发育毒性研究中连续和零膨胀计数数据的贝叶斯联合模型

IF 0.5 Q4 STATISTICS & PROBABILITY
B. Hwang
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引用次数: 0

摘要

在许多应用中,我们经常遇到在同一主题上测量的相关的多个结果。与独立建模相比,对这种多个结果进行联合建模可以提高推理效率。例如,在发育毒性研究中,在暴露于不同水平有毒物质的妊娠母鼠身上测量胎儿体重和畸形幼崽的数量,在模型中应考虑这些结果之间的关联。畸形的数量可能有很多个零,应通过零计数模型进行分析。受发育毒性研究应用的启发,我们提出了一个贝叶斯联合建模框架,用于具有过零的连续和计数结果。在我们的模型中,零弹性泊松(ZIP)回归模型将用于描述计数数据,受试者特定的随机效应将解释两种结果之间的相关性。我们使用MCMC程序实现了一种贝叶斯方法,该方法具有数据增强方法和自适应拒绝采样。我们将我们提出的模型应用于发育毒性研究中的剂量反应分析,以估计风险评估中的基准剂量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Bayesian joint model for continuous and zero-inflated count data in developmental toxicity studies
In many applications, we frequently encounter correlated multiple outcomes measured on the same subject. Joint modeling of such multiple outcomes can improve e ffi ciency of inference compared to independent modeling. For instance, in developmental toxicity studies, fetal weight and number of malformed pups are measured on the pregnant dams exposed to di ff erent levels of a toxic substance, in which the association between such outcomes should be taken into account in the model. The number of malformations may possibly have many zeros, which should be analyzed via zero-inflated count models. Motivated by applications in developmental toxicity studies, we propose a Bayesian joint modeling framework for continuous and count outcomes with excess zeros. In our model, zero-inflated Poisson (ZIP) regression model would be used to describe count data, and a subject-specific random e ff ects would account for the correlation across the two outcomes. We implement a Bayesian approach using MCMC procedure with data augmentation method and adaptive rejection sampling. We apply our proposed model to dose-response analysis in a developmental toxicity study to estimate the benchmark dose in a risk assessment.
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
49
期刊介绍: Communications for Statistical Applications and Methods (Commun. Stat. Appl. Methods, CSAM) is an official journal of the Korean Statistical Society and Korean International Statistical Society. It is an international and Open Access journal dedicated to publishing peer-reviewed, high quality and innovative statistical research. CSAM publishes articles on applied and methodological research in the areas of statistics and probability. It features rapid publication and broad coverage of statistical applications and methods. It welcomes papers on novel applications of statistical methodology in the areas including medicine (pharmaceutical, biotechnology, medical device), business, management, economics, ecology, education, computing, engineering, operational research, biology, sociology and earth science, but papers from other areas are also considered.
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