1994
Anoxic injury of rat optic nerve: ultrastructural evidence for coupling between Na+ influx and Ca2+-mediated injury in myelinated CNS axons
Waxman S, Black J, Ransom B, Stys P. Anoxic injury of rat optic nerve: ultrastructural evidence for coupling between Na+ influx and Ca2+-mediated injury in myelinated CNS axons. Brain Research 1994, 644: 197-204. PMID: 8050031, DOI: 10.1016/0006-8993(94)91680-2.Peer-Reviewed Original ResearchConceptsOptic nerveOptic nerve axonsRat optic nerveNerve axonsBrain slice chamberCompound action potentialLoss of cristaeMicroM tetrodotoxinAnoxic injuryNormoxic controlsNerveAstrocyte processesPerinodal astrocyte processesWhite matterMyelinated axonsAstrocytic processesCNS axonsTetrodotoxinAction potentialsSlice chamberAxonsLoss of microtubulesCytoskeletal damageInjuryNormoxic conditions
1992
Ultrastructural concomitants of anoxic injury and early post-anoxic recovery in rat optic nerve
Waxman S, Black J, Stys P, Ransom B. Ultrastructural concomitants of anoxic injury and early post-anoxic recovery in rat optic nerve. Brain Research 1992, 574: 105-119. PMID: 1638387, DOI: 10.1016/0006-8993(92)90806-k.Peer-Reviewed Original ResearchConceptsOptic nerveRat optic nerveMin of anoxiaPost-anoxic recoveryAnoxic injuryAstrocyte processesMyelin sheathLoss of microtubulesCell-mediated damageCNS white matterInflux of calciumLarge-diameter axonsPrevious electrophysiological studiesAction potential conductionWhite matter tractsNodes of RanvierAnoxic insultUltrastructure of axonsGlial cellsVesicular degenerationConduction blockEarly recoveryElectrophysiological studiesNerveSignificant injury