Literature DB >> 29276055

Morphometric Similarity Networks Detect Microscale Cortical Organization and Predict Inter-Individual Cognitive Variation.

Jakob Seidlitz1, František Váša2, Maxwell Shinn2, Rafael Romero-Garcia2, Kirstie J Whitaker2, Petra E Vértes2, Konrad Wagstyl2, Paul Kirkpatrick Reardon3, Liv Clasen3, Siyuan Liu3, Adam Messinger4, David A Leopold5, Peter Fonagy6, Raymond J Dolan7, Peter B Jones8, Ian M Goodyer8, Armin Raznahan3, Edward T Bullmore9.   

Abstract

Macroscopic cortical networks are important for cognitive function, but it remains challenging to construct anatomically plausible individual structural connectomes from human neuroimaging. We introduce a new technique for cortical network mapping based on inter-regional similarity of multiple morphometric parameters measured using multimodal MRI. In three cohorts (two human, one macaque), we find that the resulting morphometric similarity networks (MSNs) have a complex topological organization comprising modules and high-degree hubs. Human MSN modules recapitulate known cortical cytoarchitectonic divisions, and greater inter-regional morphometric similarity was associated with stronger inter-regional co-expression of genes enriched for neuronal terms. Comparing macaque MSNs with tract-tracing data confirmed that morphometric similarity was related to axonal connectivity. Finally, variation in the degree of human MSN nodes accounted for about 40% of between-subject variability in IQ. Morphometric similarity mapping provides a novel, robust, and biologically plausible approach to understanding how human cortical networks underpin individual differences in psychological functions.
Copyright © 2017 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  IQ; MRI; connectome; cross-species; cytoarchitecture; gene expression; macaque; morphology; multi-modal

Mesh:

Year:  2017        PMID: 29276055      PMCID: PMC5763517          DOI: 10.1016/j.neuron.2017.11.039

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  91 in total

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