| scholarly article | Q13442814 |
| P50 | author | Melvyn A. Goodale | Q6814124 |
| Ravi S. Menon | Q40832066 | ||
| P2093 | author name string | Douglas P Munoz | |
| Jason D Connolly | |||
| P2860 | cites work | A neural correlate for the gap effect on saccadic reaction times in monkey | Q72037928 |
| Topography of projections to posterior cortical areas from the macaque frontal eye fields | Q72224106 | ||
| Effects of components of displacement-step stimuli upon latency for saccadic eye movement | Q72244598 | ||
| Neuronal correlates for preparatory set associated with pro-saccades and anti-saccades in the primate frontal eye field | Q73338138 | ||
| A comparison of frontoparietal fMRI activation during anti-saccades and anti-pointing | Q74296413 | ||
| Dynamic characteristics of oxygenation-sensitive MRI signal in different temporal protocols for imaging human brain activity | Q74345401 | ||
| Ocular fixation and visual activity in the monkey lateral intraparietal area | Q77640309 | ||
| Neurophysiological investigation of the basis of the fMRI signal | Q27860853 | ||
| Space and attention in parietal cortex | Q28141499 | ||
| Intrinsic signal changes accompanying sensory stimulation: functional brain mapping with magnetic resonance imaging | Q28283786 | ||
| Intention-related activity in the posterior parietal cortex: a review | Q33902526 | ||
| Maturation of widely distributed brain function subserves cognitive development. | Q33942548 | ||
| Neural basis of deciding, choosing and acting | Q34186271 | ||
| Functional neuroanatomy of antisaccade eye movements investigated with positron emission tomography | Q34751923 | ||
| Frontal lobe lesions in man cause difficulties in suppressing reflexive glances and in generating goal-directed saccades | Q39550835 | ||
| Location and function of the human frontal eye-field: a selective review | Q40938349 | ||
| Set-related activity in the premotor cortex of rhesus monkeys: effect of triggering cues and relatively long delay intervals | Q41331290 | ||
| Mapping of contralateral space in retinotopic coordinates by a parietal cortical area in humans | Q44474554 | ||
| Antisaccade performance predicted by neuronal activity in the supplementary eye field | Q46597489 | ||
| Activity of neurons in the lateral intraparietal area of the monkey during an antisaccade task | Q48107276 | ||
| Differential effects of muscimol microinjection into dorsal and ventral aspects of the premotor cortex of monkeys | Q48159151 | ||
| Eye movement disorders after frontal eye field lesions in humans | Q48226764 | ||
| Role of primate superior colliculus in preparation and execution of anti-saccades and pro-saccades. | Q48257316 | ||
| Signal-, set-, and movement-related activity in the human premotor cortex. | Q48262096 | ||
| Signal-, set- and movement-related activity in the human brain: an event-related fMRI study | Q48282039 | ||
| Subregions within the supplementary motor area activated at different stages of movement preparation and execution | Q48299457 | ||
| Cortical control of saccades | Q48338797 | ||
| Premotor cortex of monkeys: set- and movement-related activity reflecting amplitude and direction of wrist movements | Q48360237 | ||
| Age-related performance of human subjects on saccadic eye movement tasks | Q48391148 | ||
| The antisaccade: a review of basic research and clinical studies | Q48394397 | ||
| Characteristics of ?anti? saccades in man | Q48558636 | ||
| Neuronal activity in monkey superior colliculus related to the initiation of saccadic eye movements. | Q48617046 | ||
| Neural control of fast-regular saccades and antisaccades: an investigation using positron emission tomography. | Q48642595 | ||
| Cortical control of reflexive visually-guided saccades | Q48709070 | ||
| Visual, presaccadic, and cognitive activation of single neurons in monkey lateral intraparietal area | Q48876880 | ||
| Positron emission tomography study of voluntary saccadic eye movements and spatial working memory. | Q52010943 | ||
| Spatial processing in the monkey frontal eye field. II. Memory responses. | Q52016414 | ||
| Prefrontal neuronal activity in rhesus monkeys performing a delayed anti-saccade task. | Q52060743 | ||
| Activation of the dorsal premotor cortex and pre-supplementary motor area of humans during an auditory conditional motor task. | Q52165388 | ||
| The frontal eye field is involved in spatial short-term memory but not in reflexive saccade inhibition. | Q52172647 | ||
| Reflex suppression in the anti-saccade task is dependent on prestimulus neural processes. | Q52184351 | ||
| Physiological correlate of fixation disengagement in the primate's frontal eye field. | Q52213188 | ||
