Results 331 to 340 of about 68,132 (360)
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tDCS and Functional Connectivity
2021Transcranial direct current stimulation (tDCS) is a noninvasive brain stimulation technique that modulates the cortical excitability of the human brain by applying weak direct currents on the scalp through both anodal and cathodal electrodes. However, the mechanisms of tDCS action are not yet fully understood.
Yuki Mizutani-Tiebel +4 more
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tDCS-Pharmacotherapy Interactions
2021Transcranial direct current stimulation (tDCS) noninvasively induces cortical excitability alterations via application of continuous, weak direct current through the scalp and has been adopted in clinical settings, particularly in psychiatry, as adjunctive treatment option.
Min-Fang Kuo, Michael A. Nitsche
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Multimodal Association of tDCS with Electroencephalography
2021In the field of neuromodulation, we have observed an increase in the popularity of approaches that combine transcranial electrical stimulation (tES) with additional methods to establish, in vivo, the neurophysiological consequences of a given experimental or therapeutic manipulation. Research in the development of multimodal approaches has provided new
Bolognini N., Diana L.
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Evaluating the effects of tDCS in stroke patients using functional outcomes: a systematic review
Disability and Rehabilitation, 2020Background and purpose Transcranial direct current stimulation (tDCS) has been extensively studied over the past 20 years to promote functional motor recovery after stroke. However, tDCS clinical relevance still needs to be determined.
S. Bornheim +5 more
semanticscholar +1 more source
Clinical Neurophysiology, 2016
Non-invasive brain stimulation with transcranial direct or alternating currents (tDCS and tACS) modulates neuronal activity and excitability in the human brain. The primary effect of both techniques is assumed to be an alteration of neuronal resting membrane potential. tDCS induces tonic alterations, whereas tACS has oscillatory effects.
Michael A. Nitsche, Michael A. Nitsche
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Non-invasive brain stimulation with transcranial direct or alternating currents (tDCS and tACS) modulates neuronal activity and excitability in the human brain. The primary effect of both techniques is assumed to be an alteration of neuronal resting membrane potential. tDCS induces tonic alterations, whereas tACS has oscillatory effects.
Michael A. Nitsche, Michael A. Nitsche
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Multimodal Association of tDCS with Electroencephalography
2016In the last decade, in the field of neuromodulation, we have observed an increase in the popularity of approaches that combine transcranial electrical stimulation (tES) with additional methods to establish, in vivo, the neurophysiological consequences of a given experimental or therapeutic manipulation.
Bolognini N., Miniussi C.
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2016
In the last 5–7 years, cerebellar and spinal DC stimulation received growing attention by experimental and clinical neuroscientists. Although the clinical efficacy of cerebellar and spinal tDCS awaits confirmation in large, clinical, randomized controlled studies, there are now several important key points underlying their mechanisms of action that ...
Roberta Ferrucci +2 more
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In the last 5–7 years, cerebellar and spinal DC stimulation received growing attention by experimental and clinical neuroscientists. Although the clinical efficacy of cerebellar and spinal tDCS awaits confirmation in large, clinical, randomized controlled studies, there are now several important key points underlying their mechanisms of action that ...
Roberta Ferrucci +2 more
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Designing Synchronizers for Nutt-TDCs
2019 5th International Conference on Event-Based Control, Communication, and Signal Processing (EBCCSP), 2019Applications requiring both high resolution time measurement and large dynamic range demand for the integration of high-performance Time-to-Digital Converters (TDCs) and coarse counting methods which operate asynchronously. When using two asynchronous counting methods, the use of a synchronization mechanism is mandatory to correct metastability errors.
Machado, Rui +2 more
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Cerebellar tDCS as Therapy for Cerebellar Ataxias
The Cerebellum, 2022In recent years, a growing body of literature has investigated the use of non-invasive brain stimulation (NIBS) techniques to influence cerebellar activity and the effects of cerebellar stimulation on other brain regions through its multiple complex projections.
Natale Maiorana +4 more
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IEEE Transactions on Nuclear Science, 1986
A new time digitizing system is developed for use in new large scale drift chambers of colliding beam experiments at TRISTAN. The system is based upon 64-channel single-hit time-to-amplitude converter(TAC) modules with analog multiplexers and a Scan ADC (SADC).
F. Suekane +7 more
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A new time digitizing system is developed for use in new large scale drift chambers of colliding beam experiments at TRISTAN. The system is based upon 64-channel single-hit time-to-amplitude converter(TAC) modules with analog multiplexers and a Scan ADC (SADC).
F. Suekane +7 more
openaire +2 more sources