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Formant Space Reconstruction From Brain Activity in Frontal and Temporal Regions Coding for Heard Vowels
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Modality-independent encoding of individual concepts in the left parietal cortex
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How concepts are encoded in the human brain: A modality independent, category-based cortical organization of semantic knowledge
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Morphometric Changes of the Corpus Callosum in Congenital Blindness
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Morphometric Changes of the Corpus Callosum in Congenital Blindness
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Brain modeling of noun representations in sighted and blind individuals
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Where the brain appreciates the final state of an event: The neural correlates of telicity
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Abstract:
In this study we investigated whether the human brain distinguishes between telic events that necessarily entail a specified endpoint (e.g., reaching), and atelic events with no delimitation or final state (e.g., chasing). We used functional magnetic resonance imaging to explore the patterns of neural response associated with verbs denoting telic and atelic events, and found that the left posterior middle temporal gyrus (pMTG), an area consistently engaged by verb processing tasks, showed a significantly higher activation for telic compared with atelic verbs. These results provide the first evidence that the human brain appreciates whether events lead to an end or a change of state. Moreover, they provide an explanation for the long-debated question of which verb properties modulate neural activity in the left pMTG, as they indicate that, independently of any other semantic property, verb processing and event knowledge in this area are specifically related to the representation of telicity.
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Keyword:
RC0321 Neuroscience. Biological psychiatry. Neuropsychiatry
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URL: http://eprints.imtlucca.it/2881/ http://www.sciencedirect.com/science/article/pii/S0093934X12001083
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Decomposing metaphor processing at the cognitive and neural level through functional magnetic resonance imaging
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Spatiotemporal dynamics of single-letter reading: a combined ERP-FMRI study
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Differential amygdala responses to winning and losing: a functional magnetic resonance imaging study in humans
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Conjoint and extended neural networks for the computation of speech codes: the neural basis of selective impairment in reading words and pseudowords
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Conjoint and Extended Neural Networks for the Computation of Speech Codes: The Neural Basis of Selective Impairment in Reading Words and Pseudowords
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