Manuel Schröter
Manuel Schröter
Oberassistent at ETH Zurich, Department of Biosystems Science and Engineering in Basel, Switzerland
Verified email at - Homepage
Cited by
Cited by
Development of a large-scale functional brain network during human non-rapid eye movement sleep
VI Spoormaker, MS Schröter, PM Gleiser, KC Andrade, M Dresler, ...
Journal of Neuroscience 30 (34), 11379-11387, 2010
Simultaneous electroencephalographic and functional magnetic resonance imaging indicate impaired cortical top–down processing in association with anesthetic-induced unconsciousness
D Jordan, R Ilg, V Riedl, A Schorer, S Grimberg, S Neufang, A Omerovic, ...
Anesthesiology 119 (5), 1031-1042, 2013
Spatiotemporal reconfiguration of large-scale brain functional networks during propofol-induced loss of consciousness
MS Schröter, VI Spoormaker, A Schorer, A Wohlschläger, M Czisch, ...
Journal of Neuroscience 32 (37), 12832-12840, 2012
Effects of rapid eye movement sleep deprivation on fear extinction recall and prediction error signaling
VI Spoormaker, MS Schröter, KC Andrade, M Dresler, SA Kiem, ...
Human brain mapping 33 (10), 2362-2376, 2012
Emergence of rich-club topology and coordinated dynamics in development of hippocampal functional networks in vitro
MS Schroeter, P Charlesworth, MG Kitzbichler, O Paulsen, ET Bullmore
Journal of Neuroscience 35 (14), 5459-5470, 2015
The neural correlates and temporal sequence of the relationship between shock exposure, disturbed sleep and impaired consolidation of fear extinction
VI Spoormaker, A Sturm, KC Andrade, MS Schröter, R Goya-Maldonado, ...
Journal of psychiatric research 44 (16), 1121-1128, 2010
Micro-connectomics: probing the organization of neuronal networks at the cellular scale
M Schröter, O Paulsen, ET Bullmore
Nature Reviews Neuroscience 18 (3), 131-146, 2017
The neural correlates of negative prediction error signaling in human fear conditioning
VI Spoormaker, KC Andrade, MS Schröter, A Sturm, R Goya-Maldonado, ...
Neuroimage 54 (3), 2250-2256, 2011
Versatile live-cell activity analysis platform for characterization of neuronal dynamics at single-cell and network level
X Yuan, M Schröter, MEJ Obien, M Fiscella, W Gong, T Kikuchi, ...
Nature communications 11 (1), 4854, 2020
Validation of non-REM sleep stage decoding from resting state fMRI using linear support vector machines
A Altmann, MS Schröter, VI Spoormaker, SA Kiem, D Jordan, R Ilg, ...
Neuroimage 125, 544-555, 2016
Electrophysiological phenotype characterization of human iPSC‐derived neuronal cell lines by means of high‐density microelectrode arrays
S Ronchi, AP Buccino, G Prack, SS Kumar, M Schröter, M Fiscella, ...
Advanced biology 5 (3), 2000223, 2021
Functional brain network changes associated with clinical and biochemical measures of the severity of hepatic encephalopathy
T Jao, M Schröter, CL Chen, YF Cheng, CYZ Lo, KH Chou, AX Patel, ...
Neuroimage 122, 332-344, 2015
Reorganisation of brain hubs across altered states of consciousness
D Vatansever, M Schröter, RM Adapa, ET Bullmore, DK Menon, ...
Scientific reports 10 (1), 3402, 2020
Homophilic wiring principles underpin neuronal network topology in vitro
D Akarca, AWE Dunn, PJ Hornauer, S Ronchi, M Fiscella, C Wang, ...
BioRxiv, 2022.03. 09.483605, 2022
Functional imaging of brain organoids using high-density microelectrode arrays
M Schröter, C Wang, M Terrigno, P Hornauer, Z Huang, R Jagasia, ...
MRS bulletin 47 (6), 530-544, 2022
Predicting in vitro single-neuron firing rates upon pharmacological perturbation using Graph Neural Networks
T Kim, D Chen, P Hornauer, V Emmenegger, J Bartram, S Ronchi, ...
Frontiers in Neuroinformatics 16, 1032538, 2023
Mapping neuronal network dynamics in developing cerebral organoids
M Schröter, M Girr, M Boos, J, Renner, M Gazorpak, W Gong, J Bartram, ...
Front. Cell. Neurosci. Conference Abstract: MEA Meeting 2018 | 11th …, 2018
Self-organization of information processing in developing neuronal networks
V Priesemann, J Lizier, M Wibral, ET Bullmore, O Paulsen, ...
BMC Neuroscience 16, 1-1, 2015
Microelectrode Arrays: Electrophysiological Phenotype Characterization of Human iPSC‐Derived Neuronal Cell Lines by Means of High‐Density Microelectrode Arrays (Adv. Biology 3 …
S Ronchi, AP Buccino, G Prack, SS Kumar, M Schröter, M Fiscella, ...
Advanced Biology 5 (3), 2170031, 2021
DeePhys: A machine learning–assisted platform for electrophysiological phenotyping of human neuronal networks
P Hornauer, G Prack, N Anastasi, S Ronchi, T Kim, C Donner, M Fiscella, ...
Stem Cell Reports 19 (2), 285-298, 2024
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