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Journal Article

Citation

Sotirakis H, Kyvelidou A, Stergiou N, Hatzitaki V. Neurosci. Lett. 2017; 654: 12-16.

Affiliation

Motor Control and Learning Laboratory, Department of Physical Education and Sport Science, Aristotle University of Thessaloniki, Thessaloniki 546 24, Greece. Electronic address: vaso1@phed.auth.gr.

Copyright

(Copyright © 2017, Elsevier Publishing)

DOI

10.1016/j.neulet.2017.06.024

PMID

28629778

Abstract

Previously we have demonstrated that the effect of aging on posture and gaze active tracking of a visual target moving in the horizontal direction is dependent on target's complexity. In this study, we asked whether a similar phenomenon is present when tracking a visual target moving with varying complexity in the vertical direction. Ten young (22.98±2.9years) and 10 older adults (72.45±4.72years) tracked for 120seconds, a visual target moving vertically by shifting their bodyweight in the anterior-posterior direction. Three target motions were tested: a simple periodic (sine wave), a more complex (Lorenz attractor) and an ultra-complex random (Surrogated Lorenz attractor) pattern. Cross-spectral analysis revealed lower sway-target coherence as a function of age, regardless of target motion's complexity. This age effect was significant for the sway-target gain but not for the phase index. Gaze-target analysis revealed age related differences only when tracking the more complex targets. Regardless of age, tracking of the complex target was associated with lower cross Approximate Entropy. It is concluded that tracking of visual targets oscillating in the vertical direction reveals age related constraints that are independent of visual motion's complexity. These constraints are evident in the spatial and not temporal aspects of visuo-motor coupling, which suggests the presence of neuromuscular deficiencies in controlling visually guided postural sway in the anterior-posterior direction.

Copyright © 2017 Elsevier B.V. All rights reserved.


Language: en

Keywords

aging; balance; complexity; sensorimotor; sway direction

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