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Three limbs were taken from post mortem human subjects and impacted on the lateral aspect by a free-flying (30 km/h) impactor below the knee joint. Tri-axial MHDs and tri-axial accelerometers were used to determine the kinematics of the limb; strain gages were used to measure surface strain on the tibia and femur; and acoustic sensors were used to identify the onset and timing of injury. This data set was analyzed to compute the response of the knee joint to a bumper impact. Post-test necropsy results showed that the primary injury mechanism in each case was complete avulsion of the Medial Collateral Ligament (MCL) and the Anterior Cruciate Ligament (ACL).

Isolated knee joints from Post Mortem Human Subjects (PMHS) were tested in dynamic lateral-medial valgus loading that replicated a vehicle-pedestrian impact at 40 km/h. Eight specimens were tested in 4-point bending (pure bending) and eight specimens were tested in 3-point bending in configurations chosen to apply varying proportions of moment and shear at the knee joint. The medial collateral ligament (MCL) was the only major load bearing knee structure that was injured in the experiments. Applied loads (bending moment and shear force) and knee response (bending angle and shear displacement) are reported in order to provide information for determination of injury thresholds and for the validation of computational models and mechanical legform impactors.