tDCS-Induced Effects on Executive Functioning and Their Cognitive Mechanisms: a Review

[1]  Kate Williams,et al.  ‘It's the thought…’ , 2018, Practical Pre-School.

[2]  J. Grafman,et al.  Effects of High-Definition and Conventional tDCS on Response Inhibition , 2016, Brain Stimulation.

[3]  Leigh E. Charvet,et al.  Safety of Transcranial Direct Current Stimulation: Evidence Based Update 2016 , 2016, Brain Stimulation.

[4]  T. Schubert,et al.  Modulation of Executive Control in the Task Switching Paradigm With Transcranial Direct Current Stimulation (tDCS) , 2016 .

[5]  B. Hommel,et al.  Transcranial direct current stimulation (tDCS) over the right dorsolateral prefrontal cortex affects stimulus conflict but not response conflict , 2016, Neuroscience.

[6]  M. Lavidor,et al.  Enhancing switching abilities: Improving practice effect by stimulating the dorsolateral pre frontal cortex , 2016, Neuroscience.

[7]  Adam Gazzaley,et al.  Delayed enhancement of multitasking performance: Effects of anodal transcranial direct current stimulation on the prefrontal cortex , 2015, Cortex.

[8]  Torsten Schubert,et al.  On the importance of Task 1 and error performance measures in PRP dual-task studies , 2015, Front. Psychol..

[9]  Frank D. Baughman,et al.  The impact of transcranial direct current stimulation on inhibitory control in young adults , 2015, Brain and behavior.

[10]  R. Hamilton,et al.  It's the Thought That Counts: Examining the Task-dependent Effects of Transcranial Direct Current Stimulation on Executive Function , 2015, Brain Stimulation.

[11]  Torsten Schubert,et al.  Modulation of executive control in dual tasks with transcranial direct current stimulation (tDCS) , 2015, Neuropsychologia.

[12]  Susanne M. Jaeggi,et al.  Improving fluid intelligence with training on working memory: a meta-analysis , 2015, Psychonomic bulletin & review.

[13]  Chou-Ching K. Lin,et al.  Modulating the interference effect on spatial working memory by applying transcranial direct current stimulation over the right dorsolateral prefrontal cortex , 2014, Brain and Cognition.

[14]  Ingrid R. Olson,et al.  Transcranial Direct Current Stimulation Enhances Verbal Working Memory Training Performance over Time and Near Transfer Outcomes , 2014, Journal of Cognitive Neuroscience.

[15]  S. Logue,et al.  The neural and genetic basis of executive function: Attention, cognitive flexibility, and response inhibition , 2014, Pharmacology Biochemistry and Behavior.

[16]  N. Raz,et al.  Prefrontal cortex and executive functions in healthy adults: A meta-analysis of structural neuroimaging studies , 2014, Neuroscience & Biobehavioral Reviews.

[17]  Torsten Schubert,et al.  Practice-related optimization and transfer of executive functions: a general review and a specific realization of their mechanisms in dual tasks , 2014, Psychological Research.

[18]  J. Camprodon,et al.  Transcranial Direct Current Stimulation (tDCS): Modulation of Executive Function in Health and Disease , 2014, Current Behavioral Neuroscience Reports.

[19]  Agnes Flöel,et al.  tDCS-enhanced motor and cognitive function in neurological diseases , 2014, NeuroImage.

[20]  S. Funahashi,et al.  Prefrontal cortex and neural mechanisms of executive function , 2013, Journal of Physiology-Paris.

[21]  Jason B. Mattingley,et al.  Improved multitasking following prefrontal tDCS , 2013, Cortex.

[22]  Melissa J. Green,et al.  Can transcranial direct current stimulation enhance outcomes from cognitive training? A randomized controlled trial in healthy participants. , 2013, The international journal of neuropsychopharmacology.

[23]  P. Fitzgerald,et al.  Testing the limits: Investigating the effect of tDCS dose on working memory enhancement in healthy controls , 2013, Neuropsychologia.

[24]  Felipe Fregni,et al.  The Effects of Cross-Hemispheric Dorsolateral Prefrontal Cortex Transcranial Direct Current Stimulation (tDCS) on Task Switching , 2013, Brain Stimulation.

[25]  C. Plewnia,et al.  Effects of transcranial direct current stimulation (tDCS) on executive functions: Influence of COMT Val/Met polymorphism , 2013, Cortex.

[26]  M. Lavidor,et al.  Unilateral Prefrontal Direct Current Stimulation Effects are Modulated by Working Memory Load and Gender , 2013, Brain Stimulation.

[27]  Y. Kwon,et al.  Is transcranial direct current stimulation a potential method for improving response inhibition?☆ , 2013, Neural regeneration research.

