2022
Peripheral Ion Channel Genes Screening in Painful Small Fiber Neuropathy
Ślęczkowska M, Almomani R, Marchi M, Salvi E, de Greef B, Sopacua M, Hoeijmakers J, Lindsey P, Waxman S, Lauria G, Faber C, Smeets H, Gerrits M. Peripheral Ion Channel Genes Screening in Painful Small Fiber Neuropathy. International Journal Of Molecular Sciences 2022, 23: 14095. PMID: 36430572, PMCID: PMC9696564, DOI: 10.3390/ijms232214095.Peer-Reviewed Original ResearchMeSH KeywordsAnoctaminsCohort StudiesDiabetic NeuropathiesHumansIon ChannelsNeuralgiaPotassium ChannelsSmall Fiber NeuropathyConceptsSmall fiber neuropathyNeuropathic painIon channel genesPainful small fiber neuropathyPain score VASPathogenic heterozygous variantGenetic variantsIon channelsCohort studyDiabetic neuropathySevere painDifferent etiologiesPainPatientsVoltage-gated sodium ion channelsHeterozygous variantsNeuropathySodium ion channelsGene screeningGeneration sequencingPrevious findingsSuch variantsEtiologySCN1BVariants
2012
Hodgkin and Huxley and the basis for electrical signalling: a remarkable legacy still going strong
Vandenberg J, Waxman S. Hodgkin and Huxley and the basis for electrical signalling: a remarkable legacy still going strong. The Journal Of Physiology 2012, 590: 2569-2570. PMID: 22787169, PMCID: PMC3424715, DOI: 10.1113/jphysiol.2012.233411.Peer-Reviewed Original Research
1999
Changes in expression of voltage‐gated potassium channels in dorsal root ganglion neurons following axotomy
Ishikawa K, Tanaka M, Black J, Waxman S. Changes in expression of voltage‐gated potassium channels in dorsal root ganglion neurons following axotomy. Muscle & Nerve 1999, 22: 502-507. PMID: 10204786, DOI: 10.1002/(sici)1097-4598(199904)22:4<502::aid-mus12>3.0.co;2-k.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxotomyGanglia, SpinalImmunohistochemistryIon Channel GatingMaleMembrane PotentialsNeuronsPotassium ChannelsRatsRats, Sprague-DawleyConceptsDorsal root ganglion neuronsDRG neuronsVoltage-gated potassium channelsAxonal injuryGanglion neuronsPotassium channelsChannel expressionNormal DRG neuronsChronic pain syndromeSodium channel expressionSpectrum of subtypesVoltage-gated sodium channelsSpecific potassium channelsPain syndromeDRG cellsAdult ratsNervous systemAxotomyKv expressionNeuronsImmunocytochemical methodsMolecular correlatesElectrical excitabilitySodium channelsImmunoreactivity
1996
Manipulation of the delayed rectifier Kv1.5 potassium channel in glial cells by antisense oligodeoxynucleotides
Roy M, Saal D, Perney T, Sontheimer H, Waxman S, Kaczmarek L. Manipulation of the delayed rectifier Kv1.5 potassium channel in glial cells by antisense oligodeoxynucleotides. Glia 1996, 18: 177-184. PMID: 8915650, DOI: 10.1002/(sici)1098-1136(199611)18:3<177::aid-glia2>3.0.co;2-x.Peer-Reviewed Original ResearchConceptsGlial cellsKv1.5 channel proteinSpinal cordKv1.5 proteinCultured spinal cordTEA-insensitive currentSpinal cord astrocytesRectifier current densityPotassium channel typesAntisense oligodeoxynucleotide treatmentKv1.5 potassium channelAdult ratsCerebellar slicesChannel proteinsAstrocytesOligodeoxynucleotide treatmentPotassium channelsRectifier currentEndfoot processesSuch treatmentCurrent activationAntisense oligodeoxynucleotidesCordCellsTreatmentAction potential-like responses in B 104 cells with low Na+ channel densities
Gu X, Waxman S. Action potential-like responses in B 104 cells with low Na+ channel densities. Brain Research 1996, 735: 50-58. PMID: 8905169, DOI: 10.1016/0006-8993(96)00604-x.Peer-Reviewed Original ResearchConceptsAction potential-like responsesB104 cellsWhole-cell patch-clamp methodB104 neuroblastoma cellsPA/pFCurrent-clamp modeSteady-state inactivationAction potential generationPatch-clamp methodMicroM TTXNeuroblastoma cellsPrepulse potentialPotential generationResponse amplitudeCellsResponseStimuli
1991
Tea‐sensitive potassium channels and inward rectification in regenerated rat sciatic nerve
Gardon T, Kocsis J, Waxman S. Tea‐sensitive potassium channels and inward rectification in regenerated rat sciatic nerve. Muscle & Nerve 1991, 14: 640-646. PMID: 1922170, DOI: 10.1002/mus.880140707.Peer-Reviewed Original ResearchConceptsCompound action potentialRat sciatic nerveNerve crushRegenerated axonsSciatic nerveRegenerated nervesInward rectificationIntra-axonal recording techniquesAdult rat sciatic nerveTEA-sensitive potassium channelsPotassium channelsRegenerated rat sciatic nerveSucrose gap recordingsSciatic nerve crushPeripheral nerve axonsWhole nerve recordingsIntra-axonal recordingsVoltage-sensitive sodium channelsCrush injuryNormal nervesSensitive relaxationRepetitive stimulationAfterhyperpolarizationGap recordingsNerve recordings
1990
Ion channel organization of the myelinated fiber
Black J, Kocsis J, Waxman S. Ion channel organization of the myelinated fiber. Trends In Neurosciences 1990, 13: 48-54. PMID: 1690930, DOI: 10.1016/0166-2236(90)90068-l.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsNerve Fibers, MyelinatedNeural ConductionPotassium ChannelsSodium Channels