2024
Repetitive Mild Closed-Head Injury Induced Synapse Loss and Increased Local BOLD-fMRI Signal Homogeneity
Markicevic M, Mandino F, Toyonaga T, Cai Z, Fesharaki-Zadeh A, Shen X, Strittmatter S, Lake E. Repetitive Mild Closed-Head Injury Induced Synapse Loss and Increased Local BOLD-fMRI Signal Homogeneity. Journal Of Neurotrauma 2024 PMID: 39096127, DOI: 10.1089/neu.2024.0095.Peer-Reviewed Original ResearchChronic variable stressRegional homogeneityFunctional brain abnormalitiesSynapse densityMild closed-head injuryClosed-head injuryTraumatic brain injuryTreat traumatic brain injuryNeurobiological alterationsMild head injuryVariable stressBrain abnormalitiesPositron emission tomographyMultimodal studiesSynaptic densityMagnetic resonance imagingBrain imagingBrain injuryInduce synapse lossFMRIInjured miceMouse modelEmission tomographyResonance imagingCompensatory mechanismsVentricular-subventricular zone stem cell niche adaptations in a mouse model of post-infectious hydrocephalus
Herman J, Rittenhouse N, Mandino F, Majid M, Wang Y, Mezger A, Kump A, Kadian S, Lake E, Verardi P, Conover J. Ventricular-subventricular zone stem cell niche adaptations in a mouse model of post-infectious hydrocephalus. Frontiers In Neuroscience 2024, 18: 1429829. PMID: 39145299, PMCID: PMC11322059, DOI: 10.3389/fnins.2024.1429829.Peer-Reviewed Original ResearchPost-infectious hydrocephalusVentricular-subventricular zoneInfluenza virusMouse modelMouse-adapted influenza virusIntact ependymaStem cellsPostnatal day 4Stem cell numbersStem cell nicheCell-to-cell transmissionOlfactory bulbMultiorgan hemorrhageLateral ventricleIntracerebroventricular injectionVentriculomegalyEmbryonic dayVentricular systemDay 4Cell nicheNo significant reductionHydrocephalusSignificant reductionVentricleCell number
2022
The lateral entorhinal cortex is a hub for local and global dysfunction in early Alzheimer’s disease states
Mandino F, Yeow LY, Bi R, Sejin L, Bae HG, Baek SH, Lee CY, Mohammad H, Horien C, Teoh CL, Lee JH, Lai MK, Jung S, Fu Y, Olivo M, Gigg J, Grandjean J. The lateral entorhinal cortex is a hub for local and global dysfunction in early Alzheimer’s disease states. Cerebrovascular And Brain Metabolism Reviews 2022, 42: 1616-1631. PMID: 35466772, PMCID: PMC9441719, DOI: 10.1177/0271678x221082016.Peer-Reviewed Original ResearchConceptsAlzheimer's diseaseEntorhinal cortexFunctional connectivity lossEarly AD stagesEarly Alzheimer's diseaseLateral entorhinal cortexVentral networkSynaptic hyperexcitabilityAD progressionGlobal dysfunctionMouse modelOptogenetic activationProjection targetsPathophysiological modelAD stagesMice showNetwork alterationsActive phenotypeNeuronal facilitationEarly hallmarkDiseaseActivity alterationsFMRI signalsNeuronal underpinningsTauopathies
2021
A triple-network organization for the mouse brain
Mandino F, Vrooman R, Foo H, Yeow L, Bolton T, Salvan P, Teoh C, Lee C, Beauchamp A, Luo S, Bi R, Zhang J, Lim G, Low N, Sallet J, Gigg J, Lerch J, Mars R, Olivo M, Fu Y, Grandjean J. A triple-network organization for the mouse brain. Molecular Psychiatry 2021, 27: 865-872. PMID: 34650202, PMCID: PMC9054663, DOI: 10.1038/s41380-021-01298-5.Peer-Reviewed Original Research