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An Intracranial Electrophysiology Study of Visual Language Encoding: The Contribution of the Precentral Gyrus to Silent Reading
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In: J Cogn Neurosci (2021)
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Effects of Early Language Deprivation on Brain Connectivity: Language Pathways in Deaf Native and Late First-Language Learners of American Sign Language
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Toward A database of intracranial electrophysiology during natural language presentation
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In: Prof. Levy via Courtney Crummett (2018)
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Neurolinguistic Processing When the Brain Matures Without Language
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A human neurodevelopmental model for Williams syndrome.
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In: Nature, vol 536, iss 7616 (2016)
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A human neurodevelopmental model for Williams syndrome.
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In: Nature, vol 536, iss 7616 (2016)
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Neural Language Processing in Adolescent First-Language Learners: Longitudinal Case Studies in American Sign Language
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Laminar Profile of Spontaneous and Evoked Theta: Rhythmic Modulation of Cortical Processing During Word Integration
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Atypical right hemisphere specialization for object representations in an adolescent with specific language impairment.
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In: Frontiers in human neuroscience, vol 8, iss 1 FEB (2014)
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Neural Language Processing in Adolescent First-Language Learners
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Speech-Specific Tuning of Neurons in Human Superior Temporal Gyrus
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Neural Language Processing in Adolescent First-Language Learners
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Speech-Specific Tuning of Neurons in Human Superior Temporal Gyrus
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Atypical Right Hemisphere Specialization for Object Representations in an Adolescent with Specific Language Impairment
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Neural stages of spoken, written, and signed word processing in beginning second language learners.
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In: Frontiers in human neuroscience, vol 7, iss JUN (2013)
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White matter microstructure correlates of narrative production in typically developing children and children with high functioning autism.
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In: Neuropsychologia, vol 51, iss 10 (2013)
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White matter microstructure correlates of narrative production in typically developing children and children with high functioning autism.
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In: Neuropsychologia, vol 51, iss 10 (2013)
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Age-related Changes in Tissue Signal Properties Within Cortical Areas Important for Word Understanding in 12- to 19-Month-Old Infants
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Sequential then Interactive Processing of Letters and Words in the Left Fusiform Gyrus
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Independence of Early Speech Processing from Word Meaning
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Travis, Katherine E.; Leonard, Matthew K.; Chan, Alexander M.; Torres, Christina; Sizemore, Marisa L.; Qu, Zhe; Eskandar, Emad; Dale, Anders M.; Elman, Jeffrey L.; Cash, Sydney S.; Halgren, Eric. - : Oxford University Press, 2013
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Abstract:
We combined magnetoencephalography (MEG) with magnetic resonance imaging and electrocorticography to separate in anatomy and latency 2 fundamental stages underlying speech comprehension. The first acoustic-phonetic stage is selective for words relative to control stimuli individually matched on acoustic properties. It begins ∼60 ms after stimulus onset and is localized to middle superior temporal cortex. It was replicated in another experiment, but is strongly dissociated from the response to tones in the same subjects. Within the same task, semantic priming of the same words by a related picture modulates cortical processing in a broader network, but this does not begin until ∼217 ms. The earlier onset of acoustic-phonetic processing compared with lexico-semantic modulation was significant in each individual subject. The MEG source estimates were confirmed with intracranial local field potential and high gamma power responses acquired in 2 additional subjects performing the same task. These recordings further identified sites within superior temporal cortex that responded only to the acoustic-phonetic contrast at short latencies, or the lexico-semantic at long. The independence of the early acoustic-phonetic response from semantic context suggests a limited role for lexical feedback in early speech perception.
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Keyword:
Articles
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URL: http://www.ncbi.nlm.nih.gov/pubmed/22875868 http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3767959 https://doi.org/10.1093/cercor/bhs228
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