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Literature DB >> 22031888

Random noise stimulation improves neuroplasticity in perceptual learning.

Anna Fertonani¹, Cornelia Pirulli, Carlo Miniussi.

Abstract

Perceptual learning is considered a manifestation of neural plasticity in the human brain. We investigated brain plasticity mechanisms in a learning task using noninvasive transcranial electrical stimulation (tES). We hypothesized that different types of tES would have varying actions on the nervous system, which would result in different efficacies of neural plasticity modulation. Thus, the principal goal of the present study was to verify the possibility of inducing differential plasticity effects using two tES approaches [i.e., direct current stimulation (tDCS) and random noise stimulation (tRNS)] during the execution of a visual perceptual learning task.

Entities: Gene Species

Mesh：

Year: 2011 PMID： 22031888 PMCID： PMC6703532 DOI： 10.1523/JNEUROSCI.2002-11.2011

Source DB: PubMed Journal: J Neurosci ISSN： 0270-6474 Impact factor: 6.167

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Cited

108 in total

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2. Transfer of cognitive training across magnitude dimensions achieved with concurrent brain stimulation of the parietal lobe.

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3. Evidence for metaplasticity in the human visual cortex.

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4. Transcranial random-noise stimulation of visual cortex potentiates value-driven attentional capture.

Authors: Martijn G van Koningsbruggen; Stefania C Ficarella; Lorella Battelli; Clayton Hickey
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5. A Description and Critical Analysis of the Therapeutic Uses of Transcranial Direct Current Stimulation: Implications for Clinical Practice and Research.

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6. Transcranial direct current stimulation over right dorsolateral prefrontal cortex enhances error awareness in older age.

Authors: Siobhán Harty; Ian H Robertson; Carlo Miniussi; Owen C Sheehy; Ciara A Devine; Sarahjane McCreery; Redmond G O'Connell
Journal: J Neurosci Date: 2014-03-05 Impact factor: 6.167

7. Basic mechanisms of numerical processing: cross-modal number comparisons and symbolic versus nonsymbolic numerosity in the intraparietal sulcus.

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Journal: J Neurosci Date: 2014-01-29 Impact factor: 6.167

8. A New, High-Efficacy, Noninvasive Transcranial Electric Stimulation Tuned to Local Neurodynamics.

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Journal: J Neurosci Date: 2017-12-01 Impact factor: 6.167

9. Application of tRNS to improve multiple sclerosis fatigue: a pilot, single-blind, sham-controlled study.

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Journal: J Neural Transm (Vienna) Date: 2019-05-03 Impact factor: 3.575

Review 10. A technical guide to tDCS, and related non-invasive brain stimulation tools.

Authors: A J Woods; A Antal; M Bikson; P S Boggio; A R Brunoni; P Celnik; L G Cohen; F Fregni; C S Herrmann; E S Kappenman; H Knotkova; D Liebetanz; C Miniussi; P C Miranda; W Paulus; A Priori; D Reato; C Stagg; N Wenderoth; M A Nitsche
Journal: Clin Neurophysiol Date: 2015-11-22 Impact factor: 3.708