Oscillatory neuronal activity reflects lexical-semantic feature integration within and across sensory modalities in distributed cortical networks

Oscillatory neuronal activity reflects lexical-semantic feature integration within and across sensory modalities in distributed cortical networks

Research from the previous decade suggests that word meaning is partially stored in distributed modality-specific cortical networks. However, little is known about the mechanisms by which semantic content from multiple modalities is integrated into a coherent multisensory representation. Therefore w...

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Veröffentlicht in:The Journal of neuroscience 2014-10, Vol.34 (43), p.14318-14323
Hauptverfasser: van Ackeren, Markus J, Schneider, Till R, Müsch, Kathrin, Rueschemeyer, Shirley-Ann
Format: Artikel
Sprache:eng
Schlagworte:
Acoustic Stimulation - methods
Adolescent
Adult
Auditory Cortex - physiology
Biological Clocks - physiology
Brief Communications
Cerebral Cortex - physiology
Female
Humans
Magnetoencephalography - methods
Male
Nerve Net - physiology
Photic Stimulation - methods
Semantics
Visual Cortex - physiology
Young Adult
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container_end_page 14323
container_issue 43
container_start_page 14318
container_title The Journal of neuroscience
container_volume 34
creator van Ackeren, Markus J
Schneider, Till R
Müsch, Kathrin
Rueschemeyer, Shirley-Ann
description Research from the previous decade suggests that word meaning is partially stored in distributed modality-specific cortical networks. However, little is known about the mechanisms by which semantic content from multiple modalities is integrated into a coherent multisensory representation. Therefore we aimed to characterize differences between integration of lexical-semantic information from a single modality compared with two sensory modalities. We used magnetoencephalography in humans to investigate changes in oscillatory neuronal activity while participants verified two features for a given target word (e.g., "bus"). Feature pairs consisted of either two features from the same modality (visual: "red," "big") or different modalities (auditory and visual: "red," "loud"). The results suggest that integrating modality-specific features of the target word is associated with enhanced high-frequency power (80-120 Hz), while integrating features from different modalities is associated with a sustained increase in low-frequency power (2-8 Hz). Source reconstruction revealed a peak in the anterior temporal lobe for low-frequency and high-frequency effects. These results suggest that integrating lexical-semantic knowledge at different cortical scales is reflected in frequency-specific oscillatory neuronal activity in unisensory and multisensory association networks.
doi_str_mv 10.1523/JNEUROSCI.0958-14.2014
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subjects Acoustic Stimulation - methods
Adolescent
Adult
Auditory Cortex - physiology
Biological Clocks - physiology
Brief Communications
Cerebral Cortex - physiology
Female
Humans
Magnetoencephalography - methods
Male
Nerve Net - physiology
Photic Stimulation - methods
Semantics
Visual Cortex - physiology
Young Adult
title Oscillatory neuronal activity reflects lexical-semantic feature integration within and across sensory modalities in distributed cortical networks
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