Surface-Based Connectivity Integration: An atlas-free approach to jointly study functional and structural connectivity.

Adult Connectome Diffusion Tensor Imaging Gray Matter / anatomy & histology Humans Magnetic Resonance Imaging / methods Nerve Net / anatomy & histology Neuroimaging / methods

connectome integration continuous connectome diffusion MRI functional MRI white surface

Journal

Human brain mapping

ISSN: 1097-0193

Titre abrégé: Hum Brain Mapp

Pays: United States

ID NLM: 9419065

Informations de publication

Date de publication:
01 08 2021

Historique:

revised: 03 03 2021

received: 13 08 2020

accepted: 06 04 2021

pubmed: 7 5 2021

medline: 9 3 2022

entrez: 6 5 2021

Statut: ppublish

Résumé

There has been increasing interest in jointly studying structural connectivity (SC) and functional connectivity (FC) derived from diffusion and functional MRI. Previous connectome integration studies almost exclusively required predefined atlases. However, there are many potential atlases to choose from and this choice heavily affects all subsequent analyses. To avoid such an arbitrary choice, we propose a novel atlas-free approach, named Surface-Based Connectivity Integration (SBCI), to more accurately study the relationships between SC and FC throughout the intra-cortical gray matter. SBCI represents both SC and FC in a continuous manner on the white surface, avoiding the need for prespecified atlases. The continuous SC is represented as a probability density function and is smoothed for better facilitation of its integration with FC. To infer the relationship between SC and FC, three novel sets of SC-FC coupling (SFC) measures are derived. Using data from the Human Connectome Project, we introduce the high-quality SFC measures produced by SBCI and demonstrate the use of these measures to study sex differences in a cohort of young adults. Compared with atlas-based methods, this atlas-free framework produces more reproducible SFC features and shows greater predictive power in distinguishing biological sex. This opens promising new directions for all connectomics studies.

Identifiants

DOI: 10.1002/hbm.25447 PMID: 33956380 PMC: PMC8249904

pubmed: 33956380

doi: 10.1002/hbm.25447

pmc: PMC8249904

doi:

Types de publication

Journal Article Research Support, N.I.H., Intramural Research Support, Non-U.S. Gov't

Langues

eng

Sous-ensembles de citation

Pagination

3481-3499

Subventions

Organisme : NIH HHS

ID : AG054328

Pays : United States

Organisme : NIA NIH HHS

ID : R01 AG054328

Pays : United States

Organisme : NIH HHS

ID : MH118020

Pays : United States

Organisme : NIMH NIH HHS

ID : R01 MH118020

Pays : United States

Organisme : NIH HHS

ID : MH118927

Pays : United States

Organisme : NIH HHS

ID : 1U54MH091657

Pays : United States

Organisme : NIH HHS

ID : AG066970

Pays : United States

Organisme : NIMH NIH HHS

ID : R01 MH118927

Pays : United States

Organisme : NIMH NIH HHS

ID : U54 MH091657

Pays : United States

Organisme : NIA NIH HHS

ID : R21 AG066970

Pays : United States

Informations de copyright

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Surface-Based Connectivity Integration: An atlas-free approach to jointly study functional and structural connectivity.

Journal

Informations de publication

Résumé

Identifiants

Types de publication

Langues

Sous-ensembles de citation

Pagination

Subventions

Informations de copyright

Références

Auteurs

Martin Cole (M)

Kyle Murray (K)

Etienne St-Onge (E)

Benjamin Risk (B)

Jianhui Zhong (J)

Giovanni Schifitto (G)

Maxime Descoteaux (M)

Zhengwu Zhang (Z)

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Classifications MeSH