Emotion perception improvement following high frequency transcranial random noise stimulation of the inferior frontal cortex. [PDF]
Penton T, Dixon L, Evans LJ, Banissy MJ.
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Motor Task-Dependent Dissociated Effects of Transcranial Random Noise Stimulation in a Finger-Tapping Task Versus a Go/No-Go Task on Corticospinal Excitability and Task Performance. [PDF]
Jooss A +9 more
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Using High Frequency Transcranial Random Noise Stimulation to Modulate Face Memory Performance in Younger and Older Adults: Lessons Learnt From Mixed Findings. [PDF]
Penton T +8 more
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Transcranial random noise stimulation and cognitive training to improve learning and cognition of the atypically developing brain: A pilot study. [PDF]
Looi CY +6 more
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Opposite effects of high- and low-frequency transcranial random noise stimulation probed with visual motion adaptation. [PDF]
Campana G +4 more
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Transcranial random-noise stimulation of visual cortex potentiates value-driven attentional capture. [PDF]
van Koningsbruggen MG +3 more
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Effects of transcranial random noise stimulation (tRNS) on the cortical excitability
Moliadze, Vera +4 more
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Transcranial random noise stimulation benefits arithmetic skills [PDF]
Although arithmetic skills are crucial cognitive abilities, numeric competence impairments affect a significant portion of the young population. These problems produce a high socio-economic cost by negatively affecting scholastic and work performance. The parietal cortex is the brain area that is classically associated with numeric processing, but it ...
Pasqualotto, Achille
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The present review considers all papers published on the topic up to the end of the year 2022. Transcranial random noise stimulation (tRNS) is a non-invasive neuromodulation technique introduced about 15 years ago whose use is becoming increasingly widespread in neuroscience.
Alfredo Brancucci +2 more
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Although transcranial random noise stimulation (tRNS) over the primary motor cortex (M1) region can be used to enhance cortical excitability, it remains unclear whether tRNS over the M1 region improves motor performance. The present study aims to clarify the effect of tRNS on both corticospinal excitability and motor performance. We applied tRNS at the
Takafumi Abe +2 more
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