Lateral prefrontal cortex lesion impairs regulation of internally and externally directed attention
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Robert T. Knight | Tor Endestad | Julia W. Y. Kam | Torstein Meling | Anne-Kristin Solbakk | R. Knight | T. Endestad | A. Solbakk | J. Kam | T. Meling
[1] C. Frith,et al. A fronto-parietal network for rapid visual information processing: a PET study of sustained attention and working memory , 1996, Neuropsychologia.
[2] Matthew L. Dixon,et al. A framework for understanding the relationship between externally and internally directed cognition , 2014, Neuropsychologia.
[3] E. Miller,et al. Response to Comment on "Top-Down Versus Bottom-Up Control of Attention in the Prefrontal and Posterior Parietal Cortices" , 2007, Science.
[4] Janet Scheel,et al. Spatiotemporal Dynamics , 2017, Encyclopedia of GIS.
[5] Daniel L. Schacter,et al. Default network activity, coupled with the frontoparietal control network, supports goal-directed cognition , 2010, NeuroImage.
[6] M. Corbetta,et al. Control of goal-directed and stimulus-driven attention in the brain , 2002, Nature Reviews Neuroscience.
[7] Daniel L. Schacter,et al. Mind-Wandering With and Without Intention , 2016, Trends in Cognitive Sciences.
[8] D. Schacter,et al. The Brain's Default Network , 2008, Annals of the New York Academy of Sciences.
[9] John J. B. Allen,et al. Theta lingua franca: a common mid-frontal substrate for action monitoring processes. , 2012, Psychophysiology.
[10] E. Miller,et al. Neural Activity in the Primate Prefrontal Cortex during Associative Learning , 1998, Neuron.
[11] J. Obleser,et al. Spatiotemporal dynamics of auditory attention synchronize with speech , 2016, Proceedings of the National Academy of Sciences.
[12] R. Buckner,et al. Opinion TRENDS in Cognitive Sciences Vol.11 No.2 Self-projection and the brain , 2022 .
[13] M. Frank,et al. Frontal theta as a mechanism for cognitive control , 2014, Trends in Cognitive Sciences.
[14] G. Pfurtscheller,et al. Event-related synchronization (ERS) in the alpha band--an electrophysiological correlate of cortical idling: a review. , 1996, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.
[15] F. Perrin,et al. Spherical splines for scalp potential and current density mapping. , 1989, Electroencephalography and clinical neurophysiology.
[16] T. Robbins,et al. Differential Responses in Human Striatum and Prefrontal Cortex to Changes in Object and Rule Relevance , 2004, The Journal of Neuroscience.
[17] Thomas Dierks,et al. BOLD correlates of EEG alpha phase-locking and the fMRI default mode network , 2009, NeuroImage.
[18] Robert Oostenveld,et al. FieldTrip: Open Source Software for Advanced Analysis of MEG, EEG, and Invasive Electrophysiological Data , 2010, Comput. Intell. Neurosci..
[19] R. Knight,et al. Prefrontal modulation of visual processing in humans , 2000, Nature Neuroscience.
[20] David J. Freedman,et al. Categorical representation of visual stimuli in the primate prefrontal cortex. , 2001, Science.
[21] W. Klimesch,et al. The electrophysiological dynamics of interference during the stroop task , 2008 .
[22] W. Klimesch,et al. Control mechanisms in working memory: A possible function of EEG theta oscillations , 2010, Neuroscience & Biobehavioral Reviews.
[23] T. Jung,et al. Two Independent Frontal Midline Theta Oscillations during Conflict Detection and Adaptation in a Simon-Type Manual Reaching Task , 2017, The Journal of Neuroscience.
[24] Yuan Chang Leong,et al. Dynamic Interaction between Reinforcement Learning and Attention in Multidimensional Environments , 2017, Neuron.
[25] John J. B. Allen,et al. Prelude to and Resolution of an Error: EEG Phase Synchrony Reveals Cognitive Control Dynamics during Action Monitoring , 2009, The Journal of Neuroscience.
[26] Jonathan Smallwood,et al. The Decoupled Mind: Mind-wandering Disrupts Cortical Phase-locking to Perceptual Events , 2014, Journal of Cognitive Neuroscience.
[27] Jonathan Smallwood,et al. The balanced mind: the variability of task-unrelated thoughts predicts error monitoring , 2013, Front. Hum. Neurosci..
[28] J. Polich. Updating P300: An integrative theory of P3a and P3b , 2007, Clinical Neurophysiology.
