Response-adaptive randomization in clinical trials: from myths to practical considerations

Robertson, D. S.; Lee, Kim May; Lopez-Kolkovska, Boryana C.; Villar, Sofía S.

doi:10.48550/arxiv.2005.00564

Cited by 5 publications

(7 citation statements)

References 97 publications

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“…A recent article by Robertson et al (2020) provided a comprehensive review of RAR designs from both frequentist and Bayesian perspectives.…”

Section: Response Adaptive Designmentioning

confidence: 99%

“…On the other hand, while adaptive experimental designs-that allow randomization probabilities to be adapted during the trial based on sequentially accrued data-have received much attention in the past decade (Hu & Rosenberger, 2006;Robertson et al, 2020;Rosenberger & Lachin, 2015;Thall & Wathen, 2007;Wathen and Thall, 2017), even without subgroup analysis, the statistical validity of classical treatment effect evaluation approaches can be challenged given that the collected data are no longer independently distributed. The first part of this manuscript reviews some related literature on experiment design strategies and potential bias issues of some commonly adopted estimators from a frequentist viewpoint.…”

Section: Introductionmentioning

confidence: 99%

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Subgroup analysis and adaptive experiments crave for debiasing

Wang

2023

WIREs Computational Stats

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Results obtained from reliably designed randomized experiments are often considered to be evidence of the highest grade for assessing the effectiveness of biomedical or behavioral interventions. Nevertheless, even with randomized experiments, statistical bias can arise in post hoc analysis of the data or through adaptive data collection. In this article, we discuss the need for and review some of the recent developments in statistical methodologies to address the issue of potential bias in adaptive experiments and in subgroup analysis. For adaptive experiments, we focus on adaptive treatment assignments. For subgroup analysis, we focus on post hoc subgroup selection and review several frequentist approaches for debiased inference on the best‐selected subgroup effects.This article is categorized under: Applications of Computational Statistics > Clinical Trials

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“…A recent article by Robertson et al (2020) provided a comprehensive review of RAR designs from both frequentist and Bayesian perspectives.…”

Section: Response Adaptive Designmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Subgroup analysis and adaptive experiments crave for debiasing

Wang

2023

WIREs Computational Stats

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“…Prognostic balance may be sought to avoid accidental bias, but does it also increase the power of the test for a treatment effect? In nonlinear models or generalized linear models commonly used in clinical trials (eg, logistic regression and survival models), balance does not minimize the variance of the estimate of the treatment effect (see section 3.2 in Robertson et al 33 ). In such cases, optimal treatment-allocation procedures have been proposed to maximize statistical efficiency.…”

Section: 14mentioning

confidence: 99%

Minimization in randomized clinical trials

Coart,

Bamps,

Quinaux

et al. 2023

Statistics in Medicine

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In randomized trials, comparability of the treatment groups is ensured through allocation of treatments using a mechanism that involves some random element, thus controlling for confounding of the treatment effect. Completely random allocation ensures comparability between the treatment groups for all known and unknown prognostic factors. For a specific trial, however, imbalances in prognostic factors among the treatment groups may occur. Although accidental bias can be avoided in the presence of such imbalances by stratifying the analysis, most trialists, regulatory agencies, and other stakeholders prefer a balanced distribution of prognostic factors across the treatment groups. Some procedures attempt to achieve balance in baseline covariates, by stratifying the allocation for these covariates, or by dynamically adapting the allocation using covariate information during the trial (covariate‐adaptive procedures). In this Tutorial, the performance of minimization, a popular covariate‐adaptive procedure, is compared with two other commonly used procedures, completely random allocation and stratified blocked designs. Using individual patient data of 2 clinical trials (in advanced ovarian cancer and age‐related macular degeneration), the procedures are compared in terms of operating characteristics (using asymptotic and randomization tests), predictability of treatment allocation, and achieved balance. Fifty actual trials of various sizes that applied minimization for treatment allocation are used to investigate the achieved balance. Implementation issues of minimization are described. Minimization procedures are useful in all trials but especially when (1) many major prognostic factors are known, (2) many centers of different sizes accrue patients, or (3) the trial sample size is moderate.

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“…25 By comparison, real time response-based dose adaptation as deployed in ASTIN was rare at the turn of the century and continues to be rare today. For a full discussion of the pros and cons of response-adaptive randomization the reader is referred to the paper by Robertson et al 26 In our experience, when response-based randomization is used in dose-response studies today, most of the cases pertain to changing dose allocation at fixed points of a trial and the adaptations often involve adding or removing a dose. This makes trial execution more straightforward and lessens the risk of errors.…”

Section: The Integrated Use Of a Longitudinal Modelmentioning

confidence: 99%

The Acute Stroke Therapy by Inhibition of Neutrophils study – Key features and impact

Kirby¹,

Chuang‐Stein²

2022

Pharmaceutical Statistics

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The Acute Stroke Therapy by Inhibition of Neutrophils (ASTIN) study, initiated in November of the year 2000, is now widely recognized as having been a landmark study in the history of clinical trials. We look at why this is the case by considering its key features and impact. These key features are: the use of Bayesian design and analysis; the use of the normal dynamic linear model; the response adaptive nature of the study; the use of real-time dosing decisions; and the use of an integrated model to predict 90-day response on the Scandinavian Stroke Scale. Our overall conclusion is that the ASTIN study's main impact came from showing the clinical trial community the feasibility of the novel design and analysis used when most of these key features were rarely used in industry trials, let alone used together in one trial in a disease area with a tremendous unmet medical need.

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Response-adaptive randomization in clinical trials: from myths to practical considerations

Cited by 5 publications

References 97 publications

Subgroup analysis and adaptive experiments crave for debiasing

Subgroup analysis and adaptive experiments crave for debiasing

Minimization in randomized clinical trials

The Acute Stroke Therapy by Inhibition of Neutrophils study – Key features and impact

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