Claude Pothrat scite author profile

Foot intrinsic motion originates from the combination of numerous joint motions giving this segment a high adaptive ability. Existing foot kinematic models are mostly focused on analyzing small scale foot bone to bone motions which require both complex experimental methodology and complex interpretative work to assess the global foot functionality. This study proposes a method to assess the total foot deformation by calculating a helical angle from the relative motions of the rearfoot and the forefoot. This method required a limited number of retro-reflective markers placed on the foot and was tested for five different movements (walking, forefoot impact running, heel impact running, 90° cutting, and 180° U-turn) and 12 participants. Overtime intraclass correlation coefficients were calculated to quantify the helical angle pattern repeatability for each movement. Our results indicated that the method was suitable to identify the different motions as different amplitudes of helical angle were observed according to the flexibility required in each movement. Moreover, the results showed that the repeatability could be used to identify the mastering of each motion as this repeatability was high for well mastered movements. Together with existing methods, this new protocol could be applied to fully assess foot function in sport or clinical contexts.

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Multifactorial gait analysis of children with flat foot and hind foot valgus deformity

Pothrat

Authier

Viehweger

et al. 2013

Computer Methods in Biomechanics and Biomedical Engineering

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Claude Pothrat

One- and multi-segment foot models lead to opposite results on ankle joint kinematics during gait: Implications for clinical assessment

Quantifying foot deformation using finite helical angle

Multifactorial gait analysis of children with flat foot and hind foot valgus deformity

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