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Neuropsychological Rehabilitation
An International Journal
Volume 21, 2011 - Issue 5: Non-Invasive Brain Stimulation: New Prospects in Cognitive Neurorehabilitation
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Original Articles

Transcranial electrical stimulation (tES – tDCS; tRNS, tACS) methods

Walter Paulus Department of Clinical Neurophysiology, University Medical Faculty Göttingen, Göttingen, GermanyCorrespondence[email protected]
Pages 602-617 | Published online: 05 Aug 2011

REFERENCES

  • Accornero , N. , Li Voti , P. , La Riccia , M. and Gregori , B. 2007 . Visual evoked potentials modulation during direct current cortical polarization . Experimental Brain Research , 178 : 261 – 266 .
  • Ambrus , G. G. , Paulus , W. and Antal , A. 2010 . Cutaneous perception thresholds of electrical stimulation methods: Comparison of tDCS and tRNS . Clinical Neurophysiology , 121 : 1908 – 1914 .
  • Antal , A. , Boros , K. , Poreisz , C. , Chaieb , L. , Terney , D. and Paulus , W. 2008 . Comparatively weak after-effects of transcranial alternating current stimulation (tACS) on cortical excitability in humans . Brain Stimulation , 1 : 97 – 105 .
  • Antal , A. , Chaieb , L. , Moliadze , V. , Monte-Silva , K. Poreisz , C. 2010 . Brain-derived neurotrophic factor (BDNF) gene polymorphisms shape cortical plasticity in humans . Brain Stimulation , 3 : 230 – 237 .
  • Antal , A. , Kincses , T. Z. , Nitsche , M. A. , Bartfai , O. and Paulus , W. 2004 . Excitability changes induced in the human primary visual cortex by transcranial direct current stimulation: Direct electrophysiological evidence . Investigative Ophthalmology & Visual Science , 45 : 702 – 707 .
  • Antal , A. , Nitsche , M. A. , Kincses , T. Z. , Kruse , W. , Hoffmann , K. P. and Paulus , W. 2004 . Facilitation of visuo-motor learning by transcranial direct current stimulation of the motor and extrastriate visual areas in humans . European Journal of Neuroscience , 19 : 2888 – 2892 .
  • Antal , A. , Nitsche , M. A. and Paulus , W. 2001 . External modulation of visual perception in humans . Neuroreport , 12 : 3553 – 3555 .
  • Antal , A. and Paulus , W. 2008 . Transcranial direct current stimulation and visual perception . Perception , 37 : 367 – 374 .
  • Antal , A. , Polania , R. , Schmidt-Samoa , C. , Dechent , P. and Paulus , W. 2011 . Transcranial direct current stimulation over the primary motor cortex during fMRI . Neuroimage , 55 ( 2 ) : 590 – 596 .
  • Antal , A. , Terney , D. , Poreisz , C. and Paulus , W. 2007 . Towards unravelling task-related modulations of neuroplastic changes induced in the human motor cortex . European Journal of Neuroscience , 26 : 2687 – 2691 .
  • Ardolino , G. , Bossi , B. , Barbieri , S. and Priori , A. 2005 . Non-synaptic mechanisms underlie the after-effects of cathodal transcutaneous direct current stimulation of the human brain . Journal of Physiology , 568 : 653 – 663 .
  • Bikson , M. , Inoue , M. , Akiyama , H. , Deans , J. K. Fox , J. E. 2004 . Effects of uniform extracellular DC electric fields on excitability in rat hippocampal slices in vitro . Journal of Physiology , 557 : 175 – 190 .
  • Bikson , M. , Radman , T. and Datta , A. 2006 . Rational modulation of neuronal processing with applied electric fields . Conference Proceedings IEEE English Medical Biological Society , 1 : 1616 – 1619 .
  • Castro-Alamancos , M. A , Rigas , P. and Tawara-Hirata , Y. 2007 . Resonance (approximately 10 Hz) of excitatory networks in motor cortex: Effects of voltage-dependent ion channel blockers . Journal of Physiology , 578 : 173 – 191 .
  • Chaieb , L. , Kovacs , G. , Cziraki , C. , Greenlee , M. , Paulus , W. and Antal , A. 2009 . Short-duration transcranial random noise stimulation induces blood oxygenation level dependent response attenuation in the human motor cortex . Experimental Brain Research , 198 : 439 – 444 .
