Description

Total Knee Arthroplasty (TKA) is a widespread orthopaedic procedure for restoring functionality and minimizing pain due to end stage osteoarthritis. Conventional TKA, well-accepted as the standard of care, is performed with manual instrumentation guided by intramedullary or extramedullary alignment rods, as well as rotational guides that are not patient-specific. Despite continued improvement in manual instrumentation, postoperative malalignment is still reported in a significant number of patients when these manual instruments are used. Robotic-assisted TKA was developed specifically to improve surgical accuracy, and has been shown to significantly improve accuracy of alignment and joint-line restoration. However, these improvements came at the cost of higher complication rates and were not shown to translate into meaningful clinical outcomes with these first-generation systems. Newer-generation robotic technology offers several advantages over earlier versions including the potential to dynamically assess soft tissues over a range of motion and the ability to use haptic control in bone preparation. Modern robotic-assisted knee surgery has also demonstrated superior outcomes over conventional instrumentation in unicompartmental knee arthroplasty (UKA). This newer-generation of robotic technology, which has quickly become the standard-of-care for many knee surgeons who perform UKA, has recently been approved by the United States Food and Drug Administration (FDA) for use in TKA. Prior to consideration of widespread adoption of this newer technology in patients undergoing TKA, well-designed clinical trials are necessary to study its efficacy in this population. The proposed study evaluates the efficacy of robotic-assistance in patients between 40 and 85 years old with end-stage knee osteoarthritis or degenerative joint disease undergoing TKA. It is designed as a prospective, randomized trial where patients are blinded to their treatment arm. Patients will be randomized to conventional vs. robotically-assisted techniques in the operating room and, other than the surgical technique, will receive the same perioperative care and identical implants. The investigators aim to measure utility of robotic-assisted TKA through a range of early and short-term clinical, functional, and radiographic outcome measures.