Skeletal Muscle Atrophy and Dysfunction Following Total Knee Arthroplasty

Total knee arthroplasty (TKA) is currently the most common elective surgery in the US and will increase in frequency nearly five-fold by 2030 to 3.5 million surgeries annually. This surgery is most prevalent among older adults with advanced knee osteoarthritis (OA) and its increase is explained primarily by growth in this population. Although TKA reliably reduces joint pain, it fails to correct objectively-measured functional disability due, in part, to dramatic declines in lower-extremity neuromuscular function during the early, postsurgical period. These deficits are never fully remediated, remaining for years after surgery and contributing to persistent disability. Despite these detrimental effects of TKA, the fundamental skeletal muscle adaptations that occur in the early, post-surgical period are poorly defined and understudied and there is currently no widely-accepted, evidence-based intervention to counter these changes. To address this clinical problem, the investigators goals in this application are to define the skeletal muscle structural and functional adaptations following TKA at the whole body, tissue, cellular, organellar and molecular levels in humans in an effort to identify factors contributing to functional disability and to assess the utility of neuromuscular electrical stimulation (NMES) to counter post-surgical muscle adaptations at these same anatomic levels. We hypothesize that TKA fails to remediate physical disability in patients, in part, because of the profound skeletal muscle myofilament and mitochondrial loss and dysfunction that develops during the early, post-surgical period. Moreover, the investigators posit that NMES will improve functional recovery following TKA by countering these early skeletal muscle adaptations. To test this model, the investigators will evaluate participants with knee OA prior to and following TKA for skeletal muscle structure and function at multiple anatomic levels, with patients randomized to receive NMES or sham control intervention during the first 5 weeks post-surgery.