Common and segregated neuronal networks for different languages revealed using functional magnetic resonance adaptation.
about
Dual language use in sign-speech bimodal bilinguals: fNIRS brain-imaging evidenceDishabituation of the BOLD response to speech sounds.Bilingualism and Cognitive Reserve: A Critical Overview and a Plea for Methodological InnovationsNative language experience shapes neural basis of addressed and assembled phonologies.Learning language with the wrong neural scaffolding: the cost of neural commitment to sounds.Not lost in translation: neural responses shared across languages.Modality- and task-specific brain regions involved in Chinese lexical processing.On a Possible Relationship between Linguistic Expertise and EEG Gamma Band Phase Synchrony.Shining new light on the brain's "bilingual signature": a functional Near Infrared Spectroscopy investigation of semantic processing.Specialization of phonological and semantic processing in Chinese word readingThe role of domain-general cognitive control in language comprehensionCultural neurolinguisticsDistinct distributed patterns of neural activity are associated with two languages in the bilingual brain.Chinese and Korean characters engage the same visual word form area in proficient early Chinese-Korean bilinguals.How does the bilingual experience sculpt the brain?Brain potentials reveal unconscious translation during foreign-language comprehension.Language control in bilingual language comprehension: evidence from the maze task.Bilingual and monolingual brains compared: a functional magnetic resonance imaging investigation of syntactic processing and a possible "neural signature" of bilingualism.Functional Connectivity Reveals Which Language the "Control Regions" Control during Bilingual Production.Dissociable somatotopic representations of Chinese action verbs in the motor and premotor cortex.Sentence syntax and content in the human temporal lobe: an fMRI adaptation study in auditory and visual modalities.Language control and lexical competition in bilinguals: an event-related FMRI study.Effect of language task demands on the neural response during lexical access: a functional magnetic resonance imaging study.Cognitive control for language switching in bilinguals: A quantitative meta-analysis of functional neuroimaging studies.Orthographic and Phonological Representations in the Fusiform Cortex.Convergence, degeneracy and controlThe neural substrates of visual perceptual learning of words: implications for the visual word form area hypothesis.Direct evidence of the left caudate's role in bilingual control: an intra-operative electrical stimulation study.Functional dissociation of attentional selection within PFC: response and non-response related aspects of attentional selection as ascertained by fMRI.Challenging a decade of brain research on task switching: brain activation in the task-switching paradigm reflects adaptation rather than reconfiguration of task sets.Translating with an Injured Brain: Neurolinguistic Aspects of Translation as Revealed by Bilinguals with Cerebral LesionsHow the Brain Acquires, Processes, and Controls a Second Language
P2860
Q24648415-F46E722A-865E-47B3-9E44-D81BE152E9B6Q24810313-D0424742-390B-4153-8E1A-0D72769BFA1CQ26770439-D7DADF4F-F225-42CF-AE93-E0CFFA807574Q27306883-8B9CC5CD-8D66-4BDD-8070-2EFFCDC5D28BQ30446877-8EFDCD7A-42BE-4013-8E36-B5CECB1427C7Q30455137-487A474B-6E88-45A6-A3C9-A6623DDA8281Q30470573-7B5B44C3-0604-42EF-B94D-08C62EE9407AQ30472744-574D1EA6-1CEE-41D9-9EBA-14C948F68025Q30491575-40303853-0242-49F8-BC0C-BDD275FCF386Q30491753-66919540-1D51-470E-B0A9-38579E5A6FEAQ30577517-FDD09260-15AA-4A8C-80FC-E6E6969EC9A5Q33649580-B4CE1D84-33CE-4830-A7C9-B97CC40BB6AAQ33898836-FCAF6A15-A603-4A79-8E73-29D9343B0955Q33983432-81AB7647-6DA9-4E73-B666-FFF2DC6FEFB4Q34971550-53DFBB94-F3A6-4C42-B948-4BFA7FAAB5A6Q35928010-F9A51704-C560-42EB-8794-E0CD771B072EQ35978696-2319693E-FB13-4179-A56F-C36C6180D602Q37099106-EAA2209F-0789-4670-831B-55F733425FE3Q37452469-B9AFE2E5-388A-490D-91CE-226E85CCBFFEQ38115913-584072DB-BAC5-4D96-90AF-F8D252A3CAD9Q38387915-10D1EE61-C6C9-4DF8-9E0F-9D7998C31E37Q38394343-4B8DA19E-01A8-430D-B354-4B64D077B175Q38438315-E35BC1D2-5092-43D8-83A0-E5EC4BCB079EQ39129211-7FC6BAE2-061E-4C8B-86FD-B3CA61BFDE0CQ39354577-7DED2B4C-A7D0-4353-9D2D-A6CCA9BEF530Q41838920-4FDB22EB-3E52-4D74-A678-DAA20A80796FQ45122736-3818F862-2641-4417-85EB-822CB42416BBQ48431413-E68D8F95-A757-49F9-AEB8-2A3FA53F3D15Q48793588-726A9538-B79A-49AA-B97A-5AFFCE987C93Q49069453-3F88417C-6A29-42B5-9477-196F54A5B6F9Q58188319-B9257796-F8B1-4267-9999-6F448BAB9F9FQ58198833-F574E3C4-FB22-4081-B5F5-2CF90D23778E
P2860
Common and segregated neuronal networks for different languages revealed using functional magnetic resonance adaptation.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Common and segregated neuronal ...... magnetic resonance adaptation.
@en
type
label
Common and segregated neuronal ...... magnetic resonance adaptation.
@en
prefLabel
Common and segregated neuronal ...... magnetic resonance adaptation.
@en
P2093
P2860
P1476
Common and segregated neuronal ...... magnetic resonance adaptation.
@en
P2093
Chun Siong Soon
Hwee Ling Lee
Michael W L Chee
P2860
P356
10.1162/089892903321107846
P577
2003-01-01T00:00:00Z