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Nerve conduction theory: Some mathematical consequences of Bernstein's model

1940; Springer Nature; Volume: 2; Issue: 4 Linguagem: Inglês

10.1007/bf02478270

2376-8398

Franklin F. Offner, Alvin M. Weinberg, G. J. Young,

Cephalopods and Marine Biology

The generally accepted permeability theory of nerve conduction is presented in mathematical form. The resulting velocity formula is found to agree well with data on squid giant axon, but predicts velocities considerably too high in the case ofNitella. The dependence of velocity on fiber diameter is discussed for both medullated and non-medullated nerve, it being shown theoretically that velocity is proportional to the square root of diameter for non-medullated and to the diameter for medullated nerve. The equations relating the shape of the action spike to the observed permeability changes are given but are not solved.