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Revised Manuscript Heating
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In: http://halshs.archives-ouvertes.fr/docs/00/66/03/76/PDF/Revised_Manuscript.pdf (2012)
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Brain-Language Research: Where is the Progress?
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In: Biolinguistics, Vol 4, Iss 2-3, Pp 255-288 (2010) (2010)
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Running title: Neural correlates of grasping ideas Corresponding author:
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In: http://hal.archives-ouvertes.fr/docs/00/36/31/42/PDF/Boulenger_et_al_CerebCx.pdf (2009)
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A deeper semantic role for the mirror system
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In: http://faculty.cs.tamu.edu/choe/ftp/publications/choe.bbs05.pdf
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Word-category specific deficits after lesions in the right hemisphere
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In: http://www2.informatik.uni-hamburg.de/wtm/ps/NeiPul02NPA.pdf
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Aphasia therapy on a neuroscience basis
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In: ftp://ftp.ncbi.nlm.nih.gov/pub/pmc/0b/23/Aphasiology_2008_Jun_21_22(6)_563-599.tar.gz
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Constraint-Induced Therapy of Chronic Aphasia After Stroke
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In: http://stroke.ahajournals.org/content/32/7/1621.full.pdf
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Strength of Word-Specific Neural Memory Traces Assessed Electrophysiologically
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In: ftp://ftp.ncbi.nlm.nih.gov/pub/pmc/b1/26/PLoS_One_2011_Aug_10_6(8)_e22999.tar.gz
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Abstract:
Memory traces for words are frequently conceptualized neurobiologically as networks of neurons interconnected via reciprocal links developed through associative learning in the process of language acquisition. Neurophysiological reflection of activation of such memory traces has been reported using the mismatch negativity brain potential (MMN), which demonstrates an enhanced response to meaningful words over meaningless items. This enhancement is believed to be generated by the activation of strongly intraconnected long-term memory circuits for words that can be automatically triggered by spoken linguistic input and that are absent for unfamiliar phonological stimuli. This conceptual framework critically predicts different amounts of activation depending on the strength of the word’s lexical representation in the brain. The frequent use of words should lead to more strongly connected representations, whereas less frequent items would be associated with more weakly linked circuits. A word with higher frequency of occurrence in the subject’s language should therefore lead to a more pronounced lexical MMN response than its low-frequency counterpart. We tested this prediction by comparing the event-related potentials elicited by low- and high-frequency words in a passive oddball paradigm; physical stimulus contrasts were kept identical. We found that, consistent with our prediction, presenting the high-frequency stimulus led to a significantly more pronounced MMN response relative to the low-frequency one, a finding that is highly similar to previously reported MMN enhancement to words over meaningless pseudowords. Furthermore
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URL: http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.289.2435
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SEQUENCE DETECTORS
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In: http://helen.pion.ac.uk/~thomas/specialissue/preprints/tbio03pu.pdf
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Redundancy Gains and Costs in Cognitive Processing: Effects of Short Stimulus Onset Asynchronies
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In: http://psycnet.apa.org/journals/xlm/28/6/1200.pdf
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