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“Top-down Attentional Signals Modulate Visual Cortex Excitability By Phase-realignment Of Perceptually Relevant Oscillations.” Metadata:

  • Title: ➤  Top-down Attentional Signals Modulate Visual Cortex Excitability By Phase-realignment Of Perceptually Relevant Oscillations.
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  • Internet Archive ID: osf-registrations-x3nm6-v1

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Voluntary allocation of visual attention is controlled by top-down signals generated within the Frontal Eye Fields able to change the excitability of visual areas. However, the mechanism through which this control is achieved remains elusive. Here, we emulated the generation of an attentional signal using single-pulse transcranial magnetic stimulation to activate the Frontal Eye Fields and tracked its consequences over the visual cortex. First, we documented electrophysiological changes of this activation using electroencephalography and found evidence for a phase-reset of oscillatory activity over remote occipital sites at beta frequency. We then probed for perceptual consequences of this top-down triggered phase-reset and found that Frontal Eye Field-activation generates cyclic modulation of visual motion discrimination ability and extrastriate but not primary visual cortex excitability, again at beta frequency. We conclude that top-down signals originating in Frontal Eye Fields causally shape perception by modulating visual cortex activity through mechanisms of oscillatory phase-realignment.

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  • Added Date: 2021-09-10 03:14:49
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