Regulating action: alternating activation of midline frontal and motor cortical networks

[1]  G. Rylander Personality analysis before and after frontal lobotomy. , 1948, Research publications - Association for Research in Nervous and Mental Disease.

[2]  C. Whitty,et al.  PERSONALITY CHANGES AFTER OPERATIONS ON THE CINGULATE GYRUS IN MAN , 1953, Journal of neurology, neurosurgery, and psychiatry.

[3]  W. Nauta The problem of the frontal lobe: a reinterpretation. , 1971, Journal of psychiatric research.

[4]  R L Maulsby,et al.  An illustration of emotionally evoked theta rhythm in infancy: hedonic hypersynchrony. , 1971, Electroencephalography and clinical neurophysiology.

[5]  D. Schacter EEG theta waves and psychological phenomena: A review and analysis , 1977, Biological Psychology.

[6]  Masataka Watanabe,et al.  Prefrontal and cingulate unit activity during timing behavior in the monkey , 1979, Brain Research.

[7]  Charles W. Eriksen,et al.  Target redundancy in visual search: Do repetitions of the target within thedisplay impair processing? , 1979 .

[8]  M. Tanaka,et al.  Periodic appearance of theta rhythm in the frontal midline area during performance of a mental task. , 1980, Electroencephalography and clinical neurophysiology.

[9]  A. Damasio,et al.  Severe disturbance of higher cognition after bilateral frontal lobe ablation , 1985, Neurology.

[10]  V. B. Brooks,et al.  ‘Error’ potentials in limbic cortex (anterior cingulate area 24) of monkeys during motor learning , 1986, Neuroscience Letters.

[11]  G. E. Alexander,et al.  Parallel organization of functionally segregated circuits linking basal ganglia and cortex. , 1986, Annual review of neuroscience.

[12]  Steven Sparenborg,et al.  An Executive Function of the Hippocampus Pathway Selection for Thalamic Neuronal Significance Code , 1986 .

[13]  M. Gabriel,et al.  Functions of anterior and posterior cingulate cortex during avoidance learning in rabbits. , 1990, Progress in brain research.

[14]  J. Hohnsbein,et al.  Effects of crossmodal divided attention on late ERP components. II. Error processing in choice reaction tasks. , 1991, Electroencephalography and clinical neurophysiology.

[15]  D. Tucker Spatial sampling of head electrical fields: the geodesic sensor net. , 1993, Electroencephalography and clinical neurophysiology.

[16]  D. Meyer,et al.  A Neural System for Error Detection and Compensation , 1993 .

[17]  H. Groenewegen,et al.  Anatomical Relationships Between the Prefrontal Cortex and the Basal Ganglia in the Rat , 1994 .

[18]  M. Posner,et al.  Localization of a Neural System for Error Detection and Compensation , 1994 .

[19]  A. Thierry,et al.  Motor and Cognitive Functions of the Prefrontal Cortex , 1994, Research and Perspectives in Neurosciences.

[20]  G. E. Alexander Basal Ganglia‐Thalamocortical Circuits: Their Role in Control of Movements , 1994, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

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

[22]  K. Pribram,et al.  Social and Emotional Self‐Regulation a , 1995, Annals of the New York Academy of Sciences.

[23]  Kazuo Sasaki,et al.  Frontal mental theta wave recorded simultaneously with magnetoencephalography and electroencephalography , 1996, Neuroscience Research.

[24]  P Praamstra,et al.  Linear estimation discriminates midline sources and a motor cortex contribution to the readiness potential. , 1996, Electroencephalography and clinical neurophysiology.

[25]  M. Gabriel,et al.  Limbic thalamic, cingulate cortical and hippocampal neuronal correlates of discriminative approach learning in rabbits , 1996, Behavioural Brain Research.

[26]  H. Groenewegen,et al.  The anatomical relationships of the prefrontal cortex with limbic structures and the basal ganglia , 1997, Journal of psychopharmacology.

