2001
[The role of transplanted astrocytes for the regeneration of CNS axons].
Imaizumi T, Lankford K, Kocsis J, Hashi K. [The role of transplanted astrocytes for the regeneration of CNS axons]. Brain And Nerve 脳と神経 2001, 53: 632-8. PMID: 11517487.Peer-Reviewed Original ResearchConceptsCompound action potentialRegenerated axonsSC transplantationAxonal regenerationAdult ratsLong-tract axonsMyelin associated proteinsDorsal column axonsRegeneration of axonsDC axonsCell transplantationDorsal rootsNeonatal ratsSpinal cordReduction of scarsHistological examinationTransplantationMammalian CNSCNS axonsAction potentialsAxonsMyelin formationLesionsThree daysRats
2000
[Characteristic improvement of the function following Schwann cell transplantation for demyelinated spinal cord].
Imaizumi T, Lankford K, Kocsis J, Honmou O, Kohama I, Hashi K. [Characteristic improvement of the function following Schwann cell transplantation for demyelinated spinal cord]. No Shinkei Geka. Neurological Surgery 2000, 28: 705-11. PMID: 11002493.Peer-Reviewed Original ResearchConceptsCompound action potentialDorsal rootsSchwann cellsSC transplantationSC myelinationAdult ratsConduction velocityTransplantation of SCsNormal DCsDorsal root ganglion neuronsDorsal column axonsLower conduction velocityGanglion neuronsSpinal cordDemyelinated axonsHistological examinationTransplantationAction potentialsRemyelinationAxonsOligodendrocytesRatsMyelinationAnatomical differencesLow amplitudeExcitability changes of dorsal root axons following nerve injury: implications for injury-induced changes in axonal Na+ channels
Nonaka T, Honmou O, Sakai J, Hashi K, Kocsis J. Excitability changes of dorsal root axons following nerve injury: implications for injury-induced changes in axonal Na+ channels. Brain Research 2000, 859: 280-285. PMID: 10719075, DOI: 10.1016/s0006-8993(00)01979-x.Peer-Reviewed Original ResearchConceptsDorsal root axonsNerve injuryDorsal rootsAction potentialsCutaneous afferent axonsSciatic nerve ligationAfferent cell bodiesInjury-induced changesRat dorsal rootSucrose gap chamberTarget disconnectionNerve ligationExcitability changesSpinal cordAfferent axonsTrophic supportRoot ligationRefractory periodCell bodiesElectrophysiological recordingsAxonsInjuryDepolarizationLigationPrevious studies
1993
Increased spike‐frequency adaptation and tea sensitivity in dorsal root fibers after sciatic nerve injury
Utzschneider D, Bhisitkhul R, Kocsis J. Increased spike‐frequency adaptation and tea sensitivity in dorsal root fibers after sciatic nerve injury. Muscle & Nerve 1993, 16: 958-963. PMID: 8355727, DOI: 10.1002/mus.880160912.Peer-Reviewed Original ResearchConceptsCompound action potentialDorsal root axonsNerve injuryDorsal rootsPotassium channel blockerAction potentialsSciatic nerveChannel blockersSpike adaptationSciatic nerve injuryPeripheral nerve injurySucrose gap chamberBrief tetanic stimulationDorsal root fibersWhole nerve recordingsSpike frequency adaptationTransection groupBurst dischargesTetanic stimulationNerve recordingsControl groupInjuryRoot fibersBurst responseNerve
1992
Mutual excitation among dorsal root ganglion neurons in the rat
Utzschneider D, Kocsis J, Devor M. Mutual excitation among dorsal root ganglion neurons in the rat. Neuroscience Letters 1992, 146: 53-56. PMID: 1475049, DOI: 10.1016/0304-3940(92)90170-c.Peer-Reviewed Original ResearchConceptsDorsal root gangliaDorsal rootsDorsal root ganglion neuronsPrimary sensory neuronsExcised dorsal root gangliaNerve injuryDRG neuronsGanglion neuronsMost neuronsRoot gangliaSensory abnormalitiesIntracellular recordingsDR stimulationRepetitive stimulationSensory neuronsTransient riseNeighboring neuronsNeuronsStimulationSimilar kineticsMutual excitationGangliaInjuryRatsAbnormalities
1991
Differential sensitivity to hypoxia of the peripheral versus central trajectory of primary afferent axons
