How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
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Neural Substrate Expansion for the Restoration of Brain FunctionElectrical Identification and Selective Microstimulation of Neuronal Compartments Based on Features of Extracellular Action PotentialsUpward synaptic scaling is dependent on neurotransmission rather than spiking.Tracking axonal action potential propagation on a high-density microelectrode array across hundreds of sites.Channelrhodopsin-2 localised to the axon initial segment.Protection from glutamate-induced excitotoxicity by memantineOptogenetic feedback control of neural activity.Inhibitory luminopsins: genetically-encoded bioluminescent opsins for versatile, scalable, and hardware-independent optogenetic inhibition.Optogenetics: a novel optical manipulation tool for medical investigation.Measures of spike train synchrony for data with multiple time scales.Sub-millisecond closed-loop feedback stimulation between arbitrary sets of individual neurons.Microelectrode Array-evaluation of Neurotoxic Effects of Magnesium as an Implantable BiomaterialCriticality Maximizes Complexity in Neural Tissue.Delivery of continuously-varying stimuli using channelrhodopsin-2.Parameters for burst detection.Closed-loop neuro-robotic experiments to test computational properties of neuronal networks.A low-noise, modular, and versatile analog front-end intended for processing in vitro neuronal signals detected by microelectrode arrays.How Microelectrode Array-Based Chick Forebrain Neuron Biosensors Respond to Glutamate NMDA Receptor Antagonist AP5 and GABAA Receptor Antagonist MusimolCombined Optogenetic and Chemogenetic Control of Neurons.Stimulus-evoked high frequency oscillations are present in neuronal networks on microelectrode arrays.Interfacing 3D Engineered Neuronal Cultures to Micro-Electrode Arrays: An Innovative In Vitro Experimental Model.Robot-Embodied Neuronal Networks as an Interactive Model of Learning.Understanding spatial and temporal patterning of astrocyte calcium transients via interactions between network transport and extracellular diffusion.Neurotropism and behavioral changes associated with Zika infection in the vector Aedes aegypti.Zika virus-induced hyper excitation precedes death of mouse primary neuron.Effects of Passage Number and Differentiation Protocol on the Generation of Dopaminergic Neurons from Rat Bone Marrow-Derived Mesenchymal Stem Cells.MicroRNA profiling during directed differentiation of cortical interneurons from human-induced pluripotent stem cells.Genetics of Alcohol Use Disorder: A Role for Induced Pluripotent Stem Cells?
P2860
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P2860
How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
description
2010 nî lūn-bûn
@nan
2010 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
@ast
How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
@en
type
label
How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
@ast
How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
@en
prefLabel
How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
@ast
How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
@en
P2860
P356
P1476
How to culture, record and stimulate neuronal networks on micro-electrode arrays (MEAs).
@en
P2093
Chadwick M Hales
Steve M Potter
P2860
P356
10.3791/2056
P577
2010-05-30T00:00:00Z