Add to ORKGThe face perception system is comprised of a network of connected regions including the middle fusiform gyrus (“fusiform face area” or FFA), the inferior occipital gyrus (“occipital face area” or OFA), and the posterior part of the superior temporal sulcus. These regions are typically active bilaterally but may show right hemisphere dominance. The functional magnetic resonance imaging (fMRI) response of the right FFA is normally attenuated for face stimuli of the same compared to different identities, called fMR-adaptation. The recovery in fMRI signal, or release from fMR-adaptation, for faces of different identities indicates that the neural population comprising the FFA is involved in coding face identity. Patients with prosopagnosia who ...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
peer reviewedThe middle fusiform gyrus (MFG) and the inferior occipital gyrus (IOG) are activated by...
Humans process faces using a network of face-selective regions distributed across the brain. Neurops...
We report a functional magnetic resonance imaging (fMRI) adaptation study of two well-described pati...
While a network of cortical regions contribute to face processing, the lesions in acquired prosopagn...
We report a functional magnetic resonance imaging (fMRI) adaptation study of two well-described pati...
Two regions in the human occipito-temporal cortex respond preferentially to faces: 'the fusiform fac...
Two regions in the human occipito-temporal cortex respond preferentially to faces: 'the fusiform fac...
peer reviewedTwo regions in the human occipito-temporal cortex respond preferentially to faces: 'the...
SummaryFaces contain structural information, for identifying individuals, as well as changeable info...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
Two areas in the human occipito-temporal cortex respond preferentially to faces: 'the fusiform face ...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
open3siThis research was supported by the CompX Faculty Grant from the William H Neukom 1964 Institu...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
peer reviewedThe middle fusiform gyrus (MFG) and the inferior occipital gyrus (IOG) are activated by...
Humans process faces using a network of face-selective regions distributed across the brain. Neurops...
We report a functional magnetic resonance imaging (fMRI) adaptation study of two well-described pati...
While a network of cortical regions contribute to face processing, the lesions in acquired prosopagn...
We report a functional magnetic resonance imaging (fMRI) adaptation study of two well-described pati...
Two regions in the human occipito-temporal cortex respond preferentially to faces: 'the fusiform fac...
Two regions in the human occipito-temporal cortex respond preferentially to faces: 'the fusiform fac...
peer reviewedTwo regions in the human occipito-temporal cortex respond preferentially to faces: 'the...
SummaryFaces contain structural information, for identifying individuals, as well as changeable info...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
Two areas in the human occipito-temporal cortex respond preferentially to faces: 'the fusiform face ...
In humans, neuroimaging studies have identified two major visual extrastriate areas presenting face-...
open3siThis research was supported by the CompX Faculty Grant from the William H Neukom 1964 Institu...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
peer reviewedThe middle fusiform gyrus (MFG) and the inferior occipital gyrus (IOG) are activated by...
Humans process faces using a network of face-selective regions distributed across the brain. Neurops...