[28]  Torsten Schubert,et al.  Effects of extensive dual-task practice on processing stages in simultaneous choice tasks , 2013, Attention, perception & psychophysics.

[29]  René J. Huster,et al.  Boosting brain functions: Improving executive functions with behavioral training, neurostimulation, and neurofeedback. , 2013, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[30]  S. Son,et al.  The effect of transcranial direct current stimulation on the motor suppression in stop-signal task. , 2013, NeuroRehabilitation.

[31]  Torsten Schubert,et al.  Investigation on the improvement and transfer of dual-task coordination skills , 2012, Psychological research.

[32]  S. Jeon,et al.  Improvement of the Working Memory and Naming by Transcranial Direct Current Stimulation , 2012, Annals of rehabilitation medicine.

[33]  Torsten Schubert,et al.  The effect of task order predictability in audio-visual dual task performance: Just a central capacity limitation? , 2012, Front. Integr. Neurosci..

[34]  H. Müller,et al.  Temporal-order judgment of visual and auditory stimuli: modulations in situations with and without stimulus discrimination , 2012, Front. Integr. Neurosci..

[35]  M. Nitsche,et al.  Effects of Transcranial Electrical Stimulation on Cognition , 2012, Clinical EEG and neuroscience.

[36]  V. Walsh,et al.  Modulating behavioral inhibition by tDCS combined with cognitive training , 2012, Experimental Brain Research.

[37]  T. Flaisch,et al.  Electrical Brain Stimulation Improves Cognitive Performance by Modulating Functional Connectivity and Task-Specific Activation , 2012, The Journal of Neuroscience.

[38]  A. Miyake,et al.  The Nature and Organization of Individual Differences in Executive Functions , 2012, Current directions in psychological science.

[39]  Kimberly L. Ray,et al.  Meta-analytic evidence for a superordinate cognitive control network subserving diverse executive functions , 2012, Cognitive, affective & behavioral neuroscience.

[40]  T. Schubert,et al.  Task switching: effects of practice on switch and mixing costs , 2012, Psychological research.

[41]  Daniel C. Javitt,et al.  Activation of Inhibition: Diminishing Impulsive Behavior by Direct Current Stimulation over the Inferior Frontal Gyrus , 2011, Journal of Cognitive Neuroscience.

[42]  Felipe Fregni,et al.  Task-Specific Effects of tDCS-Induced Cortical Excitability Changes on Cognitive and Motor Sequence Set Shifting Performance , 2011, PloS one.

[43]  Paul B. Fitzgerald,et al.  Investigating the Role of Current Strength in tDCS Modulation of Working Memory Performance in Healthy Controls , 2011, Front. Psychiatry.

[44]  Neil G. Muggleton,et al.  Modulating inhibitory control with direct current stimulation of the superior medial frontal cortex , 2011, NeuroImage.

[45]  P. Enticott,et al.  Improving working memory: the effect of combining cognitive activity and anodal transcranial direct current stimulation to the left dorsolateral prefrontal cortex , 2011, Brain Stimulation.

[46]  Harold Pashler,et al.  Effects of practice on task architecture: Combined evidence from interference experiments and random-walk models of decision making , 2011, Cognition.

[47]  Torsten Schubert,et al.  Improved Intertask Coordination after Extensive Dual-Task Practice , 2011, Quarterly journal of experimental psychology.

[48]  B. Hommel The Simon effect as tool and heuristic. , 2011, Acta psychologica.

[49]  Walter Paulus,et al.  Transcranial direct current stimulation--update 2011. , 2011, Restorative neurology and neuroscience.

[50]  J. Thorne,et al.  Transcranial direct current stimulation of the prefrontal cortex modulates working memory performance: combined behavioural and electrophysiological evidence , 2011, BMC Neuroscience.

[51]  Violeta Dimova,et al.  Electrified minds: Transcranial direct current stimulation (tDCS) and Galvanic Vestibular Stimulation (GVS) as methods of non-invasive brain stimulation in neuropsychology—A review of current data and future implications , 2010, Neuropsychologia.

[52]  J. Kray,et al.  How useful is executive control training? Age differences in near and far transfer of task-switching training. , 2009, Developmental science.

[53]  F. Tong,et al.  Training Improves Multitasking Performance by Increasing the Speed of Information Processing in Human Prefrontal Cortex , 2009, Neuron.

[54]  Joni Holmes,et al.  Adaptive training leads to sustained enhancement of poor working memory in children. , 2009, Developmental science.

[55]  N. Birbaumer,et al.  Enhancement of Planning Ability by Transcranial Direct Current Stimulation , 2009, The Journal of Neuroscience.

[56]  H. Hughes,et al.  On the minimization of task switch costs following long-term training , 2009, Attention, perception & psychophysics.

