System and method for bone fixation using a nail locked to an encircling anchor

We claim: 1. A system for bone fixation, comprising: an instrument defining a guide axis and configured to be coupled to a bone such that the guide axis extends across the bone; a bushing configured to be placed at least partially into at least one hole bored in the bone along the guide axis; a nail configured to be placed along a medullary canal of the bone such that the nail extends through the bushing; and a locker configured to lock the nail to the bushing, wherein the instrument includes: a guide portion defining the guide axis; and one or more wire-receiving channels, wherein the one or more wire-receiving channels are separate from the guide portion, wherein the one or more wire-receiving channels are configured to receive one or more wire members and direct the one or more wire members into the bone, to couple the instrument to the bone with the one or more wire members, wherein the one or more wire-receiving channels are configured to direct a leading end of the one or more wire members on a trajectory through the bone that avoids the space in the medullary canal to be occupied by the nail, wherein the one or more wire-receiving channels comprise: a first wire-receiving channel having a first trajectory and configured to receive a first wire member; and a second wire-receiving channel having a second trajectory and configured to receive a second wire member, wherein a portion of the first trajectory overlaps with a portion of the second trajectory when viewed from the top of the instrument. 2. The system of claim 1 , wherein the instrument includes a pair of jaws, wherein the jaws are coupled to the guide portion and configured to engage the bone such that the instrument is coupled to the bone. 3. The system of claim 2 , wherein the guide axis continues to lie in a central plane located between and equidistant from the jaws as the jaws are opened and closed. 4. The system of claim 2 , wherein the instrument has a pair of levers that are pivotably connected to one another, wherein the guide portion is coupled to the pair of levers via a holder for the guide portion, wherein the levers are coupled to the holder by respective linkage members that have a pivotable connection to one another, and wherein the pivotable connection of the linkage members moves along a slot defined by the holder when the jaws are opened and closed, thereby ensuring that the guide portion remains equidistant from the jaws, irrespective of the degree of jaw opening. 5. The system of claim 2 , wherein the guide portion is configured to be movable from a first position to at least one second position while the jaws remain engaged with the bone, wherein the guide portion is coupled to the jaws in each of the first position and the at least one second position, wherein the guide axis in the first position lies in a central plane between the jaws, and wherein the guide axis in each of the at least one second position is parallel to, but offset from, the central plane and the guide axis in the first position. 6. The system of claim 5 , wherein the guide portion is configured to be movable from the first position to each of the at least one second position while the guide portion remains coupled to the jaws. 7. The system of claim 5 , wherein the guide portion is configured to rotate with respect to the jaws about an axis that is parallel to, but spaced from, the guide axis, to move the guide portion from the first position to each of the at least one second position. 8. The system of claim 1 , wherein the bushing has an external thread structure to engage the bone at a hole of the at least one hole. 9. The system of claim 1 , wherein the bushing includes a body having a shoulder and also includes a post projecting distally from the shoulder. 10. The system of claim 9 , wherein the post is cylindrical. 11. The system of claim 1 , wherein the locker includes a setscrew having an external thread that is complementary to an internal thread of the bushing, and wherein the setscrew is configured to be disposed in threaded engagement with the bushing and advanced against the nail until the nail is clamped cooperatively by the bushing and the setscrew. 12. The system of claim 11 , wherein at least one of the bushing and the setscrew has a projection configured to contact and deform a surface region of the nail as the setscrew is being tightened against the nail. 13. The system of claim 11 , wherein the external thread of the setscrew is longer than the internal thread of the bushing, wherein the setscrew is composed of a harder material than the bushing, and wherein the external thread of the setscrew is configured to deform the bushing to create a distal extension of the internal thread in the bushing. 14. The system of claim 1 , wherein a leading region of the nail is configured to extend through a transverse aperture of the bushing, wherein the leading region of the nail has an elongated main portion and a distal tip, and wherein the distal tip is radially offset from the main portion. 15. The system of claim 1 , wherein the portion of the first trajectory overlapped with the portion of the second trajectory is disposed within the first wire-receiving channel, and the portion of the second trajectory overlapped with the portion of the first trajectory is disposed within the second wire-receiving channel. 16. A system for bone fixation, comprising: an instrument defining a guide axis and configured to be coupled to a long bone such that the guide axis extends across the bone; a bushing configured to be placed across a medullary canal of the long bone, the bushing including a body and a post, the body having an external thread structure and defining a transverse aperture, the post projecting from a shoulder provided by a leading end region of the body; a nail configured to be placed along the medullary canal of the long bone such that the nail extends through the transverse aperture of the bushing; and a setscrew configured to be advanced into the bushing and against the nail, such that the setscrew and the bushing cooperatively grip the nail, wherein the instrument includes: a guide portion defining the guide axis; and one or more wire-receiving channels, wherein the one or more wire-receiving channels are separate from the guide portion, wherein the one or more wire-receiving channels are configured to receive one or more wire members and direct the one or more wire members into the bone, to couple the instrument to the long bone with the one or more wire members, wherein the one or more wire-receiving channels are configured to direct a leading end of the one or more wire members on a trajectory through the long bone that avoids the space in the medullary canal to be occupied by the nail, wherein the one or more wire-receiving channels comprise: a first wire-receiving channel having a first trajectory and configured to receive a first wire member; and a second wire-receiving channel having a second trajectory and configured to receive a second wire member, wherein a portion of the first trajectory overlaps with a portion of the second trajectory when viewed from the top of the instrument. 17. The system of claim 16 , wherein the portion of the first trajectory overlapped with the portion of the second trajectory is disposed within the first wire-receiving channel, and the portion of the second trajectory overlapped with the portion of the first trajectory is disposed within the second wire-receiving channel. 18. A method of fixing bone, the method comprising: