| scholarly article | Q13442814 |
| P50 | author | Steven L. Bressler | Q105736258 |
| Corby L. Dale | Q73322496 | ||
| P2093 | author name string | Richard M Leahy | |
| Gregory V Simpson | |||
| Dimitrios Pantazis | |||
| Tracy L Luks | |||
| Darren L Weber | |||
| P2860 | cites work | Control of goal-directed and stimulus-driven attention in the brain | Q27860553 |
| Cortical Surface-Based Analysis | Q28124697 | ||
| Neural basis of endogenous and exogenous spatial orienting. A functional MRI study | Q28141154 | ||
| Space and attention in parietal cortex | Q28141499 | ||
| Increased activity in human visual cortex during directed attention in the absence of visual stimulation | Q28143139 | ||
| Covert visual spatial orienting and saccades: overlapping neural systems | Q28145610 | ||
| Orienting of attention | Q28282162 | ||
| A common network of functional areas for attention and eye movements | Q28288177 | ||
| Neural mechanisms of selective visual attention | Q28292891 | ||
| Cortical surface-based analysis. II: Inflation, flattening, and a surface-based coordinate system | Q29614989 | ||
| High-resolution intersubject averaging and a coordinate system for the cortical surface | Q29615081 | ||
| Modulation of oscillatory neuronal synchronization by selective visual attention | Q29619468 | ||
| Timing and sequence of brain activity in top-down control of visual-spatial attention | Q30828674 | ||
| A novel ANCOVA design for analysis of MEG data with application to a visual attention study. | Q31170627 | ||
| Top-down facilitation of visual recognition | Q33342000 | ||
| Early category-specific cortical activation revealed by visual stimulus inversion | Q33378894 | ||
| Neuronal basis of covert spatial attention in the frontal eye field | Q33584443 | ||
| A central role for the lateral prefrontal cortex in goal-directed and stimulus-driven attention. | Q33759356 | ||
| High-frequency, long-range coupling between prefrontal and visual cortex during attention | Q33768482 | ||
| Mechanisms of visual attention in the human cortex | Q33938591 | ||
| The neural selection and control of saccades by the frontal eye field | Q34824570 | ||
| Frontoparietal control of spatial attention and motor intention in human EEG | Q81470541 | ||
| Neural processes involved in directing attention | Q87295842 | ||
| Neuronal synchronization along the dorsal visual pathway reflects the focus of spatial attention | Q34889707 | ||
| How ongoing fluctuations in human visual cortex predict perceptual awareness: baseline shift versus decision bias | Q34991327 | ||
| Visuomotor Origins of Covert Spatial Attention | Q35586263 | ||
| Mapping human brain function with MEG and EEG: methods and validation | Q35926000 | ||
| Selective visual attention and perceptual coherence | Q36327326 | ||
| Feature-based attention in visual cortex | Q36476937 | ||
| Topographic maps of visual spatial attention in human parietal cortex | Q36632384 | ||
| Top-down control of human visual cortex by frontal and parietal cortex in anticipatory visual spatial attention | Q36973119 | ||
| Frontoparietal cortex controls spatial attention through modulation of anticipatory alpha rhythms. | Q37215802 | ||
| Serial, covert shifts of attention during visual search are reflected by the frontal eye fields and correlated with population oscillations | Q37379063 | ||
| Dynamic statistical parametric mapping: combining fMRI and MEG for high-resolution imaging of cortical activity | Q38445268 | ||
| Top-down flow of visual spatial attention signals from parietal to occipital cortex | Q40121825 | ||
| Alpha-band electroencephalographic activity over occipital cortex indexes visuospatial attention bias and predicts visual target detection. | Q40288636 | ||
| The neural mechanisms of top-down attentional control | Q41722869 | ||
| Distinct causal influences of parietal versus frontal areas on human visual cortex: evidence from concurrent TMS-fMRI. | Q42167197 | ||
| ERP correlates of anticipatory attention: spatial and non-spatial specificity and relation to subsequent selective attention | Q46070738 | ||
| Rapid targeting followed by sustained deployment of visual spatial attention | Q46506733 | ||
| Neural mechanisms of visual attention: how top-down feedback highlights relevant locations | Q48135949 | ||
| Large-scale gamma-band phase synchronization and selective attention | Q48143182 | ||
| The relation of brain oscillations to attentional networks | Q48144248 | ||
| A large-scale distributed network for covert spatial attention: further anatomical delineation based on stringent behavioural and cognitive controls | Q48194365 | ||
| The role of temporal predictability in the anticipatory biasing of sensory cortex during visuospatial shifts of attention. | Q48195162 | ||
| Top-down versus bottom-up control of attention in the prefrontal and posterior parietal cortices | Q48223630 | ||
| Remapping attentional priorities: differential contribution of superior parietal lobule and intraparietal sulcus. | Q48293138 | ||
| Where and when to pay attention: the neural systems for directing attention to spatial locations and to time intervals as revealed by both PET and fMRI. | Q48395874 | ||
| The strength of anticipatory spatial biasing predicts target discrimination at attended locations: a high-density EEG study. | Q48401876 | ||
