2020
Pharmacological reversal of synaptic and network pathology in human MECP2‐KO neurons and cortical organoids
Trujillo CA, Adams JW, Negraes PD, Carromeu C, Tejwani L, Acab A, Tsuda B, Thomas CA, Sodhi N, Fichter KM, Romero S, Zanella F, Sejnowski TJ, Ulrich H, Muotri AR. Pharmacological reversal of synaptic and network pathology in human MECP2‐KO neurons and cortical organoids. EMBO Molecular Medicine 2020, 13: emmm202012523. PMID: 33501759, PMCID: PMC7799367, DOI: 10.15252/emmm.202012523.Peer-Reviewed Original ResearchConceptsRett syndromeCortical organoidsPredominant etiologyNeurodevelopmental impairmentPharmacological reversalPHA-543613Neuropathologic phenotypeSynaptic dysregulationClinical studiesHuman pluripotent stem cell technologySymptomatic severityHuman neuronsMeCP2 deficiencyCandidate therapeuticsBrain mosaicismNetwork pathologyPharmacological compoundsPluripotent stem cell (iPSC) technologyNeurodevelopmental disordersMECP2 mutationsNeuropathologyMECP2 geneNeuronsCellular mosaicismStem cell technology
2017
Prospects for Modeling Abnormal Neuronal Function in Schizophrenia Using Human Induced Pluripotent Stem Cells
Prytkova I, Brennand K. Prospects for Modeling Abnormal Neuronal Function in Schizophrenia Using Human Induced Pluripotent Stem Cells. Frontiers In Cellular Neuroscience 2017, 11: 360. PMID: 29217999, PMCID: PMC5703699, DOI: 10.3389/fncel.2017.00360.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsInhibitory GABAergic neuronsAbnormal neuronal functionStem cellsPluripotent stem cellsGABAergic neuronsDopaminergic neuronsNetwork dysfunctionSZ pathologyDifficult disorderPatient-derived pluripotent stem cellsGlial culturesAnimal modelsNeuronal functionNetwork pathologyPatient-specific mannerHuman induced pluripotent stem cellsMolecular dysfunctionCo-culture techniqueInduced pluripotent stem cellsDysfunctionHigh rateDifferent cell typesNeuronsPathologyCell types
2016
Measuring Cortical Connectivity in Alzheimer’s Disease as a Brain Neural Network Pathology: Toward Clinical Applications
Teipel S, Grothe M, Zhou J, Sepulcre J, Dyrba M, Sorg C, Babiloni C. Measuring Cortical Connectivity in Alzheimer’s Disease as a Brain Neural Network Pathology: Toward Clinical Applications. Journal Of The International Neuropsychological Society 2016, 22: 138-163. PMID: 26888613, DOI: 10.1017/s1355617715000995.Peer-Reviewed Original ResearchConceptsCortical connectivityMild cognitive impairmentClinical applicationFunctional cortical connectivityMagnetic resonance imagingWhite matter bundlesResting-state functional magnetic resonance imagingDiffusion tensor imagingBlood oxygen level-dependent activityPre-clinicalEEG rhythmsCerebral reserve capacityResonance imagingNetwork pathologyAttention-related networksIn vivoMild AD dementia patientsTensor imagingBrain circuitsCognitively intact elderly individualsConnectivity measuresElderly individualsPatientsAlzheimer's diseaseFunctional coupling
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