1986
Mammalian optic nerve fibers display two pharmacologically distinct potassium channels
Kocsis J, Gordon T, Waxman S. Mammalian optic nerve fibers display two pharmacologically distinct potassium channels. Brain Research 1986, 383: 357-361. PMID: 2429732, DOI: 10.1016/0006-8993(86)90040-5.Peer-Reviewed Original ResearchConceptsOptic nerve fibersNerve fibersDistinct potassium channelsPotassium channelsRat optic nerve fibersNerve action potentialsAction potential characteristicsAction potential repolarizationTEA-sensitive channelsIntracellular hyperpolarizationAction potentialsPotential repolarizationSuction electrodeTetraethylammoniumPotential characteristicsRepolarizationPositivity
1985
Ligature‐induced injury in peripheral nerve: Electrophysiological observations on changes in action potential characteristics following blockade of potassium conductance
Waxman S, Kocsis J, Eng D. Ligature‐induced injury in peripheral nerve: Electrophysiological observations on changes in action potential characteristics following blockade of potassium conductance. Muscle & Nerve 1985, 8: 85-92. PMID: 2414652, DOI: 10.1002/mus.880080202.Peer-Reviewed Original ResearchConceptsAction potentialsRepetitive firingSingle stimulusPotassium channelsCompound action potentialRat sciatic nerveAction potential propertiesWhole-nerve responseAction potential characteristicsIntra-axonal recordingsAction potential waveformNerve segmentsSciatic nerveNerve responsesPeripheral nervesInjury siteMyelinated fibersLater spikesElectrophysiological observationsNerveRefractory periodFiring patternsPotassium conductancePotential waveformInitial spike
1983
Maturation of mammalian myelinated fibers: changes in action-potential characteristics following 4-aminopyridine application
Kocsis J, Ruiz J, Waxman S. Maturation of mammalian myelinated fibers: changes in action-potential characteristics following 4-aminopyridine application. Journal Of Neurophysiology 1983, 50: 449-463. PMID: 6310062, DOI: 10.1152/jn.1983.50.2.449.Peer-Reviewed Original Research