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Predicting impact shock magnitude: which ground reaction force variable should we use?

By Andrew Greenhalgh, Jonathan Kenneth Sinclair, Laurence Protheroe and Nachiappan Chockalingam

Abstract

Peak tibial acceleration (PTA) measured using accelerometers attached to the musculoskeletal system is considered the most effective method of quantifying impact shock magnitude as a result of footstrike during running. Ground Reaction Forces (GRFs) measured using force plates are also widely used to predict PTA. However it is not clear which is the most effective GRF variable to use. This has led to different variables being reported within biomechanics literature. This study aimed to identify which GRF variable is the most suitable for consistent and accurate prediction of impact shock magnitudes. Thirteen participants (10 male and 3 female) took part in this study. Simultaneous tibial accelerations and GRF information were recorded as participants ran at 4.0ms-1+5% over a force platform. The relationship between various GRF parameters including, average vertical loading rates, peak instantaneous vertical loading rates (PIVLR), event times were compared to tibial shock magnitudes using Pearson correlations

Publisher: World Academic Press
Year: 2012
OAI identifier: oai:clok.uclan.ac.uk:4208
Provided by: CLoK
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