The Constrained Network-Based Statistic: A New Level of Inference for Neuroimaging
Noble S, Scheinost D. The Constrained Network-Based Statistic: A New Level of Inference for Neuroimaging. Lecture Notes In Computer Science 2020, 12267: 458-468. PMID: 33870336, PMCID: PMC8052680, DOI: 10.1007/978-3-030-59728-3_45.Peer-Reviewed Original ResearchNetwork-based statisticsLarge-scale networksConstrained networksLarge-scale brain networksHuman Connectome ProjectHigher effect sizesBrain networksGround truth mapConnectome ProjectTask dataTruth effectNew levelReproducible discoveryEffect sizeNBS methodTruth mapNetwork organizationNetworkLocal neighborhoodValid inferencesInferenceNeuroscienceImportant formCluster levelMajor initiativesFunctional brain connectivity in ex utero premature infants compared to in utero fetuses
De Asis-Cruz J, Kapse K, Basu SK, Said M, Scheinost D, Murnick J, Chang T, du Plessis A, Limperopoulos C. Functional brain connectivity in ex utero premature infants compared to in utero fetuses. NeuroImage 2020, 219: 117043. PMID: 32534962, PMCID: PMC7493786, DOI: 10.1016/j.neuroimage.2020.117043.Peer-Reviewed Original ResearchConceptsPremature infantsHealthy fetusesBrain connectivityStructural brain injuryBlood oxygenation level-dependent (BOLD) signalBrain structural changesStress-related areasNormal brain MRIState functional MRIFunctional connectivity strengthFunctional brain connectivityLevel-dependent signalMedial temporal lobeNetwork-based statisticsSeed-based correlation analysisUtero fetusesBasal gangliaBrain injuryTerm ageBrain MRITemporal lobeExposure altersInfantsRegion of interestFunctional MRI