Guide sleeve for fine axial adjustability of a fixation member, and related systems and methods

What is claimed: 1. A bone fixation system for use with an intramedullary nail, comprising: a guide sleeve elongate along a central axis and including a sleeve body configured to be held in position relative to a bone by an aiming arm, the sleeve body including an internal surface that defines a bore extending along the central axis to a distal end of the sleeve body, the sleeve body defining at least one guide channel that is recessed radially outwardly from the internal surface and includes a helical proximal portion and a linear distal portion, wherein the linear distal portion extends from the helical proximal portion toward the distal end and is parallel with the central axis; a fixation member configured to extend through the bore of the guide sleeve, the fixation member having a proximal mount and a distal head spaced from the proximal mount in a distal direction, the distal head having a helical structure configured to engage bone; and an instrument having an elongate portion that includes a distal mount configured to couple with the proximal mount of the fixation member, such that, when coupled, the instrument is configured to advance the fixation member through the bore of the guide sleeve, the elongate portion having an outer surface and at least one protrusion extending radially outward from the outer surface, wherein the at least one protrusion is configured to extend within and follow the at least one guide channel as the elongate portion advances through the bore of the guide sleeve so as to control an axial position of the fixation member relative to the guide sleeve. 2. The bone fixation system of claim 1 , wherein the linear distal portion of the at least one guide channel defines an axial length of at least 4.0 mm. 3. The bone fixation system of claim 1 , wherein the guide sleeve, the instrument, and the fixation member are cooperatively configured such that the fixation member 1) advances in the distal direction and rotates about the central axis as the at least one protrusion follows the helical proximal portion of the at least one guide channel and 2) advances in the distal direction substantially without rotating about the central axis as the at least one protrusion follows the linear distal portion of the at least one guide channel. 4. The bone fixation system of claim 3 , wherein the instrument has a proximal end and an impaction surface at the proximal end thereof, wherein the impaction surface is configured for receiving impactions from an impaction member to thereby advance the at least one protrusion along the helical proximal portion and at least a portion of the linear distal portion of the at least one guide channel. 5. The bone fixation system of claim 1 , wherein the at least one guide channel comprises a plurality of guide channels defined by the internal surface of the guide sleeve, and the plurality of guide channels are substantially equidistantly spaced from one another about a circumference of the internal surface. 6. The bone fixation system of claim 5 , wherein the at least one protrusion comprises a plurality of protrusions extending radially outward from the outer surface of the elongate portion of the instrument, the plurality of protrusions are unevenly spaced from one another about a circumference of the outer surface, and the plurality of protrusions are configured to respectively extend within and follow the plurality of guide channels. 7. The bone fixation system of claim 1 , wherein the fixation member defines an outer locking surface that is configured to engage a complimentary locking member of the intramedullary nail, such that when the outer locking surface is engaged with the locking member, the fixation member is prevented from rotating relative to the intramedullary nail bout the central axis. 8. The bone fixation system of claim 7 , wherein the outer locking surface is a first outer locking surface, and the fixation member defines a second outer locking surface opposite the first outer locking surface along a transverse direction perpendicular to the central axis, and the second outer locking surface is configured to abut a complimentary locking surface of the intramedullary nail. 9. The bone fixation system of claim 8 , wherein: the first and second outer locking surfaces are each planar and are parallel with one another, and the at least one guide channel and the fixation member are cooperatively configured such that the first and second outer locking surfaces each remain parallel with a central nail axis of the intramedullary nail while the at least one protrusion of the instrument resides within the linear distal portion of the at least one guide channel. 10. The bone fixation system of claim 1 , wherein the helical structure of the distal head defines a helix angle that is substantially equivalent to a helix angle defined by the helical proximal portion of the at least one guide channel. 11. The bone fixation system of claim 1 , wherein the outer surface of the elongate portion of the instrument includes visual indicia for indicating an axial distance by which a distal end of the distal head extends from a distal end of the guide sleeve. 12. The bone fixation system of claim 1 , wherein at least the distal head of the fixation member is constructed of a material that is radiopaque for providing a visual indication under radioscopy of an axial distance between a distal end of the distal head and an apex of a portion of the bone. 13. A guide sleeve for use in anchoring a fixation member to an intramedullary nail and to bone, comprising: a sleeve body elongate along a central axis, the sleeve body having an internal surface that defines a bore extending along the central axis to a distal end of the sleeve body, the sleeve body defining a plurality of guide channels that are each recessed radially outwardly from the internal surface, each of the plurality of guide channels including a helical proximal portion and a linear distal portion that extends from the helical proximal portion toward the distal end and being parallel with the central axis, wherein the bore is configured to receive an instrument, such that complimentary followers of the instrument extend into the guide channels, respectively, so that the instrument drives the fixation member through the bore and subsequently through the intramedullary nail and into the bone. 14. The guide sleeve of claim 13 , wherein the linear distal portion of each of the guide channels defines an axial length of at least 4.0 mm. 15. The guide sleeve of claim 13 , wherein the plurality of guide channels comprise three guide channels spaced from one another about a circumference of the internal surface. 16. A method of affixing an intramedullary nail within an intramedullary canal of a bone, the method comprising: advancing a guide sleeve through a complimentary aperture in an aiming arm attached to the intramedullary nail until a distal end of the guide sleeve contacts an outer cortex of the bone along a trajectory defined along a central axis of the guide sleeve such that the central axis intersects a lateral channel of the intramedullary nail; inserting an instrument through a central bore of the guide sleeve such that external followers of the instrument extend within respective channels defined within an internal surface of the guide sleeve within the central bore, wherein proximal portions of the channels extend helically along the internal surface; impacting a proximal surface of the instrument with a hammer, thereby moving the external followers along the proximal portions of the channels, thereby 1) a