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A Simple and Accurate Model to Predict Responses to Multi-electrode Stimulation in the Retina.Prosthetic vision: devices, patient outcomes and retinal research.Ionic channel changes in glaucomatous retinal ganglion cells: multicompartment modeling.Retinal ganglion cells electrophysiology: the effect of cell morphology on impulse waveform.Predicting the location of the axon initial segment using spike waveform analysis: simulations of retinal ganglion cell physiology.Multicompartment retinal ganglion cells response to high frequency bi-phasic pulse train stimulation: Simulation results.Electrical receptive fields of retinal ganglion cells: Influence of presynaptic neurons.Retinal ganglion cells: mechanisms underlying depolarization block and differential responses to high frequency electrical stimulation of ON and OFF cells.The effects of temperature changes on retinal ganglion cell responses to electrical stimulation.Feasibility of Nitrogen Doped Ultrananocrystalline Diamond Microelectrodes for Electrophysiological Recording From Neural Tissue.Loss of neuronal network resilience precedes seizures and determines the ictogenic nature of interictal synaptic perturbationsIrregularly timed electrical pulses reduce adaptation of retinal ganglion cellsBiophysical basis of the linear electrical receptive fields of retinal ganglion cellsForecasting cycles of seizure likelihoodCritical slowing down as a biomarker for seizure susceptibility
P50
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P50
description
researcher ORCID ID = 0000-0003-1432-8835
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wetenschapper
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name
Matias I Maturana
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Matias I Maturana
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Matias I Maturana
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type
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Matias I Maturana
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Matias I Maturana
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Matias I Maturana
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Matias I Maturana
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Matias I Maturana
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Matias I Maturana
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0000-0003-1432-8835