1989
Ischemic Damage in Hippocampal CA1 is Dependent on Glutamate Release and Intact Innervation from CA3
Benveniste H, Jørgensen M, Sandberg M, Christensen T, Hagberg H, Diemer N. Ischemic Damage in Hippocampal CA1 is Dependent on Glutamate Release and Intact Innervation from CA3. Cerebrovascular And Brain Metabolism Reviews 1989, 9: 629-639. PMID: 2570785, DOI: 10.1038/jcbfm.1989.90.Peer-Reviewed Original ResearchConceptsCA1 regionPyramidal cellsGlutamate releaseIntact innervationHippocampal tissueCA1 tissueInjection siteIschemia-induced releaseIschemia-induced damageTransient global ischemiaCA1 pyramidal cellsRelease of glutamateGlutamatergic afferentsIschemic damageHippocampal CA1CA1 pyramidsGlobal ischemiaCA3 regionPathogenetic significanceIschemiaNeurotoxic potentialCA3CA1GlutamateInnervation
1988
Magnesium Inhibits Ischemia Induced Calcium Accumulation in Hilar Neurones: Possible Effect of Nmda-Receptor
Benveniste H, Diemer N. Magnesium Inhibits Ischemia Induced Calcium Accumulation in Hilar Neurones: Possible Effect of Nmda-Receptor. Advances In Behavioral Biology 1988, 35: 377-377. DOI: 10.1007/978-1-4684-5562-5_40.Peer-Reviewed Original ResearchHilar neuronsCA 1 pyramidal cellsN-methyl-D-aspartate receptorsCalcium accumulationIschemic brain damageExcessive calcium accumulationIschemic changesIschemic damageBrain damageNMDA receptorsPyramidal cellsSelective vulnerabilityHilar neuronesCalcium influxIrreversible morphological changesCalcium conductanceIschemiaMorphological damageExcessive accumulationNeuronsPivotal roleMorphological changesHoursPossible effectsDamage