| Title: | Evaluating the effects of high-throughput structural neuroimaging predictors on whole-brain functional connectome outcomes via network-based matrix-on-vector regression |
| Journal: | Biometrics |
| Published: | 7 Jan 2025 |
| Pubmed: | https://pubmed.ncbi.nlm.nih.gov/40116280/ |
| DOI: | https://doi.org/10.1093/biomtc/ujaf027 |
Publication 14871
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Abstract
The joint analysis of multimodal neuroimaging data is vital in brain research, revealing complex interactions between brain structures and functions. Our study is motivated by the analysis of a vast dataset of brain functional connectivity (FC) and multimodal structural imaging (SI) features from the UK Biobank. Specifically, we aim to investigate the effects of SI features, such as white matter microstructure integrity (WMMI) and cortical thickness, on the whole-brain functional connectome network. This analysis is inherently challenging due to the extensive structural-functional associations and the intricate network patterns present in multimodal high-dimensional neuroimaging data. To bridge methodological gaps, we developed a novel multi-level sub-graph extraction method (dense bipartite with nested unipartite graph) within a matrix(network)-on-vector regression model. This method identifies subsets of spatially specific SI features that intensely and systematically influence FC sub-networks, while effectively suppressing false positives in large-scale datasets. Applying our method to a multimodal neuroimaging dataset of 4242 participants ffrom the UK Biobank, we evaluated the effects of whole-brain WMMI and cortical thickness on resting-state FC. Our findings indicate that the WMMI in corticospinal tracts and inferior cerebellar peduncle significantly affect functional connections of sensorimotor, salience, and executive sub-networks, with an average correlation of 0.81 ($p < 0.001$).</p>
11 Keywords
- Brain
- Connectome
- Female
- Humans
- Magnetic Resonance Imaging
- Male
- Middle Aged
- Neuroimaging
- Regression Analysis
- United Kingdom
- White Matter
7 Authors
- Tong Lu
- Yuan Zhang
- Vince Lyzinski
- Chuan Bi
- Peter Kochunov
- Elliot Hong
- Shuo Chen
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