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Hauptverfasser: Osarfo, Samuel, Yi, Sangyoon, Fu, Weijia, Ahn, Seungjun
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2508.16883
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author Osarfo, Samuel
Yi, Sangyoon
Fu, Weijia
Ahn, Seungjun
author_facet Osarfo, Samuel
Yi, Sangyoon
Fu, Weijia
Ahn, Seungjun
contents Mediation analysis examines the pathways through which mediators transmit the effect of an exposure to an outcome. In high-dimensional settings, the joint significance test is commonly applied using variable screening followed by statistical inference. However, when mediators are highly correlated, existing methods may experience reduced statistical power due to inaccurate screening and residual bias in asymptotic inference. To address these issues, we propose CHIMA (Correlation-aware High-dimensional Mediation Analysis), an extension of a recently developed high-dimensional mediation analysis framework that enhances performance under correlation by integrating two advances: (i) high-dimensional ordinary least squares projection for accurate screening under correlation; and (ii) approximate orthogonalization for bias reduction. Simulation studies demonstrate that CHIMA effectively identifies active mediators even in the presence of strong correlations and outperforms competing methods across various settings. We further apply CHIMA to ribonucleic acid sequencing (RNA-seq) from the Living Brain Project, identifying genes that mediate the effect of Parkinson's disease on brain cell composition, thereby revealing cell-type-specific mechanisms of disease.
format Preprint
id arxiv_https___arxiv_org_abs_2508_16883
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle CHIMA: a correlation-aware high-dimensional mediation analysis with its application to the living brain project study
Osarfo, Samuel
Yi, Sangyoon
Fu, Weijia
Ahn, Seungjun
Methodology
Mediation analysis examines the pathways through which mediators transmit the effect of an exposure to an outcome. In high-dimensional settings, the joint significance test is commonly applied using variable screening followed by statistical inference. However, when mediators are highly correlated, existing methods may experience reduced statistical power due to inaccurate screening and residual bias in asymptotic inference. To address these issues, we propose CHIMA (Correlation-aware High-dimensional Mediation Analysis), an extension of a recently developed high-dimensional mediation analysis framework that enhances performance under correlation by integrating two advances: (i) high-dimensional ordinary least squares projection for accurate screening under correlation; and (ii) approximate orthogonalization for bias reduction. Simulation studies demonstrate that CHIMA effectively identifies active mediators even in the presence of strong correlations and outperforms competing methods across various settings. We further apply CHIMA to ribonucleic acid sequencing (RNA-seq) from the Living Brain Project, identifying genes that mediate the effect of Parkinson's disease on brain cell composition, thereby revealing cell-type-specific mechanisms of disease.
title CHIMA: a correlation-aware high-dimensional mediation analysis with its application to the living brain project study
topic Methodology
url https://arxiv.org/abs/2508.16883