| Event-related fMRI: Comparison of conditions with varying BOLD overlap | Q57602876 | ||
| Primary and secondary saccades to goals defined by instructions | Q67425248 | ||
| Topography of visual cortex connections with frontal eye field in macaque: convergence and segregation of processing streams | Q71698270 | ||
| P433 | issue | 12 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | functional magnetic resonance imaging | Q903809 |
| P304 | page(s) | 1345-1352 | |
| P577 | publication date | 2002-12-01 | |
| P1433 | published in | Nature Neuroscience | Q1535359 |
| P1476 | title | Human fMRI evidence for the neural correlates of preparatory set. | |
| P478 | volume | 5 |
| Q34581336 | A link between visual disambiguation and visual memory |
| Q48640442 | A shared, flexible neural map architecture reflects capacity limits in both visual short-term memory and enumeration. |
| Q48314397 | Activation of right inferior frontal gyrus during response inhibition across response modalities |
| Q38133645 | Adolescent cognitive control and reward processing: implications for risk taking and substance use. |
| Q50672855 | Age-Related Deficits in Visuospatial Memory Are due to Changes in Preparatory Set and Eye-Hand Coordination. |
| Q47996888 | Altered control of visual fixation and saccadic eye movements in attention-deficit hyperactivity disorder |
| Q33830102 | An 8-month randomized controlled exercise trial alters brain activation during cognitive tasks in overweight children |
| Q35568656 | An Overview of Psychological and Neurobiological Mechanisms by which Early Negative Experiences Increase Risk of Mood Disorders |
| Q48900802 | An event-related functional magnetic resonance imaging study of voluntary and stimulus-driven orienting of attention. |
| Q36071261 | An fMRI Investigation of Preparatory Set in the Human Cerebral Cortex and Superior Colliculus for Pro- and Anti-Saccades |
| Q46053299 | Anterior intraparietal sulcus is sensitive to bottom-up attention driven by stimulus salience |
| Q55011803 | Anti-Saccades in Cerebellar Ataxias Reveal a Contribution of the Cerebellum in Executive Functions. |
| Q37178137 | Anti-saccade performance predicts executive function and brain structure in normal elders |
| Q60049632 | Anti-saccades predict cognitive functions in older adults and patients with Parkinson's disease |
| Q33920865 | Antisaccade cost is modulated by contextual experience of location probability. |
| Q38417644 | Antisaccades and executive dysfunction in early drug-naive Parkinson's disease: The discovery study. |
| Q45350761 | Antisaccades as decisions: LATER model predicts latency distributions and error responses |
| Q48704892 | Are somatosensory saccades voluntary or reflexive? |
| Q48732911 | Attention and memory-related responses of neurons in the lateral intraparietal area during spatial and shape-delayed match-to-sample tasks |
| Q48257550 | Attentional blink in adults with attention-deficit hyperactivity disorder. Influence of eye movements |
| Q57830330 | Canceling Planned Action: An fMRI Study of Countermanding Saccades |
| Q46781838 | Catechol-O-methyltransferase (COMT) val158met genotype is associated with BOLD response as a function of task characteristic |
| Q90090044 | Cognitive Measures and Performance on the Antisaccade Eye Movement Task |
| Q48258623 | Cognitive deterioration and functional compensation in ALS measured with fMRI using an inhibitory task. |
| Q48523406 | Comparison of effector-specific signals in frontal and parietal cortices |
| Q82754424 | Control of oculomotor reflexes: independent effects of strategic and automatic preparation |
| Q44451949 | Convergent mechanisms mediate preparatory states and repetition priming in the feeding network of Aplysia. |
| Q48500060 | Coordination of voluntary and stimulus-driven attentional control in human cortex |
| Q41061227 | Cortical Activation during Landmark-Centered vs. Gaze-Centered Memory of Saccade Targets in the Human: An FMRI Study. |
| Q37069546 | Cortical activity time locked to the shift and maintenance of spatial attention |
| Q48922458 | Cortical and cerebellar activation induced by reflexive and voluntary saccades |
| Q30559517 | Cortical control of saccades in Parkinson disease and essential tremor |
| Q31117443 | Cortical dynamics during the preparation of antisaccadic and prosaccadic eye movements in humans in a gap paradigm |
| Q36294453 | Cortical mechanisms for shifting and holding visuospatial attention |
| Q33906579 | Cortical neurodynamics of inhibitory control |
| Q37885420 | Cortico-basal ganglia mechanisms for overcoming innate, habitual and motivational behaviors |
| Q40404412 | Decoding Internally and Externally Driven Movement Plans |