[27]  C. Braun,et al.  Event-Related Brain Potentials Following Incorrect Feedback in a Time-Estimation Task: Evidence for a Generic Neural System for Error Detection , 1997, Journal of Cognitive Neuroscience.

[28]  P. Rossini,et al.  The bereitschaftspotential paradigm in investigating voluntary movement organization in humans using magnetoencephalography (MEG). , 1997, Brain research. Brain research protocols.

[29]  Daphne N. Yu,et al.  High-resolution EEG mapping of cortical activation related to working memory: effects of task difficulty, type of processing, and practice. , 1997, Cerebral cortex.

[30]  Clay B. Holroyd,et al.  Error-related scalp potentials elicited by hand and foot movements: evidence for an output-independent error-processing system in humans , 1998, Neuroscience Letters.

[31]  Michael I. Posner,et al.  Mapping the Cingulate Cortex in Response Selection and Monitoring , 1998, NeuroImage.

[32]  Y. Mizuki,et al.  Anxiolytic effects of low-dose clomipramine in highly anxious healthy volunteers assessed by frontal midline theta activity , 1998, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[33]  M. Botvinick,et al.  Anterior cingulate cortex, error detection, and the online monitoring of performance. , 1998, Science.

[34]  Y Suzuki,et al.  Theta rhythms associated with sucking, crying, gazing and handling in infants. , 1998, Electroencephalography and clinical neurophysiology.

[35]  M Hallett,et al.  Cortical activation during fast repetitive finger movements in humans: dipole sources of steady-state movement-related cortical potentials. , 1998, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[36]  H Shibasaki,et al.  Cortical activation during fast repetitive finger movements in humans: steady-state movement-related magnetic fields and their cortical generators. , 1998, Electroencephalography and clinical neurophysiology.

[37]  E. Orekhova,et al.  Externally and internally controlled attention in infants: an EEG study. , 1998, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[38]  J. Ford Schizophrenia: the broken P300 and beyond. , 1999, Psychophysiology.

[39]  Phan Luu,et al.  Mood and spatial memory: emotion and right hemisphere contribution to spatial cognition , 1999, Biological Psychology.

[40]  H. Asada,et al.  Frontal midline theta rhythms reflect alternative activation of prefrontal cortex and anterior cingulate cortex in humans , 1999, Neuroscience Letters.

[41]  T. Sejnowski,et al.  Functionally Independent Components of the Late Positive Event-Related Potential during Visual Spatial Attention , 1999, The Journal of Neuroscience.

[42]  J. Schall,et al.  Performance monitoring by the supplementary eye ® eld , 2000 .

[43]  F. Vidal,et al.  Is the ‘error negativity’ specific to errors? , 2000, Biological Psychology.

[44]  W. Gehring,et al.  Action-Monitoring Dysfunction in Obsessive-Compulsive Disorder , 2000, Psychological science.

[45]  D. Tucker,et al.  Medial Frontal Cortex in Action Monitoring , 2000, The Journal of Neuroscience.

[46]  D. Tucker,et al.  Mood, personality, and self-monitoring: negative affect and emotionality in relation to frontal lobe mechanisms of error monitoring. , 2000, Journal of experimental psychology. General.

[47]  J. Hohnsbein,et al.  ERP components on reaction errors and their functional significance: a tutorial , 2000, Biological Psychology.

[48]  J. Allen,et al.  Error monitoring during reward and avoidance learning in high- and low-socialized individuals. , 2000, Psychophysiology.

[49]  M. Coles,et al.  Performance monitoring in a confusing world: error-related brain activity, judgments of response accuracy, and types of errors. , 2000, Journal of experimental psychology. Human perception and performance.

[50]  S. Slobounov,et al.  Neurophysiological and behavioral indices of time pressure effects on visuomotor task performance. , 2000, Brain research. Cognitive brain research.

[51]  G. Glover,et al.  Error‐related brain activation during a Go/NoGo response inhibition task , 2001, Human brain mapping.

[52]  D. Tucker,et al.  Frontal evaluation and posterior representation in target detection. , 2001, Brain research. Cognitive brain research.