Works by Shota Miyaguchi

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11 found
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  1.  8
    Comparison of Three Non-Invasive Transcranial Electrical Stimulation Methods for Increasing Cortical Excitability.Yasuto Inukai, Kei Saito, Ryoki Sasaki, Shota Tsuiki, Shota Miyaguchi, Sho Kojima, Mitsuhiro Masaki, Naofumi Otsuru & Hideaki Onishi - 2016 - Frontiers in Human Neuroscience 10.
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  2.  27
    Presence and Absence of Muscle Contraction Elicited by Peripheral Nerve Electrical Stimulation Differentially Modulate Primary Motor Cortex Excitability.Ryoki Sasaki, Shinichi Kotan, Masaki Nakagawa, Shota Miyaguchi, Sho Kojima, Kei Saito, Yasuto Inukai & Hideaki Onishi - 2017 - Frontiers in Human Neuroscience 11.
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  3.  26
    Depression of corticomotor excitability after muscle fatigue induced by electrical stimulation and voluntary contraction.Shinichi Kotan, Sho Kojima, Shota Miyaguchi, Kazuhiro Sugawara & Hideaki Onishi - 2015 - Frontiers in Human Neuroscience 9.
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  4.  12
    Do Differences in Levels, Types, and Duration of Muscle Contraction Have an Effect on the Degree of Post-exercise Depression?Shota Miyaguchi, Sho Kojima, Hikari Kirimoto, Hiroyuki Tamaki & Hideaki Onishi - 2016 - Frontiers in Human Neuroscience 10.
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  5.  18
    Modulation of Cortical Inhibitory Circuits after Cathodal Transcranial Direct Current Stimulation over the Primary Motor Cortex.Ryoki Sasaki, Shota Miyaguchi, Shinichi Kotan, Sho Kojima, Hikari Kirimoto & Hideaki Onishi - 2016 - Frontiers in Human Neuroscience 10.
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  6.  24
    Effect of Paired-Pulse Electrical Stimulation on the Activity of Cortical Circuits.Kei Saito, Hideaki Onishi, Shota Miyaguchi, Shinichi Kotan & Shuhei Fujimoto - 2015 - Frontiers in Human Neuroscience 9.
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  7.  2
    Effects of Different Stimulation Conditions on the Stimulation Effect of Noisy Galvanic Vestibular Stimulation.Yasuto Inukai, Shota Miyaguchi, Miki Saito, Naofumi Otsuru & Hideaki Onishi - 2020 - Frontiers in Human Neuroscience 14.
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  8.  22
    No relation between afferent facilitation induced by digital nerve stimulation and the latency of cutaneomuscular reflexes and somatosensory evoked magnetic fields.Sho Kojima, Hideaki Onishi, Kazuhiro Sugawara, Shota Miyaguchi, Hikari Kirimoto, Hiroyuki Tamaki, Hiroshi Shirozu & Shigeki Kameyama - 2014 - Frontiers in Human Neuroscience 8.
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  9.  21
    Effects of Passive Finger Movement on Cortical Excitability.Masaki Nakagawa, Ryoki Sasaki, Shota Tsuiki, Shota Miyaguchi, Sho Kojima, Kei Saito, Yasuto Inukai & Hideaki Onishi - 2017 - Frontiers in Human Neuroscience 11.
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  10.  6
    Effect of Repetitive Passive Movement Before Motor Skill Training on Corticospinal Excitability and Motor Learning Depend on BDNF Polymorphisms.Manh Van Pham, Shota Miyaguchi, Hiraku Watanabe, Kei Saito, Naofumi Otsuru & Hideaki Onishi - 2021 - Frontiers in Human Neuroscience 15.
    A decrease in cortical excitability tends to be easily followed by an increase induced by external stimuli via a mechanism aimed at restoring it; this phenomenon is called “homeostatic plasticity.” In recent years, although intervention methods aimed at promoting motor learning using this phenomenon have been studied, an optimal intervention method has not been established. In the present study, we examined whether subsequent motor learning can be promoted further by a repetitive passive movement, which reduces the excitability of the primary (...)
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  11.  23
    Repetitive Passive Finger Movement Modulates Primary Somatosensory Cortex Excitability.Ryoki Sasaki, Shota Tsuiki, Shota Miyaguchi, Sho Kojima, Kei Saito, Yasuto Inukai, Naofumi Otsuru & Hideaki Onishi - 2018 - Frontiers in Human Neuroscience 12.
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