Generalized Bayesian kernel machine regression
Generalized Bayesian kernel machine regression
Kernel machine regression is a nonparametric regression method widely applied in biomedical and environmental health research. It employs a kernel function to measure the similarities between sample pairs, effectively identifying significant exposures and assessing their nonlinear impacts on outcomes. This article introduces an enhanced framework, the generalized Bayesian kernel machine regression. In comparison to traditional kernel machine regression, generalized Bayesian kernel machine regression provides substantial flexibility to accommodate a broader array of outcome variables, ranging from continuous to binary and count data. Simulations show generalized Bayesian kernel machine regression can successfully identify the nonlinear relationships between independent variables and outcomes of various types. In the real data analysis, we applied generalized Bayesian kernel machine regression to uncover cytosine phosphate guanine sites linked to health-related conditions such as asthma and smoking. The results identify crucial cytosine phosphate guanine sites and provide insights into their complex, nonlinear relationships with outcome variables.
asthma, cytosine phosphate guanine, Kernel machine regression, smoking, variable selection
Mou, Xichen
2f56533a-08dc-402a-a748-2c01c86d7447
Zhang, Hongmei
9f774048-54d6-4321-a252-3887b2c76db0
Arshad, S. Hasan
917e246d-2e60-472f-8d30-94b01ef28958
Mou, Xichen
2f56533a-08dc-402a-a748-2c01c86d7447
Zhang, Hongmei
9f774048-54d6-4321-a252-3887b2c76db0
Arshad, S. Hasan
917e246d-2e60-472f-8d30-94b01ef28958
Mou, Xichen, Zhang, Hongmei and Arshad, S. Hasan
(2024)
Generalized Bayesian kernel machine regression.
Statistical Methods in Medical Research.
(doi:10.1177/09622802241280784).
Abstract
Kernel machine regression is a nonparametric regression method widely applied in biomedical and environmental health research. It employs a kernel function to measure the similarities between sample pairs, effectively identifying significant exposures and assessing their nonlinear impacts on outcomes. This article introduces an enhanced framework, the generalized Bayesian kernel machine regression. In comparison to traditional kernel machine regression, generalized Bayesian kernel machine regression provides substantial flexibility to accommodate a broader array of outcome variables, ranging from continuous to binary and count data. Simulations show generalized Bayesian kernel machine regression can successfully identify the nonlinear relationships between independent variables and outcomes of various types. In the real data analysis, we applied generalized Bayesian kernel machine regression to uncover cytosine phosphate guanine sites linked to health-related conditions such as asthma and smoking. The results identify crucial cytosine phosphate guanine sites and provide insights into their complex, nonlinear relationships with outcome variables.
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e-pub ahead of print date: 12 December 2024
Keywords:
asthma, cytosine phosphate guanine, Kernel machine regression, smoking, variable selection
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Local EPrints ID: 499176
URI: http://eprints.soton.ac.uk/id/eprint/499176
ISSN: 0962-2802
PURE UUID: f7b98401-28a7-40db-9e32-4ff134564c32
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Date deposited: 11 Mar 2025 17:36
Last modified: 11 Mar 2025 17:36
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Author:
Xichen Mou
Author:
Hongmei Zhang
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