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Modeling of mammalian myelinated nerve with stochastic sodium ionic channels

Publication ,  Journal Article
Mino, H; Grill, WM
Published in: Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings
December 1, 2000

This paper presents the excitation properties of mammalian myelinated nerve fibers with the nodes of Ranvier represented with stochastic sodium channels. The hybrid multi-compartment cable model developed in this paper consisted of twenty one nodes: five central "stochastic nodes" including sodium ionic channels obeying a Markov process, and otherwise conventional deterministic nodes. The strength duration relationship and the threshold current versus the electrode-to-fiber distance were investigated to see whether the neural excitability differs from that of the conventional model possessing twenty one deterministic nodes. The stochastic nodes created variability in the fiber response, including changes in the latency of action potential generation and failures to fire on some trials. The influence of the stochastic nodes on threshold was dependent on the duration of the stimulus. At short durations the threshold of the stochastic model was greater than that of the deterministic model, while at longer durations the threshold of the stochastic model was less than that of the deterministic model. The differences between the stochastic and deterministic models were only weakly dependent on the electrode-to-fiber distance. The hybrid-cable model is computationally efficient and demonstrates the role of the stochastic properties of ionic channels in neural excitation.

Duke Scholars

Published In

Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings

ISSN

0589-1019

Publication Date

December 1, 2000

Volume

2

Start / End Page

915 / 917
 

Citation

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Mino, H., & Grill, W. M. (2000). Modeling of mammalian myelinated nerve with stochastic sodium ionic channels. Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings, 2, 915–917.
Mino, H., and W. M. Grill. “Modeling of mammalian myelinated nerve with stochastic sodium ionic channels.” Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings 2 (December 1, 2000): 915–17.
Mino H, Grill WM. Modeling of mammalian myelinated nerve with stochastic sodium ionic channels. Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings. 2000 Dec 1;2:915–7.
Mino, H., and W. M. Grill. “Modeling of mammalian myelinated nerve with stochastic sodium ionic channels.” Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings, vol. 2, Dec. 2000, pp. 915–17.
Mino H, Grill WM. Modeling of mammalian myelinated nerve with stochastic sodium ionic channels. Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings. 2000 Dec 1;2:915–917.

Published In

Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings

ISSN

0589-1019

Publication Date

December 1, 2000

Volume

2

Start / End Page

915 / 917