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Identifying disease‐associated biomarker network features through conditional graphical model.

Authors :
Xie, Shanghong
Li, Xiang
McColgan, Peter
Scahill, Rachael I.
Zeng, Donglin
Wang, Yuanjia
Source :
Biometrics; Sep2020, Vol. 76 Issue 3, p995-1006, 12p
Publication Year :
2020

Abstract

Biomarkers are often organized into networks, in which the strengths of network connections vary across subjects depending on subject‐specific covariates (eg, genetic variants). Variation of network connections, as subject‐specific feature variables, has been found to predict disease clinical outcome. In this work, we develop a two‐stage method to estimate biomarker networks that account for heterogeneity among subjects and evaluate network's association with disease clinical outcome. In the first stage, we propose a conditional Gaussian graphical model with mean and precision matrix depending on covariates to obtain covariate‐dependent networks with connection strengths varying across subjects while assuming homogeneous network structure. In the second stage, we evaluate clinical utility of network measures (connection strengths) estimated from the first stage. The second‐stage analysis provides the relative predictive power of between‐region network measures on clinical impairment in the context of regional biomarkers and existing disease risk factors. We assess the performance of proposed method by extensive simulation studies and application to a Huntington's disease (HD) study to investigate the effect of HD causal gene on the rate of change in motor symptom through affecting brain subcortical and cortical gray matter atrophy connections. We show that cortical network connections and subcortical volumes, but not subcortical connections are identified to be predictive of clinical motor function deterioration. We validate these findings in an independent HD study. Lastly, highly similar patterns seen in the gray matter connections and a previous white matter connectivity study suggest a shared biological mechanism for HD and support the hypothesis that white matter loss is a direct result of neuronal loss as opposed to the loss of myelin or dysmyelination. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0006341X
Volume :
76
Issue :
3
Database :
Complementary Index
Journal :
Biometrics
Publication Type :
Academic Journal
Accession number :
145667311
Full Text :
https://doi.org/10.1111/biom.13201