  • Cheeran , B. , Talelli , P. , Mori , F. , Koch , G. Suppa , A. 2008 . A common polymorphism in the brain-derived neurotrophic factor gene (BDNF) modulates human cortical plasticity and the response to rTMS . Journal of Physiology , 586 : 5717 – 5725 .
  • Datta , A. , Bansal , V. , Diaz , J. , Patel , J. , Reato , D. and Bikson , M. 2009 . Gyri-precise head model of transcranial direct current stimulation: Improved spatial focality using a ring electrode versus conventional rectangular pad . Brain Stimulation , 2 : 201 – 207 .
  • Ferrucci , R. , Mameli , F. , Guidi , I. , Mrakic-Sposta , S. Vergari , M. 2008 . Transcranial direct current stimulation improves recognition memory in Alzheimer disease . Neurology , 71 : 493 – 498 .
  • Fertonani , A. , Rosini , S. , Cotelli , M. , Rossini , P. M. and Miniussi , C. 2010 . Naming facilitation induced by transcranial direct current stimulation . Behavioural Brain Research , 208 : 311 – 318 .
  • Francis , J. T. , Gluckman , B. J. and Schiff , S. J. 2003 . Sensitivity of neurons to weak electric fields . Journal of Neuroscience , 23 : 7255 – 7261 .
  • Fritsch , B. , Reis , J. , Martinowich , K. , Schambra , H. M. Ji , Y. 2010 . Direct current stimulation promotes BDNF-dependent synaptic plasticity, potential implications for motor learning . Neuron , 66 : 198 – 204 .
  • Furubayashi , T. , Terao , Y. , Arai , N. , Okabe , S. Mochizuki , H. 2008 . Short and long duration transcranial direct current stimulation (tDCS) over the human hand motor area . Experimental Brain Research , 185 : 279 – 286 .
  • Gamboa , O. L. , Antal , A. , Moliadze , V. and Paulus , W. 2010 . Simply longer is not better: Reversal of theta burst after-effect with prolonged stimulation . Experimental Brain Research , 204 : 181 – 187 .
  • Gentner , R. , Wankerl , K. , Reinsberger , C. , Zeller , D. and Classen , J. 2008 . Depression of human corticospinal excitability induced by magnetic theta-burst stimulation: Evidence of rapid polarity-reversing metaplasticity . Cerebral Cortex , 18 : 2046 – 2053 .
  • Groppa , S. , Bergmann , T. O. , Siems , C. , Molle , M. , Marshall , L. and Siebner , H. R. 2010 . Slow-oscillatory transcranial direct current stimulation can induce bidirectional shifts in motor cortical excitability in awake humans . Neuroscience , 166 : 1219 – 1225 .
  • Heald , M. and Marion , J. 1995 . Classical electromagnetic radiation , 3 , Fort Worth, TX : Saunders College Publishing .
  • Hellwag , C. F. and Jacobi , M. 1802 . Erfahrungen über die Heilkräfte des Galvanismus und Betrachtungen über desselben chemische und physiologische Wirkungen , Hamburg, , Germany : Friedrich Perthes .
  • Hummel , F. , Celnik , P. , Giraux , P. , Floel , A. Wu , W. H. 2005 . Effects of non-invasive cortical stimulation on skilled motor function in chronic stroke . Brain , 128 : 490 – 499 .
  • Kanai , R. , Chaieb , L. , Antal , A. , Walsh , V. and Paulus , W. 2008 . Frequency-dependent electrical stimulation of the visual cortex . Current Biology , 18 : 1839 – 1843 .
  • Kanai , R. , Paulus , W. and Walsh , V. 2010 . Transcranial alternating current stimulation (tACS) modulates cortical excitability as assessed by TMS-induced phosphene thresholds . Clinical Neurophysiology , 121 : 1551 – 1554 .
  • Kincses , T. Z. , Antal , A. , Nitsche , M. A. , Bartfai , O. and Paulus , W. 2004 . Facilitation of probabilistic classification learning by transcranial direct current stimulation of the prefrontal cortex in the human . Neuropsychologia , 42 : 113 – 117 .
  • Kuo , M. F. , Grosch , J. , Fregni , F. , Paulus , W. and Nitsche , M. A. 2007 . Focusing effect of acetylcholine on neuroplasticity in the human motor cortex . Journal of Neuroscience , 27 : 14442 – 14447 .
  • Kuo , M. F. , Paulus , W. and Nitsche , M. A. 2008 . Boosting focally-induced brain plasticity by dopamine . Cerebral Cortex , 18 : 648 – 651 .
