J.-F. Vibert
French Institute of Health and Medical Research
11 Papers
193 Citations
J.-F. Vibert is an academic researcher from French Institute of Health and Medical Research. The author has contributed to research in topics: Inhibitory postsynaptic potential & Postsynaptic potential. The author has an hindex of 9, co-authored 11 publications. Previous affiliations of J.-F. Vibert include Hong Kong University of Science and Technology.
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Papers
A national internet-linked based database for pediatric interstitial lung diseases: the French network.
Nadia Nathan,Rola Abou Taam,Rola Abou Taam,Ralph Epaud,Christophe Delacourt,Christophe Delacourt,Antoine Deschildre,Philippe Reix,Raphal Chiron,Ulrika de Pontbriand,Jacques Brouard,Michal Fayon,Jean Christophe Dubus,Lisa Giovannini-Chami,François Bremont,Katia Bessaci,Cyril Schweitzer,Marie Laure Dalphin,Christophe Marguet,Véronique Houdouin,Françoise Troussier,A. Sardet,Eglantine Hullo,Isabelle Gibertini,Malika Mahloul,Delphine Michon,Adrien Priouzeau,Laurie Galeron,J.-F. Vibert,Guillaume Thouvenin,Harriet Corvol,Jacques Deblic,Jacques Deblic,Annick Clement +33 more
TL;DR: The French network and the largest national database in pediatric ILDs are introduced and it is introduced here the diagnosis spectrum and the estimated incidence are consistent with other European databases.
Transients in the inhibitory driving of neurons and their postsynaptic consequences
TL;DR: The presynaptic fiber at an inhibitory synapse on a pacemaker neuron was forced to generate transients, defined here as spike trains with a trend, unceasingly accelerating or slowing, on isolated crayfish stretch receptor organs, which revealed strong similarities to the stationary forms reported for different pacemaker drivings.
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Periodically modulated inhibition and its postsynaptic consequences—I. General features. Influence of modulation frequency
TL;DR: The relation, or "synaptic coding", between spike trains across a synapse with inhibitory postsynaptic potentials when the presynaptic rate is modulated periodically and the post Synaptic cell is a pacemaker is examined.
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Periodically modulated inhibition and its postsynaptic consequences—II. Influence of modulation slope, depth, range, noise and of postsynaptic natural discharges
TL;DR: This paper examines the relation, or "synaptic coding", between the discharges of inhibitory fibres whose instantaneous firing rate is modulated periodically and pacemaker postsynaptic neurons using crayfish synapses and point process statistics.
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