Ankle replacement system and method

What is claimed is: 1. A surgical guide, comprising: a body configured to be inserted into a block that is configured to be coupled to a bone, the body defining at least a first guide hole and a second guide hole, wherein the first and second guide holes are sized and configured to receive a first surgical tool for forming pilot holes in the bone and wherein the body comprises radiopaque surfaces defining the first and second guide holes; and a sizing pattern coupled to the body, the sizing pattern having a size and being coupled to the body at a location for estimating resectioning cuts to be made to the bone, wherein the sizing pattern comprises at least two radiopaque lines each comprising a length dimension configured to provide a fluoroscopic cue for positioning the body. 2. The surgical guide of claim 1 , further comprising a plurality of pin holes sized and configured to receive a plurality of pins to couple the body to the bone. 3. The surgical guide of claim 1 , further comprising a cut guide comprising a plurality of slots configured to position a cutting tool to cut the bone, wherein the size of the slots correspond to the sizing pattern. 4. The surgical guide of claim 1 , wherein the body comprises a plastic material and the first guide hole, the second guide hole, and the sizing pattern comprise a metal material. 5. The surgical guide of claim 1 , wherein the body comprises a dovetail extension configured to be coupled to a dovetail joint of the block. 6. The surgical guide of claim 1 , wherein the body comprises a plurality of pin holes configured to receive a plurality of pins to couple the body to at least the tibia. 7. The surgical guide of claim 6 , wherein the plurality of pin holes are positioned such that they correspond to a plurality of pins positioned in the bone by a patient-specific adapter. 8. The surgical guide of claim 1 , wherein the at least two radiopaque lines comprise at least two parallel radiopaque lines. 9. The surgical guide of claim 1 , wherein the at least two radiopaque lines comprise a first line extending generally in a medial-lateral direction, a second line extending generally in a proximal-distal direction, and a third line extending generally in a proximal-distal direction. 10. An adjustable guide assembly comprising: one or more positionable frames configured to provide at least proximal-distal and medial-lateral adjustments; and a guide coupled to the one or more positionable frames such that adjustment of at least one of the one or more positionable frames changes the position of the guide, wherein the guide comprises a plurality of radiopaque surfaces defining a plurality of drill holes in a surface of the guide and at least one radiopaque line on the surface of the guide comprising a length dimension configured to provide a fluoroscopic cue for positioning the guide by the one or more positionable frames. 11. An adjustable guide assembly comprising: two independently positionable frames suitable for locating a tool relative to a joint of a patient, the frames comprising: a first frame releasably secured to at least one fixation pin configured to project outwardly from an anterior surface of a bone located adjacent to the joint, the first frame being coupled to a first threaded shaft so that upon turning the first threaded shaft, the first frame is movable to effect a proximal-distal position adjustment of the tool; and a second frame secured to the first frame, the second frame being coupled to a second threaded shaft so that upon turning the second threaded shaft, the second frame is movable to effect a medial-lateral adjustment of the tool; and a guide coupled to each of the frames so as to be located adjacent to the joint and positionable relative to the bone with reference to a radiopaque line located on the guide. 12. An adjustable guide assembly comprising: a first independently positionable frame releasably secured to at least one fixation pin configured to be located on an anterior surface of a bone located adjacent to a joint of a patient, the first frame being coupled to a first threaded shaft so that upon turning the first threaded shaft, the first frame is movable to effect a proximal-distal position adjustment of a tool relative to the joint; a second independently positionable frame secured to the first frame, the second frame being coupled to a second threaded shaft so that upon turning the second threaded shaft, the second frame is movable to effect a medial-lateral adjustment of the tool; a guide having a body coupled to the second frame, the body defining a first guide hole, a second guide hole, and a reference cue having a predetermined positional relationship with the first and second guide holes; and a first pin located in the first guide hole and a second pin located in the second guide hole with the guide configured to be located adjacent to the joint so that the position of the guide relative to the bone is determined by fluoroscopically locating the position of the cue, the guide having a tool holder such that adjustment of at least one of the first frame and the second frame provides for the positioning of the tool coupled to the tool holder relative to the joint. 13. The adjustable guide assembly of claim 12 further comprising a plurality of pin holes sized and configured to receive a plurality of pins to couple the body to the bone. 14. The adjustable guide assembly of claim 12 wherein the body defines a plurality of slots configured to position a cutting tool to cut the bone, wherein the size of the slots correspond to a sizing pattern. 15. The adjustable guide assembly of claim 14 wherein the first guide hole, the second guide hole, and the sizing pattern comprise a radiopaque material. 16. The adjustable guide assembly of claim 12 wherein the body comprises a plastic material and the first guide hole, the second guide hole, and the sizing pattern are defined by a metal portion of the body. 17. The adjustable guide assembly of claim 12 wherein the body comprises a dovetail extension configured to be coupled to a dovetail joint of the second frame. 18. The adjustable guide assembly of claim 12 wherein the body comprises a plurality of pin holes configured to receive a plurality of pins to couple the body to at least a tibia. 19. The adjustable guide assembly of claim 18 wherein the plurality of pin holes are positioned such that they correspond to a plurality of pins positioned in the bone by a patient-specific adapter. 20. An adjustable guide assembly comprising: two independently positionable frames suitable for locating a tool relative to a joint of a patient, the frames comprising: a first frame releasably secured to at least one fixation pin configured to project outwardly from an anterior surface of a bone located adjacent to the joint, the first frame being coupled to a first threaded shaft so that upon turning the first threaded shaft, the first frame is movable to effect a proximal-distal position adjustment of the tool; and a second frame secured to the first frame, the second frame being coupled to a second threaded shaft so that upon turning the second threaded shaft, the second frame is movable to effect a medial-lateral adjustment of the tool; and a guide coupled to each of the frames so as to be located adjacent to the joint and positionable relative to the bone with reference to a cue located on the guide, the guide having a tool holder such that adjustment of at least one of the first and second frames cha