| Q57978467 | Decomposing the Neural Correlates of Antisaccade Eye Movements Using Event-Related fMRI |
| Q48112057 | Different cortical activations during visuospatial attention and the intention to perform a saccade |
| Q38841268 | Different involvement of subregions within dorsal premotor and medial frontal cortex for pro- and antisaccades |
| Q38406622 | Differential effects of advance semantic cues on grasping, naming, and manual estimation. |
| Q36943952 | Differentiation between external and internal cuing: an fMRI study comparing tracing with drawing |
| Q36037444 | Disconnectivity of the cortical ocular motor control network in autism spectrum disorders |
| Q36279934 | Dissociable Roles of Dorsolateral Prefrontal Cortex and Frontal Eye Fields During Saccadic Eye Movements |
| Q30203267 | Dissociating Two Stages of Preparation in the Stop Signal Task Using fMRI. |
| Q52607971 | Dissociation between intentional and automatic remapping: different levels of inter-hemispheric transfer. |
| Q42167197 | Distinct causal influences of parietal versus frontal areas on human visual cortex: evidence from concurrent TMS-fMRI. |
| Q48661321 | Distinct neural correlates for volitional generation and inhibition of saccades |
| Q33370441 | Distributed representations of the "preparatory set" in the frontal oculomotor system: a TMS study |
| Q50481184 | Does interhemispheric competition mediate motion-induced blindness? A transcranial magnetic stimulation study. |
| Q43944784 | Does prenatal maternal stress impair cognitive development and alter temperament characteristics in toddlers with healthy birth outcomes? |
| Q33875422 | Effect of cigarette smoking on prefrontal cortical function in nondeprived smokers performing the Stroop Task |
| Q34342899 | Effects of Prenatal Social Stress and Maternal Dietary Fatty Acid Ratio on Infant Temperament: Does Race Matter? |
| Q37406482 | Effects of acute alcohol intoxication on saccadic conflict and error processing |
| Q33912572 | Effects of response preparation on developmental improvements in inhibitory control |
| Q30376963 | Effects of scanner acoustic noise on intrinsic brain activity during auditory stimulation. |
| Q48300486 | Effects of stimulus-response compatibility on neural selection in frontal eye field |
| Q37303933 | Enhanced antisaccade abilities in children with Tourette syndrome: the Gap-effect Reversal |
| Q37865319 | Exposure to prenatal psychobiological stress exerts programming influences on the mother and her fetus |
| Q48208000 | FMRI evidence for a 'parietal reach region' in the human brain |
| Q57805771 | Feasibility of identifying the ideal locations for motor intention decoding using unimodal and multimodal classification at 7T-fMRI |
| Q46133158 | Feature-independent neural coding of target detection during search of natural scenes. |
| Q42028254 | For whom the bell tolls: periodic reactivation of sensory cortex in the gamma band as a substrate of visual working memory maintenance |
| Q42592711 | Frontal preparatory neural oscillations associated with cognitive control: A developmental study comparing young adults and adolescents |
| Q33911158 | Frontal-to-parietal top-down causal streams along the dorsal attention network exclusively mediate voluntary orienting of attention |
| Q48124249 | Frontoparietal activation with preparation for antisaccades |
| Q37593139 | Functional clustering of the human inferior parietal lobule by whole-brain connectivity mapping of resting-state functional magnetic resonance imaging signals |
| Q48680477 | Functional connectivity of the frontal eye fields in humans and macaque monkeys investigated with resting-state fMRI. |
| Q38462739 | Functional connectivity of the striatum links motivation to action control in humans |
| Q48892887 | Functional interactions between oculomotor regions during prosaccades and antisaccades |
| Q48974771 | Functional neuroanatomy of anticipatory behavior: dissociation between sensory-driven and memory-driven systems |
| Q34205728 | Functional organization of human intraparietal and frontal cortex for attending, looking, and pointing. |
| Q35945096 | Gaze cueing of attention: visual attention, social cognition, and individual differences. |
| Q27316826 | Haptically Guided Grasping. fMRI Shows Right-Hemisphere Parietal Stimulus Encoding, and Bilateral Dorso-Ventral Parietal Gradients of Object- and Action-Related Processing during Grasp Execution. |
| Q42258995 | Hemispheric differences in frontal and parietal influences on human occipital cortex: direct confirmation with concurrent TMS-fMRI. |
| Q37480937 | High pregnancy anxiety during mid-gestation is associated with decreased gray matter density in 6-9-year-old children |
| Q37785415 | Human Cortical Control of Hand Movements: Parietofrontal Networks for Reaching, Grasping, and Pointing |
| Q48129897 | Human frontal eye fields and spatial priming of pop-out |
| Q42734005 | Human fronto-tectal and fronto-striatal-tectal pathways activate differently during anti-saccades |
| Q30497036 | Human posterior parietal cortex plans where to reach and what to avoid |
| Q42031869 | I know where you'll look: an fMRI study of oculomotor intention and a change of motor plan |
| Q23891136 | Immaturities in reward processing and its influence on inhibitory control in adolescence |
| Q37424680 | Impaired control of the oculomotor reflexes in Parkinson's disease |
| Q36983585 | Improving functional magnetic resonance imaging motor studies through simultaneous electromyography recordings |
| Q35672137 | Look away: the anti-saccade task and the voluntary control of eye movement |
| Q46749868 | MRI and fMRI analysis of oculomotor function |
| Q40515529 | Maintenance of spatial and motor codes during oculomotor delayed response tasks. |
| Q92509666 | Mapping neural dynamics underlying saccade preparation and execution and their relation to reaction time and direction errors |
| Q36905654 | Medial versus lateral frontal lobe contributions to voluntary saccade control as revealed by the study of patients with frontal lobe degeneration |
| Q30477435 | Medio-frontal and anterior temporal abnormalities in children with attention deficit hyperactivity disorder (ADHD) during an acoustic antisaccade task as revealed by electro-cortical source reconstruction |
| Q44196732 | Memory-guided saccade processing in visual form agnosia (patient DF). |
| Q48394954 | Microsaccades and preparatory set: a comparison between delayed and immediate, exogenous and endogenous pro- and anti-saccades. |
| Q64257888 | Modeling Saccadic Action Selection: Cortical and Basal Ganglia Signals Coalesce in the Superior Colliculus |
| Q40557312 | Modulation of Frontoparietal Neurovascular Dynamics in Working Memory |
| Q37217353 | Motor imagery after stroke: relating outcome to motor network connectivity |
| Q48905523 | Neural activities in V1 create the bottom-up saliency map of natural scenes |
| Q48272372 | Neural activity is modulated by trial history: a functional magnetic resonance imaging study of the effects of a previous antisaccade. |
| Q48724658 | Neural basis and recovery of spatial attention deficits in spatial neglect |
| Q48477603 | Neural basis of visual distraction |
| Q45928913 | Neural correlates of changing intention in the human FEF and IPS. |
| Q57411529 | Neural correlates of counting large numerosity |
| Q43077799 | Neural correlates of saccadic inhibition in healthy elderly and patients with amnestic mild cognitive impairment. |
| Q49022491 | Neural processes associated with antisaccade task performance investigated with event-related FMRI. |
| Q37670737 | Neural representations of contextual guidance in visual search of real-world scenes |
| Q35850626 | Neural saccadic response estimation during natural viewing |
| Q49067229 | Neural topography and content of movement representations |
| Q35658724 | Neuro-robotics study on integrative learning of proactive visual attention and motor behaviors |
| Q30461149 | Neurobehavioral risk is associated with gestational exposure to stress hormones |
| Q37471916 | Number processing pathways in human parietal cortex |
| Q34609800 | Oculomotor performance identifies underlying cognitive deficits in attention-deficit/hyperactivity disorder |
| Q28254887 | On the role of frontal eye field in guiding attention and saccades |
| Q48278837 | Parieto-occipital cortex shows early target selection to faces in a reflexive orienting task |
| Q48631341 | Perception, memory, and action in frontal and parietal cortex. Focus on "Selection and maintenance of saccade goals in the human frontal eye fields". |
| Q34229007 | Persistent activity in the prefrontal cortex during working memory |
| Q30481138 | Persistent neural activity during the maintenance of spatial position in working memory |
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| Q33840801 | Pre-stimulus activity predicts the winner of top-down vs. bottom-up attentional selection |
| Q55262223 | Predictive saccades in children and adults: A combined fMRI and eye tracking study. |
| Q24633972 | Prenatal programming of human neurological function |
| Q51970998 | Preparatory activity in occipital cortex in early blind humans predicts auditory perceptual performance. |
| Q48404463 | Preparatory delay activity in the monkey parietal reach region predicts reach reaction times. |
| Q37184515 | Preparatory neural networks are impaired in adults with attention-deficit/hyperactivity disorder during the antisaccade task |
