{alpha}-Band Electroencephalographic Activity over Occipital Cortex Indexes Visuospatial Attention Bias and Predicts Visual Target Detection

doi:10.1523/JNEUROSCI.0875-06.2006

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The Journal of Neuroscience, September 13, 2006, 26(37):9494-9502; doi:10.1523/JNEUROSCI.0875-06.2006

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Behavioral/Systems/Cognitive
${alpha}$ -Band Electroencephalographic Activity over Occipital Cortex Indexes Visuospatial Attention Bias and Predicts Visual Target Detection
Gregor Thut,¹^,2 Annika Nietzel,¹^,3 Stephan A. Brandt,³ and Alvaro Pascual-Leone¹
¹Center for Noninvasive Brain Stimulation, Harvard Medical School, and Beth Israel Deaconess Medical Center, Boston, Massachusetts 02215, ²Functional Brain Mapping Laboratory, Department of Neurology, University Hospital Geneva, and Department of Fundamental Neuroscience, University Medical School, 1211 Geneva, Switzerland, and ³Neurology Department, Charité, Humboldt University, 10117 Berlin, Germany
Correspondence should be addressed to Gregor Thut, Functional Brain Mapping Laboratory, Department of Neurology, University Hospital Geneva, 24 Rue Micheli du Crest, CH-1211 Geneva 14, Switzerland. Email: gregor.thut{at}medecine.unige.ch
Covertly directing visual attention toward a spatial locationin the absence of visual stimulation enhances future visualprocessing at the attended position. The neuronal correlatesof these attention shifts involve modulation of neuronal "baseline"activity in early visual areas, presumably through top-downcontrol from higher-order attentional systems. We used electroencephalographyto study the largely unknown relationship between these neuronalmodulations and behavioral outcome in an attention orientingparadigm. Covert visuospatial attention shifts to either a leftor right peripheral position in the absence of visual stimulationresulted in differential modulations of oscillatory ${alpha}$ -band (8–14Hz) activity over left versus right posterior sites. These changeswere driven by varying degrees of ${alpha}$ -decreases being maximal contralateralto the attended position. When expressed as a lateralizationindex, these ${alpha}$ -changes differed significantly between attentionconditions, with negative values ( ${alpha}$ _right < ${alpha}$ _left) indexingleftward and more positive values ( ${alpha}$ _left $≤$ ${alpha}$ _right) indexing rightwardattention. Moreover, this index appeared deterministic for processingof forthcoming visual targets. Collapsed over trials, therewas an advantage for left target processing in accordance withan overall negative bias in ${alpha}$ -index values. Across trials, lefttargets were detected most rapidly when preceded by negativeindex values. Detection of right targets was fastest in trialswith most positive values. Our data indicate that collateralmodulations of posterior ${alpha}$ -activity, the momentary bias of visuospatialattention, and imminent visual processing are linked. They suggestthat the momentary direction of attention, predicting spatialbiases in imminent visual processing, can be estimated froma lateralization index of posterior ${alpha}$ -activity.

Key words: alpha; oscillations; spatial attention; TSE; cueing; lateralization index

Received Sept. 5, 2005; revised Aug. 3, 2006; accepted Aug. 7, 2006.

Correspondence should be addressed to Gregor Thut, Functional Brain Mapping Laboratory, Department of Neurology, University Hospital Geneva, 24 Rue Micheli du Crest, CH-1211 Geneva 14, Switzerland. Email: gregor.thut{at}medecine.unige.ch

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