Leslie G. Ungerleider American neuroscientist
Ungerleider, Leslie G.
VIAF ID: 119809745 (Personal)
Permalink: http://viaf.org/viaf/119809745
Preferred Forms
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Leslie G. Ungerleider
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American neuroscientist
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Ungerleider, Leslie G.
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100 1 _
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Ungerleider, Leslie G.
(sparse)
4xx's: Alternate Name Forms (5)
Works
| Title | Sources |
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| Abstracts of papers presented at the 1999 meeting on learning & memory, 1999: |
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| Amygdala lesions eliminate viewing preferences for faces in rhesus monkeys |
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| Anterior superior temporal sulcus is specialized for non-rigid facial motion in both monkeys and humans |
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| Attentional control during the transient updating of cue information |
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| Attentional control of the processing of neural and emotional stimuli |
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| Attentional selection of multiple objects in the human visual system |
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| Bihemispheric leftward bias in a visuospatial attention-related network. |
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| Bottom-up processing of curvilinear visual features is sufficient for animate/inanimate object categorization |
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| Cognitive neuroscience |
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| Common Dorsal Stream Substrates for the Mapping of Surface Texture to Object Parts and Visual Spatial Processing. |
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| Complementary roles of systems representing sensory evidence and systems detecting task difficulty during perceptual decision making |
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| Connectional subdivision of the claustrum: two visuotopic subdivisions in the macaque |
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| Contribution of night and day sleep vs. simple passage of time to the consolidation of motor sequence and visuomotor adaptation learning |
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| Controversies about the visual areas located at the anterior border of area V2 in primates. |
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| Curvature-processing network in macaque visual cortex |
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| Development of a MR-visible compound for tracing neuroanatomical connections in vivo |
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| Distinct contribution of the cortico-striatal and cortico-cerebellar systems to motor skill learning |
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| Dynamic and static facial expressions decoded from motion-sensitive areas in the macaque monkey |
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| Effects of Prior Knowledge on Decisions Made Under Perceptual vs. Categorical Uncertainty |
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| Endogenous visuospatial attention increases visual awareness independent of visual discrimination sensitivity |
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| Exogenous and endogenous attention during perceptual learning differentially affect post-training target thresholds |
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| Experience-dependent changes in cerebellar contributions to motor sequence learning |
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| Face Pareidolia in the Rhesus Monkey. |
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| Face-selective regions differ in their ability to classify facial expressions |
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| Facial Expressions Evoke Differential Neural Coupling in Macaques |
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| Fearful face detection sensitivity in healthy adults correlates with anxiety-related traits |
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| Feeling without seeing? Engagement of ventral, but not dorsal, amygdala during unaware exposure to emotional faces |
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| fMRI mapping of a morphed continuum of 3D shapes within inferior temporal cortex |
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| Formation of a motor memory by action observation. |
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| From visual awareness to consciousness without sensory input: The role of spontaneous brain activity |
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| A functional dissociation of face-, body- and scene-selective brain areas based on their response to moving and static stimuli. |
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| The Fusiform and Occipital Face Areas Can Process a Nonface Category Equivalently to Faces |
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| Hierarchical Encoding of Social Cues in Primate Inferior Temporal Cortex |
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| Human brain activity predicts individual differences in prior knowledge use during decisions |
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| The Human Posterior Superior Temporal Sulcus Samples Visual Space Differently From Other Face-Selective Regions |
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| Imaging brain plasticity during motor skill learning |
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| Impaired filtering of distracter stimuli by TE neurons following V4 and TEO lesions in macaques |
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| Impairments in spatial generalization of visual skills after V4 and TEO lesions in macaques (Macaca mulatta). |
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| Individual differences in valence modulation of face-selective M170 response |
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| Inferring functional brain states using temporal evolution of regularized classifiers |
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| Intersubject variability in fearful face processing: the link between behavior and neural activation |
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| Intranasal oxytocin selectively modulates the behavior of rhesus monkeys in an expression matching task |
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| Intrinsic structure of visual exemplar and category representations in macaque brain |
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| Learned Value Shapes Responses to Objects in Frontal and Ventral Stream Networks in Macaque Monkeys |
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| Motor sequence learning increases sleep spindles and fast frequencies in post-training sleep. |
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| Neural correlates of change detection and change blindness in a working memory task |
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| Neural correlates of visual working memory: fMRI amplitude predicts task performance |
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| The neural systems that mediate human perceptual decision making |
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| Neuroimaging studies of attention: from modulation of sensory processing to top-down control. |
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| Object representations in the temporal cortex of monkeys and humans as revealed by functional magnetic resonance imaging |
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| Object vision and spatial vision: two cortical pathways |
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| Off-line consolidation of motor sequence learning results in greater integration within a cortico-striatal functional network. |
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| An Open Resource for Non-human Primate Imaging |
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| Oxytocin modulates fMRI responses to facial expression in macaques |
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| Parallel processing of facial expression and head orientation in the macaque brain |
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| Perception of emotional expressions is independent of face selectivity in monkey inferior temporal cortex |
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| Persistency of priors-induced bias in decision behavior and the FMRI signal |
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| A population MRI brain template and analysis tools for the macaque |
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| Posterior parietal cortex and the filtering of distractors |
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| Preference for Averageness in Faces Does Not Generalize to Non-Human Primates |
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| The prefrontal cortex and the executive control of attention |
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| Relationship between functional magnetic resonance imaging-identified regions and neuronal category selectivity |
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| Reply to Sterck and Goossens: Perception of facial expressions in rhesus macaques |
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| Reply to Vinken and Vogels |
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| The role of inferior frontal junction in controlling the spatially global effect of feature-based attention in human visual areas. |
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| A role of right middle frontal gyrus in reorienting of attention: a case study |
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| Scene-selective cortical regions in human and nonhuman primates |
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| Selective dissociation between core and extended regions of the face processing network in congenital prosopagnosia |
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| Sleep spindles predict neural and behavioral changes in motor sequence consolidation. |
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| A source for awareness-dependent figure-ground segregation in human prefrontal cortex |
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| Spatial Mechanisms within the Dorsal Visual Pathway Contribute to the Configural Processing of Faces |
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| Spatial selectivity in the temporoparietal junction, inferior frontal sulcus, and inferior parietal lobule |
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| Subcortical projections of area V2 in the macaque |
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| Subtle predictive movements reveal actions regardless of social context |
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| The Superior Temporal Sulcus Is Causally Connected to the Amygdala: A Combined TBS-fMRI Study |
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| Tactile form and location processing in the human brain |
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| Task-independent functional brain activity correlation with skin conductance changes: an fMRI study |
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| Temporal dynamics of face repetition suppression |
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| Theta-burst TMS to the posterior superior temporal sulcus decreases resting-state fMRI connectivity across the face processing network |
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| Through the eyes of anxiety: Dissecting threat bias via emotional-binocular rivalry |
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| Time course of cytochrome oxidase blob plasticity in the primary visual cortex of adult monkeys after retinal laser lesions |
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| Top down attentional deficits in macaques with lesions of lateral prefrontal cortex. |
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| Uncovering the visual "alphabet": advances in our understanding of object perception |
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| The ventral visual pathway: an expanded neural framework for the processing of object quality |
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| Visual awareness and the detection of fearful faces |
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| Visual imagery of famous faces: effects of memory and attention revealed by fMRI. |
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| Visual responses to targets and distracters by inferior temporal neurons after lesions of extrastriate areas V4 and TEO |
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| What does distractibility in ADHD reveal about mechanisms for top-down attentional control? |
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