Electrophysiological correlates of attention networks in childhood and early adulthood

[1]  P. Paz-Alonso,et al.  Development of attention networks and their interactions in childhood. , 2014, Developmental psychology.

[2]  J. Richards,et al.  The Development of Attention , 2013 .

[3]  Vijay K. Venkatraman,et al.  Multimodal imaging of the self-regulating developing brain , 2012, Proceedings of the National Academy of Sciences.

[4]  M. Posner,et al.  The attention system of the human brain: 20 years after. , 2012, Annual review of neuroscience.

[5]  Avishai Henik,et al.  The relationship between alertness and executive control. , 2012, Journal of experimental psychology. Human perception and performance.

[6]  Kathy Conklin,et al.  Electrophysiological measures of conflict detection and resolution in the Stroop task , 2011, Brain Research.

[7]  G. Coppola,et al.  Intensity dependence of auditory evoked potentials during light interference in migraine , 2011, Neuroscience Letters.

[8]  Shu-Chen Li,et al.  An electrophysiological study of response conflict processing across the lifespan: Assessing the roles of conflict monitoring, cue utilization, response anticipation, and response suppression , 2010, Neuropsychologia.

[9]  R. Burkard Human Auditory Evoked Potentials , 2010 .

[10]  F. Waszak Across-Task Long-Term Priming: Interaction of Task Readiness and Automatic Retrieval , 2010, Quarterly journal of experimental psychology.

[11]  Carlos M. Gómez,et al.  Evaluation of spatial validity–invalidity by the P300 component in children and young adults , 2010, Brain Research Bulletin.

[12]  B. Hommel,et al.  The development of attentional networks: cross-sectional findings from a life span sample. , 2010, Developmental psychology.

[13]  Sufen Chen,et al.  Sequential effects in the Simon task: Conflict adaptation or feature integration? , 2009, Brain Research.

[14]  Jin Fan,et al.  Testing the behavioral interaction and integration of attentional networks , 2009, Brain and Cognition.

[15]  J. Lupiáñez,et al.  Effects of endogenous and exogenous attention on visual processing: An Inhibition of Return study , 2009, Brain Research.

[16]  William M. Perlstein,et al.  Neural time course of conflict adaptation effects on the Stroop task , 2009, Neuropsychologia.

[17]  Carlos M. Gómez,et al.  Wavelet analysis of the EEG during the neurocognitive evaluation of invalidly cued targets , 2008, Brain Research.

[18]  S. Petersen,et al.  A dual-networks architecture of top-down control , 2008, Trends in Cognitive Sciences.

[19]  Carlos M. Gómez,et al.  P3a and P3b components associated to the neurocognitive evaluation of invalidly cued targets , 2008, Neuroscience Letters.

[20]  Yiyuan Tang,et al.  The anterior cingulate gyrus and the mechanism of self-regulation , 2007, Cognitive, affective & behavioral neuroscience.

[21]  Cameron S Carter,et al.  Development of action monitoring through adolescence into adulthood: ERP and source localization. , 2007, Developmental science.

[22]  R. Todd,et al.  The self-regulating brain: Cortical-subcortical feedback and the development of intelligent action , 2007 .

[23]  S. Petersen,et al.  Development of distinct control networks through segregation and integration , 2007, Proceedings of the National Academy of Sciences.

[24]  Dale Dagenbach,et al.  Age-Related Changes and the Attention Network Task: An Examination of Alerting, Orienting, and Executive Function , 2007, Neuropsychology, development, and cognition. Section B, Aging, neuropsychology and cognition.

[25]  P. Zelazo,et al.  Neurophysiological mechanisms of emotion regulation for subtypes of externalizing children , 2007, Development and Psychopathology.

[26]  Philipp Kanske,et al.  Probing the Mechanisms of Attention , 2007 .

[27]  Bruce D. McCandliss,et al.  Response Anticipation and Response Conflict: An Event-Related Potential and Functional Magnetic Resonance Imaging Study , 2007, The Journal of Neuroscience.

[28]  D. Amso,et al.  Development of cognitive control and executive functions from 4 to 13 years: Evidence from manipulations of memory, inhibition, and task switching , 2006, Neuropsychologia.

[29]  Philip David Zelazo,et al.  Neural correlates of cognitive control in childhood and adolescence: Disentangling the contributions of age and executive function , 2006, Neuropsychologia.

