1. Gait parameters of treadmill versus overground locomotion in mouse
- Author
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Marc Herbin, Jean-Pierre Gasc, Rémi Hackert, and Sabine Renous
- Subjects
medicine.medical_specialty ,Surface Properties ,Video Recording ,STRIDE ,Kinematics ,Environment ,Mice ,Behavioral Neuroscience ,Gait (human) ,Physical medicine and rehabilitation ,medicine ,Animals ,Treadmill ,Gait ,Vestibular system ,Proprioception ,Equipment Design ,Swing ,Adaptation, Physiological ,Biomechanical Phenomena ,Regression Analysis ,Female ,Psychology ,human activities ,Stance time ,Locomotion - Abstract
Many studies of interest in motor behaviour and motor impairment in mice use equally treadmill or track as a routine test. However, the literature in mammals shows a wide difference of results between the kinematics of treadmill and overground locomotion. To study these discrepancies, we analyzed the locomotion of adult SWISS-OF1 mice over a large range of velocities using treadmill and overground track. The use of a high-speed video camera combined with cinefluoroscopic equipment allowed us to quantify in detail the various space and time parameters of limb kinematics. The results show that mice maintain the same gait pattern in both conditions. However, they also demonstrate that during treadmill exercise mice always exhibit higher stride frequency and consequently lower stride length. The relationship of the stance time and the swing time against the stride frequency are still the same in both conditions. We conclude that the conflict related to the discrepancy between the proprioceptive, vestibular, and visual inputs contribute to an increase in the stride frequency during the treadmill locomotion. more...
- Published
- 2007
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