[57]  Priti Shah,et al.  Training and transfer effects in task switching , 2008, Memory & cognition.

[58]  Eric Ruthruff,et al.  Bypassing the central bottleneck after single-task practice in the psychological refractory period paradigm: Evidence for task automatization and greedy resource recruitment , 2008, Memory & cognition.

[59]  T. Baumgartner,et al.  Modulating presence and impulsiveness by external stimulation of the brain , 2008, Behavioral and Brain Functions.

[60]  Mike Wendt,et al.  The impact of stimulus-specific practice and task instructions on response congruency effects between tasks , 2008, Psychological research.

[61]  N. Logothetis What we can do and what we cannot do with fMRI , 2008, Nature.

[62]  Y. Kim,et al.  Time-dependent effect of transcranial direct current stimulation on the enhancement of working memory , 2008, Neuroreport.

[63]  M. D’Esposito Working memory. , 2008, Handbook of clinical neurology.

[64]  Mike Wendt,et al.  Disentangling Sequential Effects of Stimulus- and Response-related Conflict and Stimulus-Response Repetition using Brain Potentials , 2007, Journal of Cognitive Neuroscience.

[65]  C. Summerfield,et al.  An information theoretical approach to prefrontal executive function , 2007, Trends in Cognitive Sciences.

[66]  W. Sommer,et al.  Localizing practice effects in dual-task performance , 2007, Quarterly journal of experimental psychology.

[67]  A. Kiesel,et al.  Task switching: on the origin of response congruency effects , 2007, Psychological research.

[68]  B. Eppinger,et al.  Effects of associative learning on age differences in task-set switching. , 2006, Acta psychologica.

[69]  Torsten Schubert,et al.  Task-order coordination in dual-task performance and the lateral prefrontal cortex: an event-related fMRI study , 2006, Psychological research.

[70]  G. Band,et al.  Reconfiguration and the bottleneck: Does task switching affect the refractory period effect? , 2006 .

[71]  M. Sigman,et al.  Dynamics of the Central Bottleneck: Dual-Task and Task Uncertainty , 2006, PLoS biology.

[72]  L. Cohen,et al.  Transcranial DC stimulation (tDCS): A tool for double-blind sham-controlled clinical studies in brain stimulation , 2006, Clinical Neurophysiology.

[73]  A. Allport,et al.  Cue-based preparation and stimulus-based priming of tasks in task switching , 2006, Memory & cognition.

[74]  J. C. Johnston,et al.  How does practice reduce dual-task interference: Integration, automatization, or just stage-shortening? , 2006, Psychological research.

[75]  Sergio P. Rigonatti,et al.  Anodal transcranial direct current stimulation of prefrontal cortex enhances working memory , 2005, Experimental Brain Research.

[76]  H. Forssberg,et al.  Computerized training of working memory in children with ADHD--a randomized, controlled trial. , 2005, Journal of the American Academy of Child and Adolescent Psychiatry.

[77]  Klaus Oberauer,et al.  Simultaneous cognitive operations in working memory after dual-task practice. , 2004, Journal of experimental psychology. Human perception and performance.

[78]  E. M. Altmann,et al.  The preparation effect in task switching: Carryover of SOA , 2004, Memory & cognition.

[79]  A. Baddeley Working memory: looking back and looking forward , 2003, Nature Reviews Neuroscience.

[80]  R. Proctor,et al.  Task switching and response correspondence in the psychological refractory period paradigm. , 2003, Journal of experimental psychology. Human perception and performance.

[81]  N. Yeung,et al.  Switching between tasks of unequal familiarity: the role of stimulus-attribute and response-set selection. , 2003, Journal of experimental psychology. Human perception and performance.

[82]  T. Robbins,et al.  Stop-signal inhibition disrupted by damage to right inferior frontal gyrus in humans , 2003, Nature Neuroscience.

[83]  Joachim Hoffmann,et al.  Task switches under Go/NoGo conditions and the decomposition of switch costs , 2003 .

[84]  Walter Paulus,et al.  Modulation of cortical excitability by weak direct current stimulation--technical, safety and functional aspects. , 2003, Supplements to Clinical neurophysiology.

[85]  D. V. von Cramon,et al.  Localization of Executive Functions in Dual-Task Performance with fMRI , 2002, Journal of Cognitive Neuroscience.

[86]  H. Forssberg,et al.  Training of Working Memory in Children With ADHD , 2002 .

[87]  D. Schacter,et al.  Prefrontal Contributions to Executive Control: fMRI Evidence for Functional Distinctions within Lateral Prefrontal Cortex , 2001, NeuroImage.

[88]  A. Kramer,et al.  Changes in executive control across the life span: examination of task-switching performance. , 2001, Developmental psychology.