  • Lang , N. , Siebner , H. R. , Chadaide , Z. , Boros , K. Nitsche , M. A. 2007 . Bidirectional modulation of primary visual cortex excitability: A combined tDCS and rTMS study . Investigative Ophthalmology & Visual Science , 48 : 5782 – 5787 .
  • Lang , N. , Siebner , H. R. , Ernst , D. , Nitsche , M. A. Paulus , W. 2004 . Preconditioning with transcranial direct current stimulation sensitizes the motor cortex to rapid-rate transcranial magnetic stimulation and controls the direction of after-effects . Biological Psychiatry , 56 : 634 – 639 .
  • Lang , N. , Siebner , H. R. , Ward , N. S. , Lee , L. Nitsche , M. A. 2005 . How does transcranial DC stimulation of the primary motor cortex alter regional neuronal activity in the human brain? . European Journal of Neuroscience , 22 : 495 – 504 .
  • Liebetanz , D. , Koch , R. , Mayenfels , S. , Konig , F. , Paulus , W. and Nitsche , M. A. 2009 . Safety limits of cathodal transcranial direct current stimulation in rats . Clinical Neurophysiology , 120 : 1161 – 1167 .
  • Liebetanz , D. , Nitsche , M. A. , Tergau , F. and Paulus , W. 2002 . Pharmacological approach to the mechanisms of transcranial DC-stimulation-induced after-effects of human motor cortex excitability . Brain , 125 : 2238 – 2247 .
  • Marshall , L. , Helgadottir , H. , Molle , M. and Born , J. 2006 . Boosting slow oscillations during sleep potentiates memory . Nature , 444 : 610 – 613 .
  • McCaig , C. D. , Rajnicek , A. M. , Song , B. and Zhao , M. 2005 . Controlling cell behavior electrically: Current views and future potential . Physiology Review , 85 : 943 – 978 .
  • McCreery , D. B. , Agnew , W. F. , Yuen , T. G. H. and Bullara , L. 1990 . Charge density and charge per phase as cofactors in neural injury induced by electrical stimulation . IEEE Transactions on Biomedical Engineering , 37 ( 10 ) : 996 – 1001 .
  • Merton , P. A. and Morton , H. B. 1980 . Stimulation of the cerebral cortex in the intact human subject . Nature , 285 : 227
  • Miniussi , C. , Cappa , S. F. , Cohen , L. G. , Floel , A. Fregni , F. 2008 . Efficacy of repetitive transcranial magnetic stimulation/transcranial direct current stimulation in cognitive neurorehabititation . Brain Stimulation , 1 : 326 – 336 .
  • Miranda , P. C. , Lomarev , M. and Hallett , M. 2006 . Modeling the current distribution during transcranial direct current stimulation . Clinical Neurophysiology , 117 : 1623 – 1629 .
  • Moliadze , V. , Antal , A. and Paulus , W. 2010a . Boosting brain excitability by transcranial high frequency stimulation in the ripple range . Journal of Physiology , 588 : 4891 – 4904 .
  • Moliadze , V. , Antal , A. and Paulus , W. 2010b . Electrode-distance dependent after-effects of transcranial direct and random noise stimulation with extracephalic reference electrodes . Clinical Neurophysiology , 121 : 2165 – 2171 .
  • Monte-Silva , K. , Hessenthaler , S. , Kuo , M. F. , Liebetanz , D. , Paulus , W. and Nitsche , M. 2011 . Induction of l-LTP-like plasticity in the human motor cortex by repeated non-invasive brain stimulation , Manuscript submitted for publication
  • Monte-Silva , K. K. , Kuo , M. F. , Liebetanz , D. , Paulus , W. and Nitsche , M. A. 2010 . Shaping the optimal repetition interval for cathodal transcranial direct current stimulation (tDCS) . Journal of Neurophysiology , 103 : 1735 – 1740 .
  • Monte-Silva , K. K. , Liebetanz , D. , Grundey , J. , Paulus , W. and Nitsche , M. A. 2010 . Dosage-dependent non-linear effect of l-dopa on human motor cortex plasticity . Journal of Physiology , 588 : 3415 – 3424 .
  • Nitsche , M. A. , Cohen , L. G. , Wassermann , E. M. , Priori , A. Lang , N. 2008 . Transcranial direct current stimulation: State of the art 2008 . Brain Stimulation , 1 : 206 – 223 .
  • Nitsche , M. A. , Doemkes , S. , Karakose , T. , Antal , A. Liebetanz , D. 2007 . Shaping the effects of transcranial direct current stimulation of the human motor cortex . Journal of Neurophysiology , 97 : 3109 – 3017 .
