Literature DB >> 10333161

Electrical interactions via the extracellular potential near cell bodies.

G R Holt1, C Koch.   

Abstract

Ephaptic interactions between a neuron and axons or dendrites passing by its cell body can be, in principle, more significant than ephaptic interactions among axons in a fiber tract. Extracellular action potentials outside axons are small in amplitude and spatially spread out, while they are larger in amplitude and much more spatially confined near cell bodies. We estimated the extracellular potentials associated with an action potential in a cortical pyramidal cell using standard one-dimensional cable theory and volume conductor theory. Their spatial and temporal pattern reveal much about the location and timing of currents in the cell, especially in combination with a known morphology, and simple experiments could resolve questions about spike initiation. From the extracellular potential we compute the ephaptically induced polarization in a nearby passive cable. The magnitude of this induced voltage can be several mV, does not spread electrotonically, and depends only weakly on the passive properties of the cable. We discuss their possible functional relevance.

Mesh:

Year:  1999        PMID: 10333161     DOI: 10.1023/a:1008832702585

Source DB:  PubMed          Journal:  J Comput Neurosci        ISSN: 0929-5313            Impact factor:   1.621


  58 in total

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  94 in total

1.  The composite neuron: a realistic one-compartment Purkinje cell model suitable for large-scale neuronal network simulations.

Authors:  A D Coop; G N Reeke
Journal:  J Comput Neurosci       Date:  2001 Mar-Apr       Impact factor: 1.621

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Authors:  Henrik Lindén; Klas H Pettersen; Gaute T Einevoll
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4.  Neuronal coupling by endogenous electric fields: cable theory and applications to coincidence detector neurons in the auditory brain stem.

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Review 7.  How silent is the brain: is there a "dark matter" problem in neuroscience?

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10.  Dorsal Cochlear Nucleus Fusiform-cell Plasticity is Altered in Salicylate-induced Tinnitus.

Authors:  David T Martel; Thibaut R Pardo-Garcia; Susan E Shore
Journal:  Neuroscience       Date:  2018-09-12       Impact factor: 3.590
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