scholarly article | Q13442814 |
P2093 | author name string | John E Richards | |
P2860 | cites work | Letter: The epsilon-adjustment procedure for repeated-measures analyses of variance | Q67456580 |
Comparing repeated measures means in factorial designs | Q67961682 | ||
Topography of scalp potentials preceding self-initiated saccades | Q68742135 | ||
Spherical splines for scalp potential and current density mapping | Q69052761 | ||
Cerebral potentials preceding visually triggered saccades | Q70947634 | ||
The presaccadic cortical negativity prior to self-paced saccades with and without visual guidance | Q71646873 | ||
Guidelines for using human event-related potentials to study cognition: recording standards and publication criteria | Q73581007 | ||
Peripheral stimulus localization by infants with eye and head movements during visual attention | Q74025627 | ||
CONTINGENT NEGATIVE VARIATION: AN ELECTRIC SIGN OF SENSORIMOTOR ASSOCIATION AND EXPECTANCY IN THE HUMAN BRAIN | Q28198263 | ||
Multiple dipole modeling and localization from spatio-temporal MEG data. | Q30351041 | ||
Scalp electrode impedance, infection risk, and EEG data quality | Q30635243 | ||
Functional neuroanatomy of antisaccade eye movements investigated with positron emission tomography | Q34751923 | ||
Methods for separating temporally overlapping sources of neuroelectric data | Q36444575 | ||
Scalp current density mapping: value and estimation from potential data | Q36461034 | ||
Blind separation of auditory event-related brain responses into independent components | Q36603534 | ||
Guidelines for the recording and quantitative analysis of electroencephalographic activity in research contexts. | Q40783615 | ||
Location and function of the human frontal eye-field: a selective review | Q40938349 | ||
Involvement of striate and extrastriate visual cortical areas in spatial attention | Q41646209 | ||
Antisaccade performance predicted by neuronal activity in the supplementary eye field | Q46597489 | ||
Estimating and Testing the Sources of Evoked Potentials in the Brain | Q48090757 | ||
A componential analysis of the ERP elicited by novel events using a dense electrode array | Q48196356 | ||
Eye movement disorders after frontal eye field lesions in humans | Q48226764 | ||
Spatial sampling of head electrical fields: the geodesic sensor net | Q48230111 | ||
Principal components analysis for source localization of VEPs in man. | Q48231927 | ||
Role of primate superior colliculus in preparation and execution of anti-saccades and pro-saccades. | Q48257316 | ||
Saccadic eye movement and working memory deficits following damage to human prefrontal cortex. | Q48334942 | ||
The antisaccade: a review of basic research and clinical studies | Q48394397 | ||
The human pre-saccadic spike potential: influences of a visual target, saccade direction, electrode laterality and instructions to perform saccades | Q48436176 | ||
Dependence of presaccadic cortical potentials on the type of saccadic eye movement | Q48440060 | ||
The role of cerebral cortex in the generation of voluntary saccades: a positron emission tomographic study | Q48466675 | ||
Presaccadic 'spike' potential: investigation of topography and source | Q48469085 | ||
Event-related potentials associated with correct and incorrect responses in a cued antisaccade task | Q48488750 | ||
Characteristics of ?anti? saccades in man | Q48558636 | ||
Functional imaging and localization of electromagnetic brain activity | Q48577728 | ||
Cortical potentials preceding centrifugal and centripetal self-paced horizontal saccades | Q48620018 | ||
Attention and oculomotor control: a high-density ERP study of the gap effect | Q48693757 | ||
Cortical control of reflexive visually-guided saccades | Q48709070 | ||
Cortical potentials preceding pro- and antisaccades in man. | Q48738201 | ||
Changes of presaccadic cortical activity when performing horizontal, visually guided saccades | Q48763794 | ||
Directional tuning of the human presaccadic spike potential | Q48768361 | ||
Topographic analysis of human cortical potentials preceding self-initiated and visually triggered saccades | Q48922500 | ||
Cortical potentials with antisaccades | Q48982694 | ||
