Accurate traction of long bone fracture with full-length planning module of orthopedic robot system: experiments in vitro and in vivo

To evaluate the precision in location and clinical flexibility of the newly designed full-length planning module of orthopedic robot system in treatment of fractures of long bone. Nine plastic tibia models were selected for the image mosaicing. The full length of each tibia model was measured on the constructed panorama and compared with the real model length to record the length deviation and conduct the precision analysis. Fracture of tibia and fibula with shortening and angulation deformity was caused on a cadaver specimen with two lower limbs. Full-length planning was carried out on the entire tibial panorama with the fracture. After the reduction distance was determined quantitatively, automatic close traction procedure was carried out with the tibial reduction frame to analyze the precision and effectiveness of this module. At the same time, the relative length variation between the two bone fragments was monitored utilizing video camera to ensure the safety of the reduction operation. Image mosaicing,