2002
Subthreshold Oscillations Induced By Spinal Nerve Injury In Dissociated Muscle And Cutaneous Afferents Of Mouse DRG
Liu C, Devor M, Waxman S, Kocsis J. Subthreshold Oscillations Induced By Spinal Nerve Injury In Dissociated Muscle And Cutaneous Afferents Of Mouse DRG. Journal Of The Peripheral Nervous System 2002, 7: 212-212. DOI: 10.1046/j.1529-8027.2002.02026_27.x.Peer-Reviewed Original ResearchCutaneous afferentsMuscle afferentsNerve injuryDRG neuronsLumbar dorsal root ganglion neuronsWhole-cell patch-clamp recordingsCell patch-clamp recordingsDorsal root ganglion neuronsCutaneous afferent neuronsNerve injury groupSpinal nerves 1Spinal nerve injuryAction potential activityPatch-clamp recordingsSubthreshold membrane potential oscillationsMembrane potential oscillationsMembrane oscillationsWhole DRGInjury groupAfferent neuronsFluoro-GoldGanglion neuronsNerve 1Control neuronsTrue Blue
2000
The neuron as a dynamic electrogenic machine: modulation of sodiumchannel expression as a basis for functional plasticity in neurons
Waxman S. The neuron as a dynamic electrogenic machine: modulation of sodiumchannel expression as a basis for functional plasticity in neurons. Philosophical Transactions Of The Royal Society B Biological Sciences 2000, 355: 199-213. PMID: 10724456, PMCID: PMC1692729, DOI: 10.1098/rstb.2000.0559.Peer-Reviewed Original ResearchConceptsSodium channelsMammalian nervous systemSodium channel geneNervous systemDozen genesDistinct sodium channelsVoltage-gated sodium channelsGenesElectrogenic machineryNormal nervous systemSodium channel expressionFunctional plasticityMembrane of neuronsAction potential activityTranscriptionPathological insultsPhysiological inputsMost neuronsCrucial roleExpressionNeuronsFunctional propertiesElectroresponsive propertiesPotential activityMachinerySodium channels and the molecular pathophysiology of pain
Cummins T, Dib-Hajj S, Black J, Waxman S. Sodium channels and the molecular pathophysiology of pain. Progress In Brain Research 2000, 129: 3-19. PMID: 11098678, DOI: 10.1016/s0079-6123(00)29002-x.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsDorsal root gangliaTrigeminal neuronsSodium channelsAction potentialsDorsal root ganglion neuronsSpontaneous action potential activityMolecular pathophysiologyPrimary sensory neuronsPeripheral target tissuesAction potential activitySodium channel expressionChain of neuronsPathological burstingNerve injuryNociceptive pathwaysChronic painGanglion neuronsRoot gangliaSensory neuronsChannel expressionSomatosensory systemPainNeuronsTarget tissuesPathophysiology
1996
Mechanisms of Paresthesiae, Dysesthesiae, and Hyperesthesiae: Role of Na+ Channel Heterogeneity
Rizzo M, Kocsis J, Waxman S. Mechanisms of Paresthesiae, Dysesthesiae, and Hyperesthesiae: Role of Na+ Channel Heterogeneity. European Neurology 1996, 36: 3-12. PMID: 8719643, DOI: 10.1159/000117192.Peer-Reviewed Original ResearchConceptsAxonal injuryCutaneous afferentsDorsal root ganglion neuronsAction potential activityNormal sensory functionEctopic impulsesDRG neuronsClinical syndromeGanglion neuronsSensory functionMembrane excitabilityInjuryNerve impulsesDysesthesiaeChannel physiologyMolecular changesParesthesiaeAfferentsPreliminary evidenceNeuronsEctopicMolecular mechanismsSensory anatomyPotential activityPopulation