Impulses and Physiological States in Theoretical Models of Nerve Membrane

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Impulses and Physiological States in Theoretical Models of Nerve Membrane

Richard FitzHugh

ABSTRACT

Van der Pol's equation for a relaxation oscillator is generalizedby the addition of terms to produce a pair of non-linear differentialequations with either a stable singular point or a limit cycle.The resulting "BVP model" has two variables of state, representingexcitability and refractoriness, and qualitatively resemblesBonhoeffer's theoretical model for the iron wire model of nerve.This BVP model serves as a simple representative of a classof excitable-oscillatory systems including the Hodgkin-Huxley(HH) model of the squid giant axon. The BVP phase plane canbe divided into regions corresponding to the physiological statesof nerve fiber (resting, active, refractory, enhanced, depressed,etc.) to form a "physiological state diagram," with the helpof which many physiological phenomena can be summarized. A properlychosen projection from the 4-dimensional HH phase space ontoa plane produces a similar diagram which shows the underlyingrelationship between the two models. Impulse trains occur inthe BVP and HH models for a range of constant applied currentswhich make the singular point representing the resting stateunstable.

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