2013
Neurogenesis and Maturation in Neonatal Brain Injury
Salmaso N, Tomasi S, Vaccarino FM. Neurogenesis and Maturation in Neonatal Brain Injury. Clinics In Perinatology 2013, 41: 229-239. PMID: 24524457, PMCID: PMC3925307, DOI: 10.1016/j.clp.2013.10.007.ChaptersConceptsChronic perinatal hypoxiaConsequences of prematurityNeonatal brain injurySevere neurologic deficitsAttention deficit hyperactivityPerinatal hypoxiaNeurologic deficitsPreterm birthPremature birthBrain injuryAnimal modelsCognitive impairmentNeuropsychiatric conditionsMost childrenCognitive delayPartial recoveryIncidenceEnvironmental enrichmentAutism spectrum disorderBirthSpectrum disorderNormal developmentPrematurityHypoxia-Induced Developmental Delays of Inhibitory Interneurons Are Reversed by Environmental Enrichment in the Postnatal Mouse Forebrain
Komitova M, Xenos D, Salmaso N, Tran KM, Brand T, Schwartz ML, Ment L, Vaccarino FM. Hypoxia-Induced Developmental Delays of Inhibitory Interneurons Are Reversed by Environmental Enrichment in the Postnatal Mouse Forebrain. Journal Of Neuroscience 2013, 33: 13375-13387. PMID: 23946395, PMCID: PMC3742925, DOI: 10.1523/jneurosci.5286-12.2013.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell Adhesion Molecules, NeuronalCerebral CortexChromatography, High Pressure LiquidDisease Models, AnimalExtracellular Matrix ProteinsGene Knock-In TechniquesHousing, AnimalHypoxiaImmunohistochemistryInterneuronsMiceMice, Inbred C57BLMice, TransgenicNerve Tissue ProteinsParvalbuminsProsencephalonReelin ProteinSerine EndopeptidasesSomatostatinConceptsCortical interneuronsNormoxic controlsMarker expressionPostnatal cortical developmentVasoactive intestinal peptidePostnatal day 3Central nervous systemTotal GABA contentImpact of hypoxicPostnatal mouse forebrainEnvironmental enrichmentIntestinal peptideGABAergic interneuronsFrontal neocortexInhibitory interneuronsCortical developmentMouse modelReelin expressionInterneuron numbersNervous systemDay 3Cognitive impairmentInterneuronsHousing miceRLN expression
2012
Environmental Enrichment Increases the GFAP+ Stem Cell Pool and Reverses Hypoxia-Induced Cognitive Deficits in Juvenile Mice
Salmaso N, Silbereis J, Komitova M, Mitchell P, Chapman K, Ment LR, Schwartz ML, Vaccarino FM. Environmental Enrichment Increases the GFAP+ Stem Cell Pool and Reverses Hypoxia-Induced Cognitive Deficits in Juvenile Mice. Journal Of Neuroscience 2012, 32: 8930-8939. PMID: 22745493, PMCID: PMC3399175, DOI: 10.1523/jneurosci.1398-12.2012.Peer-Reviewed Original ResearchMeSH KeywordsAnalysis of VarianceAnimalsAnimals, NewbornBromodeoxyuridineCell CountCell DifferentiationCognition DisordersDeoxyuridineDisease Models, AnimalEnvironmentEstrogen AntagonistsFemaleGene Expression Regulation, DevelopmentalGlial Fibrillary Acidic ProteinGreen Fluorescent ProteinsHumansHypoxiaIdoxuridineKi-67 AntigenMaleMaze LearningMiceMice, Inbred C57BLMice, TransgenicNerve Tissue ProteinsNeurogenesisNeurogliaReceptors, EstrogenStem CellsTamoxifenConceptsHypoxic injuryBrain injuryAstroglial cellsChronic hypoxic injuryDevelopmental brain injuryLow birth weightCell poolEnvironmental enrichmentAdult brain injuryAbnormal lung developmentStem cell poolPerinatal hypoxic injuryFate-mapping modelsSocio-demographic factorsNeurobiological recoveryHippocampal neurogenesisVLBW cohortPremature childrenBirth weightCardiovascular abnormalitiesJuvenile miceAnimal modelsLung developmentInjuryCognitive deficits