Brain activation during non-habitual speech production: Revisiting the effects of simulated disfluencies in fluent speakers

Over the past decades, brain imaging studies in fluently speaking participants have greatly advanced our knowledge of the brain areas involved in speech production. In addition, complementary information has been provided by investigations of brain activation patterns associated with disordered spee...

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Veröffentlicht in:	PloS one 2020-01, Vol.15 (1), p.e0228452-e0228452
Hauptverfasser:	Theys, Catherine, Kovacs, Silvia, Peeters, Ronald, Melzer, Tracy R, van Wieringen, Astrid, De Nil, Luc F
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Schlagworte:	Activation Adult Artificial neural networks Biology and Life Sciences Brain Brain - physiology Brain research Computer and Information Sciences Computer simulation Engineering and Technology Female Humans Image Processing, Computer-Assisted Learning Magnetic Resonance Imaging Male Medical research Medicine and Health Sciences Middle Aged Motor skill learning Neural networks Neuroimaging Research and Analysis Methods Social Sciences Software Speaking Speech Speech - physiology Speech disorders Studies
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description	Over the past decades, brain imaging studies in fluently speaking participants have greatly advanced our knowledge of the brain areas involved in speech production. In addition, complementary information has been provided by investigations of brain activation patterns associated with disordered speech. In the present study we specifically aimed to revisit and expand an earlier study by De Nil and colleagues, by investigating the effects of simulating disfluencies on the brain activation patterns of fluent speakers during overt and covert speech production. In contrast to the De Nil et al. study, the current findings show that the production of voluntary, self-generated disfluencies by fluent speakers resulted in increased recruitment and activation of brain areas involved in speech production. These areas show substantial overlap with the neural networks involved in motor sequence learning in general, and learning of speech production, in particular. The implications of these findings for the interpretation of brain imaging studies on disordered and non-habitual speech production are discussed.
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subjects	Activation Adult Artificial neural networks Biology and Life Sciences Brain Brain - physiology Brain research Computer and Information Sciences Computer simulation Engineering and Technology Female Humans Image Processing, Computer-Assisted Learning Magnetic Resonance Imaging Male Medical research Medicine and Health Sciences Middle Aged Motor skill learning Neural networks Neuroimaging Research and Analysis Methods Social Sciences Software Speaking Speech Speech - physiology Speech disorders Studies
title	Brain activation during non-habitual speech production: Revisiting the effects of simulated disfluencies in fluent speakers
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