Abstract
Introduction
Medial pivoting motion of the knee has been widely assumed in total knee arthroplasty (TKA) research, but was not consistently observed in recent studies of in vivo knee motion. This study investigated the in vivo motion characters of the knee by analyzing the axial tibial rotation and tibiofemoral articular contact motion during a weightbearing flexion and a treadmill gait.
Methods
In vivo kinematics of eight living human knees during a weightbearing flexion and a treadmill gait was determined using a combined MRI and dual fluoroscopic imaging system technique. The axial tibial rotation and the tibiofemoral cartilage contact point motion on both the tibial plateau and femoral condyle surfaces were analyzed.
Results
While internal tibial rotation was observed with flexion of the knee during the two activities, larger excursions of the tibiofemoral contact points were measured on the medial femoral condyle surface than on the lateral side during the weightbearing flexion of the knee. The contact point excursions were also larger on the medial tibial plateau surface than on the lateral side during the treadmill gait. The contact points moved anteriorly with flexion and posteriorly with extension of the knee on the medial tibial surface during the gait, that was opposite to the femoral rollback observed during the weightbearing knee flexion.
Conclusion
The data indicates that the in-vivo knee motion is activity- and loading-dependent and cannot be described using a single motion character. The knee could potentially rotate with respect to an axis located at the lateral side of the knee and the traditional “medial pivoting” motion character of the knee was not observed in these in-vivo activities. The data could provide important implications for the improvement of TKA designs and implantation techniques that are aimed to restore normal knee function.