Attentional Modulation of Cortical Neuromagnetic Gamma Response to Biological Movement

doi:10.1093/cercor/bhi108

Cerebral Cortex Advance Access originally published online on May 18, 2005
Cerebral Cortex 2006 16(3):321-327; doi:10.1093/cercor/bhi108

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Attentional Modulation of Cortical Neuromagnetic Gamma Response to Biological Movement

Marina Pavlova¹^,2, Niels Birbaumer¹^,3 and Alexander Sokolov⁴

¹ Institute of Medical Psychology and Behavioral Neurobiology, MEG-Center, University of Tübingen, Germany, ² Developmental Cognitive and Social Neuroscience Unit, Department of Paediatric Neurology and Child Development, Children's Hospital, University of Tübingen, Germany, ³ Center for Cognitive Neuroscience, University of Trento, Italy and ⁴ Center for Neuroscience and Learning, Department of Psychiatry, University Hospital of Ulm, Germany

Address correspondence to Marina Pavlova, Institute of Medical Psychology and Behavioral Neurobiology, MEG-Center, University of Tübingen, Gartenstr. 29, 72074 Tübingen, Germany. Email: marina.pavlova{at}uni-tuebingen.de.

Processing of biological motion represented solely by a setof lights on the joints of a human body is traditionally viewedas largely independent of attention. Here, by manipulating attention-relatedtask demands, we assess changes in the neuromagnetic corticalresponse to a point-light walker. Irrespective of task demands,biological motion evokes an increase in oscillatory gamma activityover the left parieto-occipital region at 80 ms post-stimulus.Only an attended walker, however, yielded further peaks overthe right parietal (120 ms) and temporal (155 ms) cortices.By contrast, the magnetoencephalographic (MEG) response to anignored walker is restricted to the left parieto-occipital region.In addition, peaks in oscillatory activity occur in responseto both attended (canonical and scrambled) configurations at180–200 ms from stimulus onset over the right fronto-temporalregions, most likely reflecting maintenance of the target configurationin working memory. For the first time, we demonstrate that thetime course and topographic dynamics of oscillatory gamma activityin response to biological movement undergoes top-down influencesand can be profoundly modulated by the withdrawal of attention.

Key Words: biological movement • magnetoencephalography • oscillatory gamma brain activity • point-light walker • task-driven attention • time course • topography

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