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Circle Diameter Impacts Stride Frequency and Forelimb Stance Duration at Various Gaits in Horses.

Alyssa A LoganAlyson J SnyderBrian D Nielsen
Published in: Sensors (Basel, Switzerland) (2023)
The effects of gait and diameter have been studied independently, but rarely together in equine circular exercise studies. This study aimed to determine the impact of diameter (10-m or 15-m) at various gaits (walk, trot, and canter) on stride frequency or forelimb stance duration. Nine mature horses were outfitted with Tekscan™ Hoof Sensors on their forelimbs during circular and straight-line exercise at various gaits on a clay and sand arena surface. Statistical analysis was performed in SAS 9.4 with fixed effects of exercise type, recording, leg, and breed (PROC GLIMMIX, p < 0.05 significance). At walk ( p < 0.0001) and trot ( p < 0.001), stride frequency was lower during circular exercise. Stride frequency was similar between forelimbs at all gaits. At walk ( p < 0.001) and canter ( p = 0.01), stance duration was greatest during 10-m circle exercise. At walk ( p = 0.0007), trot ( p < 0.001), and canter ( p < 0.0001), the inside forelimb had longer stance duration than the outside forelimb. Differences between forelimb stance durations may support asymmetrical travel while horses exercise on a circle at the walk, trot, and canter. These results demonstrate diameter and gait are important factors when evaluating forelimb kinematics during circular exercise.
Keyphrases
  • high intensity
  • physical activity
  • resistance training
  • optic nerve
  • optical coherence tomography