D
Davide Reato
Researcher at City University of New York
Publications - 20
Citations - 3688
Davide Reato is an academic researcher from City University of New York. The author has contributed to research in topics: Transcranial direct-current stimulation & Stimulation. The author has an hindex of 12, co-authored 19 publications receiving 2985 citations. Previous affiliations of Davide Reato include Albert Einstein College of Medicine & City College of New York.
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Journal ArticleDOI
Gyri-precise head model of transcranial direct current stimulation: Improved spatial focality using a ring electrode versus conventional rectangular pad
TL;DR: It is shown that electric fields may be clustered at distinct gyri/sulci sites because of details in tissue architecture/conductivity, notably cerebrospinal fluid (CSF).
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A technical guide to tDCS, and related non-invasive brain stimulation tools
Adam J. Woods,Andrea Antal,Marom Bikson,Paulo S. Boggio,Andre R. Brunoni,Pablo Celnik,Leonardo G. Cohen,Felipe Fregni,Christoph Herrmann,Emily S. Kappenman,Helena Knotkova,David Liebetanz,Carlo Miniussi,Pedro C. Miranda,Walter Paulus,Davide Reato,Charlotte J. Stagg,Nicole Wenderoth,Michael A. Nitsche,Michael A. Nitsche +19 more
TL;DR: This review covers technical aspects of tES, as well as applications like exploration of brain physiology, modelling approaches, tES in cognitive neurosciences, and interventional approaches to help the reader to appropriately design and conduct studies involving these brain stimulation techniques.
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Low-Intensity Electrical Stimulation Affects Network Dynamics by Modulating Population Rate and Spike Timing
TL;DR: The data and mechanistic framework provide a functional role for endogenous electric fields, specifically illustrating that modulation of gamma oscillations during theta-modulated gamma activity can result from field effects alone.
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Cellular effects of acute direct current stimulation: somatic and synaptic terminal effects
Asif Rahman,Davide Reato,Mattia Arlotti,Fernando Gasca,Abhishek Datta,Lucas C. Parra,Marom Bikson +6 more
TL;DR: It is suggested that somatic polarization together with axon terminal polarization may be important for synaptic pathway‐specific modulation of DCS, which underlies modulation of neuronal excitability during transcranial DCS.
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Effects of weak transcranial alternating current stimulation on brain activity-a review of known mechanisms from animal studies.
TL;DR: The available in vitro and in vivo animal studies that attempt to provide mechanistic explanations for the role of transcranial alternating current stimulation with weak current as a tool for affecting brain function are reviewed.