1986
Selforganization of ependyma in regenerating teleost spinal cord: evidence from serial section reconstructions
Anderson M, Choy C, Waxman S. Selforganization of ependyma in regenerating teleost spinal cord: evidence from serial section reconstructions. J Embryol Exp Morph 1986, 96: 1-18. PMID: 3805978, DOI: 10.1242/dev.96.1.1.Peer-Reviewed Original Research
1985
Generation of electromotor neurons in Sternarchus albifrons: Differences between normally growing and regenerating spinal cord
Waxman S, Anderson M. Generation of electromotor neurons in Sternarchus albifrons: Differences between normally growing and regenerating spinal cord. Developmental Biology 1985, 112: 338-344. PMID: 4076546, DOI: 10.1016/0012-1606(85)90404-x.Peer-Reviewed Original ResearchNeurogenesis in Adult Vertebrate Spinal Cord in Situ and in Vitro: A New Model Systema
ANDERSON M, WAXMAN S. Neurogenesis in Adult Vertebrate Spinal Cord in Situ and in Vitro: A New Model Systema. Annals Of The New York Academy Of Sciences 1985, 457: 213-233. PMID: 3913365, DOI: 10.1111/j.1749-6632.1985.tb20807.x.Peer-Reviewed Original ResearchConceptsSpinal cordEpendymal cellsNeuron-specific monoclonal antibodiesSpinal cord tissueSternarchus albifronsStudy of neurogenesisFunctional recoveryNew neuronsCord tissuePositive stainingRecent studiesCultured neuronsCordInjuryNeurogenesisMonoclonal antibodiesNeuronal differentiationNormal morphologic structureCNSExplant culturesNeuronsVertebrate spinal cordSternarchusNew spinal cordNeuronal identityRetrograde labeling of regenerated electromotor neurons with HRP in a teleost fish, Sternarchus albifrons: Relation to cell death
Anderson M, Fong H, Waxman S. Retrograde labeling of regenerated electromotor neurons with HRP in a teleost fish, Sternarchus albifrons: Relation to cell death. Cell And Tissue Research 1985, 241: 237-240. PMID: 2411410, DOI: 10.1007/bf00217166.Peer-Reviewed Original ResearchConceptsCorrect target areaElectromotor neuronsRetrograde labelingCell deathSelective neuronal deathSternarchus albifronsSubsequent cell deathNeuronal deathSpinal cordAxonal projectionsEctopic neuronsSelective cell deathTeleost fishImplantation sitesEctopic cellsNeuronsAxonsDeathCordAlbifronsTarget areaHorseradish peroxidaseNeurogenesis in tissue cultures of adult teleost spinal cord.
Anderson M, Waxman S. Neurogenesis in tissue cultures of adult teleost spinal cord. Brain Research 1985, 352: 203-12. PMID: 4027666, DOI: 10.1016/0165-3806(85)90107-5.Peer-Reviewed Original Research
1984
Glial fibrillary acidic protein in regenerating teleost spinal cord.
Anderson M, Swanson K, Waxman S, Eng L. Glial fibrillary acidic protein in regenerating teleost spinal cord. Journal Of Histochemistry & Cytochemistry 1984, 32: 1099-1106. PMID: 6481149, DOI: 10.1177/32.10.6481149.Peer-Reviewed Original ResearchConceptsGlial fibrillary acidic proteinSpinal cordFibrillary acidic proteinRegenerated cordPositive stainingAcidic proteinPresence of GFAPTeleost spinal cordNeuronal cell bodiesRegeneration of neuritesGFAP stainingReactive astrocytesAstrocytic profilesNeuronal regenerationGoldfish brainAstrocytic processesCordCell bodiesUltrastructural studyGoldfish Carassius auratusStainingSternarchus albifronsBrainCarassius auratusAstrocytesCell death of asynaptic neurons in regenerating spinal cord
Anderson M, Waxman S, Tadlock C. Cell death of asynaptic neurons in regenerating spinal cord. Developmental Biology 1984, 103: 443-455. PMID: 6724138, DOI: 10.1016/0012-1606(84)90332-4.Peer-Reviewed Original ResearchConceptsSpinal cordElectromotor neuronsRegenerated cordNormal numbersNumber of perikaryaCell deathCaudal endRostro-caudal axisSpinal neuronsCordCell bodiesNeuronsSynaptic competitionAxonsNumerous cellsDeathPerikaryaAmputationMore yearsEvidence of migrationSternarchus albifronsExcess numberElectric organEpendymaTransverse sections
1983
Regeneration of spinal neurons in inframammalian vertebrates: morphological and developmental aspects.
