Face recognition is of major social importance and involves highly selective brain regions thought to be organized in a distributed functional network. However, the exact architecture of interconnections between these regions remains unknown. We used functional magnetic resonance imaging to identify face-responsive regions in 22 participants and then employed diffusion tensor imaging with probabilistic tractography to establish the white-matter pathways between these functionally defined regions. We identified strong white-matter connections between the occipital face area (OFA) and fusiform face area (FFA), with a significant right-hemisphere predominance. We found no evidence for direct anatomical connections between FFA and superior temp...
Face processing relies on a distributed, patchy network of cortical regions in the temporal and fron...
The perception of faces involves a large network of cortical areas of the human brain. While several...
Face perception elicits activation within a distributed cortical network in the human brain. The net...
Face recognition is of major social importance and involves highly selective brain regions thought t...
Face recognition is of major social importance and involves highly selective brain regions thought t...
Face recognition is of major social importance and involves highly selective brain regions thought t...
Face recognition is of major social importance and involves highly selective brain regions thought t...
A network of multiple brain regions is recruited in face perception. Our understanding of the functi...
A network of multiple brain regions is recruited in face perception. Our understanding of the functi...
A network of multiple brain regions is recruited in face perception. Our understanding of the functi...
Numerous functional magnetic resonance imaging (fMRI) studies have identified multiple cortical regi...
Numerous functional magnetic resonance imaging (fMRI) studies have identified multiple cortical regi...
A central finding of functional MRI studies is the highly selective response of distinct brain areas...
Numerous functional magnetic resonance imaging (fMRI) studies have identified multiple cortical regi...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
Face processing relies on a distributed, patchy network of cortical regions in the temporal and fron...
The perception of faces involves a large network of cortical areas of the human brain. While several...
Face perception elicits activation within a distributed cortical network in the human brain. The net...
Face recognition is of major social importance and involves highly selective brain regions thought t...
Face recognition is of major social importance and involves highly selective brain regions thought t...
Face recognition is of major social importance and involves highly selective brain regions thought t...
Face recognition is of major social importance and involves highly selective brain regions thought t...
A network of multiple brain regions is recruited in face perception. Our understanding of the functi...
A network of multiple brain regions is recruited in face perception. Our understanding of the functi...
A network of multiple brain regions is recruited in face perception. Our understanding of the functi...
Numerous functional magnetic resonance imaging (fMRI) studies have identified multiple cortical regi...
Numerous functional magnetic resonance imaging (fMRI) studies have identified multiple cortical regi...
A central finding of functional MRI studies is the highly selective response of distinct brain areas...
Numerous functional magnetic resonance imaging (fMRI) studies have identified multiple cortical regi...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
Face processing relies on a distributed, patchy network of cortical regions in the temporal and fron...
The perception of faces involves a large network of cortical areas of the human brain. While several...
Face perception elicits activation within a distributed cortical network in the human brain. The net...