| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.NEUBIOREV.2004.03.003 |
| P698 | PubMed publication ID | 15172763 |
| P50 | author | Jason B. Mattingley | Q48116726 |
| P2093 | author name string | Laure Pisella | |
| P433 | issue | 2 | |
| P304 | page(s) | 181-200 | |
| P577 | publication date | 2004-04-01 | |
| P1433 | published in | Neuroscience & Biobehavioral Reviews | Q15709986 |
| P1476 | title | The contribution of spatial remapping impairments to unilateral visual neglect | |
| P478 | volume | 28 |
| Q34109031 | A deficit of spatial remapping in constructional apraxia after right-hemisphere stroke |
| Q48378196 | Antipointing: perception-based visual information renders an offline mode of control |
| Q48787522 | Children with developmental dyslexia show a left visual "minineglect". |
| Q35565401 | Combination of attentional and spatial working memory deficits in Bálint-Holmes syndrome |
| Q51040312 | Contextual remapping in visual search after predictable target-location changes. |
| Q34549930 | Cross-modal interactions in time and space: auditory influence on visual attention in hemispatial neglect |
| Q48251668 | Disrupting saccadic updating: visual interference prior to the first saccade elicits spatial errors in the secondary saccade in a double-step task. |
| Q48280237 | Disruption of spatial memory in visual search in the left visual field in patients with hemispatial neglect |
| Q52607971 | Dissociation between intentional and automatic remapping: different levels of inter-hemispheric transfer. |
| Q64140893 | Distorted gaze direction input to attentional priority map in spatial neglect |
| Q48889885 | Dynamic circuitry for updating spatial representations. I. Behavioral evidence for interhemispheric transfer in the split-brain macaque |
| Q30528055 | Higher level visual cortex represents retinotopic, not spatiotopic, object location |
| Q37011935 | Impaired perceptual memory of locations across gaze-shifts in patients with unilateral spatial neglect |
| Q51993835 | Impairment of gaze-centered updating of reach targets in bilateral parietal-occipital damaged patients. |
| Q48807358 | Inhibitory and facilitatory location priming in patients with left-sided visual hemi-neglect |
| Q34849389 | Iterative fragmentation of cognitive maps in a visual imagery task |
| Q57676455 | La négligence spatiale unilatérale : trente ans de recherches, de découvertes, d’espoirs et (surtout) de questions |
| Q53061234 | Landmarks facilitate visual space constancy across saccades and during fixation. |
| Q48562615 | Long-term effects of prism adaptation in chronic visual neglect: A single case study |
| Q38113296 | Mapping the functional neuroanatomy of spatial neglect and human parietal lobe functions: progress and challenges |
| Q34297094 | Model approach to neurological variants of visuo-spatial neglect |
| Q44240644 | Multimodal temporal perception deficits in a patient with left spatial neglect |
| Q48371299 | Neuroanatomy of hemispatial neglect and its functional components: a study using voxel-based lesion-symptom mapping |
| Q57607856 | Négligence spatiale unilatérale : une conséquence dramatique mais souvent négligée des lésions de l’hémisphère droit |
| Q49077712 | Optic ataxia and Bálint's syndrome: neuropsychological and neurophysiological prospects |
| Q34403065 | Optic ataxia errors depend on remapped, not viewed, target location |
| Q57133402 | Parietal Involvement in Constructional Apraxia as Measured Using the Pentagon Copying Task |
| Q35829225 | Parietal stimulation destabilizes spatial updating across saccadic eye movements |
| Q48960308 | Prism Adaptation Alters Electrophysiological Markers of Attentional Processes in the Healthy Brain |
| Q48146201 | Rapid formation of spatiotopic representations as revealed by inhibition of return. |
| Q61881532 | Recovering Space in Unilateral Neglect: A Neurological Dissociation Revealed by Virtual Reality |
| Q35790035 | Refuting the hypothesis that a unilateral human parietal lesion abolishes saccade corollary discharge |
| Q48288862 | Repetitive exploration towards locations that no longer carry a target in patients with neglect |
| Q37829539 | Right-hemispheric dominance for visual remapping in humans |
| Q48944548 | Saccadic-like visuomotor adaptation involves little if any perceptual effects |
| Q33375257 | Some surprising findings on the involvement of the parietal lobe in human memory |
| Q36959226 | Spatial working memory deficits represent a core challenge for rehabilitating neglect. |
| Q38113561 | Statistical learning as a tool for rehabilitation in spatial neglect |
| Q81937747 | Strabismic amblyopes show a bilateral rightward bias in a line bisection task: evidence for a visual attention deficit |
| Q37043358 | Testing for optic ataxia in a blind field |
| Q28488071 | The frontal eye fields limit the capacity of visual short-term memory in rhesus monkeys |
| Q37217439 | Tonal cues modulate line bisection performance: preliminary evidence for a new rehabilitation prospect? |
| Q51957575 | Transsaccadic integration of visual features in a line intersection task. |
| Q30368407 | Two Visual Pathways in Primates Based on Sampling of Space: Exploitation and Exploration of Visual Information. |
| Q24616402 | Understanding the parietal lobe syndrome from a neurophysiological and evolutionary perspective |
| Q36989131 | Visual Scanning Training, Limb Activation Treatment, and Prism Adaptation for Rehabilitating Left Neglect: Who is the Winner? |
| Q51048458 | Visual perception and memory impairments in children at risk of nonverbal learning disabilities. |
| Q52147451 | When brain damage "improves" perception: neglect patients can localize motion-shifted probes better than controls. |
| Q48287726 | You never know where you are going until you know where you have been: Disorganized search after stroke |
| Q53927663 | [Oscillopsia: pathophysiological mechanisms and treatment] |
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