1999
The role of voltage-gated Ca2+ channels in anoxic injury of spinal cord white matter
Imaizumi T, Kocsis J, Waxman S. The role of voltage-gated Ca2+ channels in anoxic injury of spinal cord white matter. Brain Research 1999, 817: 84-92. PMID: 9889329, DOI: 10.1016/s0006-8993(98)01214-1.Peer-Reviewed Original ResearchConceptsVoltage-gated Ca2Spinal cord axonsAnoxic injuryDorsal columnsR-type voltage-gated Ca2N-type calcium channelsSpinal cord white matterRat dorsal columnsDorsal column axonsR-type Ca2Rat spinal cordCord white matterT-type channelsInflux of Ca2Dose-dependent mannerLoss of conductionAxonal conductionSpinal cordChannel blockersCalcium channelsSurface stimulationWhite matterPerfusion solutionInjuryGlass microelectrodes
1998
Resistance to anoxic injury in the dorsal columns of adult rat spinal cord following demyelination
Imaizumi T, Kocsis J, Waxman S. Resistance to anoxic injury in the dorsal columns of adult rat spinal cord following demyelination. Brain Research 1998, 779: 292-296. PMID: 9473700, DOI: 10.1016/s0006-8993(97)01171-2.Peer-Reviewed Original ResearchConceptsCompound action potentialDorsal columnsSpinal cordAction potentialsWhite matterSpinal cord dorsal columnAdult rat spinal cordAdult spinal cordRat spinal cordMin of reoxygenationAdult white matterAction potential conductionControl ratsFocal demyelinationAnoxic injurySupramaximal stimulationOnset of anoxiaAdult ratsDemyelinationPotential conductionCordX-irradiationRatsGreater recoveryOnset