| scholarly article | Q13442814 |
| P8978 | DBLP publication ID | journals/jocn/SanMiguelCE08 |
| P356 | DOI | 10.1162/JOCN.2008.20078 |
| P698 | PubMed publication ID | 18284343 |
| P50 | author | MJ Corral | Q57413694 |
| Iria San Miguel | Q64136525 | ||
| P2093 | author name string | Carles Escera | |
| P2860 | cites work | An integrative theory of prefrontal cortex function | Q22337028 |
| Working memory as an emergent property of the mind and brain | Q24542449 | ||
| Event-related brain potentials in the study of visual selective attention | Q24601030 | ||
| Control of goal-directed and stimulus-driven attention in the brain | Q27860553 | ||
| The concept of auditory stimulus representation in cognitive neuroscience | Q28139693 | ||
| The role of working memory in visual selective attention | Q28161576 | ||
| The role of prefrontal cortex in working-memory capacity, executive attention, and general fluid intelligence: an individual-differences perspective | Q28179876 | ||
| CONTINGENT NEGATIVE VARIATION: AN ELECTRIC SIGN OF SENSORIMOTOR ASSOCIATION AND EXPECTANCY IN THE HUMAN BRAIN | Q28198263 | ||
| Dynamic cortical networks of verbal and spatial working memory: effects of memory load and task practice | Q48346154 | ||
| Neural mechanisms of involuntary attention to acoustic novelty and change | Q48358719 | ||
| Task switching and novelty processing activate a common neural network for cognitive control | Q48407454 | ||
| Electrophysiological evidence of abnormal activation of the cerebral network of involuntary attention in alcoholism | Q48421364 | ||
| Selective representation of relevant information by neurons in the primate prefrontal cortex | Q48444192 | ||
| An electrophysiological and behavioral investigation of involuntary attention towards auditory frequency, duration and intensity changes | Q48451385 | ||
| Oscillations in the alpha band (9-12 Hz) increase with memory load during retention in a short-term memory task | Q48546268 | ||
| Effects of involuntary auditory attention on visual task performance and brain activity | Q48603370 | ||
| The effect of visual task difficulty and attentional direction on the detection of acoustic change as indexed by the Mismatch Negativity | Q48639343 | ||
| Interactions between endogenous and exogenous attention on cortical visual processing | Q48642501 | ||
| Activation of brain mechanisms of attention switching as a function of auditory frequency change | Q48690162 | ||
| Attentional load of the primary task influences the frontal but not the temporal generators of mismatch negativity. | Q48694726 | ||
| Brain activity index of distractibility in normal school-age children | Q48714688 | ||
| Attentional set modulates visual areas: an event-related potential study of attentional capture | Q48723016 | ||
| Electrical responses reveal the temporal dynamics of brain events during involuntary attention switching | Q48773174 | ||
| Mismatch negativity is unaffected by top-down predictive information | Q48812315 | ||
| Graded visual attention modulates brain responses evoked by task-irrelevant auditory pitch changes. | Q48941325 | ||
| A comparison of auditory and visual distraction effects: behavioral and event-related indices. | Q49045179 | ||
| Slow cortical potentials during retention of object, spatial, and verbal information | Q49045245 | ||
| The role of working memory in attentional capture. | Q51985123 | ||
| More workload on the central executive of working memory, less attention capture by novel visual distractors: evidence from an fMRI study. | Q51997076 | ||
| Neural fate of ignored stimuli: dissociable effects of perceptual and working memory load. | Q51998826 | ||
| The where and how of attention-based rehearsal in spatial working memory. | Q52000130 | ||
| Neural activity predicts individual differences in visual working memory capacity. | Q52001274 | ||
| The n-back as a dual-task: P300 morphology under divided attention. | Q52010461 | ||
| Overlapping mechanisms of attention and spatial working memory. | Q52021145 | ||
| Modulation of slow brain potentials by working memory load in spatial and nonspatial auditory tasks. | Q52027532 | ||
| Load theory of selective attention and cognitive control. | Q52087686 | ||
| Interactions between visual working memory and selective attention. | Q52139851 | ||
| The role of spatial selective attention in working memory for locations: evidence from event-related potentials. | Q52163603 | ||
| Primary task demands modulate P3a amplitude. | Q52171090 | ||
| Can new objects override attentional control settings? | Q52176440 | ||
| Costs of a predictible switch between simple cognitive tasks | Q57950617 | ||
| Auditory distraction: event-related potential and behavioral indices | Q58808142 | ||
| Combined spatial and temporal imaging of brain activity during visual selective attention in humans | Q59065682 | ||
| Dual-task interference in simple tasks: data and theory | Q28241540 | ||
| Distracted and confused?: selective attention under load | Q30462783 | ||
| The novelty P3: an event-related brain potential (ERP) sign of the brain's evaluation of novelty | Q30655847 | ||
| An adaptive coding model of neural function in prefrontal cortex | Q30665763 | ||
| Neuroimaging analyses of human working memory | Q32015272 | ||
| Attention and performance | Q33930623 | ||