  • Nitsche , M. A. , Fricke , K. , Henschke , U. , Schlitterlau , A. Liebetanz , D. 2003 . Pharmacological modulation of cortical excitability shifts induced by transcranial direct current stimulation in humans . Journal of Physiology , 553 : 293 – 301 .
  • Nitsche , M. A. , Grundey , J. , Liebetanz , D. , Lang , N. , Tergau , F. and Paulus , W. 2004 . Catecholaminergic consolidation of motor cortical neuroplasticity in humans . Cerebral Cortex , 14 : 1240 – 1245 .
  • Nitsche , M. A. , Jaussi , W. , Liebetanz , D. , Lang , N. , Tergau , F. and Paulus , W. 2004 . Consolidation of human motor cortical neuroplasticity by D-cycloserine . Neuropsychopharmacology , 29 : 1573 – 1578 .
  • Nitsche , M. A. , Kuo , M. F. , Karrasch , R. , Wachter , B. , Liebetanz , D. and Paulus , W. 2009 . Serotonin affects transcranial direct current-induced neuroplasticity in humans . Biological Psychiatry , 66 : 503 – 508 .
  • Nitsche , M. A. , Lampe , C. , Antal , A. , Liebetanz , D. Lang , N. 2006 . Dopaminergic modulation of long-lasting direct current-induced cortical excitability changes in the human motor cortex . European Journal of Neuroscience , 23 : 1651 – 1657 .
  • Nitsche , M. A. , Liebetanz , D. , Lang , N. , Antal , A. , Tergau , F and Paulus , W. 2003 . Safety criteria for transcranial direct current stimulation (tDCS) in humans . Clinical Neurophysiology , 114 : 2220 – 2222 . author reply 2–3
  • Nitsche , M. A. , Nitsche , M. S. , Klein , C. C. , Tergau , F. , Rothwell , J. C. and Paulus , W. 2003 . Level of action of cathodal DC polarisation induced inhibition of the human motor cortex . Clinical Neurophysiology , 114 : 600 – 604 .
  • Nitsche , M. A. and Paulus , W. 2000 . Excitability changes induced in the human motor cortex by weak transcranial direct current stimulation . Journal of Physiology , 527 ( 3 ) : 633 – 639 .
  • Nitsche , M. A. and Paulus , W. 2001 . Sustained excitability elevations induced by transcranial DC motor cortex stimulation in humans . Neurology , 57 : 1899 – 1901 .
  • Nitsche , M. A. , Roth , A. , Kuo , M. F. , Fischer , A. K. Liebetanz , D. 2007 . Timing-dependent modulation of associative plasticity by general network excitability in the human motor cortex . Journal of Neuroscience , 27 : 3807 – 3812 .
  • Nitsche , M. A. , Schauenburg , A. , Lang , N. , Liebetanz , D. Exner , C. 2003 . Facilitation of implicit motor learning by weak transcranial direct current stimulation of the primary motor cortex in the human . Journal of Cognitive Neuroscience , 15 : 619 – 626 .
  • Nitsche , M. A. , Seeber , A. , Frommann , K. , Klein , C. C. Rochford , C. 2005 . Modulating parameters of excitability during and after transcranial direct current stimulation of the human motor cortex . Journal of Physiology , 568 : 291 – 303 .
  • Paulus , W. 2010 . On the difficulties of separating retinal from cortical origins of phosphenes when using transcranial alternating current stimulation (tACS) . Clinical Neurophysiology , 121 : 987 – 991 .
  • Paulus , W. , Classen , J. , Cohen , L. G. , Large , C. H. Di Lazzaro , V. 2008 . State of the art: Pharmacologic effects on cortical excitability measures tested by transcranial magnetic stimulation . Brain Stimulation , 1 : 151 – 163 .
  • Paulus , W. and Trenkwalder , C. 2006 . Less is more: Pathophysiology of dopaminergic-therapy-related augmentation in restless legs syndrome . Lancet Neurology , 5 : 878 – 886 .
  • Pogosyan , A. , Gaynor , L. D. , Eusebio , A. and Brown , P. 2009 . Boosting cortical activity at Beta-band frequencies slows movement in humans . Current Biology , 19 : 1637 – 1641 .
  • Polania , R. , Nitsche , M. A. and Paulus , W. 2011 . Modulating functional connectivity patterns and topological functional organization of the human brain with transcranial direct current stimulation . Human Brain Mapping , 32 ( 8 ) : 1236 – 1249 .
