Over the past 2 decades, researchers have tried to uncover how the human brain can extract linguistic information from a sequence of visual symbols. The description of how the brain's visual system processes words and enables reading has improved with the progressive refinement of experimental methodologies and neuroimaging techniques. This review provides a brief overview of this research journey. We start by describing classical models of object recognition in non-human primates, which represent the foundation for many of the early models of visual word recognition in humans. We then review functional neuroimaging studies investigating the word-selective regions in visual cortex. This research led to the differentiation of highly spe...
International audienceThe Visual Word Form Area (VWFA) is part of the left ventral visual stream tha...
Current research on the neurobiological bases of reading points to the privileged role of a ventral ...
Humans are thought to have evolved brain regions in the left frontal and temporal cortex that are un...
Over the past 2 decades, researchers have tried to uncover how the human brain can extract ling...
Published: 12 October 2021Over the past 2 decades, researchers have tried to uncover how the human b...
We report a comprehensive cartography of selective responses to visual letters and words in the huma...
Word-selective neural responses in human ventral occipito-temporal cortex (VOTC) emerge as children ...
In human occipitotemporal cortex, category-specific processing for visual objects seems to involve...
Reading is an integral part of life in today's information-driven societies. Since the pioneering wo...
The Visual Word Form Area (VWFA) is part of the left ventral visual stream that underlies the invari...
228 p.The ventral occipito-temporal (vOT) association cortex contributes significantly to recognize ...
SummaryModels of the “visual word form system” postulate that a left occipitotemporal region impleme...
We report a comprehensive cartography of selective responses to visual letters and words in the huma...
<p>Current research on the neurobiological bases of reading points to the privileged role of a ventr...
International audienceWe report a comprehensive cartography of selective responses to visual letters...
International audienceThe Visual Word Form Area (VWFA) is part of the left ventral visual stream tha...
Current research on the neurobiological bases of reading points to the privileged role of a ventral ...
Humans are thought to have evolved brain regions in the left frontal and temporal cortex that are un...
Over the past 2 decades, researchers have tried to uncover how the human brain can extract ling...
Published: 12 October 2021Over the past 2 decades, researchers have tried to uncover how the human b...
We report a comprehensive cartography of selective responses to visual letters and words in the huma...
Word-selective neural responses in human ventral occipito-temporal cortex (VOTC) emerge as children ...
In human occipitotemporal cortex, category-specific processing for visual objects seems to involve...
Reading is an integral part of life in today's information-driven societies. Since the pioneering wo...
The Visual Word Form Area (VWFA) is part of the left ventral visual stream that underlies the invari...
228 p.The ventral occipito-temporal (vOT) association cortex contributes significantly to recognize ...
SummaryModels of the “visual word form system” postulate that a left occipitotemporal region impleme...
We report a comprehensive cartography of selective responses to visual letters and words in the huma...
<p>Current research on the neurobiological bases of reading points to the privileged role of a ventr...
International audienceWe report a comprehensive cartography of selective responses to visual letters...
International audienceThe Visual Word Form Area (VWFA) is part of the left ventral visual stream tha...
Current research on the neurobiological bases of reading points to the privileged role of a ventral ...
Humans are thought to have evolved brain regions in the left frontal and temporal cortex that are un...