1990
Trophic influence of the distal nerve segment on GABAA receptor expression in axotomized adult sensory neurons
Bhisitkul R, Kocsis J, Gordon T, Waxman S. Trophic influence of the distal nerve segment on GABAA receptor expression in axotomized adult sensory neurons. Experimental Neurology 1990, 109: 273-278. PMID: 2170161, DOI: 10.1016/s0014-4886(05)80017-2.Peer-Reviewed Original ResearchConceptsDistal nerve segmentsGamma-aminobutyric acidNerve segmentsSciatic nerveReceptor expressionSensory neuronsTrophic supportGABAA receptor agonist muscimolDorsal root ganglion neuronsAxotomized sensory neuronsReactive Schwann cellsGABAA receptor expressionAdult sensory neuronsReceptor agonist muscimolExpression of receptorsPeripheral target tissuesGABA receptor expressionDorsal root fibersGABA receptor sensitivityEnd organ innervationPostoperative dayNerve crushNerve transectionCrush siteDistal stump
1986
Remodelling of internodes in regenerated rat sciatic nerve: Electron microscopic observations
Hildebrand C, Mustafa G, Waxman S. Remodelling of internodes in regenerated rat sciatic nerve: Electron microscopic observations. Brain Cell Biology 1986, 15: 681-692. PMID: 3819776, DOI: 10.1007/bf01625187.Peer-Reviewed Original ResearchConceptsRegenerated rat sciatic nerveRat sciatic nerveSciatic nerveSchwann cellsMyelin sheathRegenerated myelin sheathsRegenerated nerve segmentsSchwann cell networkLeft sciatic nerveSchwann cell cytoplasmMyelin sheath breakdownNodes of RanvierCrush lesionNerve segmentsSurvival periodUpper thighAdult ratsSurvival timeNerveInternodal shorteningImportant physiological implicationsMonthsLipid dropletsLamellated bodiesExtensive remodelling
1985
Myelin sheath remodelling in regenerated rat sciatic nerve
Hildebrand C, Kocsis J, Berglund S, Waxman S. Myelin sheath remodelling in regenerated rat sciatic nerve. Brain Research 1985, 358: 163-170. PMID: 2416385, DOI: 10.1016/0006-8993(85)90960-6.Peer-Reviewed Original ResearchConceptsRat sciatic nerveSciatic nerveRegenerated nervesAdult rat sciatic nerveRegenerated rat sciatic nerveNormal control nervesLight microscopic examinationAction potential waveformCrush lesionMonths survivalNerve segmentsControl nervesSame nerveIndividual nervesNerve fibersNerveShort sheathMyelin layersMyelin sheathPotassium channelsMicroscopic examinationLigature‐induced injury in peripheral nerve: Electrophysiological observations on changes in action potential characteristics following blockade of potassium conductance
Waxman S, Kocsis J, Eng D. Ligature‐induced injury in peripheral nerve: Electrophysiological observations on changes in action potential characteristics following blockade of potassium conductance. Muscle & Nerve 1985, 8: 85-92. PMID: 2414652, DOI: 10.1002/mus.880080202.Peer-Reviewed Original ResearchConceptsAction potentialsRepetitive firingSingle stimulusPotassium channelsCompound action potentialRat sciatic nerveAction potential propertiesWhole-nerve responseAction potential characteristicsIntra-axonal recordingsAction potential waveformNerve segmentsSciatic nerveNerve responsesPeripheral nervesInjury siteMyelinated fibersLater spikesElectrophysiological observationsNerveRefractory periodFiring patternsPotassium conductancePotential waveformInitial spike