Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is carried out by distributed networks of face and body-sensitive areas in the occipito-temporal cortex. However, the dynamics of activity in these areas, needed to understand their respective functional roles, are still largely unknown. We monitored brain activity with millisecond time resolution by recording magnetoencephalographic (MEG) responses while participants viewed photographs of faces, bodies, and control stimuli. The cortical activity underlying the evoked responses was estimated with anatomically-constrained noise-normalised minimum-norm estimate and statistically analysed with spatiotemporal cluster analysis. Our findings point to ...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
In a highly dynamic visual environment the human brain needs to rapidly differentiate complex visual...
An unresolved goal in face perception is to identify brain areas involved in face processing and sim...
Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is ...
Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is ...
Face perception is mediated by a distributed brain network comprised of the core system at occipito-...
<p>Visually evoked magnetic fields to photographs of Upright (solid) and Scrambled (dashed) Faces (b...
Research on visual face perception has revealed a region in the ventral anterior temporal lobes, oft...
International audienceHuman neuroimaging studies have identified a network of distinct face-selectiv...
The research summarized here shows that cortical representations of faces and objects are both spa...
Human neuroimaging studies have identified a network of distinct face-selective regions in the ventr...
Different kinds of known faces activate brain areas to dissimilar degrees. However, the tuning to ty...
<div><p>Different kinds of known faces activate brain areas to dissimilar degrees. However, the tuni...
Face perception is a complex process involving a network of brain structures, dynamically processing...
Face processing relies on a distributed, patchy network of cortical regions in the temporal and fron...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
In a highly dynamic visual environment the human brain needs to rapidly differentiate complex visual...
An unresolved goal in face perception is to identify brain areas involved in face processing and sim...
Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is ...
Evidence from functional neuroimaging indicates that visual perception of human faces and bodies is ...
Face perception is mediated by a distributed brain network comprised of the core system at occipito-...
<p>Visually evoked magnetic fields to photographs of Upright (solid) and Scrambled (dashed) Faces (b...
Research on visual face perception has revealed a region in the ventral anterior temporal lobes, oft...
International audienceHuman neuroimaging studies have identified a network of distinct face-selectiv...
The research summarized here shows that cortical representations of faces and objects are both spa...
Human neuroimaging studies have identified a network of distinct face-selective regions in the ventr...
Different kinds of known faces activate brain areas to dissimilar degrees. However, the tuning to ty...
<div><p>Different kinds of known faces activate brain areas to dissimilar degrees. However, the tuni...
Face perception is a complex process involving a network of brain structures, dynamically processing...
Face processing relies on a distributed, patchy network of cortical regions in the temporal and fron...
Variability in neuronal response latency has been typically considered caused by random noise. Previ...
In a highly dynamic visual environment the human brain needs to rapidly differentiate complex visual...
An unresolved goal in face perception is to identify brain areas involved in face processing and sim...