Egidio D'Angelo
Affiliations: | University of Pavia, Pavia, PV, Italy |
Area:
Cerebellum, Granular layerWebsite:
http://www-1.unipv.it/dsffcm/pagine/labs/dangelo/index.htmlGoogle:
"Egidio D'Angelo"Bio:
Prof. D'Angelo obtained the degree in Medicine as a fellow of Collegio Ghislieri in Pavia. Then, during his career in electrophysiogical research, he completed an MD in Neurology. His main scientific interests include the function of neurons, synapse and networks of the brain, with a special interest for cellular and synaptic mechanisms of synaptic plasticity. He is currently a Full Professor of Physiology at the Dept of Physiological Sciences of University of Pavia.
Mean distance: 13.12 (cluster 6) | S | N | B | C | P |
Parents
Sign in to add mentor| John Garthwaite | research scientist | 1989-1990 | UCL (London) |
| Per Andersen | research scientist | 1991-1991 | University of Oslo, Norway |
| Vanni Taglietti | research scientist | 1990-1998 | University of Pavia |
Children
Sign in to add traineeCollaborators
Sign in to add collaborator| Erik De Schutter | collaborator | University of Pavia | |
| Chris I. de Zeeuw | collaborator | University of Pavia | |
| David A. Gallo | collaborator | University of Pavia | |
| Mitchell Goldfarb | collaborator | University of Pavia | |
| Giovanni Naldi | collaborator | University of Pavia | |
| Eduardo Ros Vidal | collaborator | University of Pavia | |
| Paola Perin | collaborator | 2006- | University of Pavia |
| Shyam Diwakar | collaborator | 2009- | University of Pavia |
| Shyam Diwakar | collaborator | 2009- | University of Pavia |
| Nora Vrieler | collaborator | 2021- |
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Publications
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| Geminiani A, Casellato C, Boele HJ, et al. (2024) Mesoscale simulations predict the role of synergistic cerebellar plasticity during classical eyeblink conditioning. Plos Computational Biology. 20: e1011277 |
| Gandolfi D, Mapelli J, Solinas SMG, et al. (2023) Full-scale scaffold model of the human hippocampus CA1 area. Nature Computational Science. 3: 264-276 |
| Lorenzi RM, Geminiani A, Zerlaut Y, et al. (2023) A multi-layer mean-field model of the cerebellum embedding microstructure and population-specific dynamics. Plos Computational Biology. 19: e1011434 |
| Monteverdi A, Di Domenico D, D'Angelo E, et al. (2023) Anisotropy and Frequency Dependence of Signal Propagation in the Cerebellar Circuit Revealed by High-Density Multielectrode Array Recordings. Biomedicines. 11 |
| Ciapponi C, Li Y, Osorio Becerra DA, et al. (2023) Variations on the theme: focus on cerebellum and emotional processing. Frontiers in Systems Neuroscience. 17: 1185752 |
| Mapelli J, Boiani GM, D'Angelo E, et al. (2022) Long-Term Synaptic Plasticity Tunes the Gain of Information Channels through the Cerebellum Granular Layer. Biomedicines. 10 |
| Gandolfi D, Mapelli J, Solinas S, et al. (2022) Author Correction: A realistic morpho-anatomical connection strategy for modelling full-scale point-neuron microcircuits. Scientific Reports. 12: 19792 |
| Masoli S, Rizza MF, Tognolina M, et al. (2022) Computational models of neurotransmission at cerebellar synapses unveil the impact on network computation. Frontiers in Computational Neuroscience. 16: 1006989 |
| De Schepper R, Geminiani A, Masoli S, et al. (2022) Model simulations unveil the structure-function-dynamics relationship of the cerebellar cortical microcircuit. Communications Biology. 5: 1240 |
| Canciani A, Capitanio C, Stanga S, et al. (2022) Deconstruction of Neurotrypsin Reveals a Multi-factorially Regulated Activity Affecting Myotube Formation and Neuronal Excitability. Molecular Neurobiology |