Enhanced EEG gamma-band activity reflects multisensory semantic matching in visual-to-auditory object priming
Enhanced EEG gamma-band activity reflects multisensory semantic matching in visual-to-auditory object priming
An important step in perceptual processing is the integration of information from different sensory modalities into a coherent percept. It has been suggested that such crossmodal binding might be achieved by transient synchronization of neurons from different modalities in the gamma-frequency range (>30 Hz). Here we employed a crossmodal priming paradigm, modulating the semantic congruency between visual-auditory natural object stimulus pairs, during the recording of the high density electroencephalogram (EEG). Subjects performed a semantic categorization task. Analysis of the behavioral data showed a crossmodal priming effect (facilitated auditory object recognition) in response to semantically congruent stimuli. Differences in event-related potentials (ERP) were found between 250 and 350 ms, which were localized to left middle temporal gyrus (BA 21) using a distributed linear source model. Early gamma-band activity (40-50 Hz) was increased between 120 ms and 180 ms following auditory stimulus onset for semantically congruent stimulus pairs. Source reconstruction for this gamma-band response revealed a maximal increase in left middle temporal gyrus (BA 21), an area known to be related to the processing of both complex auditory stimuli and multisensory processing. The data support the hypothesis that oscillatory activity in the gamma-band reflects crossmodal semantic-matching processes in multisensory convergence sites
neurons, brain mapping, male, visual perception, electroencephalography, semantics, physiology, brain, evoked potentials, adult, auditory perception, cues, humans, female, analysis
1244-1254
Schneider, Till R.
b341a3d9-c598-45c2-b09f-3fae0561248f
Debener, Stefan
e6bf9143-09a8-45c0-8536-3564885375d4
Oostenveld, Robert
50a41101-a6a6-4584-bd0d-9c8f76f5f307
Engel, Andreas K.
4c9e2742-c147-46d6-b750-bcab4b5baf34
September 2008
Schneider, Till R.
b341a3d9-c598-45c2-b09f-3fae0561248f
Debener, Stefan
e6bf9143-09a8-45c0-8536-3564885375d4
Oostenveld, Robert
50a41101-a6a6-4584-bd0d-9c8f76f5f307
Engel, Andreas K.
4c9e2742-c147-46d6-b750-bcab4b5baf34
Schneider, Till R., Debener, Stefan, Oostenveld, Robert and Engel, Andreas K.
(2008)
Enhanced EEG gamma-band activity reflects multisensory semantic matching in visual-to-auditory object priming.
NeuroImage, 42 (3), .
(doi:10.1016/j.neuroimage.2008.05.033).
Abstract
An important step in perceptual processing is the integration of information from different sensory modalities into a coherent percept. It has been suggested that such crossmodal binding might be achieved by transient synchronization of neurons from different modalities in the gamma-frequency range (>30 Hz). Here we employed a crossmodal priming paradigm, modulating the semantic congruency between visual-auditory natural object stimulus pairs, during the recording of the high density electroencephalogram (EEG). Subjects performed a semantic categorization task. Analysis of the behavioral data showed a crossmodal priming effect (facilitated auditory object recognition) in response to semantically congruent stimuli. Differences in event-related potentials (ERP) were found between 250 and 350 ms, which were localized to left middle temporal gyrus (BA 21) using a distributed linear source model. Early gamma-band activity (40-50 Hz) was increased between 120 ms and 180 ms following auditory stimulus onset for semantically congruent stimulus pairs. Source reconstruction for this gamma-band response revealed a maximal increase in left middle temporal gyrus (BA 21), an area known to be related to the processing of both complex auditory stimuli and multisensory processing. The data support the hypothesis that oscillatory activity in the gamma-band reflects crossmodal semantic-matching processes in multisensory convergence sites
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Published date: September 2008
Keywords:
neurons, brain mapping, male, visual perception, electroencephalography, semantics, physiology, brain, evoked potentials, adult, auditory perception, cues, humans, female, analysis
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Local EPrints ID: 70230
URI: http://eprints.soton.ac.uk/id/eprint/70230
PURE UUID: 279b1b24-d6cd-43f2-ba83-15dcb49e1387
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Date deposited: 27 Jan 2010
Last modified: 13 Mar 2024 19:59
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Author:
Till R. Schneider
Author:
Stefan Debener
Author:
Robert Oostenveld
Author:
Andreas K. Engel
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