[30]  W. Perlstein,et al.  Temporal dissociation of components of cognitive control dysfunction in severe TBI: ERPs and the cued-Stroop task , 2006, Neuropsychologia.

[31]  L. Jonkman,et al.  The development of preparation, conflict monitoring and inhibition from early childhood to young adulthood; a Go/Nogo ERP study , 2006, Brain Research.

[32]  Jin Fan,et al.  Development of attentional networks: An fMRI study with children and adults , 2005, NeuroImage.

[33]  Stephan Bender,et al.  How do children prepare to react? Imaging maturation of motor preparation and stimulus anticipation by late contingent negative variation , 2005, NeuroImage.

[34]  M. Posner,et al.  The Development of Executive Attention: Contributions to the Emergence of Self-Regulation , 2005, Developmental neuropsychology.

[35]  Pío Tudela,et al.  Modulations among the alerting, orienting and executive control networks , 2005, Experimental Brain Research.

[36]  Jin Fan,et al.  The activation of attentional networks , 2005, NeuroImage.

[37]  S. Bryson,et al.  The Development of Endogenous Orienting: Control Over the Scope of Attention and Lateral Asymmetries , 2005, Developmental neuropsychology.

[38]  Bruce D. McCandliss,et al.  Development of attentional networks in childhood , 2004, Neuropsychologia.

[39]  Clintin P Davis-Stober,et al.  Development of the time course for processing conflict: an event-related potentials study with 4 year olds and adults , 2004, BMC Neuroscience.

[40]  J. Kenemans,et al.  Electrophysiological correlates of attention, inhibition, sensitivity and bias in a continuous performance task , 2004, Clinical Neurophysiology.

[41]  E. Mezzacappa Alerting, orienting, and executive attention: developmental properties and sociodemographic correlates in an epidemiological sample of young, urban children. , 2004, Child development.

[42]  S. Segalowitz,et al.  Charting the maturation of the frontal lobe: An electrophysiological strategy , 2004, Brain and Cognition.

[43]  Rainer Goebel,et al.  Attentional systems in target and distractor processing: a combined ERP and fMRI study , 2004, NeuroImage.

[44]  Juan Lupiáñez,et al.  The three attentional networks: On their independence and interactions , 2004, Brain and Cognition.

[45]  R. West,et al.  Neural correlates of cognitive control and conflict detection in the Stroop and digit-location tasks , 2003, Neuropsychologia.

[46]  L. Jonkman,et al.  Developmental differences in behavioral and event-related brain responses associated with response preparation and inhibition in a go/nogo task. , 2003, Psychophysiology.

[47]  J. Townsend,et al.  The development of attentional orienting during the school-age years , 2003 .

[48]  C. Carter,et al.  The anterior cingulate as a conflict monitor: fMRI and ERP studies , 2002, Physiology & Behavior.

[49]  Nathalie Vizueta,et al.  Attentional mechanisms of borderline personality disorder , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[50]  F. Cadaveira,et al.  Covert orienting of visuospatial attention in the early stages of aging , 2002, Neuroreport.

[51]  S. Bryson,et al.  The development of exogenous orienting: mechanisms of control. , 2002, Journal of experimental child psychology.

[52]  Bruce D. McCandliss,et al.  Testing the Efficiency and Independence of Attentional Networks , 2002, Journal of Cognitive Neuroscience.

[53]  P. Alku,et al.  Sound complexity and 'speechness' effects on pre-attentive auditory discrimination in children. , 2002, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[54]  M. Corbetta,et al.  Control of goal-directed and stimulus-driven attention in the brain , 2002, Nature Reviews Neuroscience.

[55]  T. Curran,et al.  Effects of aging on visuospatial attention: an ERP study , 2001, Neuropsychologia.

[56]  M. Posner,et al.  Assessing the heritability of attentional networks , 2001, BMC Neuroscience.

[57]  D. Maurer,et al.  Developmental changes in attention: the effects of endogenous cueing and of distractors , 2001 .

[58]  R. West,et al.  Effects of task context and fluctuations of attention on neural activity supporting performance of the Stroop task , 2000, Brain Research.

[59]  Michael I. Posner,et al.  Computerized games to study the development of attention in childhood , 2000, Behavior research methods, instruments, & computers : a journal of the Psychonomic Society, Inc.

[60]  A. Nobre,et al.  Orienting attention in time: behavioural and neuroanatomical distinction between exogenous and endogenous shifts , 2000, Neuropsychologia.

