about
In vitro studies of neuronal networks and synaptic plasticity in invertebrates and in mammals using multielectrode arraysInvestigating the impact of electrical stimulation temporal distribution on cortical network responsesA "spike-based" grammar underlies directional modification in network connectivity: effect on bursting activity and implications for bio-hybrids systems.Emergence of bursting activity in connected neuronal sub-populationsCharacterizing the Input-Output Function of the Olfactory-Limbic Pathway in the Guinea Pig.In vitro large-scale experimental and theoretical studies for the realization of bi-directional brain-prostheses.Effects of antiepileptic drugs on hippocampal neurons coupled to micro-electrode arrays.Closed-loop neuro-robotic experiments to test computational properties of neuronal networks.Stimulation triggers endogenous activity patterns in cultured cortical networks.Design, Surface Treatment, Cellular Plating, and Culturing of Modular Neuronal Networks Composed of Functionally Inter-connected Circuits.Modulation of network activity and induction of homeostatic synaptic plasticity by enzymatic removal of heparan sulfates.Connectivity, excitability and activity patterns in neuronal networks.Separating burst from background spikes in multichannel neuronal recordings using return map analysis.A transparent organic transistor structure for bidirectional stimulation and recording of primary neuronsRole of major burst leaders in modular hippocampal networksChange of Network Dynamics in a Neuro-robotic SystemEmbodied neuronal assemblies: A closed-loop environment for coding and decoding studiesA neuro-robotic system to investigate the computational properties of neuronal assembliesProgress in Neuroengineering for brain repair: New challenges and open issues
P50
Q26824942-FFA71EEA-6A93-4CB9-9516-23A30CA4EB43Q33792198-42E2CBF4-4BDD-458E-9428-55E7DD71917EQ34474375-95034872-A70B-4B80-A2BD-52ECA95EE5BDQ35273116-0605A11B-E6B2-4304-951A-E86B2C68B035Q35935442-DFD9B1A6-455D-4AE7-8556-BAC6664A3AF9Q36682272-97A4467A-8F0D-4A07-8F15-C40EC23C4C3DQ37322108-D4CF24F4-CED4-4C2E-B00B-36D6C7CA8E48Q39738197-3C3D2BF3-F921-4336-9CD7-898870FDBD5EQ41490593-22B1DB7D-B34C-4E52-92F2-8E9ED1186E5AQ42128809-FEF7A068-862E-4487-9E85-C74CF41297C9Q42912435-2DD0B87F-F0EA-4641-8F43-0C6216B8AE29Q48294805-1934EFBC-2F32-4D26-86B4-768219F5B104Q51088714-CA75130B-7419-4998-97AC-44C8F5D915C8Q56978148-53416A3B-35BD-4CD1-BBE7-5DF721EBFEEEQ60400512-D9BC4046-4151-4843-9CB9-E0F113358593Q60400513-6268DF30-9C18-4098-A94A-F8EDBD3A6C72Q60400519-65D5AC31-9FA5-48CF-9459-26534CE9F667Q60400525-A5F60334-4451-4A06-AC27-34A31D325724Q90285628-D9874075-653B-4C1E-ADDD-8E87FE8A8651
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Michela Chiappalone
@ast
Michela Chiappalone
@en
Michela Chiappalone
@es
Michela Chiappalone
@nl
Michela Chiappalone
@sl
type
label
Michela Chiappalone
@ast
Michela Chiappalone
@en
Michela Chiappalone
@es
Michela Chiappalone
@nl
Michela Chiappalone
@sl
prefLabel
Michela Chiappalone
@ast
Michela Chiappalone
@en
Michela Chiappalone
@es
Michela Chiappalone
@nl
Michela Chiappalone
@sl
P106
P1153
8290092500
P21
P31
P496
0000-0003-1427-5147