More Anterior in vivo Contact Position in Patients With Fixed-Bearing Unicompartmental Knee Arthroplasty During Daily Activities Than in vitro Wear Simulator

2021 
Background: While in-vitro wear simulation of unicompartmental knee arthroplasty (UKA) showed outstanding long-term wear performance, studies reported polyethylene (PE) wear was responsible for 12% fixed-bearing (FB) UKA failure. This paper aimed to quantify the in-vivo 6-degrees-of-freedom (6-DOF) knee kinematics and contact positions of FB UKA during daily activities and compare with the previous results of in-vitro wear simulator. Methods: Fourteen patients following unilateral medial FB UKA received a CT scan and dual fluoroscopic imaging during level walking, single-leg deep lunge, and sit-to-stand motion for evaluating in-vivo 6-DOF FB UKA kinematics. The closest point between surface models of the femoral condyle and PE insert was determined to locate the medial compartmental articular contact positions, which were normalized relative to the PE insert length. The in-vivo contact area was compared with the in-vitro wear region in previous simulator studies. Results: The in-vivo contact positions during daily activities were more anterior than those in the previous in-vitro wear simulator studies (p<0.001). Significant differences in the femoral anteroposterior translation and tibial internal rotation during the stance phase were observed compared with those in lunge and sit-to-stand motions (p<0.05). The in-vivo contact position located anteriorly and medially by 5.2±2.7 mm and 1.8±1.6 mm on average for stance phase, 1.0±2.4 mm and 0.9±1.5 mm for the lunge, and 2.1±3.3 mm and 1.4±1.4 mm for sit-to-stand. The in-vivo contact position located in more anterior part during stance phase (p<0.05). Conclusion: The current study revealed that the contact position of FB UKA was located anteriorly and medially on the PE insert during in-vivo weight-bearing activities and different from previous findings of the in-vitro wear simulator. We should take in-vivo 6-DOF knee kinematics and contact patterns of FB UKA into account to reproduce realistic wear performance for in-vitro wear simulator and improve implant design.
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