Stephen L. Helgemo scite author profile

An apparatus that allowed the application of a 900 N axial load and the simultaneous measurement of rotation in the sagittal, coronal, and axial planes was used to study the normal kinematics of the ankle in 13 below-knee amputation specimens. Two testing routines were done on all specimens. In the first sequence, specimens were moved through a dorsiflexion (DF) and plantarflexion (PF) arc of 60 degrees (25 degrees DF and 35 degrees PF). DF was associated with an average of 2.5 degrees of external rotation, and PF was associated with an average of < 1 degree of internal rotation. In the coronal plane, PF and DF were both associated with < 1 degree of varus. In the second part of the testing, the ankle position in the sagittal plane (DF/PF) was fixed and the axial load was increased from 50 N to 750 N in 100-N intervals. Increasing the axial load caused an increase in external rotation and valgus of 1 degree to 2 degrees. For axial rotation, external rotation was more pronounced in PF than DF. The effect of load on the increase on valgus was not affected by sagittal ankle position. The effect of increasing axial load on sagittal rotation was to increase DF or PF < 2 degrees over the entire range of loads and sagittal positions. The understanding of ankle biomechanics is essential to the formulation of rational guidelines for the treatment of ankle pathology and the prediction of the long-term consequences of ankle injuries.(ABSTRACT TRUNCATED AT 250 WORDS)

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Stephen L. Helgemo

Motion of the Ankle in a Simulated Supination-External Rotation Fracture Model*

Kinematics of the Axially Loaded Ankle

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