罕见疾病结果的时空准实验方法：重新配方汽油对儿童血液病癌症的影响。

IF 1.6 3区数学 Q2 SOCIAL SCIENCES, MATHEMATICAL METHODS

Journal of the Royal Statistical Society Series A-Statistics in Society Pub Date : 2024-11-18 eCollection Date: 2025-10-01 DOI:10.1093/jrsssa/qnae109

Sofia L Vega, Rachel C Nethery

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引用次数: 0

摘要

虽然人们知道汽车尾气中排放的一些污染物，如苯，会导致高暴露水平的成年人患上白血病，但人们对交通相关空气污染（TRAP）与儿童血液病癌症之间的关系知之甚少。在20世纪90年代，美国环保署在美国的一些地区颁布了重新配方的汽油计划，这大大减少了受影响地区的环境陷阱。这创造了一个理想的准实验来研究TRAP对儿童血液病癌症的影响。然而，现有的准实验分析方法在结果罕见且不稳定的情况下表现不佳，例如儿童癌症发病率。我们开发贝叶斯时空矩阵补全方法，在具有罕见结果的准实验设置中进行因果推理。跨空间和时间的选择性信息共享实现了稳定估计，贝叶斯方法促进了不确定性量化。我们通过模拟来评估这些方法，并应用它们来估计TRAP对儿童白血病和淋巴瘤的因果效应。

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Spatio-temporal quasi-experimental methods for rare disease outcomes: the impact of reformulated gasoline on childhood haematologic cancer.

Although some pollutants emitted in vehicle exhaust, such as benzene, are known to cause leukaemia in adults with high exposure levels, less is known about the relationship between traffic-related air pollution (TRAP) and childhood haematologic cancer. In the 1990s, the US EPA enacted the reformulated gasoline program in select areas of the U.S., which drastically reduced ambient TRAP in affected areas. This created an ideal quasi-experiment to study the effects of TRAP on childhood haematologic cancers. However, existing methods for quasi-experimental analyses can perform poorly when outcomes are rare and unstable, as with childhood cancer incidence. We develop Bayesian spatio-temporal matrix completion methods to conduct causal inference in quasi-experimental settings with rare outcomes. Selective information sharing across space and time enables stable estimation, and the Bayesian approach facilitates uncertainty quantification. We evaluate the methods through simulations and apply them to estimate the causal effects of TRAP on childhood leukaemia and lymphoma.

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来源期刊

Journal of the Royal Statistical Society Series A-Statistics in Society 数学-统计学与概率论

CiteScore

2.90

自引率

5.00%

发文量

136

审稿时长

>12 weeks

期刊介绍： Series A (Statistics in Society) publishes high quality papers that demonstrate how statistical thinking, design and analyses play a vital role in all walks of life and benefit society in general. There is no restriction on subject-matter: any interesting, topical and revelatory applications of statistics are welcome. For example, important applications of statistical and related data science methodology in medicine, business and commerce, industry, economics and finance, education and teaching, physical and biomedical sciences, the environment, the law, government and politics, demography, psychology, sociology and sport all fall within the journal''s remit. The journal is therefore aimed at a wide statistical audience and at professional statisticians in particular. Its emphasis is on well-written and clearly reasoned quantitative approaches to problems in the real world rather than the exposition of technical detail. Thus, although the methodological basis of papers must be sound and adequately explained, methodology per se should not be the main focus of a Series A paper. Of particular interest are papers on topical or contentious statistical issues, papers which give reviews or exposés of current statistical concerns and papers which demonstrate how appropriate statistical thinking has contributed to our understanding of important substantive questions. Historical, professional and biographical contributions are also welcome, as are discussions of methods of data collection and of ethical issues, provided that all such papers have substantial statistical relevance.