Paul M. Byrne scite author profile

Mechanical and thermal changes associated with a propagated nerve impulse were determined using the garfish olfactory nerve. Production of an action potential was found to be accompanied by swelling of the nerve fibers. The swelling starts nearly at the onset of the action potential and reaches its peak at the peak of the action potential. There is a decrease in the length of the fibers while an impulse travels along the fibers. The time-course of the initial heat was determined at room temperature using heat-sensors with a response-time of 2-3 ms. Positive heat production was found to start and reach its peak nearly simultaneously with the action potential. The rise in temperature of the nerve was shown to be 23 (+/- 4) mu degrees C. In the range between 10 degrees and 20 degrees C, the temperature coefficient of heat production is negative, primarily due to prolongation of the period of positive heat production at low temperatures. The amount of heat absorbed during the negative phase varies widely between 45 and 85% of the heat evolved during the positive phase. It is suggested that both mechanical and thermal changes in the nerve fibers are associated with the release and re-binding of Ca-ions in the nerve associated with action potential production.

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Rapid structural chances in nerve fibers evoked by electric current pulses

Tasaki

Byrne

1992

Biochemical and Biophysical Research Communications

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Volume expansion of nonmyelinated nerve fibers during impulse conduction

Tasaki

Byrne

1990

Biophysical Journal

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Heat Production Associated with a Propagated Impulse in Bullfrog Myelinated Nerve Fibers.

Tasaki

Byrne²

1992

JJP

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By using heat-sensors constructed with thin film of polyvinylidene fluoride, it was found possible to detect the heat generated by myelinated fibers in the bullfrog sciatic nerve in association with a propagated impulse. The quantity of heat generated (about 0.4 microcal/g at 4.5 degrees C) is roughly two orders of magnitude smaller than that observed in nerves containing only non-myelinated nerve fibers. The smallness of the heat observed is attributed to the localization of the heat sources at the nodes of Ranvier. The major portion of the heat generated is re-absorbed by the nerve.

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Discontinuous volume transitions in ionic gels and their possible involvement in the nerve excitation process

Tasaki

Byrne

1992

Biopolymers

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Paul M. Byrne

Rapid mechanical and thermal changes in the garfish olfactory nerve associated with a propagated impulse

Rapid structural chances in nerve fibers evoked by electric current pulses

Volume expansion of nonmyelinated nerve fibers during impulse conduction

Heat Production Associated with a Propagated Impulse in Bullfrog Myelinated Nerve Fibers.

Discontinuous volume transitions in ionic gels and their possible involvement in the nerve excitation process

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