Anode break excitation in desheathed frog nerve.
About: This article is published in The Journal of Physiology. The article was published on 27 Jan 1956. and is currently open access. The article focuses on the topics: Anode break excitation.
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Citations
Electroporation-Based Technologies for Medicine: Principles, Applications, and Challenges
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Nonthermal Irreversible Electroporation: Fundamentals, Applications, and Challenges
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Nonthermal irreversible electroporation for intracranial surgical applications. Laboratory investigation.
Thomas L. Ellis,Paulo A. Garcia,John H. Rossmeisl,Natalia Henao-Guerrero,John L. Robertson,Rafael V. Davalos,Rafael V. Davalos +6 more
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Depolarization changes the mechanism of accommodation in rat and human motor axons.
TL;DR: It is concluded that Hill's (1936) mathematical description of accommodation in nerve is only applicable to depolarized axons and the prediction that human motor axons would show anode‐break excitation during ischaemia was readily confirmed.
80
References
A quantitative description of membrane current and its application to conduction and excitation in nerve
A. L. Hodgkin,A. F. Huxley +1 more
TL;DR: This article concludes a series of papers concerned with the flow of electric current through the surface membrane of a giant nerve fibre by putting them into mathematical form and showing that they will account for conduction and excitation in quantitative terms.
The site of excitation in the nerve trunk of the frog.
TL;DR: When the sciatic nerve of a frog is stimulated through one pair of electrodes and the action potential is recorded at another pair, then upon reversing the direction of the stimulating current, the arrival time of the recorded impulse will be changed.
33
Space distribution of excitability in the frog's sciatic nerve stimulated by polar electrodes.
C. Rashbass,W. A. H. Rushton +1 more
TL;DR: The first object of this paper is to determine experimentally the whole slot excitability curve, and the second, to apply; the curve so obtained to predict verifiable excitability results.
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