| Temporal dynamics of lateralized ERP components elicited during endogenous attentional shifts to relevant tactile events | Q48434236 | ||
| From local inhibition to long-range integration: a functional dissociation of alpha-band synchronization across cortical scales in visuospatial attention. | Q48449441 | ||
| Are eyes special? It depends on how you look at it. | Q48455588 | ||
| Transient neural activity in human parietal cortex during spatial attention shifts | Q48490406 | ||
| Rapid distributed fronto-parieto-occipital processing stages during working memory in humans | Q48587312 | ||
| Cross-modal interactions between audition, touch, and vision in endogenous spatial attention: ERP evidence on preparatory states and sensory modulations. | Q48624262 | ||
| Spatially selective representations of voluntary and stimulus-driven attentional priority in human occipital, parietal, and frontal cortex | Q48629466 | ||
| The timing of neural activity during shifts of spatial attention. | Q48763636 | ||
| An event-related potential study of supramodal attentional control and crossmodal attention effects. | Q50729688 | ||
| The dynamics of shifting visuospatial attention revealed by event-related potentials. | Q50757612 | ||
| Generating spatial and nonspatial attentional control: An ERP study. | Q51990611 | ||
| Task-dependent exogenous cuing effects depend on cue modality. | Q52017372 | ||
| Varieties of attention in neutral trials: linking RT to ERPs and EEG frequencies. | Q52020043 | ||
| Maintaining and shifting attention within left or right hemifield. | Q52166663 | ||
| Shifting visual attention in space: an electrophysiological analysis using high spatial resolution mapping. | Q52167112 | ||
| Anticipatory biasing of visuospatial attention indexed by retinotopically specific alpha-band electroencephalography increases over occipital cortex. | Q52170403 | ||
| A shift of visual spatial attention is selectively associated with human EEG alpha activity | Q60678990 | ||
| Functional Specificity of Superior Parietal Mediation of Spatial Shifting | Q62669583 | ||
| Retinotopy and Attention in Human Occipital, Temporal, Parietal, and Frontal Cortex | Q63982532 | ||
| P433 | issue | 39 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | attention | Q6501338 |
| P304 | page(s) | 13880-13889 | |
| P577 | publication date | 2011-09-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Dynamic activation of frontal, parietal, and sensory regions underlying anticipatory visual spatial attention | |
| P478 | volume | 31 |
| Q47836960 | A Time-Varying Connectivity Analysis from Distributed EEG Sources: A Simulation Study. |
| Q42038423 | A multi-pathway hypothesis for human visual fear signaling |
| Q34505558 | Anatomical substrates of the alerting, orienting and executive control components of attention: focus on the posterior parietal lobe |
| Q90025698 | Assessing and mapping language, attention and executive multidimensional deficits in stroke aphasia |
| Q26824318 | Attention and predictions: control of spatial attention beyond the endogenous-exogenous dichotomy |
| Q35946898 | Attentional control: temporal relationships within the fronto-parietal network |
| Q30464384 | Brain networks of novelty-driven involuntary and cued voluntary auditory attention shifting |
| Q61799975 | Changes in Functional Connectivity Following Treatment With Emotion Regulation Therapy |
| Q38661606 | Changes in White Matter Microstructure Impact Cognition by Disrupting the Ability of Neural Assemblies to Synchronize. |
| Q34096397 | Changes in brain functional network connectivity after stroke |
| Q36204590 | Deconstructing the architecture of dorsal and ventral attention systems with dynamic causal modeling |
| Q30444603 | Does IQ affect the functional brain network involved in pseudoword reading in students with reading disability? A magnetoencephalography study. |
| Q27011786 | Dorsal and ventral attention systems: distinct neural circuits but collaborative roles |
| Q33658619 | Electrocorticography of Spatial Shifting and Attentional Selection in Human Superior Parietal Cortex |
| Q89978525 | Electroencephalogram (EEG) Alpha Power as a Marker of Visuospatial Attention Orienting and Suppression in Normoxia and Hypoxia. An Exploratory Study |
| Q37229132 | Examination of frontal and parietal tectocortical attention pathways in spina bifida meningomyelocele using probabilistic diffusion tractography. |
| Q61806259 | Gait Dyspraxia due to Right Occipital Infarct |
| Q30619276 | Maps of space in human frontoparietal cortex |
| Q27500390 | Oscillatory neuronal dynamics associated with manual acupuncture: a magnetoencephalography study using beamforming analysis |
| Q36109034 | Resting spontaneous activity in the default mode network predicts performance decline during prolonged attention workload |
| Q40803393 | Retinotopic patterns of background connectivity between V1 and fronto-parietal cortex are modulated by task demands. |
| Q48555870 | Retinotopic patterns of functional connectivity between V1 and large-scale brain networks during resting fixation. |
| Q38126098 | Sensory processing: who's in (top-down) control? |
| Q35789172 | The unique brain anatomy of meditation practitioners: alterations in cortical gyrification |
| Q36426065 | Topological Alterations of the Intrinsic Brain Network in Patients with Functional Dyspepsia |
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