By measuring regional cerebral blood Row using PET, we delineated the roles of the occipito-temporal regions activated by faces and scenes. We asked right-handed normal subjects to perform three tasks using facial images as visual stimuli: in the face familiar/unfamiliar discrimination (FF) task, they discriminated the faces of their friends and associates from unfamiliar ones; in the face direction discrimination (FD) task, they discriminated the direction of each unfamiliar face; in the dot location discrimination (DL) task, they discriminated the location of a red dot on a scrambled face. The activity in each task was compared with that in the control fixation (CF) task, in which they fixated on the centre of a display without visual sti...
Most neuroimaging studies on face processing used centrally presented images with a relatively large...
A central finding of functional MRI studies is the highly selective response of distinct brain areas...
A number of human brain areas showing a larger response to faces than to objects from different cate...
peer reviewedNeuroimaging (PET and fMRI) studies have identified a set of brain areas responding mor...
Face perception depends on a network of brain areas that selectively respond to faces over non-face ...
The functional dissociation of human extrastriate cortical processing streams for the perception of ...
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...
peer reviewedMost brain imaging studies on face perception have investigated the processing of unkno...
To define brain regions involved in feature extraction or elementary form perception, regional cereb...
Face recognition is critical to the appreciation of our social and physical relations. Functional ma...
peer reviewedTwo regions in the human occipito-temporal cortex respond preferentially to faces: 'the...
Controversy surrounds the proposal that specific human cortical regions in the ventral occipitotempo...
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...
Most neuroimaging studies on face processing used centrally presented images with a relatively large...
A central finding of functional MRI studies is the highly selective response of distinct brain areas...
A number of human brain areas showing a larger response to faces than to objects from different cate...
peer reviewedNeuroimaging (PET and fMRI) studies have identified a set of brain areas responding mor...
Face perception depends on a network of brain areas that selectively respond to faces over non-face ...
The functional dissociation of human extrastriate cortical processing streams for the perception of ...
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...
peer reviewedMost brain imaging studies on face perception have investigated the processing of unkno...
To define brain regions involved in feature extraction or elementary form perception, regional cereb...
Face recognition is critical to the appreciation of our social and physical relations. Functional ma...
peer reviewedTwo regions in the human occipito-temporal cortex respond preferentially to faces: 'the...
Controversy surrounds the proposal that specific human cortical regions in the ventral occipitotempo...
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...
Most neuroimaging studies on face processing used centrally presented images with a relatively large...
A central finding of functional MRI studies is the highly selective response of distinct brain areas...
A number of human brain areas showing a larger response to faces than to objects from different cate...