International audienceThe purpose of this study was to identify the functional anatomy of the mechanisms involved in visually guided prehension and in object recognition in humans. The cerebral blood flow of seven subjects was investigated by positron emission tomography. Three conditions were performed using the same set of stimuli. In the 'grasping' condition, subjects were instructed to accurately grasp the objects. In the 'matching' condition, subjects were requested to compare the shape of the presented object with that of the previous one. In the 'pointing' condition (control), subjects pointed towards the objects. The comparison between grasping and pointing showed a regional cerebral blood flow (rCBF) increase in the anterior part o...
The integration of neural signals from different sensory modalities is a prerequisite for many cogni...
International audienceThe role of the parietal cortex in visuospatial analysis of object was investi...
Positron-emission tomography (PET) can localize functions of the human brain by imaging regional cer...
Positron emission tomography (PET) was used to identify cortical and subcortical regions involved in...
To explore the extent to which various cortical functional pathways are involved in processing and a...
International audienceIn order to determine the neural substrate of working memory for shape and 3D-...
To define brain regions involved in feature extraction or elementary form perception, regional cereb...
Humans, like numerous other species, strongly rely on the observation of gestures of other individua...
Positron emission tomography imaging of cerebral blood flow was used to localize brain areas involve...
The functional anatomy of visually guided movement was investigated in 18 normal subjects performing...
Positron emission tomography (PET) was used to localize brain regions that are active during the obs...
The purpose of this study was to identify the functional cortical fields involved in reaching for ta...
With the purpose of elucidating the functional fields involved in the discrimination of visual form ...
PET was used to image the neural system underlying visuospatial attention. Analysis of data at both ...
Visual attention can be primarily allocated to either where an object is in space (with little empha...
The integration of neural signals from different sensory modalities is a prerequisite for many cogni...
International audienceThe role of the parietal cortex in visuospatial analysis of object was investi...
Positron-emission tomography (PET) can localize functions of the human brain by imaging regional cer...
Positron emission tomography (PET) was used to identify cortical and subcortical regions involved in...
To explore the extent to which various cortical functional pathways are involved in processing and a...
International audienceIn order to determine the neural substrate of working memory for shape and 3D-...
To define brain regions involved in feature extraction or elementary form perception, regional cereb...
Humans, like numerous other species, strongly rely on the observation of gestures of other individua...
Positron emission tomography imaging of cerebral blood flow was used to localize brain areas involve...
The functional anatomy of visually guided movement was investigated in 18 normal subjects performing...
Positron emission tomography (PET) was used to localize brain regions that are active during the obs...
The purpose of this study was to identify the functional cortical fields involved in reaching for ta...
With the purpose of elucidating the functional fields involved in the discrimination of visual form ...
PET was used to image the neural system underlying visuospatial attention. Analysis of data at both ...
Visual attention can be primarily allocated to either where an object is in space (with little empha...
The integration of neural signals from different sensory modalities is a prerequisite for many cogni...
International audienceThe role of the parietal cortex in visuospatial analysis of object was investi...
Positron-emission tomography (PET) can localize functions of the human brain by imaging regional cer...