| Q42475102 | Presetting Basal Ganglia for Volitional Actions |
| Q47397632 | Pupil size reveals preparatory processes in the generation of pro-saccades and anti-saccades. |
| Q38153689 | Quantitative meta-analysis of fMRI and PET studies reveals consistent activation in fronto-striatal-parietal regions and cerebellum during antisaccades and prosaccades |
| Q48919032 | Re-starting a neural race: anti-saccade correction |
| Q30494838 | Reduced cognitive control of response inhibition by the anterior cingulate cortex in autism spectrum disorders. |
| Q48956323 | Remapping the remembered target location for anti-saccades in human posterior parietal cortex |
| Q34275650 | Remedial effects of motivational incentive on declining cognitive control in healthy aging and Parkinson's disease |
| Q42997916 | Repetition suppression dissociates spatial frames of reference in human saccade generation. |
| Q48739961 | Saccade deficits in amnestic mild cognitive impairment resemble mild Alzheimer's disease |
| Q36789970 | Saccade landing point selection and the competition account of pro- and antisaccade generation: the involvement of visual attention--a review |
| Q30229270 | Saccade preparation signals in the human frontal and parietal cortices |
| Q34488071 | Saccadic preparation in the frontal eye field is modulated by distinct trial history effects as revealed by magnetoencephalography |
| Q48656097 | Selection and maintenance of saccade goals in the human frontal eye fields |
| Q36852853 | Sequential activation of human oculomotor centers during planning of visually-guided eye movements: a combined fMRI-MEG study |
| Q87999057 | Spatially dynamic recurrent information flow across long-range dorsal motor network encodes selective motor goals |
| Q48629466 | Spatially selective representations of voluntary and stimulus-driven attentional priority in human occipital, parietal, and frontal cortex |
| Q48254743 | Spatio-temporal brain dynamics underlying saccade execution, suppression, and error-related feedback |
| Q30477798 | Sustained activity in topographic areas of human posterior parietal cortex during memory-guided saccades |
| Q45916552 | TMS over human frontal eye fields disrupts trans-saccadic memory of multiple objects. |
| Q84418144 | The Effects of a TMS Double Perturbation to a Cortical Network |
| Q36522001 | The antisaccade task as a research tool in psychopathology: a critical review |
| Q50745126 | The effects of attentional load on saccadic task switching. |
| Q33707257 | The functional oculomotor network and saccadic cognitive control in healthy elders |
| Q37367009 | The functional role of the inferior parietal lobe in the dorsal and ventral stream dichotomy |
| Q48614361 | The inter-trial effect of prepared but not executed antisaccades |
| Q37474209 | The maturation of incentive processing and cognitive control |
| Q52147586 | The neural network of saccadic foreknowledge. |
| Q22241961 | The organization of the human cerebral cortex estimated by intrinsic functional connectivity |
| Q54266551 | The parallel programming of voluntary and reflexive saccades. |
| Q29616229 | The reorienting system of the human brain: from environment to theory of mind |
| Q46435040 | The role of the human dorsolateral prefrontal cortex in ocular motor behavior |
| Q50696564 | The unidirectional prosaccade switch-cost: correct and error antisaccades differentially influence the planning times for subsequent prosaccades. |
| Q36632441 | Topographic organization for delayed saccades in human posterior parietal cortex. |
| Q42155555 | Transcranial Direct Current Stimulation of the Frontal Eye Fields during Pro- and Antisaccade Tasks |
| Q48195184 | Transient increases of synchronized neural activity during movement preparation: influence of cognitive constraints |
| Q35160523 | Trial type probability modulates the cost of antisaccades |
| Q35579826 | Using saccades as a research tool in the clinical neurosciences |
| Q48434183 | Visuomotor functional network topology predicts upcoming tasks |
| Q42176734 | Voluntary saccade inhibition deficits correlate with extended white-matter cortico-basal atrophy in Huntington's disease. |
| Q36016697 | Where left becomes right: a magnetoencephalographic study of sensorimotor transformation for antisaccades. |
| Q47640426 | Work hours and cortisol variation from non-working to working days |
| Q40461779 | fMRI activation in the human frontal eye field is correlated with saccadic reaction time. |
| Q33350152 | fMRI evidence for a dual process account of the speed-accuracy tradeoff in decision-making |
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