Simulation of action potential propagation in complex terminal arborizations.

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Simulation of action potential propagation in complex terminal arborizations.

H R Lüscher and J S Shiner

Department of Physiology, University of Bern, Switzerland.

ABSTRACT

Action potential propagation in complex terminal arborizationswas simulated using SPICE, a general purpose circuit simulationprogram. The Hodgkin-Huxley equations were used to simulateexcitable membrane compartments. Conduction failure was commonat branch points and regularly spaced boutons en passant. Morecomplex arborizations had proportionally more inactive synapsesthan less complex arborizations. At lower temperature the safetyfactor for impulse propagation increased, reducing the numberof silent synapses in a particular arborization. Small structuraldifferences as well as minute changes in the discharge frequencyof the action potential resulted in very different activationpatterns of the arborization and terminal boutons. The resultssuggest that the structural diversity of terminal arborizationsallows a wide range of presynaptic information processing. Theresults from this simulation study are discussed in the contextof experimental results on the modulation of synaptic transmission.

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