Human adolescent brain similarity development is different for paralimbic versus neocortical zones
Dorfschmidt L, Váša F, White S, Romero-García R, Kitzbichler M, Alexander-Bloch A, Cieslak M, Mehta K, Satterthwaite T, Consortium T, Bethlehem R, Seidlitz J, Vértes P, Bullmore E, Bullmore E, Dolan R, Goodyer I, Fonagy P, Jones P, Moutoussis M, Hauser T, Neufeld S, Romero-Garcia R, St Clair M, Vértes P, Whitaker K, Inkster B, Prabhu G, Ooi C, Toseeb U, Widmer B, Bhatti J, Villis L, Alrumaithi A, Birt S, Bowler A, Cleridou K, Dadabhoy H, Davies E, Firkins A, Granville S, Harding E, Hopkins A, Isaacs D, King J, Kokorikou D, Maurice C, McIntosh C, Memarzia J, Mills H, O’Donnell C, Pantaleone S, Scott J, Kiddle B, Polek E, Fearon P, Suckling J, van Harmelen A, Kievit R, Chamberlain S, Bethlehem R. Human adolescent brain similarity development is different for paralimbic versus neocortical zones. Proceedings Of The National Academy Of Sciences Of The United States Of America 2024, 121: e2314074121. PMID: 39121162, PMCID: PMC11331068, DOI: 10.1073/pnas.2314074121.Peer-Reviewed Original ResearchConceptsMorphometric similarity networksFunctional connectivityNeocortical areasCortical areasFunctional MRI scansCourse of adolescenceAccelerated longitudinal designMagnetic resonance imagingStructure-function couplingCingulate cortexParalimbic areasInteroceptive functionAssociated with increased strengthIncreased hubnessFMRI networksStructural scansLongitudinal designCortical thinningDevelopment of human brainAdolescent developmentMorphometric similarityHealthy adolescentsAssociated with reduced strengthHuman brainCortex
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