Gravity influences top-down signals in visual processing

Visual perception is not only based on incoming visual signals but also on information about a multimodal reference frame that incorporates vestibulo-proprioceptive input and motor signals. In addition, top-down modulation of visual processing has previously been demonstrated during cognitive operat...

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Veröffentlicht in:	PloS one 2014-01, Vol.9 (1), p.e82371-e82371
Hauptverfasser:	Cheron, Guy, Leroy, Axelle, Palmero-Soler, Ernesto, De Saedeleer, Caty, Bengoetxea, Ana, Cebolla, Ana-Maria, Vidal, Manuel, Dan, Bernard, Berthoz, Alain, McIntyre, Joseph
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Sprache:	eng
Schlagworte:	Adult Astronauts Attention Biology Biomechanics Brain Brain - physiology Brain Waves Cognitive ability Cognitive science EEG Electroencephalography Evoked Potentials, Visual Frequency dependence Gravitation Gravity Humans Hypotheses Image processing Information processing International Space Station Laboratories Male Masks Medical research Medicine Memory tasks Mental task performance Middle Aged Modulation Neuroscience Neurosciences Photic Stimulation Proprioception Psychology Short term memory Space stations Theta rhythms Three dimensional motion Two dimensional analysis Visual perception Visual Perception - physiology Visual signals Visual task performance Weightlessness
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creator	Cheron, Guy Leroy, Axelle Palmero-Soler, Ernesto De Saedeleer, Caty Bengoetxea, Ana Cebolla, Ana-Maria Vidal, Manuel Dan, Bernard Berthoz, Alain McIntyre, Joseph
description	Visual perception is not only based on incoming visual signals but also on information about a multimodal reference frame that incorporates vestibulo-proprioceptive input and motor signals. In addition, top-down modulation of visual processing has previously been demonstrated during cognitive operations including selective attention and working memory tasks. In the absence of a stable gravitational reference, the updating of salient stimuli becomes crucial for successful visuo-spatial behavior by humans in weightlessness. Here we found that visually-evoked potentials triggered by the image of a tunnel just prior to an impending 3D movement in a virtual navigation task were altered in weightlessness aboard the International Space Station, while those evoked by a classical 2D-checkerboard were not. Specifically, the analysis of event-related spectral perturbations and inter-trial phase coherency of these EEG signals recorded in the frontal and occipital areas showed that phase-locking of theta-alpha oscillations was suppressed in weightlessness, but only for the 3D tunnel image. Moreover, analysis of the phase of the coherency demonstrated the existence on Earth of a directional flux in the EEG signals from the frontal to the occipital areas mediating a top-down modulation during the presentation of the image of the 3D tunnel. In weightlessness, this fronto-occipital, top-down control was transformed into a diverging flux from the central areas toward the frontal and occipital areas. These results demonstrate that gravity-related sensory inputs modulate primary visual areas depending on the affordances of the visual scene.
doi_str_mv	10.1371/journal.pone.0082371
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subjects	Adult Astronauts Attention Biology Biomechanics Brain Brain - physiology Brain Waves Cognitive ability Cognitive science EEG Electroencephalography Evoked Potentials, Visual Frequency dependence Gravitation Gravity Humans Hypotheses Image processing Information processing International Space Station Laboratories Male Masks Medical research Medicine Memory tasks Mental task performance Middle Aged Modulation Neuroscience Neurosciences Photic Stimulation Proprioception Psychology Short term memory Space stations Theta rhythms Three dimensional motion Two dimensional analysis Visual perception Visual Perception - physiology Visual signals Visual task performance Weightlessness
title	Gravity influences top-down signals in visual processing
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