[61]  H. Mayberg,et al.  An ERP study of the temporal course of the Stroop color-word interference effect , 2000, Neuropsychologia.

[62]  G. Band,et al.  The ability to activate and inhibit speeded responses: separate developmental trends. , 2000, Journal of experimental child psychology.

[63]  E. Vogel,et al.  The visual N1 component as an index of a discrimination process. , 2000, Psychophysiology.

[64]  C. Perchet,et al.  Visuospatial attention and motor reaction in children: an electrophysiological study of the "Posner" paradigm. , 2000, Psychophysiology.

[65]  J. Eggermont,et al.  Maturation of human central auditory system activity: evidence from multi-channel evoked potentials , 2000, Clinical Neurophysiology.

[66]  M. Posner,et al.  Pathologies of brain attentional networks , 2000, Neuroscience & Biobehavioral Reviews.

[67]  N. Kraus,et al.  Developmental changes in P1 and N1 central auditory responses elicited by consonant-vowel syllables. , 1997, Electroencephalography and clinical neurophysiology.

[68]  J. Eggermont,et al.  Maturation of Human Cortical Auditory Function: Differences Between Normal‐Hearing Children and Children with Cochlear Implants , 1996, Ear and hearing.

[69]  K. R. Ridderinkhof,et al.  A psychophysiological analysis of developmental differences in the ability to resist interference , 1995 .

[70]  M. Posner Attention: the mechanisms of consciousness. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[71]  Georg Juckel,et al.  Intensity dependence of auditory evoked potentials as an indicator of central serotonergic neurotransmission: A new hypothesis , 1993, Biological Psychiatry.

[72]  S. Hillyard,et al.  Modulations of sensory-evoked brain potentials indicate changes in perceptual processing during visual-spatial priming. , 1991, Journal of experimental psychology. Human perception and performance.

[73]  C. Brunia,et al.  Distribution of slow brain potentials related to motor preparation and stimulus anticipation in a time estimation task. , 1988, Electroencephalography and clinical neurophysiology.

[74]  S. A. Hillyard,et al.  The Spatial Allocation of Visual Attention as Indexed by Event-Related Brain Potentials , 1987, Human factors.

[75]  S A Hillyard,et al.  Electroretinograms reveal no evidence for centrifugal modulation of retinal inputs during selective attention in man. , 1986, Psychophysiology.

[76]  H G Vaughan,et al.  Manipulation of event-related potential manifestations of information processing stages. , 1982, Science.

[77]  M Sugitani,et al.  Touching textured surfaces: cells in somatosensory cortex respond both to finger movement and to surface features. , 1982, Science.

[78]  F. Morrison The development of alertness. , 1982, Journal of experimental child psychology.

[79]  W. Walter,et al.  Contingent Negative Variation : An Electric Sign of Sensori-Motor Association and Expectancy in the Human Brain , 1964, Nature.

[80]  J. Cacioppo,et al.  Handbook of Psychophysiology: FOUNDATIONS OF PSYCHOPHYSIOLOGY , 2007 .

[81]  Carlos M. Gómez,et al.  A neurocognitive model for short-term sensory and motor preparatory activity in humans , 2004 .

[82]  S. Luck,et al.  The role of attention in feature detection and conjunction discrimination: an electrophysiological analysis. , 1995, The International journal of neuroscience.

[83]  G. Mangun Neural mechanisms of visual selective attention. , 1995, Psychophysiology.

[84]  M. Posner,et al.  Spatiotemporal analysis of brain electrical fields , 1994 .

[85]  M. Posner,et al.  The attention system of the human brain. , 1990, Annual review of neuroscience.

[86]  M. Posner,et al.  Components of visual orienting , 1984 .

[87]  C. Eriksen,et al.  Effects of noise letters upon the identification of a target letter in a nonsearch task , 1974 .

[88]  A. Sanford,et al.  Effects of age on the contingent negative variation and preparatory set in a reaction-time task. , 1974, Journal of gerontology.

[89]  S. Hillyard,et al.  Human auditory evoked potentials. I. Evaluation of components. , 1974, Electroencephalography and clinical neurophysiology.

[90]  Michael I. Posner,et al.  Please Scroll down for Article the Quarterly Journal of Experimental Psychology Orienting of Attention Orienting of Attention* , 2022 .