We tested for differential brain response to distinct spatial frequency (SF) components in faces. During a functional magnetic resonance imaging experiment, participants were presented with ‘‘hybrid’ ’ faces containing superimposed low and high SF informa-tion from different identities. We used a repetition paradigm where faces at either SF range were independently repeated or changed across consecutive trials. In addition, we manipulated which SF band was attended. Our results suggest that repetition and attention affected partly overlapping occipitotemporal regions but did not interact. Changes of high SF faces increased responses of the right inferior occipital gyrus (IOG) and left inferior temporal gyrus (ITG), with the latter response ...
Most neuroimaging studies on face processing used centrally presented images with a relatively large...
The aim of this research is to investigate the extent to which selective attention to spatial freque...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Different cortical regions within the ventral occipitotemporal junction have been reported to show p...
A pivotal issue in the field of cognitive neuroscience of face perception has centered on the extrac...
Repetition suppression (RS) (or functional magnetic resonance imaging adaptation) refers to the redu...
Repetition suppression (RS) (or functional magnetic resonance imaging adaptation) refers to the redu...
When processing a face stimulus, the human visual system tends to strongly integrate its constituent...
Visual information involving facial identity and expression is crucial for social communication. Alt...
Stimulus repetition decreases the response of neurons in the monkey inferior temporal (IT) cortex (M...
Several functional neuroimaging studies have observed response adaptation in face-sensitive regions ...
Behavioral research indicates that successful face individuation is associated with sensitivity to s...
In a highly dynamic visual environment the human brain needs to rapidly differentiate complex visual...
Different cortical regions within the ventral occipitotemporal junction have been reported to show p...
Most neuroimaging studies on face processing used centrally presented images with a relatively large...
The aim of this research is to investigate the extent to which selective attention to spatial freque...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Different cortical regions within the ventral occipitotemporal junction have been reported to show p...
A pivotal issue in the field of cognitive neuroscience of face perception has centered on the extrac...
Repetition suppression (RS) (or functional magnetic resonance imaging adaptation) refers to the redu...
Repetition suppression (RS) (or functional magnetic resonance imaging adaptation) refers to the redu...
When processing a face stimulus, the human visual system tends to strongly integrate its constituent...
Visual information involving facial identity and expression is crucial for social communication. Alt...
Stimulus repetition decreases the response of neurons in the monkey inferior temporal (IT) cortex (M...
Several functional neuroimaging studies have observed response adaptation in face-sensitive regions ...
Behavioral research indicates that successful face individuation is associated with sensitivity to s...
In a highly dynamic visual environment the human brain needs to rapidly differentiate complex visual...
Different cortical regions within the ventral occipitotemporal junction have been reported to show p...
Most neuroimaging studies on face processing used centrally presented images with a relatively large...
The aim of this research is to investigate the extent to which selective attention to spatial freque...
Two regions in the occipito-temporal cortex respond more strongly to faces than to objects and are t...