2022
Dendritic Spines and Pain Memory
Benson C, King J, Reimer M, Kauer S, Waxman S, Tan A. Dendritic Spines and Pain Memory. The Neuroscientist 2022, 30: 294-314. PMID: 36461773, DOI: 10.1177/10738584221138251.Peer-Reviewed Original ResearchNeuropathic painDendritic spinesSynaptic transmissionSpinal cord dorsal hornForm of painNew therapeutic approachesSurface of neuronsDorsal hornIntractable painDeep laminaePain memoryTherapeutic approachesPainNervous systemNew therapeuticsSpineMillions of peopleInjuryDiseaseRecent studiesReview articlePrevalenceNeuronsImportant role
2006
Transcriptional Channelopathies of the Nervous System
Waxman S. Transcriptional Channelopathies of the Nervous System. 2006 DOI: 10.1002/9780470015902.a0006086.Peer-Reviewed Original ResearchSodium channel geneChannel genesTranscriptional channelopathiesSodium channel gene expressionChannel gene expressionGene expressionPeripheral nerve injurySpinal sensory neuronsGenesDysregulated expressionNerve injuryMultiple sclerosisSensory neuronsNervous systemCerebellar functionRecent studiesExpressionChannelopathiesAbstract Recent studiesHyperexcitabilitySclerosisInjuryNeuronsCells
2005
7 Altered Distributions and Functions of Multiple Sodium Channel Subtypes in Multiple Sclerosis and its Models
Waxman S. 7 Altered Distributions and Functions of Multiple Sodium Channel Subtypes in Multiple Sclerosis and its Models. 2005, 101-118. DOI: 10.1016/b978-012738761-1/50008-0.Peer-Reviewed Original ResearchMultiple sclerosisSodium channel subtypesVoltage-gated sodium channelsSodium channelsChannel subtypesDistinct voltage-gated sodium channelsPathophysiology of MSAxonal degenerationTherapeutic strategiesSclerosisFiring patternsExperimental modelMaladaptive roleNeuronal signalingSubtypesMolecular analysisAltered distributionNeuronsRecent studiesMajor contributorPathophysiologyAxonsDegenerationDiseaseImportant role
2000
Do ‘demyelinating’ diseases involve more than myelin?
Waxman S. Do ‘demyelinating’ diseases involve more than myelin? Nature Medicine 2000, 6: 738-739. PMID: 10888913, DOI: 10.1038/77450.Peer-Reviewed Original Research
1995
Differential Na+ channel β1 subunit mRNA expression in stellate and flat astrocytes cultured from rat cortex and cerebellum: A combined in situ hybridization and immunocytochemistry study
Oh Y, Waxman S. Differential Na+ channel β1 subunit mRNA expression in stellate and flat astrocytes cultured from rat cortex and cerebellum: A combined in situ hybridization and immunocytochemistry study. Glia 1995, 13: 166-173. PMID: 7782102, DOI: 10.1002/glia.440130303.Peer-Reviewed Original ResearchConceptsGFAP-positive astrocytesRat brainChannel beta 1 subunit (Na beta 1) mRNAMRNA expressionBeta 1 mRNA expressionSubunit mRNA expressionBeta 1 mRNABeta 1 subunit mRNARat cortexGranule cellsStellate astrocytesRat astrocytesAstrocytesChannel mRNAImmunocytochemistry methodSubunit mRNAsImmunocytochemistry studiesCerebellumBrainMRNASitu hybridizationRecent studiesDifferential expressionExpressionCells
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
1985
Neurogenesis in Adult Vertebrate Spinal Cord in Situ and in Vitro: A New Model Systema
ANDERSON M, WAXMAN S. Neurogenesis in Adult Vertebrate Spinal Cord in Situ and in Vitro: A New Model Systema. Annals Of The New York Academy Of Sciences 1985, 457: 213-233. PMID: 3913365, DOI: 10.1111/j.1749-6632.1985.tb20807.x.Peer-Reviewed Original ResearchConceptsSpinal cordEpendymal cellsNeuron-specific monoclonal antibodiesSpinal cord tissueSternarchus albifronsStudy of neurogenesisFunctional recoveryNew neuronsCord tissuePositive stainingRecent studiesCultured neuronsCordInjuryNeurogenesisMonoclonal antibodiesNeuronal differentiationNormal morphologic structureCNSExplant culturesNeuronsVertebrate spinal cordSternarchusNew spinal cordNeuronal identity
1983
Action potential propagation and conduction velocity — new perspectives and questions
Waxman S. Action potential propagation and conduction velocity — new perspectives and questions. Trends In Neurosciences 1983, 6: 157-161. DOI: 10.1016/0166-2236(83)90075-9.Peer-Reviewed Original Research