Leg length calculation in computer-assisted surgery

The invention claimed is: 1. A computer-assisted surgery system for outputting one of a leg length discrepancy and/or an offset between a pre-implanting leg condition and a post-implant rejointing leg condition comprising: at least one instrument; at least one inertial sensor unit connected to the at least one instrument, the inertial sensor unit producing readings representative of its orientation; a computer-assisted surgery processor unit operating a surgical assistance procedure and comprising a coordinate system module for setting a pelvic coordinate system from readings of the at least one inertial sensor unit when the at least one instrument is in a given orientation relative to the pelvis, a tracking module for tracking an orientation of the at least one instrument relative to the pelvic coordinate system during movements thereof using the readings from the inertial sensor unit on the instrument, and a geometrical relation data module for recording before implanting an implant a medio-lateral orientation of the at least one instrument representative of a medio-lateral axis of the legs relative to the pelvic coordinate system and a distance between the legs along the medio-lateral axis, for recording after implant rejointing the medio-lateral orientation and said distance, and for calculating a leg length discrepancy and/or an offset, based on said distances and said medio-lateral orientations; an interface for outputting the leg length discrepancy and/or the offset between the pre-implanting leg condition and the post-implant rejointing leg condition. 2. The computer-assisted surgery system according to claim 1 , wherein the at least one instrument is a caliper having a body with a translational joint for expanding/contracting, and legs configured for abutment with pelvic landmarks. 3. The computer-assisted surgery system according to claim 2 , wherein the at least one instrument includes a light source emitting a light beam that is perpendicular relative to a direction of the translational joint. 4. The computer-assisted surgery system according to claim 3 , wherein the light source is displaceable along the body, the light beam being a leg alignment marker when the caliper is abutted against the pelvic landmarks. 5. The computer-assisted surgery system according to claim 2 , wherein the given orientation has a direction of the translational joint parallel to a medio-lateral axis of the pelvis. 6. The computer-assisted surgery system according to claim 2 , further comprising a mechanical clamp having ankle interfaces configured to remain fixed to the ankles, with linkages interconnecting the ankle interfaces. 7. The computer-assisted surgery system according to claim 6 , further comprising a scale in the linkages to measure the distance. 8. The computer-assisted surgery system according to claim 6 , wherein the linkages include at least a translational joint in a direction generally aligned with a medio-lateral axis between the legs. 9. The computer-assisted surgery system according to claim 6 , further comprising indicators for receiving ends of the caliper for recording the medio-lateral orientation with the caliper abutted against the mechanical clamp. 10. The computer-assisted surgery system according to claim 1 , wherein the at least one instrument is an acetabular-implant impactor, and wherein the impactor supports a light source emitting a light beam having a known orientation relative to a longitudinal axis of the impactor. 11. The computer-assisted surgery system according to claim 10 , wherein the given orientation has the light beam illuminating the medio-lateral axis of the pelvis, with a shaft of the impactor lying in a plane of the light beam. 12. The computer-assisted surgery system according to claim 10 , further comprising an ankle clamp having ankle interfaces configured to remain fixed to the ankles, with linkages interconnecting the ankle interfaces, the ankle clamp further comprising indicators for being illuminated by the light beam for recording the medio-lateral orientation. 13. The computer-assisted surgery system according to claim 12 , further comprising a scale in the linkages to measure the distance. 14. A computer-assisted surgery system for outputting one of a leg length discrepancy and/or an offset between a pre-implanting leg condition and a post-implant rejointing leg condition comprising: at least one instrument; at least one inertial sensor unit connected to the at least one instrument, the inertial sensor unit producing readings representative of its orientation; a computer-assisted surgery processor unit operating a surgical assistance procedure and comprising a coordinate system module for setting a pelvic coordinate system from readings of the at least one inertial sensor unit when the at least one instrument is in a given orientation relative to the pelvis, the pelvic coordinate system including a medio-lateral axis of the pelvis, a tracking module for tracking an orientation of the at least one instrument relative to the pelvic coordinate system during movements thereof using the readings from the inertial sensor unit on the instrument, and a geometrical relation data module for recording before implanting an implant a medio-lateral orientation of the at least one instrument representative of a medio-lateral axis of the legs relative to the pelvic coordinate system and a distance between the legs along the medio-lateral axis, for recording after implant rejointing the medio-lateral orientation and said distance, and for calculating a leg length discrepancy and/or an offset, based on said distances and said medio-lateral orientations; an interface for outputting the leg length discrepancy and/or the offset between the pre-implanting leg condition and the post-implant rejointing leg condition.