Reactive Recruitment of Attentional Control in Math Anxiety: An ERP Study of Numeric Conflict Monitoring and Adaptation
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María Isabel Núñez-Peña | Àngels Colomé | Macarena Suárez-Pellicioni | M. I. Núñez-Peña | M. Suárez-Pellicioni | À. Colomé
[1] U. Goswami,et al. Executive function effects and numerical development in children : behavioural and ERP evidence from a numerical Stroop paradigm , 2011 .
[2] Nicolás Seisdedos Cubero,et al. Cuestionario de ansiedad estado-rasgo: manual , 1982 .
[3] Michael W. Faust. Mathematics Anxiety Effects in Simple and Complex Addition , 1996 .
[4] Andrew R. A. Conway,et al. Variation in working memory , 2008 .
[5] Jamie I. D. Campbell. Handbook of mathematical cognition , 2004 .
[6] C. Spielberger,et al. Manual for the State-Trait Anxiety Inventory , 1970 .
[7] Colin M. Macleod. Half a century of research on the Stroop effect: an integrative review. , 1991, Psychological bulletin.
[8] S. H. Hochman. The effects of stress on Stroop color-word performance , 1967 .
[9] S. Geisser,et al. An Extension of Box's Results on the Use of the $F$ Distribution in Multivariate Analysis , 1958 .
[10] Chris Donlan,et al. The Development of Mathematical Skills , 2021 .
[11] R. West,et al. Neural correlates of cognitive control and conflict detection in the Stroop and digit-location tasks , 2003, Neuropsychologia.
[12] M. I. Núñez-Peña,et al. Mathematical anxiety effects on simple arithmetic processing efficiency: An event-related potential study , 2013, Biological Psychology.
[13] M. J. Emerson,et al. The Unity and Diversity of Executive Functions and Their Contributions to Complex “Frontal Lobe” Tasks: A Latent Variable Analysis , 2000, Cognitive Psychology.
[14] María Isabel Núñez-Peña,et al. Abnormal Error Monitoring in Math-Anxious Individuals: Evidence from Error-Related Brain Potentials , 2013, PloS one.
[15] M. Corbetta,et al. Control of goal-directed and stimulus-driven attention in the brain , 2002, Nature Reviews Neuroscience.
[16] O Bertrand,et al. A theoretical justification of the average reference in topographic evoked potential studies. , 1985, Electroencephalography and clinical neurophysiology.
[17] Stefan J. Kiebel,et al. Amygdala damage affects event‐related potentials for fearful faces at specific time windows , 2009, Human brain mapping.
[18] J. Hennig,et al. Trait anxiety and dynamic adjustments in conflict processing , 2010, Cognitive, affective & behavioral neuroscience.
[19] M. Eysenck,et al. Anxiety and Performance: The Processing Efficiency Theory , 1992 .
[20] M. Lansbergen,et al. Impulsivity and conflict in the Stroop task: An ERP study. , 2007 .
[21] H. Gebhardt,et al. Trait anxiety and the dynamics of attentional control , 2012, Biological Psychology.
[22] William M. Perlstein,et al. Neural time course of conflict adaptation effects on the Stroop task , 2009, Neuropsychologia.
[23] N. Derakshan,et al. The neural correlates of cognitive effort in anxiety: Effects on processing efficiency , 2011, Biological Psychology.
[24] H. McNeely,et al. Neurophysiological evidence for disturbances of conflict processing in patients with schizophrenia. , 2003, Journal of abnormal psychology.
[25] M. D’Esposito. Working memory. , 2008, Handbook of clinical neurology.
[26] S. Hillyard,et al. Cortical sources of the early components of the visual evoked potential , 2002, Human brain mapping.
[27] Marina Schmid,et al. An Introduction To The Event Related Potential Technique , 2016 .
[28] M. Woldorff,et al. Priming and backward influences in the human brain: processing interactions during the stroop interference effect. , 2009, Cerebral cortex.
[29] C Alain,et al. Event-related neural activity associated with the Stroop task. , 1999, Brain research. Cognitive brain research.
[30] C. Carter,et al. The anterior cingulate as a conflict monitor: fMRI and ERP studies , 2002, Physiology & Behavior.
[31] Yue-jia Luo,et al. Emotional conflict occurs at an early stage: Evidence from the emotional face–word Stroop task , 2010, Neuroscience Letters.
[32] P. Rabbitt. Errors and error correction in choice-response tasks. , 1966, Journal of experimental psychology.
