Retro-cutting instrument with adjustable limit setting

The invention claimed is: 1. A cutting instrument, comprising: an elongate body having a distal drilling tip; and a cutting blade selectively deployable from a cavity formed in the elongate body at a location proximal to the distal drilling tip, the cutting blade being deployable to any of a plurality of diameters, the cutting blade being in a fully-deployed position at each of the plurality of diameters, with the cutting blade being configured to cut an opening of a predetermined diameter at each of the plurality of fully-deployed positions. 2. The instrument of claim 1 , further comprising 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 deploy the cutting blade. 3. The instrument of claim 1 , wherein the cutting blade is pivotally mounted within the cavity. 4. The instrument of claim 1 , further comprising an adjustment element configured to deploy the cutting blade from the cavity, the adjustment element having a stepped stop surface formed thereon, the stepped stop surface having a plurality of steps each of which corresponds to one or more diameters of the diameters of the plurality of diameters to which the cutting blade is deployed. 5. A cutting instrument, comprising: an elongate body having a distal drilling tip, the elongate body having a central longitudinal axis that extends therethrough; and a cutting blade having a proximal end, a distal end, and a central axis that extends therebetween, the cutting blade being deployable from the elongate body, the cutting blade having a retracted configuration in which the central axis of the cutting blade is disposed at an angle of substantially zero degrees with respect to the central longitudinal axis, and a plurality of deployed configurations in which the central axis protrudes from the elongate body at an angle with respect to the central longitudinal axis, the cutting blade being in a fully-deployed position at each of the plurality of deployed configurations and configured to cut an opening while at each of the plurality of deployed configurations. 6. The instrument of claim 5 , wherein the cutting blade is pivotally mounted within a cavity of the elongate body. 7. The instrument of claim 5 , wherein the cutting blade is deployable at a location proximal to the distal drilling tip. 8. The instrument of claim 5 , wherein each of the plurality of deployed configurations is associated with a diameter at which the cutting blade is configured to cut. 9. The instrument of claim 8 , wherein the diameter at each of the plurality of deployable configurations is pre-set. 10. The instrument of claim 5 , further comprising 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 configuration and each of the plurality of deployed configurations. 11. A surgical method, comprising: drilling a first opening in a first target site of a patient using a distal tip of a cutting instrument, the cutting instrument housing a cutting blade in a retracted position; setting a deployment diameter limit of the cutting blade of the cutting instrument to one of a plurality of fully-deployed positions, the cutting blade having a pre-set diameter that is associated with each of the fully-deployed positions, the cutting blade being configured to cut a second opening at each of the fully-deployed positions; deploying the cutting blade to the deployment diameter limit, at least a portion of the cutting blade protruding from the cutting instrument after being deployed; and cutting a second opening in a second target site in the patient, the opening having a second diameter which is greater than the first diameter. 12. The method of claim 11 , wherein the cutting blade is fully retracted during drilling of the first opening. 13. The method of claim 11 , wherein the first and second openings are contiguous with one another such that the first and second openings define a stepped bone tunnel. 14. The method of claim 11 , wherein the first opening is drilled in an antegrade direction and the second opening is cut in a retrograde direction. 15. The method of claim 11 , wherein the first opening is drilled in an antegrade direction and the second opening is cut in an antegrade direction. 16. The method of claim 11 , further comprising, after forming the second opening, retracting the cutting blade into the instrument and withdrawing the cutting instrument from the first and second openings. 17. The method of claim 11 , further comprising translating an actuation shaft that is coupled to the cutting blade and extends through the cutting instrument to move the cutting blade between the retracted position and the plurality of fully-deployed positions. 18. The method of claim 11 , wherein the first target site and the second target site are located in a single bone. 19. A surgical method, comprising: inserting a cutting instrument to a surgical site, the cutting instrument having a first cutting surface and a second cutting surface, the second cutting surface being selectively deployable such that it moves from a retracted position to a cutting position, and the cutting instrument having a cutting diameter limit of the second cutting surface preset to one of a plurality of values for the cutting diameter limit prior to inserting the cutting instrument to the surgical site, the cutting diameter limit defining a diameter of a bore formed by the second cutting surface when the second cutting surface is deployed to the cutting position and operated to form a bore at the surgical site; forming a first opening at the surgical site using the first cutting surface; deploying the second cutting surface to the cutting position; forming a second opening at the surgical site using the second cutting surface; and removing the cutting instrument from the surgical site. 20. The method of claim 19 , wherein setting the cutting diameter limit of the second cutting surface further comprises rotating an adjustment ring of the cutting instrument. 21. The method of claim 19 , further comprising retracting the second cutting surface to the retracted position after forming the second opening at the surgical site and before removing the cutting instrument from the surgical site, the second cutting surface being in the retracted position when the cutting instrument is removed from the surgical site. 22. The method of claim 19 , wherein the second cutting surface is in the retracted position when the first opening is being formed. 23. The method of claim 19 , wherein the first and second openings are contiguous with one another such that the first and second openings define a stepped bone tunnel. 24. The method of claim 19 , wherein the first opening is formed in an antegrade direction and the second opening is formed in a retrograde direction. 25. The method of claim 19 , wherein the first opening is formed in an antegrade direction and the second opening is formed in an antegrade direction. 26. The method of claim 19 , further comprising translating an actuation shaft that is coupled to the second cutting surface and extends through the cutting in