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Associated functional network development and language abilities in children ...
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Hierarchical syntactic processing is beyond mere associating: Functional magnetic resonance imaging evidence from a novel artificial grammar
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In: Hum Brain Mapp (2021)
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Functional brain plasticity during L1 training on complex sentences: Changes in gamma‐band oscillatory activity
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In: Hum Brain Mapp (2021)
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Gradual development of non-adjacent dependency learning during early childhood
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In: Dev Cogn Neurosci (2021)
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Dissociable contributions of frontal and temporal brain regions to basic semantic composition
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In: Brain Commun (2021)
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Children’s Learning of Non-adjacent Dependencies Using a Web-Based Computer Game Setting
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In: Front Psychol (2021)
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Associated functional network development and language abilities in children
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In: Neuroimage (2021)
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Functional neuroanatomy of language without speech: An ALE meta‐analysis of sign language
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In: Hum Brain Mapp (2020)
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Two systems for thinking about others’ thoughts in the developing brain
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Linguistic and non-linguistic non-adjacent dependency learning in early development
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In: Dev Cogn Neurosci (2020)
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Sleep-dependent memory consolidation in infants protects new episodic memories from existing semantic memories
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A new computational approach to estimate whole-brain effective connectivity from functional and structural MRI, applied to language development
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Cortical thickness lateralization and its relation to language abilities in children
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Young children’s sentence comprehension: Neural correlates of syntax-semantic competition
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Contributions of left frontal and temporal cortex to sentence comprehension: Evidence from simultaneous TMS-EEG
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Abstract:
Sentence comprehension requires the rapid analysis of semantic and syntactic information. These processes are supported by a left hemispheric dominant fronto-temporal network, including left posterior inferior frontal gyrus (pIFG) and posterior superior temporal gyrus/sulcus (pSTG/STS). Previous electroencephalography (EEG) studies have associated semantic expectancy within a sentence with a modulation of the N400 and syntactic gender violations with increases in the LAN and P600. Here, we combined focal perturbations of neural activity by means of short bursts of transcranial magnetic stimulation (TMS) with simultaneous EEG recordings to probe the functional relevance of pIFG and pSTG/STS for sentence comprehension. We applied 10 Hz TMS bursts of three pulses at verb onset during auditory presentation of short sentences. Verb-based semantic expectancy and article-based syntactic gender requirement were manipulated for the sentence final noun. We did not find any TMS effect at the noun. However, TMS had a short-lasting impact at the mid-sentence verb that differed for the two stimulation sites. Specifically, TMS over pIFG elicited a frontal positivity in the first 200 msec post verb onset whereas TMS over pSTG/STS was limited to a parietal negativity at 200-400 msec post verb onset. This indicates that during verb processing in sentential context, frontal brain areas play an earlier role than temporal areas in predicting the upcoming noun. The short-living perturbation effects at the mid-sentence verb suggest a high degree of online compensation within the language system since the sentence final noun processing was unaffected. (C) 2019 Elsevier Ltd. All rights reserved.
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URL: https://epub.uni-regensburg.de/48622/
https://doi.org/10.1016/j.cortex.2019.01.010
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Processing role-ambiguous sentences in German: An ERP study in 7-8 year old children ...
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Processing role-ambiguous sentences in German: An ERP study in 7-8 year old children ...
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