2021
Post-traumatic olfactory loss and brain response beyond olfactory cortex
Pellegrino R, Farruggia MC, Small DM, Veldhuizen MG. Post-traumatic olfactory loss and brain response beyond olfactory cortex. Scientific Reports 2021, 11: 4043. PMID: 33597627, PMCID: PMC7889874, DOI: 10.1038/s41598-021-83621-2.Peer-Reviewed Original ResearchConceptsPosterior cingulate cortexOlfactory impairmentOlfactory cortexFunctional anosmiaPost-traumatic olfactory lossPrimary olfactory areasWhole-brain responsesBrain responsesGray matter densityHigher-order areasOlfactory lossPiriform cortexHead traumaHealthy controlsOlfactory areasOdorless stimuliOlfactory functionMediodorsal thalamusCortical areasVentromedial prefrontal cortexCingulate cortexFrontal operculumCortexAnterior insulaPrefrontal cortex
2018
Development of piriform cortex interhemispheric connections via the anterior commissure: progressive and regressive strategies
Martin-Lopez E, Meller SJ, Greer CA. Development of piriform cortex interhemispheric connections via the anterior commissure: progressive and regressive strategies. Brain Structure And Function 2018, 223: 4067-4085. PMID: 30141078, PMCID: PMC6252112, DOI: 10.1007/s00429-018-1741-y.Peer-Reviewed Original ResearchConceptsAnterior commissurePostnatal developmentPostnatal day 22Inter-hemispheric connectionsChondroitin sulfate proteoglycanPiriform cortexContralateral innervationGlial cellsOlfactory areasBed nucleusInterhemispheric connectionsStria terminalisDay 22Axonal tractsAxon growthNew subtypeAxon outgrowthCalretininCommissureSulfate proteoglycanAxonsPhenotypeInnervationIpsiImmunohistochemistry
2016
Progressive neuronal activation accompanies epileptogenesis caused by hippocampal glutamine synthetase inhibition
Albright B, Dhaher R, Wang H, Harb R, Lee TW, Zaveri H, Eid T. Progressive neuronal activation accompanies epileptogenesis caused by hippocampal glutamine synthetase inhibition. Experimental Neurology 2016, 288: 122-133. PMID: 27769717, PMCID: PMC5547560, DOI: 10.1016/j.expneurol.2016.10.007.Peer-Reviewed Original ResearchConceptsMesial temporal lobe epilepsyNeuronal activationHippocampal formationHuman mesial temporal lobe epilepsyAnterior olfactory areaEntorhinal-hippocampal areaProcess of epileptogenesisC-Fos immunohistochemistryTemporal lobe epilepsyTypes of seizuresGlutamine synthetase inhibitionSurgical resectionPiriform cortexSeizure severityLobe epilepsyHippocampal astrocytesEpilepsy developmentEpileptogenic processElectroencephalogram monitoringOlfactory areasPharmacological interventionsSeizure phenotypeBed nucleusMidline thalamusStria terminalis
2012
The effect of verbal context on olfactory neural responses
Bensafi M, Croy I, Phillips N, Rouby C, Sezille C, Gerber J, Small DM, Hummel T. The effect of verbal context on olfactory neural responses. Human Brain Mapping 2012, 35: 810-818. PMID: 23225581, PMCID: PMC6869804, DOI: 10.1002/hbm.22215.Peer-Reviewed Original Research
1992
Immunocytochemical localization of DARPP‐32, a dopamine and cyclic‐ AMP‐regulated phosphoprotein, in the primate brain
Ouimet C, Lamantia A, Goldman‐Rakic P, Rakic P, Greengard P. Immunocytochemical localization of DARPP‐32, a dopamine and cyclic‐ AMP‐regulated phosphoprotein, in the primate brain. The Journal Of Comparative Neurology 1992, 323: 209-218. PMID: 1328330, DOI: 10.1002/cne.903230206.Peer-Reviewed Original ResearchConceptsDARPP-32Axon terminalsCaudate nucleusDARPP-32-positive neuronsSubstantia nigra pars reticulataAnterior olfactory areaMajority of somataSubcortical white matterUnlabeled axon terminalsAction of dopamineVentral tegmental areaDARPP-32 immunoreactivityCerebral cortexPars reticulataDopaminergic neuronsImmunoreactive somataSubstantia nigraArcuate nucleusGlobus pallidusTegmental areaMedial habenulaDopamine receptorsOlfactory areasVentral pallidumBed nucleus
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