[89]  D. Meyer,et al.  Executive control of cognitive processes in task switching. , 2001, Journal of experimental psychology. Human perception and performance.

[90]  Shintaro Funahashi,et al.  Neuronal mechanisms of executive control by the prefrontal cortex , 2001, Neuroscience Research.

[91]  S. Hochstein,et al.  Attentional Demands Following Perceptual Skill Training , 2001, Psychological science.

[92]  J. Ridley Studies of Interference in Serial Verbal Reactions , 2001 .

[93]  M. Nitsche,et al.  Excitability changes induced in the human motor cortex by weak transcranial direct current stimulation , 2000, The Journal of physiology.

[94]  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.

[95]  S. Keele,et al.  Changing internal constraints on action: the role of backward inhibition. , 2000, Journal of experimental psychology. General.

[96]  U. Lindenberger,et al.  Adult age differences in task switching. , 2000, Psychology and aging.

[97]  A. Hartley,et al.  Age-related differences and similarities in dual-task interference. , 1999, Journal of experimental psychology. General.

[98]  R. Engle,et al.  Individual differences in working memory capacity and what they tell us about controlled attention, general fluid intelligence, and functions of the prefrontal cortex. , 1999 .

[99]  E Ruthruff,et al.  Can practice eliminate the psychological refractory period effect? , 1999, Journal of experimental psychology. Human perception and performance.

[100]  S. Rauch,et al.  The counting stroop: An interference task specialized for functional neuroimaging—validation study with functional MRI , 1998, Human brain mapping.

[101]  David E. Kieras,et al.  A computational theory of executive cognitive processes and multiple-task performance: Part 2. Accounts of psychological refractory-period phenomena. , 1997 .

[102]  A. Baddeley Exploring the Central Executive , 1996 .

[103]  John F. Larish,et al.  Training for attentional control in dual task settings: A comparison of young and old adults , 1995 .

[104]  S. Monsell,et al.  Costs of a predictible switch between simple cognitive tasks. , 1995 .

[105]  Ritske De Jong,et al.  The Role of Preparation in Overlapping-task Performance , 1995, The Quarterly journal of experimental psychology. A, Human experimental psychology.

[106]  H. Pashler Dual-task interference in simple tasks: data and theory. , 1994, Psychological bulletin.

[107]  D. Alan Allport,et al.  SHIFTING INTENTIONAL SET - EXPLORING THE DYNAMIC CONTROL OF TASKS , 1994 .

[108]  W. Rogers,et al.  Mechanisms underlying reduction in Stroop interference with practice for young and old adults. , 1994, Journal of experimental psychology. Learning, memory, and cognition.

[109]  A. D. Fisk,et al.  Are age differences in consistent-mapping visual search due to feature learning or attention training? , 1991, Psychology and aging.

[110]  Colin M. Macleod Half a century of research on the Stroop effect: an integrative review. , 1991, Psychological bulletin.

[111]  H. Pashler,et al.  Procedural learning. I, Locus of practice effects in speeded choice tasks , 1991 .

[112]  Dylan M. Jones,et al.  Memory updating in working memory : the role of the central executive , 1990 .

[113]  N. R. Ellis,et al.  Automatic-effortful processing and cognitive inertia in persons with mental retardation. , 1989, American journal of mental retardation : AJMR.

[114]  G. Logan Toward an instance theory of automatization. , 1988 .

[115]  D. A. Taylor,et al.  The cuing and priming of cognitive operations. , 1987, Journal of experimental psychology. Human perception and performance.

[116]  H Pashler,et al.  Processing stages in overlapping tasks: evidence for a central bottleneck. , 1984, Journal of experimental psychology. Human perception and performance.

[117]  D. Norman,et al.  Attention to Action: Willed and Automatic Control of Behavior Technical Report No. 8006. , 1980 .

[118]  Christopher D. Wickens,et al.  The identification and transfer of timesharing skills , 1980 .

[119]  K A Ericcson,et al.  Acquisition of a memory skill. , 1980, Science.

[120]  E. Spelke,et al.  Dividing Attention Without Alternation or Automaticity , 1980 .

[121]  P. E. Hallett,et al.  Primary and secondary saccades to goals defined by instructions , 1978, Vision Research.

[122]  Walter Schneider,et al.  Controlled and Automatic Human Information Processing: 1. Detection, Search, and Attention. , 1977 .

[123]  R. Davidson,et al.  Consciousness and Self-Regulation: Advances in Research and Theory IV , 1976 .

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

[125]  J R Simon,et al.  Processing auditory information: interference from an irrelevant cue. , 1969, The Journal of applied psychology.

[126]  G. D. Logan Task Switching , 2022 .