BrainPharm: Computational model - Dipolar extracellular potentials generated by axonal projections (McColgan et al 2017)

Computational model

Data

Name

Dipolar extracellular potentials generated by axonal projections (McColgan et al 2017)

Submitter name

Tom Morse - MoldelDB admin

Pipeline ID

Model File

McColganEtAl2017 [158095]

Notes

" ... Here, we established experimentally and theoretically that contributions of axons to EFPs can be significant. Modeling action potentials propagating along axons, we showed that EFPs were prominent in the presence of terminal zones where axons branch and terminate in close succession, as found in many brain regions. Our models predicted a dipolar far field and a polarity reversal at the center of the terminal zone. ..."

Model Neurons

More Cells

Nucleus laminaris neuron Show Other

Model Currents

Model Receptors

Model Type

Axon Show Other
Extracellular Show Other

Model Concept

Action Potentials Show Other

Simulator software

NEURON (web link to model) Show Other
Python (web link to model) Show Other

Model papers

McColgan T, Liu J, Kuokkanen PT, Carr CE, Wagner H, Kempter R (2017) Show Other

Gene

hg folder name (applicable when in ModelDB hg)

Region Organism

Brainstem Show Other
Auditory brainstem Show Other

Model ID Number

Gap Junctions

Implemented by

McColgan, Thomas Show Other

Public Submitter Email Address

tom.morse@yale.edu

Other Neuron

Model Neurotransmitters

Other Receptor

Other Current

Other Neurotransmitter

Other Model Type

Other Concept

Other Simulator

Other Implementer

Alternative Version

Citation

Default File Notes

Other Gene

Simulation Platform ID

Has Model View

False

Component

RAM

Hide Auto-launch button

False

Run Protocols

ICG Channel Details

Species

Other categories referring to Dipolar extracellular potentials generated by axonal projections (McColgan et al 2017)

Revisions:	4
Last Time:	9/9/2017 4:44:41 PM
Reviewer:	Tom Morse - MoldelDB admin
Owner:	Tom Morse - MoldelDB admin