the