Animation 7: Model of the replaced knee in extension, 60° and 120° flexion, with a circular femoral component, a flat tibial component and an interposed fully conforming meniscal bearing
The mathematical model of passive flexion of the replaced knee
described shown in Animation 7 explains the observations made on the
unloaded prosthetic joint. At each flexion angle, the anteroposterior
position of the femur on the tibia was determined from the condition
of zero force in each ligament, a condition which required a roll-back
of the model femur on the tibia of 7.5 mm over 90° of flexion. At each
flexion angle, if the femur is placed anterior to this neutral
position, the ACL (and MCL) are stretched and the PCL and LCL
slackened, requiring the application of external force. If the femur
is placed posterior to the neutral position, the PCL and LCL are
stretched and the ACL and MCL are slackened. Thus, roll-back during
passive flexion of the replaced joint is required to ensure that
passive structures of the joint, articular surfaces as well as
ligaments, are not loaded.