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Brain Stimulation Journal
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  • Research Article10
  • Rapid Communication1

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  • Last 5 Years7
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  • Borges, Helen2
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  • Lee, Kiwon2
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  • Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation11

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  • Transcranial direct current stimulation6
  • tDCS3
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  • Full length article
    Open Access

    Adaptive current tDCS up to 4 mA

    Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
    Vol. 13Issue 1p69–79Published online: August 5, 2019
    • Niranjan Khadka
    • Helen Borges
    • Bhaskar Paneri
    • Trynia Kaufman
    • Electra Nassis
    • Adantchede L. Zannou
    • and others
    Cited in Scopus: 20
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      Higher tDCS current may putatively enhance efficacy, with tolerability the perceived limiting factor.
      Adaptive current tDCS up to 4 mA
    • Full length article

      Effects of 6-month at-home transcranial direct current stimulation on cognition and cerebral glucose metabolism in Alzheimer's disease

      Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
      Vol. 12Issue 5p1222–1228Published online: June 4, 2019
      • Jooyeon Jamie Im
      • Hyeonseok Jeong
      • Marom Bikson
      • Adam J. Woods
      • Gozde Unal
      • Jin Kyoung Oh
      • and others
      Cited in Scopus: 56
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        Although single or multiple sessions of transcranial direct current stimulation (tDCS) on the prefrontal cortex over a few weeks improved cognition in patients with Alzheimer's disease (AD), effects of repeated tDCS over longer period and underlying neural correlates remain to be elucidated.
        Effects of 6-month at-home transcranial direct current stimulation on cognition and cerebral glucose metabolism in Alzheimer's disease
      • Short communication

        Sham tDCS: A hidden source of variability? Reflections for further blinded, controlled trials

        Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
        Vol. 12Issue 3p668–673Published online: January 2, 2019
        • Clara Fonteneau
        • Marine Mondino
        • Martijn Arns
        • Chris Baeken
        • Marom Bikson
        • Andre R. Brunoni
        • and others
        Cited in Scopus: 84
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          Transcranial direct current stimulation (tDCS) is a non-invasive brain stimulation technique increasingly used to modulate neural activity in the living brain. In order to establish the neurophysiological, cognitive or clinical effects of tDCS, most studies compare the effects of active tDCS to those observed with a sham tDCS intervention. In most cases, sham tDCS consists in delivering an active stimulation for a few seconds to mimic the sensations observed with active tDCS and keep participants blind to the intervention.
          Sham tDCS: A hidden source of variability? Reflections for further blinded, controlled trials
        • Full length article

          Dry tDCS: Tolerability of a novel multilayer hydrogel composite non-adhesive electrode for transcranial direct current stimulation

          Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
          Vol. 11Issue 5p1044–1053Published online: July 27, 2018
          • Niranjan Khadka
          • Helen Borges
          • Adantchede L. Zannou
          • Jongmin Jang
          • Byunggik Kim
          • Kiwon Lee
          • and others
          Cited in Scopus: 12
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            The adoption of transcranial Direct Current Stimulation (tDCS) is encouraged by portability and ease-of-use. However, the preparation of tDCS electrodes remains the most cumbersome and error-prone step. Here, we validate the performance of the first “dry” electrodes for tDCS. A “dry electrode” excludes 1) any saline or other electrolytes, that are prone to spread and leaving a residue; 2) any adhesive at the skin interface; or 3) any electrode preparation steps except the connection to the stimulator.
            Dry tDCS: Tolerability of a novel multilayer hydrogel composite non-adhesive electrode for transcranial direct current stimulation
          • Full length article
            Open Access

            Brain stimulation patterns emulating endogenous thalamocortical input to parvalbumin-expressing interneurons reduce nociception in mice

            Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
            Vol. 11Issue 5p1151–1160Published online: May 11, 2018
            • Yeowool Huh
            • Dahee Jung
            • Taeyoon Seo
            • Sukkyu Sun
            • Su Hyun Kim
            • Hyewhon Rhim
            • and others
            Cited in Scopus: 3
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              The bursting pattern of thalamocortical (TC) pathway dampens nociception. Whether brain stimulation mimicking endogenous patterns can engage similar sensory gating processes in the cortex and reduce nociceptive behaviors remains uninvestigated.
              Brain stimulation patterns emulating endogenous thalamocortical input to parvalbumin-expressing interneurons reduce nociception in mice
            • Full length article

              Tolerability and blinding of 4x1 high-definition transcranial direct current stimulation (HD-tDCS) at two and three milliamps

              Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
              Vol. 11Issue 5p991–997Published online: May 3, 2018
              • Jaclyn Reckow
              • Annalise Rahman-Filipiak
              • Sarah Garcia
              • Stephen Schlaefflin
              • Oliver Calhoun
              • Alexandre F. DaSilva
              • and others
              Cited in Scopus: 36
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                Transcranial direct current stimulation (tDCS) is an in-demand form of neuromodulation generally regarded as safe and well tolerated. However, few studies have examined the safety, tolerability, or blinding of High Definition (HD-) tDCS, especially in older adults and at stimulation intensities of 2 milliamps (mA) or greater.
              • Full length article

                Evidence of transcranial direct current stimulation-generated electric fields at subthalamic level in human brain in vivo

                Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
                Vol. 11Issue 4p727–733Published online: March 13, 2018
                • Pratik Y. Chhatbar
                • Steven A. Kautz
                • Istvan Takacs
                • Nathan C. Rowland
                • Gonzalo J. Revuelta
                • Mark S. George
                • and others
                Cited in Scopus: 57
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                  Transcranial direct current stimulation (tDCS) is a promising brain modulation technique for several disease conditions. With this technique, some portion of the current penetrates through the scalp to the cortex and modulates cortical excitability, but a recent human cadaver study questions the amount. This insufficient intracerebral penetration of currents may partially explain the inconsistent and mixed results in tDCS studies to date. Experimental validation of a transcranial alternating current stimulation-generated electric field (EF) in vivo has been performed on the cortical (using electrocorticography, ECoG, electrodes), subcortical (using stereo electroencephalography, SEEG, electrodes) and deeper thalamic/subthalamic levels (using DBS electrodes).
                  Evidence of transcranial direct current stimulation-generated electric fields at subthalamic level in human brain in vivo
                • Full length article

                  Direct Current Stimulation Alters Neuronal Input/Output Function

                  Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
                  Vol. 10Issue 1p36–45Published online: September 1, 2016
                  • Belen Lafon
                  • Asif Rahman
                  • Marom Bikson
                  • Lucas C. Parra
                  Cited in Scopus: 67
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                    Transcranial direct current stimulation (tDCS) is actively investigated as a tool for non-invasive brain stimulation. Across diverse applications, the general goal is to modulate neuronal excitability. tDCS produces current flow across the brain from anode to cathode. Classical in vivo animal studies demonstrate an increase in neuronal activity (firing rate) in brain regions under the anode and a decrease in activity under the cathode [1–5]. These early results motivated neurophysiological experiments with tDCS in humans [6] and clinical trials [7] with largely similar conclusions on neuronal excitability.
                    Direct Current Stimulation Alters Neuronal Input/Output Function
                  • Original Article

                    High-Definition and Non-invasive Brain Modulation of Pain and Motor Dysfunction in Chronic TMD

                    Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
                    Vol. 8Issue 6p1085–1092Published online: June 22, 2015
                    • Adam Donnell
                    • Thiago D. Nascimento
                    • Mara Lawrence
                    • Vikas Gupta
                    • Tina Zieba
                    • Dennis Q. Truong
                    • and others
                    Cited in Scopus: 45
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                      Temporomandibular disorders (TMD) have a high prevalence and in many patients pain and masticatory dysfunction persist despite a range of treatments. Non-invasive brain neuromodulatory methods, namely transcranial direct current stimulation (tDCS), can provide relatively long-lasting pain relief in chronic pain patients.
                      High-Definition and Non-invasive Brain Modulation of Pain and Motor Dysfunction in Chronic TMD
                    • Transcranial Magnetic Stimulation (TMS) Original Article

                      The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)

                      Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
                      Vol. 8Issue 3p590–602Published online: January 16, 2015
                      • Ole Seibt
                      • Andre R. Brunoni
                      • Yu Huang
                      • Marom Bikson
                      Cited in Scopus: 82
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                        The dose of transcranial direct current stimulation (tDCS) is defined by electrode montage and current, while the resulting brain current flow is more complex and varies across individuals. The left dorsolateral pre-frontal cortex (lDLPFC) is a common target in neuropsychology and neuropsychiatry applications, with varied approaches used to experimentally position electrodes on subjects.
                        The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)
                      • Transcranial Direct Current Stimulation (tDCS) and Other Methods Original Article

                        Transcranial Direct Current Stimulation Accelerates Allocentric Target Detection

                        Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation
                        Vol. 6Issue 3p433–439Published online: June 13, 2012
                        • Jared Medina
                        • Jacques Beauvais
                        • Abhishek Datta
                        • Marom Bikson
                        • H. Branch Coslett
                        • Roy H. Hamilton
                        Cited in Scopus: 15
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                          Previous research on hemispatial neglect has provided evidence for dissociable mechanisms for egocentric and allocentric processing. Although a few studies have examined whether tDCS to posterior parietal cortex can be beneficial for attentional processing in neurologically intact individuals, none have examined the potential effect of tDCS on allocentric and/or egocentric processing.
                          Transcranial Direct Current Stimulation Accelerates Allocentric Target Detection
                        Page 1 of 1

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