Abstract
ObjectiveThis study assessed the accuracy of robotic-arm-assisted total knee arthroplasty (RATKA) for bone resection, component size prediction, implant placement, and limb alignment.MethodsThis prospective cohort study included 36 patients. All procedures were performed by a single experienced surgeon, using an identical approach and implant designs. The MAKO RIO Robotic Interactive Orthopaedic Arm (Stryker, Mahwah, NJ, USA) system was used. The actual bone resection, implant placement, component size, and postoperative mechanical alignment were recorded, then compared with the preoperative plan.ResultsThe mean absolute differences from the plan for the distal (medial and lateral) and posterior (medial and lateral) femoral cuts were 0.39 mm (0.62), 0.49 mm (0.70), 0.62 mm (0.79), and 0.65 mm (0.81), respectively, with 0.57° (0.65) varus. The mean absolute differences in the medial and lateral tibial cuts were 0.56 mm (0.75) and 0.58 mm (0.76), with 0.48° (0.16) varus and 0.54° (0.25) anterior/posterior slope. Of 192 bone resections, 176 (91.7%) were within ≤ 1 mm of the preoperative plan. The accuracies of femoral and tibial component size prediction were 100% and 97.22%, respectively. The mean absolute difference in final limb coronal alignment was 0.92° (0.65). Of the alignments, 18 (75.0%) were within ≤ 1.00° of the plan, and 100% were within ≤ 3.00° of the plan.ConclusionRATKA could accurately predict the component size and execute a preoperative plan to achieve precise bone resection, and implant placement, thereby reducing alignment outliers.
Highlights
The precision of implantation, mechanical alignment, and soft tissue balance are important for the success of total knee arthroplasty (TKA) [1]
Robotic-arm-assisted surgery in orthopaedics began in the 1980s; it was developed to enhance the accuracies of bone resection, implant selection and placement, and alignment, thereby improving patient clinical function and long-term implant survival [6]
Robotic-arm-assisted total knee arthroplasty (RATKA) has gathered momentum as a method to improve the accuracies of bone resection and implant position, reducing limb alignment outliers [7]
Summary
The precision of implantation, mechanical alignment, and soft tissue balance are important for the success of total knee arthroplasty (TKA) [1]. Robotic-arm-assisted total knee arthroplasty (RATKA) has gathered momentum as a method to improve the accuracies of bone resection and implant position, reducing limb alignment outliers [7]. In these systems, robotic-arm-assisted surgeons precisely machine the bones, using preoperative computed tomography-based planning and haptic feedback. This study evaluated the accuracy and precision of RATKA for predicting component size and achieving the preoperatively planned bone resection, implant position, and final limb coronal mechanical alignment
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