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      Dual-hemisphere anodal transcranial direct current stimulation improves bilateral motor synergies

      brief-report

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          Abstract

          Transcranial direct current stimulation (tDCS) is one of the non-invasive brain stimulation techniques that can improve motor functions. As bimanual motor actions require high motor cortical activations between hemispheres, applying bilateral anodal stimulation on left and right sides of primary motor cortex (M1) can improve for improvements in bimanual motor tasks. This study investigated which bilateral tDCS protocol effectively improves bimanual hand-grip force control capabilities in healthy young adults. We used three different bilateral tDCS protocols: (a) dual-anodal stimulation on the M1 of bilateral hemispheres (Bi-AA), (b) anodal–cathodal stimulation on the M1 of dominant and nondominant hemispheres (Bi-AC), and (c) sham stimulation (Sham). The results indicated that applying the Bi-AA significantly improved bilateral motor synergies estimated by uncontrolled manifold analysis relative to Sham. However, these differences were not observed in the comparison between Bi-AA and Bi-AC as well as between Bi-AC and Sham. These findings suggest that facilitating motor cortical activations between both hemispheres may be an additional option for advancing interlimb motor coordination patterns.

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          G*Power 3: A flexible statistical power analysis program for the social, behavioral, and biomedical sciences

          Franz Faul, Edgar Erdfelder, Albert-Georg Lang (2007)
          G*Power (Erdfelder, Faul, & Buchner, 1996) was designed as a general stand-alone power analysis program for statistical tests commonly used in social and behavioral research. G*Power 3 is a major extension of, and improvement over, the previous versions. It runs on widely used computer platforms (i.e., Windows XP, Windows Vista, and Mac OS X 10.4) and covers many different statistical tests of the t, F, and chi2 test families. In addition, it includes power analyses for z tests and some exact tests. G*Power 3 provides improved effect size calculators and graphic options, supports both distribution-based and design-based input modes, and offers all types of power analyses in which users might be interested. Like its predecessors, G*Power 3 is free.
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            Excitability changes induced in the human motor cortex by weak transcranial direct current stimulation.

            M A Nitsche, W. Paulus (2000)
            In this paper we demonstrate in the intact human the possibility of a non-invasive modulation of motor cortex excitability by the application of weak direct current through the scalp. Excitability changes of up to 40 %, revealed by transcranial magnetic stimulation, were accomplished and lasted for several minutes after the end of current stimulation. Excitation could be achieved selectively by anodal stimulation, and inhibition by cathodal stimulation. By varying the current intensity and duration, the strength and duration of the after-effects could be controlled. The effects were probably induced by modification of membrane polarisation. Functional alterations related to post-tetanic potentiation, short-term potentiation and processes similar to postexcitatory central inhibition are the likely candidates for the excitability changes after the end of stimulation. Transcranial electrical stimulation using weak current may thus be a promising tool to modulate cerebral excitability in a non-invasive, painless, reversible, selective and focal way.
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              Physiological basis of transcranial direct current stimulation.

              Charlotte Stagg, Michael Nitsche (2011)
              Since the rediscovery of transcranial direct current stimulation (tDCS) about 10 years ago, interest in tDCS has grown exponentially. A noninvasive stimulation technique that induces robust excitability changes within the stimulated cortex, tDCS is increasingly being used in proof-of-principle and stage IIa clinical trials in a wide range of neurological and psychiatric disorders. Alongside these clinical studies, detailed work has been performed to elucidate the mechanisms underlying the observed effects. In this review, the authors bring together the results from these pharmacological, neurophysiological, and imaging studies to describe their current knowledge of the physiological effects of tDCS. In addition, the theoretical framework for how tDCS affects motor learning is proposed.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Psychol
                Journal ID (iso-abbrev): Front Psychol
                Journal ID (publisher-id): Front. Psychol.
                Title: Frontiers in Psychology
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-1078
                Publication date (Electronic): 20 July 2023
                Publication date Collection: 2023
                Volume: 14
                Electronic Location Identifier: 1211034
                Affiliations
                [1] 1Department of Human Movement Science, Incheon National University , Incheon, Republic of Korea
                [2] 2Neuromechanical Rehabilitation Research Laboratory, Incheon National University , Incheon, Republic of Korea
                [3] 3Division of Sport Science, Health Promotion Center, Sport Science Institute, Incheon National University , Incheon, Republic of Korea
                Author notes

                Edited by: Mattia Marangon, University of Verona, Italy

                Reviewed by: Veronica Montani, University of Padua, Italy; Rossella Breveglieri, University of Bologna, Italy

                *Correspondence: Nyeonju Kang, nyunju@ 123456inu.ac.kr
                Article
                DOI: 10.3389/fpsyg.2023.1211034
                PMC ID: 10400310
                SO-VID: 09aa7fee-1adb-4826-ac9c-31090c53e623
                Copyright © Copyright © 2023 Lee, Lee, Lee, Ko and Kang.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 24 April 2023
                Date accepted : 15 June 2023
                Page count
                Figures: 3, Tables: 0, Equations: 2, References: 29, Pages: 7, Words: 4695
                Categories
                Subject: Psychology
                Subject: Brief Research Report
                Custom metadata
                section-at-acceptance Movement Science

                ScienceOpen disciplines: Clinical Psychology & Psychiatry
                Keywords: bilateral force control,bilateral motor synergy,dual anodal stimulation,tdcs,primary motor cortex (m1)
                Data availability:
                ScienceOpen disciplines: Clinical Psychology & Psychiatry
                Keywords: bilateral force control, bilateral motor synergy, dual anodal stimulation, tdcs, primary motor cortex (m1)

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