Recent models of human posterior parietal cortex (PPC) have variously emphasized its role in spatial perception, visuomotor control or directing attention. However, neuroimaging and lesion studies also suggest that the right PPC might play a special role in maintaining an alert state. Previously, assessments of right-hemisphere patients with hemispatial neglect have revealed significant overall deficits on vigilance tasks, but to date there has been no demonstration of a deterioration of performance over time--a vigilance decrement--considered by some to be a key index of a deficit in maintaining attention. Moreover, sustained attention deficits in neglect have not specifically been related to PPC lesions, and it remains unclear whether the...
Right-sided parietal lesions lead to lateralized attentional deficits which are most prominent with ...
Patients with spatial neglect due to right hemisphere pathology may show 'revisiting' behaviour duri...
The human somatosensory cortex (S1) is not among the brain areas usually associated with visuospatia...
Recent models of human posterior parietal cortex (PPC) have variously emphasized its role in spatial...
The human brain is characterized by the lateralization of cognitive functions. Multiple lines of evi...
The human brain is characterized by the lateralization of cognitive functions. Multiple lines of evi...
Traditionally, both the monkey and human posterior parietal cortex (PPC) have been considered to hav...
Functional imaging studies of spatial attention regularly report activation of the intraparietal sul...
Spatial neglect is most prominently associated with damage to the right cerebral hemisphere, especia...
The exact role of the parietal lobe in spatial cognition is controversial. One influential hypothesi...
Unilateral neglect, a common consequence of a stroke, involves a difficulty with detecting and respo...
Neuropsychological and functional neuroimaging studies have implicated the right posterior parietal ...
Visuospatial attention is essential for successful interactions with the environment. It has been sh...
Visual neglect of left space following right parietal damage in humans involves a lateral bias in at...
Visual neglect of left space following right parietal damage in humans involves a lateral bias in at...
Right-sided parietal lesions lead to lateralized attentional deficits which are most prominent with ...
Patients with spatial neglect due to right hemisphere pathology may show 'revisiting' behaviour duri...
The human somatosensory cortex (S1) is not among the brain areas usually associated with visuospatia...
Recent models of human posterior parietal cortex (PPC) have variously emphasized its role in spatial...
The human brain is characterized by the lateralization of cognitive functions. Multiple lines of evi...
The human brain is characterized by the lateralization of cognitive functions. Multiple lines of evi...
Traditionally, both the monkey and human posterior parietal cortex (PPC) have been considered to hav...
Functional imaging studies of spatial attention regularly report activation of the intraparietal sul...
Spatial neglect is most prominently associated with damage to the right cerebral hemisphere, especia...
The exact role of the parietal lobe in spatial cognition is controversial. One influential hypothesi...
Unilateral neglect, a common consequence of a stroke, involves a difficulty with detecting and respo...
Neuropsychological and functional neuroimaging studies have implicated the right posterior parietal ...
Visuospatial attention is essential for successful interactions with the environment. It has been sh...
Visual neglect of left space following right parietal damage in humans involves a lateral bias in at...
Visual neglect of left space following right parietal damage in humans involves a lateral bias in at...
Right-sided parietal lesions lead to lateralized attentional deficits which are most prominent with ...
Patients with spatial neglect due to right hemisphere pathology may show 'revisiting' behaviour duri...
The human somatosensory cortex (S1) is not among the brain areas usually associated with visuospatia...