  • Polania , R. , Paulus , W. , Antal , A. and Nitsche , M. A. 2011 . Introducing graph theory to track for neuroplastic alterations in the resting human brain: A transcranial direct current stimulation study . NeuroImage , 54 : 2287 – 2296 .
  • Priori , A. , Berardelli , A. , Rona , S. , Accornero , N. and Manfredi , M. 1998 . Polarization of the human motor cortex through the scalp . Neuroreport , 9 : 2257 – 2260 .
  • Priori , A. , Mameli , F. , Cogiamanian , F. , Marceglia , S. Tiriticco , M. 2008 . Lie-specific involvement of dorsolateral prefrontal cortex in deception . Cerebral Cortex , 18 : 451 – 455 .
  • Radman , T. , Ramos , R. L. , Brumberg , J. and Bikson , M. 2009 . Role of cortical cell type and morphology in subthreshold and suprathreshold uniform electric field stimulation . Brain Stimulation , 2 : 215 – 228 .
  • Radman , T. , Su , Y. , An , J. H. , Parra , L. C. and Bikson , M. 2007 . Spike timing amplifies the effect of electric fields on neurons: Implications for endogenous field effects . Journal of Neuroscience , 27 : 3030 – 3036 .
  • Reis , J. , Schambra , H. M. , Cohen , L. G. , Buch , E. R. Fritsch , B. 2009 . Noninvasive cortical stimulation enhances motor skill acquisition over multiple days through an effect on consolidation . Proceedings of the National Academy of Sciences of the United States of America , 106 : 1590 – 1595 .
  • Rothkegel , H. , Sommer , M. and Paulus , W. 2010 . Breaks during 5Hz rTMS are essential for facilitatory after effects . Clinical Neurophysiology , 121 : 426 – 430 .
  • Schlamann , M. , Voight , M. A. , Maderwald , S. , Bitz , A. K. , Kraff , O. Ladd , S. C. 2010 . Exposure to high-field MRI does not affect cognitive function . Journal of Magnetic Resonance Imaging , 31 : 1061 – 1066 .
  • Schutter , D. J. and Hortensius , R. 2009 . Retinal origin of phosphenes to transcranial alternating current stimulation . Clinical Neurophysiology , 12 : 987 – 991 .
  • Schwiedrzik , C. M. 2009 . Retina or visual cortex? The site of phosphene induction by transcranial alternating current stimulation . Frontiers in Integrated Neuroscience , 3 : 6
  • Siebner , H. R. , Lang , N. , Rizzo , V. , Nitsche , M. A. Paulus , W. 2004 . Preconditioning of low-frequency repetitive transcranial magnetic stimulation with transcranial direct current stimulation: Evidence for homeostatic plasticity in the human motor cortex . Journal of Neuroscience , 24 : 3379 – 3385 .
  • Terney , D. , Chaieb , L. , Moliadze , V. , Antal , A. and Paulus , W. 2008 . Increasing human brain excitability by transcranial high-frequency random noise stimulation . Journal of Neuroscience , 28 : 14147 – 14155 .
  • Wagner , T. , Fregni , F. , Fecteau , S. , Grodzinsky , A. , Zahn , M. and Pascual-Leone , A. 2007 . Transcranial direct current stimulation: A computer-based human model study . NeuroImage , 35 : 1113 – 1124 .
  • Wankerl , K. , Weise , D. , Gentner , R. , Rumpf , J. J. and Classen , J. 2010 . L-type voltage-gated Ca2+ channels: A single molecular switch for long-term potentiation/long-term depression-like plasticity and activity-dependent metaplasticity in humans . Journal of Neuroscience , 30 : 6197 – 6204 .
  • Zaehle , T. , Rach , S. and Herrmann , C. S. 2010 . Transcranial alternating current stimulation enhances individual alpha activity in human EEG . PLOS One , 5 : 13766
  • Zaghi , S. , Acar , M. , Hultgren , B. , Boggio , P. S. and Fregni , F. 2010 . Noninvasive brain stimulation with low-intensity electrical currents: Putative mechanisms of action for direct and alternating current stimulation . Neuroscientist , 16 : 285 – 307 .
  • Ziemann , U. , Ilic , T. V. , Pauli , C. , Meintzschel , F. and Ruge , D. 2004 . Learning modifies subsequent induction of long-term potentiation-like and long-term depression-like plasticity in human motor cortex . Journal of Neuroscience , 24 : 1666 – 1672 .

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