about
Synaptic energy use and supplyDeciphering neuron-glia compartmentalization in cortical energy metabolism.In vivo evidence for lactate as a neuronal energy source.Metabotropic glutamate receptor mGluR5 is not involved in the early hemodynamic response.Multi-timescale modeling of activity-dependent metabolic coupling in the neuron-glia-vasculature ensemble.Non-signalling energy use in the developing rat brainThe quantitative single-neuron modeling competition.A benchmark test for a quantitative assessment of simple neuron models.Energy-Efficient Information Transfer by Visual Pathway Synapses.Comment on recent modeling studies of astrocyte-neuron metabolic interactions.Improved in vivo two-photon imaging after blood replacement by perfluorocarbon.Predicting spike times of a detailed conductance-based neuron model driven by stochastic spike arrival.Generalized integrate-and-fire models of neuronal activity approximate spike trains of a detailed model to a high degree of accuracy.Microglial Ramification, Surveillance, and Interleukin-1β Release Are Regulated by the Two-Pore Domain K+ Channel THIK-1.Predicting spike timing of neocortical pyramidal neurons by simple threshold models.A Process for Digitizing and Simulating Biologically Realistic Oligocellular Networks Demonstrated for the Neuro-Glio-Vascular EnsembleImpact of Frequency on the Energetic Efficiency of Action PotentialsSpecial issue on quantitative neuron modelingHarnessing Microglia and Macrophages for the Treatment of Glioblastoma.Pivotal role of carnosine in the modulation of brain cells activity: Multimodal mechanism of action and therapeutic potential in neurodegenerative disordersEnergy-efficient information transfer at thalamocortical synapsesAnalysis of Signaling Mechanisms Regulating Microglial Process Movement
P50
Q26820815-D0D474DC-6530-4BF4-97A4-3311A26C3590Q30488031-C0FDC0CC-A22A-45A1-B96E-1A6CB68E2769Q34185971-E64DF7B0-251A-4607-B753-1B0CEB77AD51Q35262240-AD97F1CD-DEC5-4C70-AB4A-1080977F1A41Q35568085-CA1F00F6-D6C3-499F-8E7F-2EFB665FF530Q37661826-11978777-0A9A-4D7A-B99F-B50EBD01CA34Q40027556-4C060FBD-855A-4457-9553-BD4E05FE1F6FQ40140744-02B185C9-0329-45E5-A61B-DD76A21781BDQ40207956-1D398041-0250-4C6B-9571-EB07BC7EC671Q41185486-C47A4C6F-EAE3-45C6-8AF1-412384A265B2Q46031582-5B390148-BB53-4979-8383-B7E672C6AA1DQ47857331-AA6D9BB2-85A4-4CAB-9946-2A1965FE5A49Q47868982-FC95F53C-D4C3-4413-9435-F0AA012FC10EQ47888607-FF4E538E-94DB-48CE-BCD0-3260C27A42F3Q48570869-6CCC7E17-4ED7-4D42-A181-24C230BDF3D7Q57492107-F512EDB9-4309-40B3-965B-2A55302B40DDQ57819715-00A0065E-139A-402D-9077-DF080A1451FEQ57819770-48273132-A48F-4256-9AE8-E97497EFBD9AQ64963902-827B3D16-10F1-4D00-B796-6C3FAFB04FABQ90799379-094AB138-6D7B-4EB7-A430-84E307ABD897Q92416595-3C09F520-B9AA-4A6F-8619-BAFD7A72B7FBQ92490968-9FE6035B-CB25-44A7-B2DD-A1A0EF3EAF28
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Renaud Jolivet
@ast
Renaud Jolivet
@en
Renaud Jolivet
@es
Renaud Jolivet
@sl
type
label
Renaud Jolivet
@ast
Renaud Jolivet
@en
Renaud Jolivet
@es
Renaud Jolivet
@sl
prefLabel
Renaud Jolivet
@ast
Renaud Jolivet
@en
Renaud Jolivet
@es
Renaud Jolivet
@sl
P1053
A-9883-2008
P106
P1153
9743375700
P21
P31
P3829
P496
0000-0002-5167-0851