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Energetic costs of incidental visual coupling during treadmill running.

Research output: Contribution to journalJournal article


<mark>Journal publication date</mark>08/2008
<mark>Journal</mark>Medicine and Science in Sports and Exercise
Issue number8
Number of pages9
Pages (from-to)1506-1514
<mark>Original language</mark>English


Purpose: To determine the role of visual-spatial information in stabilizing movement during treadmill locomotion. Methods: Physiological, biomechanical, and psychological indices of coordination stability were recorded while participants were visually coupled with a whole-body image of themselves during treadmill locomotion. Ten participants ran on a treadmill under three visual conditions: two dynamic images (symmetrical, mirror image; asymmetrical, reversed mirror image) and one static. Performance was examined at two speeds. Results: Participants ran more economically (mL·kg·min -1) when they were visually coupled with a symmetrical rather than with an asymmetrical or static image. An asymmetrical coupling resulted in increased variability in footfall position at the faster speed, in comparison to the symmetrical and static conditions. However, at slower speeds, footfall variability and frequency were higher under both dynamic visual conditions in comparison to the static control. Changes in metabolic economy (mL·kg·min-1) were only partially mediated by movement kinematics. Conclusion: Visual information influences treadmill locomotion and associated measures of stability even when there is no intention to coordinate with external stimuli.