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    The neural correlates of speech motor sequence learning

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    Date Issued
    2015-04
    Publisher Version
    10.1162/jocn_a_00737
    Author(s)
    Segawa, Jennifer A.
    Tourville, Jason A.
    Beal, Deryk S.
    Guenther, Frank H.
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    Permanent Link
    https://hdl.handle.net/2144/27111
    Citation (published version)
    Jennifer A Segawa, Jason A Tourville, Deryk S Beal, Frank H Guenther. 2015. "The neural correlates of speech motor sequence learning.." J Cogn Neurosci, Volume 27, Issue 4, pp. 819 - 831.
    Abstract
    Speech is perhaps the most sophisticated example of a species-wide movement capability in the animal kingdom, requiring split-second sequencing of approximately 100 muscles in the respiratory, laryngeal, and oral movement systems. Despite the unique role speech plays in human interaction and the debilitating impact of its disruption, little is known about the neural mechanisms underlying speech motor learning. Here, we studied the behavioral and neural correlates of learning new speech motor sequences. Participants repeatedly produced novel, meaningless syllables comprising illegal consonant clusters (e.g., GVAZF) over 2 days of practice. Following practice, participants produced the sequences with fewer errors and shorter durations, indicative of motor learning. Using fMRI, we compared brain activity during production of the learned illegal sequences and novel illegal sequences. Greater activity was noted during production of novel sequences in brain regions linked to non-speech motor sequence learning, including the BG and pre-SMA. Activity during novel sequence production was also greater in brain regions associated with learning and maintaining speech motor programs, including lateral premotor cortex, frontal operculum, and posterior superior temporal cortex. Measures of learning success correlated positively with activity in left frontal operculum and white matter integrity under left posterior superior temporal sulcus. These findings indicate speech motor sequence learning relies not only on brain areas involved generally in motor sequencing learning but also those associated with feedback-based speech motor learning. Furthermore, learning success is modulated by the integrity of structural connectivity between these motor and sensory brain regions.
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    • BU Open Access Articles [3664]
    • SAR: Speech, Language & Hearing Sciences: Scholarly Papers [49]


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