Increases in Alpha Oscillatory Power reflect an Active Retinotopic Mechanism for Distracter Suppression during Sustained Visuo-Spatial Attention

doi:10.1152/jn.01234.2005

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Increases in Alpha Oscillatory Power reflect an Active Retinotopic Mechanism for Distracter Suppression during Sustained Visuo-Spatial Attention

Simon P Kelly¹, Edmund C Lalor², Richard B Reilly², and John J Foxe³^*

¹ Cognitive Neurophysiology Laboratory, St. Vincent's Hospital, Fairview, Ireland; Program in Cognitive Neuroscience and Schizophrenia, Nathan S. Kline Institute for Psychiatric Research, Orangeburg, New York, United States
² Cognitive Neurophysiology Laboratory, St. Vincent's Hospital, Fairview, Ireland; Department of Electronic & Electrical Engineering, University College Dublin, Dublin, Ireland
³ United States

^* To whom correspondence should be addressed. E-mail: foxe{at}nki.rfmh.org.

Human electrophysiological (EEG) studies have demonstrated theinvolvement of alpha band (8-14 Hz) oscillations in the anticipatorybiasing of attention. In the context of visual spatial attentionwithin bilateral stimulus arrays, alpha has exhibited greateramplitude over parieto-occipital cortex contralateral to thehemifield required to be ignored, relative to that measuredwhen the same hemifield is to be attended. Whether this differentialeffect arises solely from alpha desynchronization (decreases)over the "attending" hemisphere, from synchronization (increases)over the "ignoring" hemisphere, or both, has not been fullyresolved. This is because of the confounding effect of externallyevoked desynchronization that occurs involuntarily in responseto visual cues. Here, bilateral flickering stimuli were presentedsimultaneously and continuously over entire trial blocks, suchthat externally evoked alpha desynchronization is equated inpre-cue baseline and post-cue intervals. Equivalent random lettersequences were superimposed on the left and right flicker stimuli.Subjects were required to count the presentations of the targetletter "X" at the cued hemifield over an 8-s period and ignorethe sequence in the opposite hemifield. The data showed significantincreases in alpha power over the ignoring hemisphere relativeto the pre-cue baseline, observable for both cue directions.A strong attentional bias necessitated by the subjective difficultyin gating the distracting letter sequence is reflected in alarge effect size of 2.1 ( ${eta}$ 2 = 0.82), measured from the attentionx hemisphere interaction. This strongly suggests that alphasynchronization reflects an active attentional suppression mechanism,rather than a passive one reflecting "idling" circuits.

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