| Involuntary attention and distractibility as evaluated with event-related brain potentials | Q33946031 | ||
| On the utility of P3 amplitude as a measure of processing capacity | Q33946593 | ||
| Concurrent working memory load can reduce distraction | Q34132238 | ||
| Abrupt visual onsets and selective attention: voluntary versus automatic allocation | Q34168542 | ||
| The prefrontal cortex and cognitive control | Q34185482 | ||
| Working memory: looking back and looking forward | Q34267089 | ||
| The prefrontal cortex--an update: time is of the essence | Q34275356 | ||
| Delay-period activity in the prefrontal cortex: one function is sensory gating | Q34293895 | ||
| Top-down suppression deficit underlies working memory impairment in normal aging | Q34450400 | ||
| Individual differences in working memory | Q34472515 | ||
| Neuropsychology and neuropharmacology of P3a and P3b. | Q34498610 | ||
| Interactions between attention and working memory. | Q36329415 | ||
| Examining task-dependencies of different attentional processes as reflected in the P3a and reorienting negativity components of the human event-related brain potential. | Q38410542 | ||
| Working memory and executive function: the influence of content and load on the control of attention | Q38413701 | ||
| Attention capture by auditory significant stimuli: semantic analysis follows attention switching | Q38425314 | ||
| 'Paradoxical' alpha synchronization in a memory task | Q38450455 | ||
| Behavioral and electrophysiological effects of task-irrelevant sound change: a new distraction paradigm | Q38550520 | ||
| Processing of novel sounds and frequency changes in the human auditory cortex: magnetoencephalographic recordings | Q38552692 | ||
| Involvement of striate and extrastriate visual cortical areas in spatial attention | Q41646209 | ||
| Bottom-up influences on working memory: behavioral and electrophysiological distraction varies with distractor strength | Q43769975 | ||
| Scalp distributions of event-related potentials: an ambiguity associated with analysis of variance models | Q43934288 | ||
| Distributed cortical network for visual attention | Q44962375 | ||
| Intermodal selective attention. II. Effects of attentional load on processing of auditory and visual stimuli in central space | Q45608044 | ||
| Visual task complexity modulates the brain's response to unattended auditory novelty. | Q45747977 | ||
| Source analysis of event-related cortical activity during visuo-spatial attention. | Q46041349 | ||
| Covariations in ERP and PET measures of spatial selective attention in human extrastriate visual cortex | Q46178803 | ||
| Top-down control over involuntary attention switching in the auditory modality | Q47382205 | ||
| Working memory controls involuntary attention switching: evidence from an auditory distraction paradigm | Q48017073 | ||
| Representations in human visual short-term memory: an event-related brain potential study | Q48167863 | ||
| Perceptual and cognitive task difficulty has differential effects on auditory distraction | Q48310137 | ||
| Attentional orienting and reorienting is indicated by human event-related brain potentials | Q48327953 | ||
| Spatiotemporal dynamics of the auditory novelty-P3 event-related brain potential. | Q48329942 | ||
| P433 | issue | 7 | |
| P921 | main subject | electrophysiology | Q1154774 |
| P304 | page(s) | 1131-1145 | |
| P577 | publication date | 2008-07-01 | |
| P1433 | published in | Journal of Cognitive Neuroscience | Q6294976 |
| P1476 | title | When loading working memory reduces distraction: behavioral and electrophysiological evidence from an auditory-visual distraction paradigm | |
| P478 | volume | 20 |
| Q35645226 | A load on my mind: evidence that anhedonic depression is like multi-tasking. |
| Q55333197 | Auditory Task Irrelevance: A Basis for Inattentional Deafness. |
| Q30416388 | Auditory distraction transmitted by a cochlear implant alters allocation of attentional resources |
| Q37025506 | Auditory habituation to simple tones: reduced evidence for habituation in children compared to adults |
| Q30459822 | Auditory processing under cross-modal visual load investigated with simultaneous EEG-fMRI. |
| Q48695416 | Auditory working memory load impairs visual ventral stream processing: toward a unified model of attentional load |
| Q38111765 | Beyond perceptual load and dilution: a review of the role of working memory in selective attention |
| Q30361880 | COMT and DRD2/ANKK-1 gene-gene interaction account for resetting of gamma neural oscillations to auditory stimulus-driven attention |
| Q50562333 | Central load reduces peripheral processing: Evidence from incidental memory of background speech. |
| Q58564180 | Cognitive resilience after prolonged task performance: an ERP investigation |
| Q30382741 | Concentration: The Neural Underpinnings of How Cognitive Load Shields Against Distraction. |
| Q33936950 | Controlling attention to nociceptive stimuli with working memory |
| Q49383968 | Cortical oscillations and entrainment in speech processing during working memory load |
| Q30470747 | Cortical responses to changes in acoustic regularity are differentially modulated by attentional load |
| Q39549384 | Cross-modal distractors modulate oscillatory alpha power: the neural basis of impaired task performance. |
