Spontaneous firing caused by stochastic channel gating (Chow, White 1996)

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NEURON implementation of model of stochastic channel gating, resulting in spontaneous firing. Qualitatively reproduces the phenomena described in the reference.
1 . Chow CC, White JA (1996) Spontaneous action potentials due to channel fluctuations. Biophys J 71:3013-21 [PubMed]
Model Information (Click on a link to find other models with that property)
Model Type: Channel/Receptor;
Brain Region(s)/Organism:
Cell Type(s):
Channel(s): I K; I Sodium;
Gap Junctions:
Simulation Environment: NEURON;
Model Concept(s): Action Potential Initiation; Activity Patterns; Ion Channel Kinetics; Temporal Pattern Generation; Axonal Action Potentials; Action Potentials;
Implementer(s): Carnevale, Ted [Ted.Carnevale at Yale.edu]; Donnelly, David [david.donnelly at yale.edu];
Search NeuronDB for information about:  I K; I Sodium;
This NEURON implementation qualitatively reproduces the phenomena described in 
Chow, C.C. and White, J.A.
Spontaneous action potentials due to channel fluctuations.
Biophysical Journal 71:3013-3021, 1996

An exact reproduction of their figures is not possible for the following reasons:
--differences in the pseudorandom number generators
--differences in numerical integration methods
--differences in the algorithms used to govern channel state 

If this doesn't auto-launch, use NEURON to load init.hoc

When first loaded, this code automatically emulates part of Figure 2.
With minor modifications, it can be used to generate data for Figures 1, 3, and 4; 
however, note that this will require prolonged, repeated simulations.

On a 2 GHz PC, ~1600 seconds are needed to simulate 30 seconds of activity 
in a 100 um2 patch of membrane.

NOTE: this relies on the ChannelBuilder's ability to simulate stochastic
channels, which requires NEURON v. 5.7 or later.

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