Engagement of the speech motor system in challenging speech perception: Activation likelihood estimation meta‐analyses

Perron, Maxime; Vuong, Veronica; Grassi, Madison W.; Imran, Ashna; Alain, Claude

doi:10.1002/hbm.70023

Human Brain Mapping

2024

DOI: 10.1002/hbm.70023

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Engagement of the speech motor system in challenging speech perception: Activation likelihood estimation meta‐analyses

Maxime Perron,

Veronica Vuong,

Madison W. Grassi

et al.

Abstract: The relationship between speech production and perception is a topic of ongoing debate. Some argue that there is little interaction between the two, while others claim they share representations and processes. One perspective suggests increased recruitment of the speech motor system in demanding listening situations to facilitate perception. However, uncertainties persist regarding the specific regions involved and the listening conditions influencing its engagement. This study used activation likelihood estim… Show more

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2024

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Cited by 2 publications

References 174 publications

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Cortical Tracking of Speech Is Reduced in Adults Who Stutter When Listening for Speaking

Gastaldon,

Busan,

Molinaro

et al. 2024

J Speech Lang Hear Res

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Purpose: The purpose of this study was to investigate cortical tracking of speech (CTS) in adults who stutter (AWS) compared to typically fluent adults (TFAs) to test the involvement of the speech-motor network in tracking rhythmic speech information. Method: Participants' electroencephalogram was recorded while they simply listened to sentences (listening only) or completed them by naming a picture (listening for speaking), thus manipulating the upcoming involvement of speech production. We analyzed speech–brain coherence and brain connectivity during listening. Results: During the listening-for-speaking task, AWS exhibited reduced CTS in the 3- to 5-Hz range (theta), corresponding to the syllabic rhythm. The effect was localized in the left inferior parietal and right pre/supplementary motor regions. Connectivity analyses revealed that TFAs had stronger information transfer in the theta range in both tasks in fronto-temporo-parietal regions. When considering the whole sample of participants, increased connectivity from the right superior temporal cortex to the left sensorimotor cortex was correlated with faster naming times in the listening-for-speaking task. Conclusions: Atypical speech-motor functioning in stuttering impacts speech perception, especially in situations requiring articulatory alertness. The involvement of frontal and (pre)motor regions in CTS in TFAs is highlighted. Further investigation is needed into speech perception in individuals with speech-motor deficits, especially when smooth transitioning between listening and speaking is required, such as in real-life conversational settings. Supplemental Material: https://doi.org/10.23641/asha.27234885

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Cortical Tracking of Speech Is Reduced in Adults Who Stutter When Listening for Speaking

Gastaldon,

Busan,

Molinaro

et al. 2024

J Speech Lang Hear Res

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show abstract

Left motor cortex contributes to auditory phonological discrimination

Perron,

Ross,

Alain

2024

Cerebral Cortex

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Evidence suggests that the articulatory motor system contributes to speech perception in a context-dependent manner. This study tested 2 hypotheses using magnetoencephalography: (i) the motor cortex is involved in phonological processing, and (ii) it aids in compensating for speech-in-noise challenges. A total of 32 young adults performed a phonological discrimination task under 3 noise conditions while their brain activity was recorded using magnetoencephalography. We observed simultaneous activation in the left ventral primary motor cortex and bilateral posterior–superior temporal gyrus when participants correctly identified pairs of syllables. This activation was significantly more pronounced for phonologically different than identical syllable pairs. Notably, phonological differences were resolved more quickly in the left ventral primary motor cortex than in the left posterior–superior temporal gyrus. Conversely, the noise level did not modulate the activity in frontal motor regions and the involvement of the left ventral primary motor cortex in phonological discrimination was comparable across all noise conditions. Our results show that the ventral primary motor cortex is crucial for phonological processing but not for compensation in challenging listening conditions. Simultaneous activation of left ventral primary motor cortex and bilateral posterior–superior temporal gyrus supports an interactive model of speech perception, where auditory and motor regions shape perception. The ventral primary motor cortex may be involved in a predictive coding mechanism that influences auditory-phonetic processing.

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Engagement of the speech motor system in challenging speech perception: Activation likelihood estimation meta‐analyses

Cited by 2 publications

References 174 publications

Cortical Tracking of Speech Is Reduced in Adults Who Stutter When Listening for Speaking

Cortical Tracking of Speech Is Reduced in Adults Who Stutter When Listening for Speaking

Left motor cortex contributes to auditory phonological discrimination

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