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
1995
Action in the Dendrites: A Revisitation of Dendritic Action Potentials
Kocsis J. Action in the Dendrites: A Revisitation of Dendritic Action Potentials. The Neuroscientist 1995, 1: 312-316. DOI: 10.1177/107385849500100602.Peer-Reviewed Original ResearchDendritic action potentialsSynaptic inputsAction potentialsCell bodiesPassive electrotonic spreadSimultaneous patch-clamp recordingsInitial axon segmentPatch-clamp recordingsRat hippocampal neuronsDendritic electrogenesisHippocampal neuronsDendritic spinesClamp recordingsElectrophysiological studiesPrimary siteAxon segmentsNeuronsNerve impulsesMembrane potential changesElectrotonic spreadUp-DateDendritesExcitatorySynapticSpine