Frequency characteristics of the smooth pursuit component in tracking eye movements. | Q50803229 | ||
Positron emission tomography study of voluntary saccadic eye movements and spatial working memory. | Q52010943 | ||
Prefrontal neuronal activity in rhesus monkeys performing a delayed anti-saccade task. | Q52060743 | ||
Impaired modulation of the saccadic contingent negative variation preceding antisaccades in schizophrenia. | Q52167922 | ||
Reflex suppression in the anti-saccade task is dependent on prestimulus neural processes. | Q52184351 | ||
Primary and secondary saccades to goals defined by instructions | Q67425248 | ||
P433 | issue | 6 | |
P304 | page(s) | 878-894 | |
P577 | publication date | 2003-11-01 | |
P1433 | published in | Psychophysiology | Q15716416 |
P1476 | title | Cortical sources of event-related potentials in the prosaccade and antisaccade task | |
P478 | volume | 40 |
Q34367543 | Abnormal mechanisms of antisaccade generation in schizophrenia patients and unaffected biological relatives of schizophrenia patients |
Q48378196 | Antipointing: perception-based visual information renders an offline mode of control |
Q48190371 | Antisaccades exhibit diminished online control relative to prosaccades |
Q92260921 | Atypical Pattern of Frontal EEG Asymmetry for Direct Gaze in Young Children with Autism Spectrum Disorder |
Q33444903 | Cortical source localization of infant cognition |
Q30541085 | Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models |
Q83407024 | Early event-related cortical activity originating in the frontal eye fields and inferior parietal lobe predicts the occurrence of correct and error saccades |
Q48468717 | Electroencephalographic evidence of vector inversion in antipointing |
Q30362188 | Electrophysiological Endophenotypes for Schizophrenia |
Q48089304 | Event-related potentials before saccades and antisaccades and their relation to reaction time |
Q89578033 | Eye Movements and Fixation-Related Potentials in Reading: A Review |
Q34623619 | Familiarization, attention, and recognition memory in infancy: an event-related potential and cortical source localization study |
Q37653395 | Infant attention and visual preferences: converging evidence from behavior, event-related potentials, and cortical source localization. |
Q34623639 | Localizing cortical sources of event-related potentials in infants' covert orienting |
Q92509666 | Mapping neural dynamics underlying saccade preparation and execution and their relation to reaction time and direction errors |
Q35030883 | Neural Correlates of Individual Differences in Infant Visual Attention and Recognition Memory |
Q60949974 | Neural Oscillations and the Initiation of Voluntary Movement |
Q98469650 | Neural correlates of task-related refixation behavior |
Q38495777 | Neural plasticity and the development of attention: Intrinsic and extrinsic influences |
Q35850626 | Neural saccadic response estimation during natural viewing |
Q37286739 | Neurophysiology and neuroanatomy of reflexive and volitional saccades: evidence from studies of humans |
Q99585527 | Ocular fixations and presaccadic potentials to explain pareidolias in Parkinson's disease |
Q81576143 | Presaccadic brain potentials in conditions of covert attention orienting |
Q36852853 | Sequential activation of human oculomotor centers during planning of visually-guided eye movements: a combined fMRI-MEG study |
Q34561408 | Testing neural models of the development of infant visual attention |
Q50087983 | The Study of the Antisaccade Performance and Contingent Negative Variation Characteristics in First-Episode and Chronic Schizophrenia Patients |
Q36522001 | The antisaccade task as a research tool in psychopathology: a critical review |
Q43528094 | The antisaccade task performance deficit and specific CNV abnormalities in patients with stereotyped paraphilia and schizophrenia. |
Q41575000 | Visual encoding and fixation target selection in free viewing: presaccadic brain potentials |
Q48377641 | Visual stimulation enhances auditory processing in 3-month-old infants and adults |
Q48282121 | When does the brain inform the eyes whether and where to move? An EEG study in humans |
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