Neural Oscillations and Multisensory Processing

Neural Oscillations and Multisensory Processing

Neural oscillations play a role in sensory processing by coordinating synchronized neuronal activity. Synchronization of gamma oscillations is engaged in local computation of feedforward signals and synchronization of alpha-beta oscillations is engaged in feedback processing over long-range areas. T...

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Bibliographic Details
Published in:Advances in experimental medicine and biology Vol. 1437; p. 121
Main Authors: Zuo, Yanfang, Wang, Zuoren
Format: Journal Article
Language:English
Published: United States 2024
Subjects:
Cerebral Cortex
Gamma Rays
Physical Therapy Modalities
Sensation
Signal Processing, Computer-Assisted
Multisensory processing
Phase reset
Spike phase
Neural oscillation
Sensory selection
Cross-frequency coupling
Phase locking
Neural entrainment
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Summary:Neural oscillations play a role in sensory processing by coordinating synchronized neuronal activity. Synchronization of gamma oscillations is engaged in local computation of feedforward signals and synchronization of alpha-beta oscillations is engaged in feedback processing over long-range areas. These spatially and spectrally segregated bi-directional signals may be integrated by a mechanism of cross-frequency coupling. Synchronization of neural oscillations has also been proposed as a mechanism for information integration across multiple sensory modalities. A transient stimulus or rhythmic stimulus from one modality may lead to phase alignment of ongoing neural oscillations in multiple sensory cortices, through a mechanism of cross-modal phase reset or cross-modal neural entrainment. Synchronized activities in multiple sensory cortices are more likely to boost stronger activities in downstream areas. Compared to synchronized oscillations, asynchronized oscillations may impede signal processing, and may contribute to sensory selection by setting the oscillations in the target-related cortex and the oscillations in the distractor-related cortex to opposite phases.
ISSN:0065-2598
DOI:10.1007/978-981-99-7611-9_8