Knee Motion

The knee joint is a modified hinge joint (ginglymus).  The active movements of the knee joint are described as flexion, extension, medial rotation and lateral rotation. 

The flexion and extension at this joint differ from those of a true hinge as the axis about which the movement occurs is not fixed, but translates upwards and forwards during extension and backwards and downwards during flexion.  The knee joint possesses limited inherent stability from the bony architecture.  The lack of conformity between bony surfaces allow 6° of freedom of motion about the knee including translation in 3 planes (medio-lateral, antero-posterior, proximo-distal) and rotation in 3 planes (flexion/extension, internal/external, varus/valgus).

With the foot fixed on the ground the last 30° of extension is associated with medial rotation of the femur.  Compared with the medial femoral condyle, the articular surface of the smaller lateral femoral condyle is a rounder and flattens more rapidly anteriorily.  Consequently, it approaches a more fully congruent relationship with its opposed tibial meniscal surface, some 30° before full extension has been obtained.  To achieve full extension, the lagging medial compartment must medially rotate about a fixed vertical axis while moving backwards in an arc.

There is progressive increase in passive mechanism that resists further extension.  In full extension parts of both cruciate ligaments, the collateral ligaments the posterior capsular and oblique posterior ligament complex and the skin and fascia are all taught.  There is also passive or active tension in the hamstrings, gastrocnemius muscles and the ITB.  In addition the anterior parts of the menisci compress between the femoral condyles and the tibia.

At the beginning of flexion, the knee "unlocks" with an external rotation of the femur on the tibia.  This is partly related to the opposite interplay of the meniscal articular and ligamentous structures involved but is also brought about by the contraction of the popliteus muscles.  It pulls downwards and posterior on its attachment to the lateral condyle of the femur helping the greater roll back in this compartment which occurs with flexion.  Via its meniscal attachment the popliteus pulls on the posterior horn of the lateral meniscus.  In this way, while rolling back, the posterior motion of the menisci occurs in both compartments, the greater motions laterally can be facilitated.  The menisci which are squeezed between the joint surface in extension are moved posteriorily with the femur in flexion, the lateral more so than the medial. With terminal extension achieved and the knee locked by the femur rotating internally on the tibia, this is called the screw home mechanism. (Fig 2.89, page 72, Insall).

Flexion is checked by the quadriceps mechanism, the anterior parts of the capsule and the PCL and by the compression of the soft tissue structures in the popliteal fossa.