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Deceleration affects anticipatory and reactive components of triggered postural responses
Authors:Mark?G.?Carpenter,Alf?Thorstensson,Andrew?G.?Cresswell  author-information"  >  author-information__contact u-icon-before"  >  mailto:andrew.cresswell@neuro.ki.se"   title="  andrew.cresswell@neuro.ki.se"   itemprop="  email"   data-track="  click"   data-track-action="  Email author"   data-track-label="  "  >Email author
Affiliation:(1) Department of Neuroscience, Karolinska Institutet, Box 5626, 114 86 Stockholm, Sweden;(2) University College of Physical Education and Sports, Stockholm, Sweden;(3) School of Human Kinetics, University of British Columbia, Vancouver, Canada;(4) School of Human Movement Studies, University of Queensland, Brisbane, Australia
Abstract:Understanding the physiological and psychological factors that contribute to healthy and pathological balance control in man has been made difficult by the confounding effects of the perturbations used to test balance reactions. The present study examined how postural responses were influenced by the acceleration–deceleration interval of an unexpected horizontal translation. Twelve adult males maintained balance during unexpected forward and backward surface translations with two different acceleration–deceleration intervals and presentation orders (serial or random). “SHORT” perturbations consisted of an initial acceleration (peak acceleration 1.3 m s−2; duration 300 ms) followed 100 ms later by a deceleration. “LONG” perturbations had the same acceleration as SHORT perturbations, followed by a 2-s interval of constant velocity before deceleration. Surface and intra-muscular electromyography (EMG) from the leg, trunk, and shoulder muscles were recorded along with motion and force plate data. LONG perturbations induced larger trunk displacements compared to SHORT perturbations when presented randomly and larger EMG responses in proximal and distal muscles during later (500–800 ms) response intervals. During SHORT perturbations, activity in some antagonist muscles was found to be associated with deceleration and not the initial acceleration of the support surface. When predictable, SHORT perturbations facilitated the use of anticipatory mechanisms to attenuate early (100–400 ms) EMG response amplitudes, ankle torque change and trunk displacement. In contrast, LONG perturbations, without an early deceleration effect, did not facilitate anticipatory changes when presented in a predictable order. Therefore, perturbations with a short acceleration–deceleration interval can influence triggered postural responses through reactive effects and, when predictable with repeated exposure, through anticipatory mechanisms.
Keywords:Human  Kinematics  Motor control  Proprioception
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