Chopart's joint load during gait. In vitro study of 10 cadaver specimen in a dynamic model

Chopart's joint is fundamental to foot function. Until today, intra-articular force and peak pressure has not been investigated under dynamic conditions. The study used a cadaver model to measure intra-articular force and peak pressure with electronic sensors. Force was applied to extrinsic ten...

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Veröffentlicht in:Gait & posture 2008-02, Vol.27 (2), p.216-222
Hauptverfasser: Suckel, A, Muller, O, Langenstein, P, Herberts, T, Reize, P, Wulker, N
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Sprache:eng
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Zusammenfassung:Chopart's joint is fundamental to foot function. Until today, intra-articular force and peak pressure has not been investigated under dynamic conditions. The study used a cadaver model to measure intra-articular force and peak pressure with electronic sensors. Force was applied to extrinsic tendons via cables attached to computer-regulated hydraulic cylinders. A ground reaction force of 350 N was simulated in a tilting angle- and force-controlled translation stage. We observed a characteristic rising curve with a peak during push-off for intra-articular force and peak pressure. The increase of intra-articular force at the talonavicular and calcaneocuboid joint from a low level at heel-on varies up to a maximum of 174 N/149 N and a peak pressure of 3877 kPa/3396 kPa, respectively, at push-off. We observed highest loading at the dorsal aspect of the talonavicular joint and the plantar aspect of calcaneocuboid joint. The highest loading on Chopart's joint is attained during push-off. We observe higher force and peak pressure on the medial column of the foot compared to the lateral column. The higher load of the dorsal aspect of talonavicular joint and plantar aspect of calcaneocuboid joint confirms the theory of a previous described locking mechanism for forceful push-off.
ISSN:0966-6362
DOI:10.1016/j.gaitpost.2007.03.010