H
Hervé Devanne
Researcher at university of lille
Publications - 47
Citations - 3841
Hervé Devanne is an academic researcher from university of lille. The author has contributed to research in topics: Transcranial magnetic stimulation & Motor cortex. The author has an hindex of 20, co-authored 46 publications receiving 3380 citations. Previous affiliations of Hervé Devanne include Lille University of Science and Technology & University of the Littoral Opal Coast.
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Journal ArticleDOI
Evidence-based guidelines on the therapeutic use of repetitive transcranial magnetic stimulation (rTMS)
Jean Pascal Lefaucheur,Nathalie André-Obadia,Andrea Antal,Samar S. Ayache,Chris Baeken,David H. Benninger,Roberto Cantello,Massimo Cincotta,Mamede de Carvalho,Dirk De Ridder,Hervé Devanne,Vincenzo Di Lazzaro,Saša R. Filipović,Friedhelm C. Hummel,Satu K. Jääskeläinen,Vasilios K. Kimiskidis,Giacomo Koch,Berthold Langguth,Thomas Nyffeler,A. Oliviero,Frank Padberg,Emmanuel Poulet,Simone Rossi,Paolo Maria Rossini,John C. Rothwell,Carlos Schönfeldt-Lecuona,Hartwig R. Siebner,Christina W. Slotema,Charlotte J. Stagg,Josep Valls-Solé,Ulf Ziemann,Walter Paulus,Luis Garcia-Larrea +32 more
TL;DR: There is a sufficient body of evidence to accept with level A (definite efficacy) the analgesic effect of high-frequency rTMS of the primary motor cortex (M1) contralateral to the pain and the antidepressant effect of HF-rT MS of the left dorsolateral prefrontal cortex (DLPFC).
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Input-output properties and gain changes in the human corticospinal pathway.
TL;DR: The threshold, steepness and plateau level characterize the input-output parameters of the human corticospinal pathway for a given level of motor activity, and the sigmoidal input- Output relation, as a whole, is not due to theinput-output properties of single motoneurons.
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Differential Control of Reciprocal Inhibition During Walking Versus Postural and Voluntary Motor Tasks in Humans
TL;DR: It is concluded that the strength of reciprocal inhibition of the soleus alpha-motoneuron pool can thus be controlled independently of the level of motor activity in the ankle flexors.
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The effects of low- and high-frequency repetitive TMS on the input/output properties of the human corticospinal pathway
Elise Houdayer,Adrian Degardin,François Cassim,Perrine Bocquillon,Philippe Derambure,Hervé Devanne +5 more
TL;DR: Analysis of the fitted stimulus response curve indicates a dichotomous influence of both low- and high-frequency rTMS on M1 cortical excitability; this may reflect intermingled effects on excitatory and inhibitory cortical networks.
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Motor cortex plasticity induced by extensive training revealed by transcranial magnetic stimulation in human.
TL;DR: The results show that heavy training in a specific skill induces an expansion of proximal muscle representation in the contralateral primary motor cortex, which supports the hypothesis of a cortical plasticity driven by activity.