[33] H. Mayberg,et al. An ERP study of the temporal course of the Stroop color-word interference effect , 2000, Neuropsychologia.
[34] M. Botvinick,et al. Parsing executive processes: strategic vs. evaluative functions of the anterior cingulate cortex. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[35] S. H. Hochman. Stress and Response Competition in Children's Color-Word Performance , 1969, Perceptual and motor skills.
[36] Jonathan A. Fugelsang,et al. The effect of mathematics anxiety on the processing of numerical magnitude. , 2011, Quarterly journal of experimental psychology.
[37] Charles D. Spielberger,et al. State-Trait Anxiety Inventory for Adults , 2012 .
[38] M. I. Núñez-Peña,et al. A Spanish version of the short Mathematics Anxiety Rating Scale (sMARS) , 2013 .
[39] H. Meeren,et al. Rapid perceptual integration of facial expression and emotional body language. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[40] Daniel W. McNeil,et al. The Emotional Stroop Paradigm: Performance as a Function of Stimulus Properties and Self-Reported Mathematics Anxiety , 2002, Cognitive Therapy and Research.
[41] J. Ridley. Studies of Interference in Serial Verbal Reactions , 2001 .
[42] E. Donchin,et al. Optimizing the use of information: strategic control of activation of responses. , 1992, Journal of experimental psychology. General.
[43] Fruzsina Soltész,et al. Functional definition of the N450 event-related brain potential marker of conflict processing: a numerical stroop study , 2012, BMC Neuroscience.
[44] Mark H. Ashcraft,et al. Math anxiety and its cognitive consequences: A tutorial review. , 2005 .
[45] Richard Ridderinkhof. Micro- and macro-adjustments of task set: activation and suppression in conflict tasks , 2002, Psychological research.
[46] Dénes Szücs,et al. Motor conflict in Stroop tasks: Direct evidence from single-trial electro-myography and electro-encephalography , 2009, NeuroImage.
[47] M. Botvinick,et al. Conflict monitoring and cognitive control. , 2001, Psychological review.
[48] Daniel Ansari,et al. Mathematics anxiety affects counting but not subitizing during visual enumeration , 2010, Cognition.
[49] R. West,et al. Sensitivity of medial frontal cortex to response and nonresponse conflict. , 2004, Psychophysiology.
[50] R. West,et al. Effects of task context and fluctuations of attention on neural activity supporting performance of the Stroop task , 2000, Brain Research.
[51] M. Pallak,et al. The effect of arousal on Stroop color-word task performance , 1975 .
[52] M. Eysenck,et al. Anxiety and cognitive performance: attentional control theory. , 2007, Emotion.
[53] T. Braver,et al. Anxiety and cognitive efficiency: Differential modulation of transient and sustained neural activity during a working memory task , 2008, Cognitive, affective & behavioral neuroscience.
[54] W. Perlstein,et al. Temporal dissociation of components of cognitive control dysfunction in severe TBI: ERPs and the cued-Stroop task , 2006, Neuropsychologia.
[55] Kathy Conklin,et al. Electrophysiological measures of conflict detection and resolution in the Stroop task , 2011, Brain Research.
[56] R. M. Suinn,et al. The Mathematics Anxiety Rating Scale: Psychometric data , 1972 .
[57] Livingston Alexander,et al. The Development of an Abbreviated Version of the Mathematics Anxiety Rating Scale , 1989 .
[58] T. Braver,et al. Explaining the many varieties of working memory variation: Dual mechanisms of cognitive control. , 2007 .
[59] Tobias Egner,et al. Right Ventrolateral Prefrontal Cortex Mediates Individual Differences in Conflict-driven Cognitive Control , 2011, Journal of Cognitive Neuroscience.
[60] M. Ashcraft,et al. On the cognitive consequences of mathematics anxiety , 2021, The Development of Mathematical Skills.
[61] Jonathan D. Cohen,et al. Anterior Cingulate Conflict Monitoring and Adjustments in Control , 2004, Science.
[62] Tobias Egner,et al. The neural correlates and functional integration of cognitive control in a Stroop task , 2005, NeuroImage.
[63] M. Ashcraft,et al. Mathematics anxiety and working memory: support for the existence of a deficient inhibition mechanism. , 1998, Journal of anxiety disorders.
[64] Nicholas Wymbs,et al. Neural correlates of conflict processing , 2005, Experimental Brain Research.