Randomization-Based Test for Censored Outcomes: A New Look at the Logrank Test

IF 3.9 1区数学 Q1 STATISTICS & PROBABILITY

Statistical Science Pub Date : 2021-07-06 DOI:10.1214/22-sts851

Xinran Li, Dylan S. Small

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引用次数: 1

Abstract

Two-sample tests with censored outcomes are a classical topic in statistics with wide use even in cutting edge applications. There are at least two modes of inference used to justify two-sample tests. One is usual superpopulation inference assuming that units are independent and identically distributed (i.i.d.) samples from some superpopulation; the other is finite population inference that relies on the random assignments of units into different groups. When randomization is actually implemented, the latter has the advantage of avoiding distributional assumptions on the outcomes. In this paper, we focus on finite population inference for censored outcomes, which has been less explored in the literature. Moreover, we allow the censoring time to depend on treatment assignment, under which exact permutation inference is unachievable. We find that, surprisingly, the usual logrank test can also be justified by randomization. Specifically, under a Bernoulli randomized experiment with non-informative i.i.d. censoring, the logrank test is asymptotically valid for testing Fisher’s null hypothesis of no treatment effect on any unit. The asymptotic validity of the logrank test does not require any distributional assumption on the potential event times. We further extend the theory to the stratified logrank test, which is useful for randomized block designs and when censoring mechanisms vary across strata. In sum, the developed theory for the logrank test from finite population inference supplements its classical theory from usual superpopulation inference, and helps provide a broader justification for the logrank test.

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基于随机化的检查结果检验：Logrank检验的新视角

具有截尾结果的两个样本测试是统计学中的一个经典话题，即使在前沿应用中也有广泛的应用。至少有两种推理模式用于证明两个样本测试的合理性。一种是通常的超种群推断，假设单元是来自某个超种群的独立且相同分布（i.i.d.）的样本；另一种是有限总体推理，它依赖于将单元随机分配到不同的组中。当实际实施随机化时，后者的优点是避免了对结果的分布假设。在本文中，我们关注的是审查结果的有限总体推断，这在文献中很少被探索。此外，我们允许审查时间取决于处理分配，在这种情况下，无法实现精确的排列推理。我们发现，令人惊讶的是，通常的logrank检验也可以通过随机化来证明。具体来说，在具有非信息性i.i.d.截尾的伯努利随机实验下，logrank检验对于检验Fisher对任何单位都没有治疗效果的零假设是渐近有效的。logrank检验的渐近有效性不需要对潜在事件时间进行任何分布假设。我们进一步将该理论扩展到分层logrank检验，这对于随机块设计以及当审查机制在不同层之间变化时是有用的。总之，有限总体推理的logrank检验的发展理论补充了通常超总体推理的经典理论，并有助于为logrank测试提供更广泛的理由。

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 Science 数学-统计学与概率论

CiteScore

6.50

自引率

1.80%

发文量

审稿时长

>12 weeks

期刊介绍： The central purpose of Statistical Science is to convey the richness, breadth and unity of the field by presenting the full range of contemporary statistical thought at a moderate technical level, accessible to the wide community of practitioners, researchers and students of statistics and probability.