Using biomarkers to allocate patients in a response-adaptive clinical trial.

IF 2.6 2区 物理与天体物理 Q2 OPTICS
Physical Review a Pub Date : 2023-12-02 Epub Date: 2021-11-25 DOI:10.1080/03610918.2021.2004420
H Jackson, S Bowen, T Jaki
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引用次数: 0

Abstract

In this paper, we discuss a response adaptive randomization method, and why it should be used in clinical trials for rare diseases compared to a randomized controlled trial with equal fixed randomization. The developed method uses a patient's biomarkers to alter the allocation probability to each treatment, in order to emphasize the benefit to the trial population. The method starts with an initial burn-in period of a small number of patients, who with equal probability, are allocated to each treatment. We then use a regression method to predict the best outcome of the next patient, using their biomarkers and the information from the previous patients. This estimated best treatment is assigned to the next patient with high probability. A completed clinical trial for the effect of catumaxomab on the survival of cancer patients is used as an example to demonstrate the use of the method and the differences to a controlled trial with equal allocation. Different regression procedures are investigated and compared to a randomized controlled trial, using efficacy and ethical measures.

使用生物标志物在反应适应性临床试验中分配患者。
在本文中,我们讨论了一种响应自适应随机化方法,以及为什么它应该用于罕见病的临床试验,而不是具有相同固定随机化的随机对照试验。开发的方法使用患者的生物标志物来改变每种治疗的分配概率,以强调对试验人群的益处。该方法从初始烧伤期开始,将少数患者以等概率分配给每种治疗。然后,我们使用回归方法来预测下一位患者的最佳结果,使用他们的生物标志物和以前患者的信息。这种估计的最佳治疗方法被高概率地分配给下一个患者。以一项已完成的关于catumaxomab对癌症患者生存影响的临床试验为例,说明该方法的使用以及与等分配对照试验的差异。不同的回归程序进行了调查,并比较了随机对照试验,使用疗效和伦理措施。
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
Physical Review a
Physical Review a OPTICSPHYSICS, ATOMIC, MOLECULAR & CHEMICA-PHYSICS, ATOMIC, MOLECULAR & CHEMICAL
CiteScore
5.30
自引率
24.10%
发文量
2086
期刊介绍: Physical Review A (PRA) publishes important developments in the rapidly evolving areas of atomic, molecular, and optical (AMO) physics, quantum information, and related fundamental concepts. PRA covers atomic, molecular, and optical physics, foundations of quantum mechanics, and quantum information, including: -Fundamental concepts -Quantum information -Atomic and molecular structure and dynamics; high-precision measurement -Atomic and molecular collisions and interactions -Atomic and molecular processes in external fields, including interactions with strong fields and short pulses -Matter waves and collective properties of cold atoms and molecules -Quantum optics, physics of lasers, nonlinear optics, and classical optics
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