| Q38161840 | Deviance detection based on regularity encoding along the auditory hierarchy: electrophysiological evidence in humans |
| Q30474554 | Dissociable memory- and response-related activity in parietal cortex during auditory spatial working memory |
| Q37159324 | Distracted While Reading? Changing to a Hard-to-Read Font Shields against the Effects of Environmental Noise and Speech on Text Memory |
| Q42700522 | Effect of EEG Referencing Methods on Auditory Mismatch Negativity |
| Q49947700 | Enhancement of pain inhibition by working memory with anodal transcranial direct current stimulation of the left dorsolateral prefrontal cortex. |
| Q33906488 | Functional fractionation of the stimulus-driven attention network. |
| Q35529503 | Habitual short sleep impacts frontal switch mechanism in attention to novelty |
| Q30378325 | Happiness increases distraction by auditory deviant stimuli. |
| Q30382302 | High Working Memory Load Impairs Language Processing during a Simulated Piloting Task: An ERP and Pupillometry Study. |
| Q42531929 | How Concentration Shields Against Distraction |
| Q30431170 | How does the extraction of local and global auditory regularities vary with context? |
| Q91759597 | How the deployment of visual attention modulates auditory distraction |
| Q30376377 | Increasing Working Memory Load Reduces Processing of Cross-Modal Task-Irrelevant Stimuli Even after Controlling for Task Difficulty and Executive Capacity. |
| Q30420322 | Individual differences in distractibility: An update and a model |
| Q33495051 | Involuntary orienting of attention to nociceptive events: neural and behavioral signatures |
| Q30447471 | Low-arousal speech noise improves performance in N-back task: an ERP study |
| Q46424953 | Mind Your Grip: Even Usual Dexterous Manipulation Requires High Level Cognition |
| Q48555457 | New rather than old? For working memory tasks with abstract patterns the P3 and the single-trial delta response are larger for modified than identical probe stimuli |
| Q50697394 | Novelty detection is enhanced when attention is otherwise engaged: an event-related potential study. |
| Q30417341 | P300 event-related potential as an indicator of inattentional deafness? |
| Q60959801 | Potential Mechanisms for the Ketamine-Induced Reduction of P3b Amplitudes |
| Q30448083 | Processing of complex distracting sounds in school-aged children and adults: evidence from EEG and MEG data |
| Q30457993 | Processing of self-initiated speech-sounds is different in musicians |
| Q30388818 | Sound segregation via embedded repetition is robust to inattention |
| Q30388480 | Steering Demands Diminish the Early-P3, Late-P3 and RON Components of the Event-Related Potential of Task-Irrelevant Environmental Sounds |
| Q47643707 | Suppression of irrelevant sounds during auditory working memory |
| Q91818622 | Surprise responses in the human brain demonstrate statistical learning under high concurrent cognitive demand |
| Q47123537 | Task-Irrelevant Novel Sounds have Antithetical Effects on Visual Target Processing in Young and Old Adults |
| Q30475114 | Task-specific modulation of human auditory evoked response in a delayed-match-to-sample task |
| Q90089990 | The Impact of Cognitive Load on the Cardiac Orienting Response to Auditory Structural Features during Natural Radio Listening Situations |
| Q47664653 | The auditory oddball paradigm revised to improve bedside detection of consciousness in behaviorally unresponsive patients |
| Q38173323 | The cognitive determinants of behavioral distraction by deviant auditory stimuli: a review. |
| Q48128898 | The electrophysiological effect of working memory load on involuntary attention in an auditory-visual distraction paradigm: an ERP study. |
| Q51914268 | The involuntary capture of attention by sound: novelty and postnovelty distraction in young and older adults. |
| Q30479048 | The modulation of auditory novelty processing by working memory load in school age children and adults: a combined behavioral and event-related potential study |
| Q30433110 | The relationship between dehydroepiandrosterone (DHEA), working memory and distraction--a behavioral and electrophysiological approach |
| Q30452035 | The role of auditory transient and deviance processing in distraction of task performance: a combined behavioral and event-related brain potential study |
| Q90050309 | Visual Perceptual Load Does Not Affect the Frequency Mismatch Negativity |
| Q24288688 | Visual Task Demands and the Auditory Mismatch Negativity: An Empirical Study and a Meta-Analysis |
| Q30406872 | When doors of perception close: bottom-up models of disrupted cognition in schizophrenia |
| Q30984763 | When flanker meets the n-back: What EEG and pupil dilation data reveal about the interplay between the two central-executive working memory functions inhibition and updating |
| Q90370079 | Word Identification With Temporally Interleaved Competing Sounds by Younger and Older Adult Listeners |
| Q92188213 | Working Memory Load Enhances the Attentional Capture of Low Reward History |
| Q48422729 | Working memory capacity and visual-verbal cognitive load modulate auditory-sensory gating in the brainstem: toward a unified view of attention |
| Q30469374 | Working memory capacity modulates habituation rate: evidence from a cross-modal auditory distraction paradigm |
Search more.