基于copula的贝叶斯分布回归分析出生体重和胎龄的双变量分析

IF 0.8 Q4 MATHEMATICAL & COMPUTATIONAL BIOLOGY

Statistics in Biosciences Pub Date : 2023-10-27 DOI:10.1007/s12561-023-09396-4

Jonathan Rathjens, Arthur Kolbe, Jürgen Hölzer, Katja Ickstadt, Nadja Klein

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引用次数: 0

摘要

我们分析围产期数据，包括生物特征和产科信息以及产妇吸烟等数据。出生体重是最有趣的反应变量。胎龄通常是一个重要的协变量，并以多项式形式包含。然而，与这种单变量回归相反，建议对出生体重和胎龄进行双变量建模，以区分对每个、两个和它们之间的影响。而不是参数双变量分布，我们应用条件联结回归，其中出生体重和胎龄的边际分布(不一定是相同的形式)和依赖结构是有条件地在协变量上建模的。在得到的分布回归模型中，两个边际的所有参数和copula参数都是观测特有的。虽然高斯分布适合于出生体重，但偏胎龄数据更适合用三参数Dagum分布来建模。Clayton copula比Gumbel和对称高斯copula表现得更好，表明尾依赖性较低(当两个变量都较低时依赖性更强)，尽管出生体重和胎龄之间的非线性依赖性令人惊讶地弱，仅受剖宫产的影响。通过对胎龄影响的多项式单变量模型检测出生体重对胎龄的非线性趋势。在我们的联合回归模型和单变量回归模型中，协变量对预期出生体重的影响是相似的，而分布联合回归揭示了进一步的见解，例如协变量对出生体重和胎龄之间关系的影响。

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Bivariate Analysis of Birth Weight and Gestational Age by Bayesian Distributional Regression with Copulas

Abstract We analyze perinatal data including biometric and obstetric information as well as data on maternal smoking, among others. Birth weight is the primarily interesting response variable. Gestational age is usually an important covariate and included in polynomial form. However, in opposition to this univariate regression, bivariate modeling of birth weight and gestational age is recommended to distinguish effects on each, on both, and between them. Rather than a parametric bivariate distribution, we apply conditional copula regression, where the marginal distributions of birth weight and gestational age (not necessarily of the same form) and the dependence structure are modeled conditionally on covariates. In the resulting distributional regression model, all parameters of the two marginals and the copula parameter are observation specific. While the Gaussian distribution is suitable for birth weight, the skewed gestational age data are better modeled by the three-parameter Dagum distribution. The Clayton copula performs better than the Gumbel and the symmetric Gaussian copula, indicating lower tail dependence (stronger dependence when both variables are low), although this non-linear dependence between birth weight and gestational age is surprisingly weak and only influenced by Cesarean section. A non-linear trend of birth weight on gestational age is detected by a univariate model that is polynomial with respect to the effect of gestational age. Covariate effects on the expected birth weight are similar in our copula regression model and a univariate regression model, while distributional copula regression reveals further insights, such as effects of covariates on the association between birth weight and gestational age.

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来源期刊

Statistics in Biosciences MATHEMATICAL & COMPUTATIONAL BIOLOGY-

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： Statistics in Biosciences (SIBS) is published three times a year in print and electronic form. It aims at development and application of statistical methods and their interface with other quantitative methods, such as computational and mathematical methods, in biological and life science, health science, and biopharmaceutical and biotechnological science. SIBS publishes scientific papers and review articles in four sections, with the first two sections as the primary sections. Original Articles publish novel statistical and quantitative methods in biosciences. The Bioscience Case Studies and Practice Articles publish papers that advance statistical practice in biosciences, such as case studies, innovative applications of existing methods that further understanding of subject-matter science, evaluation of existing methods and data sources. Review Articles publish papers that review an area of statistical and quantitative methodology, software, and data sources in biosciences. Commentaries provide perspectives of research topics or policy issues that are of current quantitative interest in biosciences, reactions to an article published in the journal, and scholarly essays. Substantive science is essential in motivating and demonstrating the methodological development and use for an article to be acceptable. Articles published in SIBS share the goal of promoting evidence-based real world practice and policy making through effective and timely interaction and communication of statisticians and quantitative researchers with subject-matter scientists in biosciences.