Small bone fixation systems and methods

What is claimed is: 1. A bone fixation system configured to be implanted across a discontinuity in a bone or across a joint between two bones, the system comprising: an elongate implant; and a clip including a first leg and a second leg, the clip further including a bridge that extends from the first leg to the second leg at first ends of the first and second legs respectively, wherein a distance between second, free ends of the first and second legs opposite the first ends is configured to increase when the clip changes from a first configuration to a second, deformed configuration, wherein, when moving to the second, deformed configuration, the bridge is elastically deformed such that free ends of the first and second legs move away from each other, wherein the first leg of the clip is configured to be implanted on a first side of the discontinuity or joint and the second leg of the clip is configured to be implanted on a second side of the discontinuity or joint, and wherein the clip is devoid of screw holes that extend through the bridge, such that the elongate implant is configured to be implanted at a location on the first side of the discontinuity or joint, whereby the elongate implant is entirely spaced from the bridge at a location between the first and second legs, and the first leg contacts the elongate implant. 2. The bone fixation system of claim 1 , wherein the first and second legs of the clip have a length such that the second, free ends of the first and second legs are configured to terminate in a cancellous portion of the bone or bone portions when implanted. 3. The bone fixation system of claim 1 , wherein the elongate implant comprises a screw and the screw has a length that is configured to achieve bicortical purchase when implanted. 4. The bone fixation system of claim 3 , wherein screw is a first screw, and the bone fixation system further comprises a second screw that is configured to be implanted at a second location on the second side of the discontinuity or joint, whereby the second screw is entirely spaced from the bridge, and the second leg abuts the second screw. 5. The bone fixation system of claim 4 , wherein the bridge and the first and second legs combine to define a plane, and the first and second screws are configured to be implanted along a direction that is angularly offset with respect to the plane. 6. The bone fixation system of claim 5 , wherein the first and second screws define respective heads, the first and second screws define respective shafts that extend out with respect to the respective heads, and the respective shafts are threaded along respective entireties of their lengths. 7. The bone fixation system of claim 5 , wherein the first and second screws are non-cannulated. 8. The bone fixation system of claim 5 , wherein the first and second screws define respective heads and respective shafts that extend out with respect to the respective heads, and the first and second screws are threaded along only portions of their respective shafts. 9. A drill guide configured to deliver the system of claim 1 , wherein the elongate implant comprises first and second elongate implants, the drill guide comprising: a fist pair of locating holes configured to guide a drill bit to drill holes on opposite sides of the discontinuity or joint for receiving the first and second legs of the clip; at least one second pair of locating holes configured to guide the drill bit or a different drill bit or bone punch to form holes on opposite sides of the discontinuity for receiving the first and second elongate implants, or to guide insertion of k-wires on opposite sides of the discontinuity for receiving the first and second elongate implants. 10. The drill guide of claim 9 , wherein the first pair of locating holes and the at least one second pair of locating holes are located on a single component. 11. The drill guide of claim 9 , wherein the at least one second pair of locating holes are offset from the first pair of locating holes by a distance and the at least one second pair of locating holes are separated by a shorter distance than the first pair of locating holes. 12. The drill guide of claim 9 , wherein the at least one second pair of locating holes are configured to guide the drill bit or the other different drill bit or bone punch to form holes, or to guide insertion of the k-wires without crossing the discontinuity. 13. The drill guide of claim 9 , wherein the at least one second pair of locating holes comprise two or more pair of locating holes that are at different angles to the first pair of locating holes. 14. A surgical guide system configured to aid in delivering the system of claim 1 , the system comprising: a clip drill guide configured to be positioned across the discontinuity or joint, the clip drill guide comprising a first cannula configured to be positioned on the first side of the discontinuity or joint and a second cannula configured to be positioned on the second side of the discontinuity or joint; and an implant guide configured to be positioned on the first or second side of the discontinuity or joint, the implant guide comprising a plurality of implant positioning holes running through the implant guide and a plurality of guide positioning holes running through the implant guide, the plurality of implant positioning holes being separated from the plurality of guide positioning holes by a distance. 15. The surgical guide system of claim 14 , comprising a first temporary pin configured to be inserted through the first cannula and into a first clip leg hole in the bone or bone portions drilled through the first cannula, and a second temporary pin configured to be inserted through the second cannula and into a second clip leg hole in the bone or bone portions drilled through the second cannula. 16. The surgical guide system of claim 14 , wherein the plurality of implant positioning holes are configured to receive a hole creation device configured to form a first implant hole or a second implant hole in the bone or bone portions, wherein the plurality of implant positioning holes are configured to guide the hole creation device or the k-wire through the bone or bone portions without crossing the discontinuity or joint. 17. The surgical guide system of claim 14 , wherein the plurality of implant positioning holes are positioned closer to the discontinuity or joint than the plurality of guide positioning holes. 18. The surgical guide system of claim 14 , wherein the implant guide is arc-shaped, the plurality of implant positioning holes passing through the implant guide at varying angles and the plurality of guide positioning holes passing through the implant guide at varying angles. 19. A bone fixation construct comprising: a bone screw; and a clip including a first leg, a second leg, and a bridge that extends from a first end of the first leg to a first end of the second leg, wherein the bridge is elastically flexible such second ends of the first and second legs opposite the first ends are biased toward each other, wherein the bridge and the first and second legs define a plane, the bone screw is oriented at an angle with respect to the plane, and one of the first and second legs is in contact with the bone screw, such that the one of the first and second legs urges the bone screw toward the other of the first and second legs. 20. The bone fixation construct of claim 19 , wherein the bone screw is a first bone screw and the one of the first and second legs is defined by