[29] John J. Foxe,et al. Uncovering the Neural Signature of Lapsing Attention: Electrophysiological Signals Predict Errors up to 20 s before They Occur , 2009, The Journal of Neuroscience.
[30] O. Jensen,et al. Shaping Functional Architecture by Oscillatory Alpha Activity: Gating by Inhibition , 2010, Front. Hum. Neurosci..
[31] Scott T. Grafton,et al. Wandering Minds: The Default Network and Stimulus-Independent Thought , 2007, Science.
[32] M. Posner,et al. The attention system of the human brain: 20 years after. , 2012, Annual review of neuroscience.
[33] R. Nathan Spreng,et al. The Common Neural Basis of Autobiographical Memory, Prospection, Navigation, Theory of Mind, and the Default Mode: A Quantitative Meta-analysis , 2009, Journal of Cognitive Neuroscience.
[34] M. Petrides,et al. Wisconsin Card Sorting Revisited: Distinct Neural Circuits Participating in Different Stages of the Task Identified by Event-Related Functional Magnetic Resonance Imaging , 2001, The Journal of Neuroscience.
[35] Eric Larson,et al. The cortical dynamics underlying effective switching of auditory spatial attention , 2013, NeuroImage.
[36] Alana T. Wong,et al. Remembering the past and imagining the future: Common and distinct neural substrates during event construction and elaboration , 2007, Neuropsychologia.
[37] V. Ibáñez,et al. Frontal theta event-related synchronization: comparison of directed attention and working memory load effects , 2006, Journal of Neural Transmission.
[38] Lindsey J. Powell,et al. It's the Thought That Counts , 2006, Psychological science.
[39] M. Corbetta,et al. Electrophysiological signatures of resting state networks in the human brain , 2007, Proceedings of the National Academy of Sciences.
[40] R. Desimone,et al. Neural mechanisms of selective visual attention. , 1995, Annual review of neuroscience.
[41] Kevin S. Brown,et al. Cooperation between the default mode network and the frontal–parietal network in the production of an internal train of thought , 2012, Brain Research.
[42] Simon Hanslmayr,et al. The Electrophysiological Dynamics of Interference during the Stroop Task , 2008, Journal of Cognitive Neuroscience.
[43] Walter Schneider,et al. The cognitive control network: Integrated cortical regions with dissociable functions , 2007, NeuroImage.
[44] John J. Foxe,et al. The Role of Alpha-Band Brain Oscillations as a Sensory Suppression Mechanism during Selective Attention , 2011, Front. Psychology.
[45] Charles Dobson,et al. Evaluative and generative modes of thought during the creative process , 2012, NeuroImage.
[46] G. Pfurtscheller. Event-related synchronization (ERS): an electrophysiological correlate of cortical areas at rest. , 1992, Electroencephalography and clinical neurophysiology.
[47] R. Knight,et al. Orbitofrontal damage reduces auditory sensory response in humans , 2018, Cortex.
[48] Edward K. Vogel,et al. Dynamic Neuroplasticity after Human Prefrontal Cortex Damage , 2010, Neuron.
[49] K. C. Anderson,et al. Single neurons in prefrontal cortex encode abstract rules , 2001, Nature.
[50] Y. Miyashita,et al. Transient activation of inferior prefrontal cortex during cognitive set shifting , 1998, Nature Neuroscience.
[51] J. Duncan. An adaptive coding model of neural function in prefrontal cortex , 2001 .
[52] Justin L. Vincent,et al. Evidence for a frontoparietal control system revealed by intrinsic functional connectivity. , 2008, Journal of neurophysiology.
[53] E. Miller,et al. An integrative theory of prefrontal cortex function. , 2001, Annual review of neuroscience.
[54] Gian Domenico Iannetti,et al. A novel approach for enhancing the signal-to-noise ratio and detecting automatically event-related potentials (ERPs) in single trials , 2010, NeuroImage.
[55] Scott T. Grafton,et al. Response to Comment on "Wandering Minds: The Default Network and Stimulus-Independent Thought" , 2007, Science.
[56] G. V. Simpson,et al. Parieto‐occipital ∼1 0Hz activity reflects anticipatory state of visual attention mechanisms , 1998 .
[57] Robert T Knight,et al. Prefrontal cortex modulates posterior alpha oscillations during top-down guided visual perception , 2017, Proceedings of the National Academy of Sciences.
[58] Arnaud Delorme,et al. EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis , 2004, Journal of Neuroscience Methods.