Multi-parameter regression survival modelling with random effects

IF 1.2 4区数学 Q2 STATISTICS & PROBABILITY

Statistical Modelling Pub Date : 2021-11-16 DOI:10.1177/1471082x221117377

Fatima-Zahra Jaouimaa, I. Ha, Kevin Burke

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引用次数: 0

Abstract

We consider a parametric modelling approach for survival data where covariates are allowed to enter the model through multiple distributional parameters (i.e., scale and shape). This is in contrast with the standard convention of having a single covariate-dependent parameter, typically the scale. Taking what is referred to as a multi-parameter regression (MPR) approach to modelling has been shown to produce flexible and robust models with relatively low model complexity cost. However, it is very common to have clustered data arising from survival analysis studies, and this is something that is under developed in the MPR context. The purpose of this article is to extend MPR models to handle multivariate survival data by introducing random effects in both the scale and the shape regression components. We consider a variety of possible dependence structures for these random effects (independent, shared and correlated), and estimation proceeds using a h-likelihood approach. The performance of our estimation procedure is investigated by a way of an extensive simulation study, and the merits of our modelling approach are illustrated through applications to two real data examples, a lung cancer dataset and a bladder cancer dataset.

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具有随机效应的多参数回归生存模型

我们考虑了生存数据的参数化建模方法，其中允许协变量通过多个分布参数(即规模和形状)进入模型。这与具有单个协变量相关参数(通常是标度)的标准惯例相反。采用所谓的多参数回归(MPR)方法进行建模已被证明可以产生灵活且鲁棒的模型，且模型复杂性成本相对较低。然而，从生存分析研究中获得聚类数据是很常见的，这是在MPR背景下尚未开发的东西。本文的目的是通过在规模和形状回归成分中引入随机效应，扩展MPR模型来处理多变量生存数据。我们考虑了这些随机效应的各种可能的依赖结构(独立、共享和相关)，并使用h-似然方法进行估计。通过广泛的模拟研究来研究我们的估计过程的性能，并通过两个实际数据实例(肺癌数据集和膀胱癌数据集)的应用来说明我们的建模方法的优点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Statistical Modelling 数学-统计学与概率论

CiteScore

2.20

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The primary aim of the journal is to publish original and high-quality articles that recognize statistical modelling as the general framework for the application of statistical ideas. Submissions must reflect important developments, extensions, and applications in statistical modelling. The journal also encourages submissions that describe scientifically interesting, complex or novel statistical modelling aspects from a wide diversity of disciplines, and submissions that embrace the diversity of applied statistical modelling.