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Peak tibial accelerations in different foot strike patterns during level running: an independent investigation in different cohorts

Peak tibial accelerations are used to monitor impact severity during distance running and as input for bio-feedback. Here, peak tibial accelerations were compared between rearfoot and forefoot strikes. Two different studies were undertaken by independent research centres. Tibial acceleration and opt...

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Published in:Sports biomechanics 2024-10, p.1-14
Main Authors: Van den Berghe, Pieter, De Bock, Sander, Breine, Bastiaan, Horvais, Nicolas, Gruber, Allison, Six, Joren, Samozino, Pierre, Leman, Marc, Morin, Jean-Benoît, De Clercq, Dirk, Giandolini, Marlène
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container_title Sports biomechanics
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creator Van den Berghe, Pieter
De Bock, Sander
Breine, Bastiaan
Horvais, Nicolas
Gruber, Allison
Six, Joren
Samozino, Pierre
Leman, Marc
Morin, Jean-Benoît
De Clercq, Dirk
Giandolini, Marlène
description Peak tibial accelerations are used to monitor impact severity during distance running and as input for bio-feedback. Here, peak tibial accelerations were compared between rearfoot and forefoot strikes. Two different studies were undertaken by independent research centres. Tibial acceleration and optical motion capture were collected in 14 rearfoot strikers who changed to a forefoot strike in the first centre. In the second centre, tibial acceleration of 14 other rearfoot strikers and nine forefoot strikers were collected and processed. In over-ground level running at a submaximal speed, the resultant peak tibial acceleration was greater in the instructed forefoot strike condition (Δ  = 7.6 ± 1.3 g, mean ± standard error difference) and in the habitual forefoot strikers (Δ  = 3.7 ± 1.1 g) than in the rearfoot strikers. The shank kinematics revealed a greater decrease in antero-posterior velocity following touchdown in the forefoot strike condition. The forefoot strikes experienced greater posterior tibial acceleration, which resulted in an increased resultant peak tibial acceleration that also occurred earlier than in the rearfoot strikes. No significant difference in axial peak tibial acceleration was found between these foot strike patterns. In conclusion, the foot strike pattern differently affects peak tibial accelerations in level running, which can have implications for monitoring and biofeedback applications.
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title Peak tibial accelerations in different foot strike patterns during level running: an independent investigation in different cohorts
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