Simon Hanslmayr scite author profile

Event-related potentials and ongoing oscillatory electroencephalogram (EEG) activity were measured while subjects performed a cued visual spatial attention task. They were instructed to shift their attention to either the left or right visual hemifield according to a cue, which could be valid or invalid. Thereafter, a peripheral target had to be evaluated. At posterior parietal brain areas early components of the event-related potential (P1 and N1) were higher when the cue had been valid compared with invalid. An anticipatory attention effect was found in EEG alpha magnitude at parieto-occipital electrode sites. Starting 200 ms before target onset alpha amplitudes were significantly stronger suppressed at sites contralateral to the attended visual hemifield than ipsilateral to it. In addition, phase coupling between prefrontal and posterior parietal electrode sites was calculated. It was found that prefrontal cortex shows stronger phase coupling with posterior sites that are contralateral to the attended hemifield than ipsilateral sites. The results suggest that a shift of attention selectively modulates excitability of the contralateral posterior parietal cortex and that this posterior modulation of alpha activity is controlled by prefrontal regions.

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Prestimulus oscillations predict visual perception performance between and within subjects

Hanslmayr¹,

Aslan²,

Staudigl³

et al. 2007

NeuroImage

648

486

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Neural mechanisms of motivated forgetting

Anderson

Hanslmayr

2014

Trends in Cognitive Sciences

462

475

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HighlightsMotivated forgetting of unwanted memories shapes what we retain of our personal past.Motivated forgetting is achieved in part by inhibitory control over encoding or retrieval.Prefrontal cortex reduces hippocampal and cortical activity to suppress memories.Electrophysiological activity during motivated forgetting implicates active inhibition.A neurobiological model of memory control can inform disordered control over memory.

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Simon Hanslmayr

EEG alpha oscillations: The inhibition–timing hypothesis

A shift of visual spatial attention is selectively associated with human EEG alpha activity

Prestimulus oscillations predict visual perception performance between and within subjects

Neural mechanisms of motivated forgetting

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