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A D'Abro (1951)
The rise of the new physics. Vol. 2
A. d'Abro (1951)
The Rise of the New Physics
J. Dempsher (1979)
Synaptic function in the nervous system: A theory and its applicationActa Biotheoretica, 28
J. Dempsher (1979)
Integration of function in the nervous system — A new theoryActa Biotheoretica, 28
J. Dempsher, T. Tokumaru, J. Zabara (1959)
A possible role of an inhibitory system in virus‐infected sympathetic ganglia of the ratThe Journal of Physiology, 146
J. Dempsher (1980)
A bio-physical basis of mathematics in synaptic function of the nervous system: A theoryActa Biotheoretica, 29
The Classical Theory of function in the nervous system postulates that the nerve impulse is the result of a sequential reversal of the membrane potential due to an increased permeability of the membrane, first to sodium ions, then to potassium ions. The new theory presents a bio-physical model which depicts the nerve impulse as an event involving the motions of electrons and waves, and their interactions with sodium and potassium atoms and ions. The velocity of the nerve impulse (the most important parameter of nerve function) is determined by the product of two constants: c = the speed of light, which is a constant for all nerves; k =a constant for each nerve and is believed to be a specific property of nerve matter related in some way to the atomic process. The theory proposes that the nerve impulse in the axon is ‘dualistic’ in nature (particles and waves play equally significant roles). The dualistic nature accounts for the three most fundamental characteristics of conduction of the nerve impulse: periodicity (conduction of a nerve impulse over long distances with constant velocity and form); non-summing (two nerve impulses cannot be in the same place at the same time); ‘quantum nature’ of each nerve impulse — i.e., the unit message of the nerve impulse is an indivisible unit.
Acta Biotheoretica – Springer Journals
Published: May 3, 2004
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