2001
Transplantation of an acutely isolated bone marrow fraction repairs demyelinated adult rat spinal cord axons
Sasaki M, Honmou O, Akiyama Y, Uede T, Hashi K, Kocsis J. Transplantation of an acutely isolated bone marrow fraction repairs demyelinated adult rat spinal cord axons. Glia 2001, 35: 26-34. PMID: 11424189, PMCID: PMC2605363, DOI: 10.1002/glia.1067.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornBeta-GalactosidaseBone Marrow TransplantationCells, CulturedEthidiumGlial Fibrillary Acidic ProteinImmunohistochemistryMiceMice, TransgenicMyeloid Progenitor CellsNerve Fibers, MyelinatedNerve RegenerationNeurogliaRatsRats, WistarRecovery of FunctionSpinal CordSpinal Cord InjuriesConceptsBone marrow cellsSpinal cordMyelin-forming cellsMarrow cellsDemyelinated rat spinal cordRat spinal cord axonsDorsal column lesionBone marrow cell fractionRat spinal cordX-irradiation treatmentSpinal cord axonsLacZ transgenic miceSchwann cell myelinationCell fractionCell transplantation techniquesDorsal funiculusPeripheral patternTransgenic miceTransplantation techniquesHematopoietic stem cellsIsolated cell fractionsCordFemoral bonePrecursor cellsTransplantation
1990
Ion channel organization of the myelinated fiber
Black J, Kocsis J, Waxman S. Ion channel organization of the myelinated fiber. Trends In Neurosciences 1990, 13: 48-54. PMID: 1690930, DOI: 10.1016/0166-2236(90)90068-l.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsNerve Fibers, MyelinatedNeural ConductionPotassium ChannelsSodium Channels
1987
Physiological effects of 4‐aminopyridine on demyelinated mammalian motor and sensory fibers
Bowe C, Kocsis J, Targ E, Waxman S. Physiological effects of 4‐aminopyridine on demyelinated mammalian motor and sensory fibers. Annals Of Neurology 1987, 22: 264-268. PMID: 2821876, DOI: 10.1002/ana.410220212.Peer-Reviewed Original ResearchMeSH Keywords4-AminopyridineAction PotentialsAminopyridinesAnimalsAxonsFemaleLysophosphatidylcholinesMotor ActivityMyelin SheathNerve Fibers, MyelinatedRatsSensationSpinal Nerve RootsConceptsSensory fibersClinical trialsAction potentialsPotassium channel blockadeDorsal root axonsCompound action potentialDorsal spinal rootsSingle action potentialMammalian motorIntrathecal injectionMultiple sclerosisSensory dysfunctionVentral rootsSpinal rootsNeuromuscular disordersSpecific fiber typesElectrophysiological responsesSingle stimulusPhysiological effectsTrialsFiber typesResponseParesthesiaSclerosisDysfunction
1983
Long-term regenerated nerve fibres retain sensitivity to potassium channel blocking agents
Kocsis J, Waxman S. Long-term regenerated nerve fibres retain sensitivity to potassium channel blocking agents. Nature 1983, 304: 640-642. PMID: 6308475, DOI: 10.1038/304640a0.Peer-Reviewed Original ResearchMeSH Keywords4-AminopyridineAction PotentialsAminopyridinesAnimalsCell DifferentiationIon ChannelsMiceNerve Fibers, MyelinatedNerve RegenerationConceptsNerve fibersPotassium channelsMyelinated peripheral nerve fibresAxon segmentsPeripheral nerve fibersAxon sproutsEndoneurial tubesNerve crushFunctional recoveryFunctional organizationMyelinated fibersAxon cylindersSchwann cellsBurst activityMyelinated axonsMammalian axonsAxonsPeripheral connectionsMembrane depolarizationBasement membraneK channelsRegenerated fibersAxon maturation
1982
Conduction of trains of impulses in uniform myelinated fibers: Computed dependence on stimulus frequency
Wood S, Waxman S, Kocsis J. Conduction of trains of impulses in uniform myelinated fibers: Computed dependence on stimulus frequency. Neuroscience 1982, 7: 423-430. PMID: 7078731, DOI: 10.1016/0306-4522(82)90276-7.Peer-Reviewed Original Research
1980
Absence of potassium conductance in central myelinated axons
Kocsis J, Waxman S. Absence of potassium conductance in central myelinated axons. Nature 1980, 287: 348-349. PMID: 7421994, DOI: 10.1038/287348a0.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAminopyridinesAnimalsElectric ConductivityNerve Fibers, MyelinatedPotassiumRatsSpinal CordTetraethylammonium CompoundsConceptsCentral myelinated axonsMyelinated axonsAction potentialsPotassium conductanceDorsal column axonsVoltage-clamp experimentsLate outward currentOutward currentsAxonsSodium ion permeabilityLate increaseDepolarization phasePotassium permeabilityAxonal membraneRepolarizationMyelinInitial increaseVoltage-dependent changesSodium inactivationDemyelinationPrevious studies