Design and validation of a dynamometric horseshoe for the measurement of three-dimensional ground reaction force on a moving horse

Design and validation of a dynamometric horseshoe for the measurement of three-dimensional ground reaction force on a moving horse

Abstract Properties of ground surfaces condition locomotion, and quality of track surfaces is believed to be involved in the pathogenesis of many musculoskeletal injuries in the horse. Measuring ground reaction forces (GRF) is an interesting approach to assess those interactions. Forceplates are the...

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Veröffentlicht in:Journal of biomechanics 2009-02, Vol.42 (3), p.336-340
Hauptverfasser: Chateau, Henry, Robin, Damien, Simonelli, Thomas, Pacquet, Laurent, Pourcelot, Philippe, Falala, Sylvain, Denoix, Jean-Marie, Crevier-Denoix, Nathalie
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Animals
Calibration
Equipment Design
Error analysis
Ground reaction force
Ground surface
Hoof and Claw - physiology
Horse
Horses - physiology
Kinetic
Life Sciences
Locomotion - physiology
Physical Medicine and Rehabilitation
Sensors
Shoe
Shoes
Strain gauges
Weight-Bearing - physiology
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container_end_page 340
container_issue 3
container_start_page 336
container_title Journal of biomechanics
container_volume 42
creator Chateau, Henry
Robin, Damien
Simonelli, Thomas
Pacquet, Laurent
Pourcelot, Philippe
Falala, Sylvain
Denoix, Jean-Marie
Crevier-Denoix, Nathalie
description Abstract Properties of ground surfaces condition locomotion, and quality of track surfaces is believed to be involved in the pathogenesis of many musculoskeletal injuries in the horse. Measuring ground reaction forces (GRF) is an interesting approach to assess those interactions. Forceplates are the most commonly used but they are not well suited to compare different ground surfaces at fast gaits. Embarked equipment, fixed under the horse's hoof, would allow force measurement on any track. The objective of this work was (1) to design a device which enables the measurement of 3-D GRF on any ground, at any gait, for a given subject, (2) to determine its accuracy, and (3) to evaluate its performance and usefulness under physiological conditions. The resulting dynamometric horseshoe was composed of 4 piezoelectric sensors sandwiched between 2 aluminium plates designed at the shape of an equine shoe. The measurements, evaluated after a quasi-static calibration, revealed that the root mean square error was 1.3% in the normal direction, and 3.1% in the transversal direction. In vivo tests at the walk and trot in straight line and at the trot on circles, were conducted on 3 different ground surfaces. The results demonstrate that this dynamometric horseshoe is well suited to study the effects of different ground surfaces on GRF in the moving horse.
doi_str_mv 10.1016/j.jbiomech.2008.11.017
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Measuring ground reaction forces (GRF) is an interesting approach to assess those interactions. Forceplates are the most commonly used but they are not well suited to compare different ground surfaces at fast gaits. Embarked equipment, fixed under the horse's hoof, would allow force measurement on any track. The objective of this work was (1) to design a device which enables the measurement of 3-D GRF on any ground, at any gait, for a given subject, (2) to determine its accuracy, and (3) to evaluate its performance and usefulness under physiological conditions. The resulting dynamometric horseshoe was composed of 4 piezoelectric sensors sandwiched between 2 aluminium plates designed at the shape of an equine shoe. The measurements, evaluated after a quasi-static calibration, revealed that the root mean square error was 1.3% in the normal direction, and 3.1% in the transversal direction. 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subjects Accuracy
Animals
Calibration
Equipment Design
Error analysis
Ground reaction force
Ground surface
Hoof and Claw - physiology
Horse
Horses - physiology
Kinetic
Life Sciences
Locomotion - physiology
Physical Medicine and Rehabilitation
Sensors
Shoe
Shoes
Strain gauges
Weight-Bearing - physiology
title Design and validation of a dynamometric horseshoe for the measurement of three-dimensional ground reaction force on a moving horse
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