Drift-diffusion simulation of the ephaptic effect in the triad synapse of the retina
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Publication:1732671
DOI10.1007/S10827-014-0531-7zbMath1409.92039DBLPjournals/jcns/GardnerJBC15OpenAlexW2130531589WikidataQ45793406 ScholiaQ45793406MaRDI QIDQ1732671
Sharon M. Crook, Jeremiah R. Jones, Carl L. Gardner, Steven M. Baer
Publication date: 25 March 2019
Published in: Journal of Computational Neuroscience (Search for Journal in Brave)
Full work available at URL: http://hdl.handle.net/2286/R.I.17750
Neural biology (92C20) Kinetics in biochemical problems (pharmacokinetics, enzyme kinetics, etc.) (92C45)
Related Items (2)
Electrodiffusion with calcium-activated potassium channels in dendritic spine ⋮ A multiscale continuum model of the vertebrate outer retina: the temporal dynamics of background-induced flicker enhancement
Cites Work
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- A model of electrodiffusion and osmotic water flow and its energetic structure
- A numerical method for cellular electrophysiology based on the electrodiffusion equations with internal boundary conditions at membranes
- Electrodiffusion model simulation of the potassium channel
- A multiscale continuum model of the vertebrate outer retina: the temporal dynamics of background-induced flicker enhancement
- Simulation of the Ephaptic Effect in the Cone--Horizontal Cell Synapse of the Retina
- A Singular Perturbation Analysis of Induced Electric Fields in Nerve Cells
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