2005
6 The Conduction Properties of Demyelinated and Remyelinated Axons
Smith K, Waxman S. 6 The Conduction Properties of Demyelinated and Remyelinated Axons. 2005, 85-100. DOI: 10.1016/b978-012738761-1/50007-9.Peer-Reviewed Original ResearchRestoration of conductionConduction blockDemyelination-induced conduction blockExperimental demyelinating lesionsDemyelinating lesionsSegmental demyelinationMyelin thinningDemyelinated axonsElectrophysiological featuresConduction failureAxonal functionElectrophysiological propertiesDemyelinationAxonsMyelinLesionsIon channel populationsDemyelinated membraneChannel populationsAdaptive responseComplete loss
1987
Molecular Organization of the Cell Membrane in Normal and Pathological Axons: Relation to Glial Contact
Waxman S. Molecular Organization of the Cell Membrane in Normal and Pathological Axons: Relation to Glial Contact. NATO ASI Series 1987, 709-736. DOI: 10.1007/978-3-642-71381-1_43.Peer-Reviewed Original ResearchCell membraneMolecular organizationMolecular differentiationCell recognition moleculesVoltage-sensitive sodium channelsVoltage-sensitive potassium channelsIon channel organizationIon channel populationsCell typesAdult mammalsRecognition moleculesCoordinated mannerMyelin-forming cellsPotassium channelsChannel populationsGlial cellsMembraneSodium channelsDifferentiationCellsRecent studiesAxon membraneChannel organizationGlial contactMammals