2012
Myelin, Impulse Conduction, and the Pathophysiology of Demyelination
Bangalore L, Waxman S. Myelin, Impulse Conduction, and the Pathophysiology of Demyelination. 2012, 529-542. DOI: 10.1093/med/9780199794591.003.0042.Peer-Reviewed Original ResearchPathophysiology of demyelinationNormal brain functionMultiple sclerosisGlial cellsParkinson's diseaseNeurological diseasesAlzheimer's diseasePsychiatric conditionsImpulse conductionBrain functionDiseaseGliaNeuronsBasic biologyCell anatomyConcerted actionCellsDemyelinationSclerosisPathophysiologyStrokeCentral roleBrainMyelin
2002
Sodium channels and the molecular basis for pain
Black J, Cummins T, Dib-Hajj S, Waxman S. Sodium channels and the molecular basis for pain. Progress In Inflammation Research 2002, 23-50. DOI: 10.1007/978-3-0348-8129-6_2.ChaptersPrimary sensory neuronsSensory neuronsAction potentialsSpontaneous action potentialsHigh-frequency activityInflammatory painTrigeminal neuronsNociceptive responsesAscending pathwaysPeripheral nervesTissue injuryNoxious stimuliPeripheral targetsPainNeuronsSodium channelsTemperature sensationBrainHigh thresholdNerveMolecular basisInjuryAxonsDRG
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
1994
Rat brain Na+ channel mRNAs in non‐excitable Schwann cells
Oh Y, Black J, Waxman S. Rat brain Na+ channel mRNAs in non‐excitable Schwann cells. FEBS Letters 1994, 350: 342-346. PMID: 8070590, DOI: 10.1016/0014-5793(94)00807-8.Peer-Reviewed Original ResearchThe expression of rat brain voltage-sensitive Na+ channel mRNAs in astrocytes
Oh Y, Black J, Waxman S. The expression of rat brain voltage-sensitive Na+ channel mRNAs in astrocytes. Brain Research 1994, 23: 57-65. PMID: 8028484, DOI: 10.1016/0169-328x(94)90211-9.Peer-Reviewed Original ResearchConceptsRat brainChannel mRNAChannel subtypesCultured spinal cordSkeletal muscleRat optic nerveNeuronal cell bodiesRegions of CNSSubtype IRat skeletal muscleOptic nervePolymerase chain reactionSpinal cordRat astrocytesDistinct subtypesAstrocytesCell bodiesSubtypesBrainRT-PCRSubtype IIRat tissuesChain reactionRat liverReverse transcriptionAnoxic Injury of Central Myelinated Axons: Nonsynaptic Ionic Mechanisms
Ransom B, Waxman S, Stys P. Anoxic Injury of Central Myelinated Axons: Nonsynaptic Ionic Mechanisms. 1994, 77-90. DOI: 10.1007/978-3-642-78151-3_9.Peer-Reviewed Original ResearchGlial cellsAnoxic injuryWhite matterCentral nervous system traumaIrreversible anoxic injuryPathophysiology of strokeNervous system traumaCentral myelinated axonsNeuronal cell bodiesAnoxia/ischemiaGray matter areasCNS axonal injuryNeuronal injuryIonic mechanismsAxonal injurySystem traumaCell injuryMyelinated axonsInjuryCell bodiesAxonsMatter areasBrainMetabolic substratesReliable model system
1984
Glial fibrillary acidic protein in regenerating teleost spinal cord.
Anderson M, Swanson K, Waxman S, Eng L. Glial fibrillary acidic protein in regenerating teleost spinal cord. Journal Of Histochemistry & Cytochemistry 1984, 32: 1099-1106. PMID: 6481149, DOI: 10.1177/32.10.6481149.Peer-Reviewed Original ResearchConceptsGlial fibrillary acidic proteinSpinal cordFibrillary acidic proteinRegenerated cordPositive stainingAcidic proteinPresence of GFAPTeleost spinal cordNeuronal cell bodiesRegeneration of neuritesGFAP stainingReactive astrocytesAstrocytic profilesNeuronal regenerationGoldfish brainAstrocytic processesCordCell bodiesUltrastructural studyGoldfish Carassius auratusStainingSternarchus albifronsBrainCarassius auratusAstrocytes
1976
Acute confusional states with right middle cerebral artery infarctions.
Mesulam M, Waxman S, Geschwind N, Sabin T. Acute confusional states with right middle cerebral artery infarctions. Journal Of Neurology Neurosurgery & Psychiatry 1976, 39: 84. PMID: 1255216, PMCID: PMC492219, DOI: 10.1136/jnnp.39.1.84.Peer-Reviewed Original ResearchConceptsAcute confusional stateConfusional stateRight middle cerebral artery infarctionRight middle cerebral arteryMiddle cerebral artery infarctionCerebral artery infarctionMiddle cerebral arteryArtery infarctionCerebral arteryCortical connectionsAssociation cortexMonkey brainHomologous areasInfarctionMain deficitsDeficitsPatientsArteryLesionsCortexBrain