International audienceAccording to neuropsychological evidence, a distributed network of regions of the ventral visual pathway - from the lateral occipital cortex to the temporal pole - supports face recognition. However, functional magnetic resonance imaging (fMRI) studies have generally confined ventral face-selective areas to the posterior section of the occipito-temporal cortex, i.e., the inferior occipital gyrus occipital face area (OFA) and the posterior and middle fusiform gyrus fusiform face area (FFA). There is recent evidence that intracranial electrical stimulation of these areas in the right hemisphere elicits face matching and recognition impairments (i.e., prosopagnosia) as well as perceptual face distortions. Here we report a...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
In this paper I review the neuroimaging studies carried out over the past few years on a brain-damag...
peer reviewedThe middle fusiform gyrus (MFG) and the inferior occipital gyrus (IOG) are activated by...
International audienceAccording to neuropsychological evidence, a distributed network of regions of ...
International audienceFace perception is subtended by a large set of areas in the human ventral occi...
Abstract: Brain imaging research has identified at least two regions in human extrastriate cortex re...
International audienceFollowing brain damage, the patient PS suffers from selective impairment in re...
Neuroimaging studies have identified at least two bilateral areas of the visual extrastriate cortex ...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
We report a functional magnetic resonance imaging (fMRI) adaptation study of two well-described pati...
Two areas in the human occipito-temporal cortex respond preferentially to faces: 'the fusiform face ...
Face processing can be modified by bottom-up and top-down influences, but it is unknown how these pr...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
Face processing can be modified by bottom-up and top-down influences, but it is unknown how these pr...
Neuroimaging and electrophysiological studies across species have confirmed bilateral face-selective...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
In this paper I review the neuroimaging studies carried out over the past few years on a brain-damag...
peer reviewedThe middle fusiform gyrus (MFG) and the inferior occipital gyrus (IOG) are activated by...
International audienceAccording to neuropsychological evidence, a distributed network of regions of ...
International audienceFace perception is subtended by a large set of areas in the human ventral occi...
Abstract: Brain imaging research has identified at least two regions in human extrastriate cortex re...
International audienceFollowing brain damage, the patient PS suffers from selective impairment in re...
Neuroimaging studies have identified at least two bilateral areas of the visual extrastriate cortex ...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
We report a functional magnetic resonance imaging (fMRI) adaptation study of two well-described pati...
Two areas in the human occipito-temporal cortex respond preferentially to faces: 'the fusiform face ...
Face processing can be modified by bottom-up and top-down influences, but it is unknown how these pr...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
Face processing can be modified by bottom-up and top-down influences, but it is unknown how these pr...
Neuroimaging and electrophysiological studies across species have confirmed bilateral face-selective...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
In this paper I review the neuroimaging studies carried out over the past few years on a brain-damag...
peer reviewedThe middle fusiform gyrus (MFG) and the inferior occipital gyrus (IOG) are activated by...