Cortical representation of speech temporal information through high gamma-band activity and its temporal modulation

Abstract Numerous studies have investigated low-frequency (theta-band) and high-frequency (gamma-band) neural activities that are phase-locked to temporal structures, including the temporal envelope and fine structure (TFS) of speech signals. Nonetheless, the neural mechanisms underlying the interac...

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Published in:Cerebral cortex (New York, N.Y. 1991) N.Y. 1991), 2023-06, Vol.33 (13), p.8773-8782
Main Authors: Tamura, Shunsuke, Hirano, Yoji
Format: Article
Language:English
Subjects:
Acoustic Stimulation
Auditory Perception
Noise
Original
Sound
Speech
Speech Perception
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cited_by cdi_FETCH-LOGICAL-c491t-b94a83a251147a30dbc1d13ba85643b0357c038d9144e665b8005f45a0a9467a3
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container_title Cerebral cortex (New York, N.Y. 1991)
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description Abstract Numerous studies have investigated low-frequency (theta-band) and high-frequency (gamma-band) neural activities that are phase-locked to temporal structures, including the temporal envelope and fine structure (TFS) of speech signals. Nonetheless, the neural mechanisms underlying the interaction between envelope and TFS processing remain elusive. Here we examined high gamma-band activities and their low-frequency amplitude modulations while listening to monotone speech (MS) with a fundamental frequency (F0) of 80 Hz and non-speech sounds with similar temporal characteristics to MS, namely an amplitude-modulated click train (AMC). Additionally, we utilized noise-vocoded speech (NVS) to evaluate the impact of eliminating the TFS from MS on the high gamma-band activity. We observed discernible high gamma-band activity at the same frequency as F0 of MS and the train frequency of AMC (80 Hz). Furthermore, source localization analysis revealed that the high gamma-band activities exhibited left hemisphere dominance in both MS and AMC conditions. Finally, high gamma-band activities exhibited amplitude-modulation at the same rate as the stimulus envelope of MS and AMC (5 Hz), though such modulation was not observed in NVS. Our findings indicate that the high gamma-band activity in the left hemisphere is pivotal in the interaction of envelope and TFS information processing, regardless of the nature of the stimulus being speech or non-speech.
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subjects Acoustic Stimulation
Auditory Perception
Noise
Original
Sound
Speech
Speech Perception
title Cortical representation of speech temporal information through high gamma-band activity and its temporal modulation
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