A new approach to measure functional stability of the knee based on changes in knee axis orientation.

A new approach to measure functional stability of the knee based on changes in knee axis orientation.

There is an insufficiency of measures that quantify functional knee stability, which is of particular relevance in knee rehabilitation. The author’s objective in undertaking this study was to investigate the usefulness of knee finite helical axis (FHA) variables in 33 healthy subjects during two different functional tasks; One leg side hop (SH) and Two Leg Squat (TLS), and to investigate correlations of these variables with laxity. Laxity was assessed with a KT-1000 arthrometer and the Beighton Hypermobility Score. Movements were registered with an optical motion capture system. Knee rotation and translation were defined by a six degree of freedom segment model. FHA was calculated for finite steps of 20° knee flexion, based on error simulations. We computed the FHA inclination, the translation along FHA and an FHA Direction Index quantifying directional changes. All variables were repeatable (average ICCs ~0.97 during TLS and ~0.83 during SH). The lower functional knee stability in SH was reflected by a significantly higher FHA Direction Index and a larger medio-lateral FHA inclination compared to those in TLS. The superior-inferior inclination was smaller during Landing in SH compared to Take-Off and TLS. Translation along FHA was usuallysmall as expected in healthy subjects. Beighton Hypermobility Score and KT-1000 values had weak but significant correlations with FHA Direction Index and FHA translation, which show that laxity influences the functional knee stability.

The researchers concluded that knee finite helical axis measures were sensitive enough to discriminate between one leg side hop and two leg squat. They suggested that next step would be to examine the usability of these measures in subjects with knee injury.

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