Anderson M, Waxman S. Regeneration of spinal neurons in inframammalian vertebrates: morphological and developmental aspects. Journal Für Hirnforschung 1983, 24: 371-98. PMID: 6643991.Peer-Reviewed Original ResearchConceptsSpinal cordNerve cell bodiesSpinal neuronsCell bodiesNerve fibersAxon reactionElectromotor neuronsInframammalian vertebratesSpinal electromotor neuronsPeripheral nerve bridgesMammalian spinal cordCell deathNerve bridgeNew neuronsEpendymal cellsTrophic effectsCordNerve growthNeuronsNerve outgrowthCertain hormonesGrowth factorSternarchusExternal laminaAxon outgrowthCaudal spinal cord of the teleost Sternarchus albifrons resembles regenerating cord
Anderson M, Waxman S. Caudal spinal cord of the teleost Sternarchus albifrons resembles regenerating cord. The Anatomical Record 1983, 205: 85-92. PMID: 6837938, DOI: 10.1002/ar.1092050111.Peer-Reviewed Original ResearchFine structure of regenerated ependyma and spinal cord in Sternarchus albifrons
Anderson M, Waxman S, Laufer M. Fine structure of regenerated ependyma and spinal cord in Sternarchus albifrons. The Anatomical Record 1983, 205: 73-83. PMID: 6837937, DOI: 10.1002/ar.1092050110.Peer-Reviewed Original ResearchConceptsDense-core vesiclesEpendymal cellsRegenerated cordSpinal cordCell bodiesNumerous dense-cored vesiclesSternarchus albifronsNormal cordCentral canalFibrous astrocytesMyelinated axonsCordElectromotor neuronsEpendymal layerVentral portionRegenerated spinal cordMeningeal layersNeuritesBasal laminaExtracellular spaceAdditional cellsCellsCell processesCell cytoplasmEpendymal tube
1982
Retrograde axon reaction following section of asynaptic nerve fibers
Waxman S, Anderson M. Retrograde axon reaction following section of asynaptic nerve fibers. Cell And Tissue Research 1982, 223: 487-492. PMID: 7093992, DOI: 10.1007/bf00218470.Peer-Reviewed Original Research
1981
Morphology of regenerated spinal cord in Sternarchus albifrons
Anderson M, Waxman S. Morphology of regenerated spinal cord in Sternarchus albifrons. Cell And Tissue Research 1981, 219: 1-8. PMID: 7285088, DOI: 10.1007/bf00210014.Peer-Reviewed Original ResearchConceptsSpinal cordElectromotor neuronsRegenerated spinal cordCell bodiesSpinal cord correlatesNumerous blood vesselsSite of transectionRostro-caudal gradientSternarchus albifronsLack dendritesRegenerated cordNormal cordGlial cellsPresynaptic axonsEpendymal cellsCordBlood vesselsAxonsNeuronsAnterior sectionNormal morphologyCell relationshipsGap junctionsDistinct tractsInitial segmentPlasticity in the ontogeny and pathophysiology of myelinated fibers.
Waxman S. Plasticity in the ontogeny and pathophysiology of myelinated fibers. Advances In Neurology 1981, 31: 69-92. PMID: 7325049.Peer-Reviewed Original Research
1980
Coordinated micropinocytotic activity of adjacent neuronal membranes in mammalian central nervous system
Waxman S, Waxman M, Pappas G. Coordinated micropinocytotic activity of adjacent neuronal membranes in mammalian central nervous system. Neuroscience Letters 1980, 20: 141-146. PMID: 7443064, DOI: 10.1016/0304-3940(80)90136-6.Peer-Reviewed Original ResearchConceptsExocytosis/endocytosisMembrane infoldingsMammalian central nervous systemCoated invaginationsNon-synaptic sitesNeuronal membranesCell membraneCentral nervous systemCoordinated activityNervous systemMembraneInvaginationMicropinocytotic activityInfoldingsElectrotonic synapsesEndocytosisSpeciesCytoplasmTissueNumber of sitesSitesSynapsesWide varietyActivityNeighboring dendritesRegeneration of spinal electrocyte fibers in Sternarchus albifrons: Development of axon-schwann cell relationships and nodes of Ranvier
Waxman S, Anderson M. Regeneration of spinal electrocyte fibers in Sternarchus albifrons: Development of axon-schwann cell relationships and nodes of Ranvier. Cell And Tissue Research 1980, 208: 343-352. PMID: 7397760, DOI: 10.1007/bf00233869.Peer-Reviewed Original ResearchDeterminants of conduction velocity in myelinated nerve fibers
Waxman S. Determinants of conduction velocity in myelinated nerve fibers. Muscle & Nerve 1980, 3: 141-150. PMID: 6245357, DOI: 10.1002/mus.880030207.Peer-Reviewed Original Research
1978
Demyelination of Sternarchus electrocyte fibers by injection of diphtheria toxin
Quick D, Waxman S. Demyelination of Sternarchus electrocyte fibers by injection of diphtheria toxin. Journal Of The Neurological Sciences 1978, 35: 235-241. PMID: 632832, DOI: 10.1016/0022-510x(78)90006-0.Peer-Reviewed Original Research
1975
Morphology of spinal electromotor neurons and presynaptic coupling in the gymnotidSternarchus albifrons
Pappas G, Waxman S, Bennett M. Morphology of spinal electromotor neurons and presynaptic coupling in the gymnotidSternarchus albifrons. Brain Cell Biology 1975, 4: 469-478. PMID: 1151441, DOI: 10.1007/bf01261376.Peer-Reviewed Original ResearchConceptsSpinal electromotor neuronsElectromotor neuronsCell bodiesGap junctionsAxosomatic synapsesSpinal cordPresynaptic fibersGlial lamellaeAdjacent neuronsElectrotonic couplingSingle axonsMyelin segmentsNeuronsMedial regionMorphological correlatesMorphological dataElectric organ dischargeAbsence of dendritesAxonsSynapsesAdjacent cellsAlbifronsDendritesLarge majorityCordIntegrative Properties and Design Principles of Axons
Waxman S. Integrative Properties and Design Principles of Axons. International Review Of Neurobiology 1975, 18: 1-40. PMID: 1107245, DOI: 10.1016/s0074-7742(08)60032-x.Peer-Reviewed Original Research
1973
Features associated with paranodal demyelination at a specialized site in the non-pathological nervous system
Waxman S. Features associated with paranodal demyelination at a specialized site in the non-pathological nervous system. Journal Of The Neurological Sciences 1973, 19: 357-362. PMID: 4716850, DOI: 10.1016/0022-510x(73)90099-3.Peer-Reviewed Original Research