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Aberrant Activity in Degenerated Retinas Revealed by Electrical ImagingOrganotypic culture of physiologically functional adult mammalian retinas.Axonal transmission in the retina introduces a small dispersion of relative timing in the ganglion cell population response.Noninvasive neuroelectronic interfacing with synaptically connected snail neurons immobilized on a semiconductor chipRhythmic ganglion cell activity in bleached and blind adult mouse retinas.Hypothermia Protects and Prolongs the Tolerance Time of Retinal Ganglion Cells against Ischemia.Unsupervised neural spike sorting for high-density microelectrode arrays with convolutive independent component analysis.Subretinal electrical stimulation reveals intact network activity in the blind mouse retina.Network oscillations in rod-degenerated mouse retinas.Spike train signatures of retinal ganglion cell types.Electrochemical noise and impedance of Au electrode/electrolyte interfaces enabling extracellular detection of glioma cell populations.Inflammatory stimulation preserves physiological properties of retinal ganglion cells after optic nerve injury.Sharpening of directional selectivity from neural output of rabbit retina.A comprehensive small interfering RNA screen identifies signaling pathways required for gephyrin clustering.Daylight vision repair by cell transplantation.Deconstructing a navigational neuron.PEDOT-CNT coated electrodes stimulate retinal neurons at low voltage amplitudes and low charge densities.Electrical stimulation of retinal neurons in epiretinal and subretinal configuration using a multicapacitor arrayElectrode-size dependent thresholds in subretinal neuroprosthetic stimulationProbing and predicting ganglion cell responses to smooth electrical stimulation in healthy and blind mouse retinaHypothermia protects retinal ganglion cells against hypoxia-induced cell death in a retina organ culture model
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description
onderzoeker
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հետազոտող
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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G Zeck
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P106
P31
P496
0000-0003-3998-9883