Dissociable patterns of brain activity during comprehension of rapid and syntactically complex speech: evidence from fMRI |
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Authors: | Peelle Jonathan E McMillan Corey Moore Peachie Grossman Murray Wingfield Arthur |
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Affiliation: | Volen National Center for Complex Systems, Brandeis University, Waltham, MA, USA. |
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Abstract: | Sentence comprehension is a complex task that involves both language-specific processing components and general cognitive resources. Comprehension can be made more difficult by increasing the syntactic complexity or the presentation rate of a sentence, but it is unclear whether the same neural mechanism underlies both of these effects. In the current study, we used event-related functional magnetic resonance imaging (fMRI) to monitor neural activity while participants heard sentences containing a subject-relative or object-relative center-embedded clause presented at three different speech rates. Syntactically complex object-relative sentences activated left inferior frontal cortex across presentation rates, whereas sentences presented at a rapid rate recruited frontal brain regions such as anterior cingulate and premotor cortex, regardless of syntactic complexity. These results suggest that dissociable components of a large-scale neural network support the processing of syntactic complexity and speech presented at a rapid rate during auditory sentence processing. |
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Keywords: | Sentence comprehension Syntax Speech rate Language Time-compressed speech Brain imaging Processing speed fMRI |
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