Measurement of Myelin Sheath Resistances: Implications for Axonal Conduction and Pathophysiology
- 3 August 1984
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 225 (4661) , 538-540
- https://doi.org/10.1126/science.6204382
Abstract
As commonly understood, the myelin sheath of axons insulates the internodal axolemma and essentially restricts transmembrane currents to nodal regions. However, recordings obtained from within the myelin sheath showed that its apparent resistance to current generated by action potentials is similar in magnitude to that of the internodal axolemma. This suggests that the sheath does not appreciably limit transmembrane current flow, presumably because there is a longitudinal shunt under the myelin and through the paranodal region. Thus, in some demyelinating diseases and other axonopathies, the safety factor for impulse conduction may be lowered by a loosening or a reduction in the number of paranodal axoglial junctions.This publication has 24 references indexed in Scilit:
- Experimental evidence for saltatory propagation of the Mauthner axon impulse in the tench spinal cordBrain Research, 1980
- Simulations of conduction in uniform myelinated fibers. Relative sensitivity to changes in nodal and internodal parametersBiophysical Journal, 1978
- Conduction velocity and spike configuration in myelinated fibres: computed dependence on internode distance.Journal of Neurology, Neurosurgery & Psychiatry, 1977
- The sensitivity of the myelin sheath, particularly the Schwann cell-axolemmal junction, to lowered calcium levels in cultured sensory gangliaBrain Research, 1974
- Impulse conduction in multiple sclerosis: a theoretical basis for modification by temperature and pharmacological agentsJournal of Neurology, Neurosurgery & Psychiatry, 1974
- Propagation Speed in Myelinated NerveBiophysical Journal, 1973
- The Effects of Temperature on Conduction in Demyelinated Single Nerve FibersArchives of Neurology, 1973
- Computation of Impulse Conduction in Myelinated Fibers; Theoretical Basis of the Velocity-Diameter RelationBiophysical Journal, 1968
- Computation of Impulse Initiation and Saltatory Conduction in a Myelinated Nerve FiberBiophysical Journal, 1962
- ELECTRICAL ACTIVITY OF SINGLE SPINAL CORD ELEMENTSCold Spring Harbor Symposia on Quantitative Biology, 1952