Methods

Eight cadaveric knees (age: 59±10 years, BMI 23.3±3.5) were implanted with a primary TKA system (ATTUNE™ Posterior Stabilized Total Knee Replacement System). Each knee was mounted and aligned in the Kansas Knee Simulator (Fig. 1) [1]. A deep knee bend was performed which flexed the knee from full extension to 110° flexion, while the medial-lateral translation, internal-external, and varus-valgus rotations at the ankle were unconstrained. The femoral component was then replaced with a revision femoral component of the same TKA system, articulating on the same primary insert component, and the deep knee bend was repeated. The translations of the lowest points (LP) of the medial and lateral femoral condyles along the superior-inferior axis of the tibia were calculated. In addition, tibiofemoral and patellofemoral kinematics were calculated for each cycle based on the Grood-Suntay coordinate system [2] [1]. The change in LP and patellofemoral kinematics from the primary to revision femurs were calculated. Student t-tests were performed at 5° increments of knee flexion to identify significant differences between the two implant types.