Utzschneider D, Kocsis J, Waxman S. Differential sensitivity to hypoxia of the peripheral versus central trajectory of primary afferent axons. Brain Research 1991, 551: 136-141. PMID: 1913145, DOI: 10.1016/0006-8993(91)90924-k.Peer-Reviewed Original ResearchConceptsDorsal columnsDorsal rootsAfferent fibersCentral nervous system componentsPrimary afferent fibersSucrose gap chamberAction potential amplitudePrimary afferent axonsCompound action potentialDorsal spinal rootsNervous system componentsAxonal trunksPeripheral nervesSpinal cordSpinal rootsAfferent axonsCNS portionSchwann cellsAdult ratsPotential amplitudeAxon branchesAction potentialsHypoxiaMembrane potential changesMembrane depolarization
1988
Diminished dorsal root GABA sensitivity following chronic peripheral nerve injury
Kingery W, Fields R, Kocsis J. Diminished dorsal root GABA sensitivity following chronic peripheral nerve injury. Experimental Neurology 1988, 100: 478-490. PMID: 3366201, DOI: 10.1016/0014-4886(88)90033-7.Peer-Reviewed Original ResearchConceptsGamma-aminobutyric acidPrimary afferent depolarizationDorsal rootsGABA sensitivityNerve lesionsSciatic nerveDorsal root compound action potentialsChronic peripheral nerve injurySciatic crush injurySciatic nerve lesionChronic pain syndromeLumbar dorsal rootsPeripheral nerve injuryPeripheral nerve lesionsPeripheral nerve transectionSucrose gap chamberCompound action potentialDorsal root fibersRat lumbar dorsal rootsDorsal root axotomyPain syndromeNerve injuryCrush injuryNerve transectionSciatic axotomy
1987
Axonal GABA receptors are selectively present on normal and regenerated sensory fibers in rat peripheral nerve
Bhisitkul R, Villa J, Kocsis J. Axonal GABA receptors are selectively present on normal and regenerated sensory fibers in rat peripheral nerve. Experimental Brain Research 1987, 66: 659-663. PMID: 3038587, DOI: 10.1007/bf00270698.Peer-Reviewed Original ResearchConceptsGamma-aminobutyric acidVentral root fibersGABA receptorsRoot fibersSensory fibersPeripheral nervesSensory axonsRegenerated sensory axonsSucrose gap chamberPeripheral nerve fibersRat peripheral nerveDorsal root fibersMammalian peripheral nervesAgonist baclofenNerve crushDorsal rootsAgonist muscimolSciatic nerveNerve fibersRat peripheral nerve fibersNerveReceptorsMuscimolSelective presenceAxons
1985
Aminopyridine-sensitivity of spinal cord white matter studied in vitro
Kocsis J. Aminopyridine-sensitivity of spinal cord white matter studied in vitro. Experimental Brain Research 1985, 57: 620-624. PMID: 2984039, DOI: 10.1007/bf00237849.Peer-Reviewed Original ResearchConceptsCentral nervous system extensionSpinal cord white matterAction potential dischargeDorsal column axonsSucrose gap chamberCompound action potentialPeripheral nervous systemCord white matterVentral root fibersAction potential characteristicsSensory fibersDorsal columnsDorsal rootsSpinal cordNervous systemWhite matterAction potentialsPotential dischargeRoot fibersPotassium channelsCourse of maturationOcclusion experimentsAxonsPronounced increaseCord
1982
Intra-axonal recordings in rat dorsal column axons: membrane hyperpolarization and decreased excitability precede the primary afferent depolarization
Kocsis J, Waxman S. Intra-axonal recordings in rat dorsal column axons: membrane hyperpolarization and decreased excitability precede the primary afferent depolarization. Brain Research 1982, 238: 222-227. PMID: 6282392, DOI: 10.1016/0006-8993(82)90787-9.Peer-Reviewed Original ResearchConceptsPrimary afferent depolarizationIntra-axonal recordingsRat lumbosacral spinal cordDorsal column stimulationDorsal root potentialsLumbosacral spinal cordDorsal column axonsDorsal columnsDorsal rootsAxonal depolarizationRoot potentialsSpinal cordGABA responsesNeuronal elementsIntracellular correlatesProlonged depolarizationMembrane hyperpolarizationHyperpolarizationDepolarizationExcitability