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3
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基于适应证抽样的药物流行病学研究中未观察到混杂的偏差放大。

Bias amplification of unobserved confounding in pharmacoepidemiological studies using indication-based sampling.

机构信息

Department of Global Public Health, Karolinska Institutet, Stockholm, Sweden.

Centre for Academic Mental Health, Population Health Sciences, Bristol Medical School, University of Bristol, Bristol, UK.

出版信息

Pharmacoepidemiol Drug Saf. 2023 Aug;32(8):886-897. doi: 10.1002/pds.5614. Epub 2023 Apr 5.

DOI:10.1002/pds.5614
PMID:36919941
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11168799/
Abstract

PURPOSE

Estimating causal effects in observational pharmacoepidemiology is a challenging task, as it is often plagued by confounding by indication. Restricting the sample to those with an indication for drug use is a commonly performed procedure; indication-based sampling ensures that the exposed and unexposed are exchangeable on the indication-limiting the potential for confounding by indication. However, indication-based sampling has received little scrutiny, despite the hazards of exposure-related covariate control.

METHODS

Using simulations of varying levels of confounding and applied examples we describe bias amplification under indication-based sampling.

RESULTS

We demonstrate that indication-based sampling in the presence of unobserved confounding can give rise to bias amplification, a self-inflicted phenomenon where one inflates pre-existing bias through inappropriate covariate control. Additionally, we show that indication-based sampling generally leads to a greater net bias than alternative approaches, such as regression adjustment. Finally, we expand on how bias amplification should be reasoned about when distinct clinically relevant effects on the outcome among those with an indication exist (effect-heterogeneity).

CONCLUSION

We conclude that studies using indication-based sampling should have robust justification - and that it should by no means be considered unbiased to adopt such approaches. As such, we suggest that future observational studies stay wary of bias amplification when considering drug indications.

摘要

目的

在观察性药物流行病学中估计因果效应是一项具有挑战性的任务,因为它常常受到指示性混杂的困扰。将样本限制在有药物使用指征的人群中是一种常见的做法;基于指征的抽样确保了暴露组和非暴露组在指征限制上可交换,从而减少了指示性混杂的可能性。然而,尽管存在与暴露相关的协变量控制的危险,但基于指征的抽样并没有受到太多关注。

方法

我们使用不同程度混杂的模拟和应用实例来描述基于指征的抽样下的偏差放大。

结果

我们证明了在存在未观察到的混杂的情况下,基于指征的抽样可能会导致偏差放大,这是一种自我造成的现象,即通过不适当的协变量控制来夸大预先存在的偏差。此外,我们还表明,基于指征的抽样通常会导致比替代方法(如回归调整)更大的净偏差。最后,我们扩展了在存在与指征相关的对结局的不同临床相关影响(效应异质性)时,应该如何推理偏差放大的问题。

结论

我们的结论是,使用基于指征的抽样的研究应该有强有力的理由——采用这种方法绝不应被视为无偏的。因此,我们建议未来的观察性研究在考虑药物指征时要警惕偏差放大。