Adaptive Designs in Clinical Trials: Why Use Them, and How to Run and Report Them Philip Pallmann1* , Alun W

Adaptive Designs in Clinical Trials: Why Use Them, and How to Run and Report Them Philip Pallmann1* , Alun W

Pallmann et al. BMC Medicine (2018) 16:29 https://doi.org/10.1186/s12916-018-1017-7 CORRESPONDENCE Open Access Adaptive designs in clinical trials: why use them, and how to run and report them Philip Pallmann1* , Alun W. Bedding2, Babak Choodari-Oskooei3, Munyaradzi Dimairo4,LauraFlight5, Lisa V. Hampson1,6, Jane Holmes7, Adrian P. Mander8, Lang’o Odondi7, Matthew R. Sydes3,SofíaS.Villar8, James M. S. Wason8,9, Christopher J. Weir10, Graham M. Wheeler8,11, Christina Yap12 and Thomas Jaki1 Abstract Adaptive designs can make clinical trials more flexible by utilising results accumulating in the trial to modify the trial’s course in accordance with pre-specified rules. Trials with an adaptive design are often more efficient, informative and ethical than trials with a traditional fixed design since they often make better use of resources such as time and money, and might require fewer participants. Adaptive designs can be applied across all phases of clinical research, from early-phase dose escalation to confirmatory trials. The pace of the uptake of adaptive designs in clinical research, however, has remained well behind that of the statistical literature introducing new methods and highlighting their potential advantages. We speculate that one factor contributing to this is that the full range of adaptations available to trial designs, as well as their goals, advantages and limitations, remains unfamiliar to many parts of the clinical community. Additionally, the term adaptive design has been misleadingly used as an all-encompassing label to refer to certain methods that could be deemed controversial or that have been inadequately implemented. We believe that even if the planning and analysis of a trial is undertaken by an expert statistician, it is essential that the investigators understand the implications of using an adaptive design, for example, what the practical challenges are, what can (and cannot) be inferred from the results of such a trial, and how to report and communicate the results. This tutorial paper provides guidance on key aspects of adaptive designs that are relevant to clinical triallists. We explain the basic rationale behind adaptive designs, clarify ambiguous terminology and summarise the utility and pitfalls of adaptive designs. We discuss practical aspects around funding, ethical approval, treatment supply and communication with stakeholders and trial participants. Our focus, however, is on the interpretation and reporting of results from adaptive design trials, which we consider vital for anyone involved in medical research. We emphasise the general principles of transparency and reproducibility and suggest how best to put them into practice. Keywords: Statistical methods, Adaptive design, Flexible design, Interim analysis, Design modification, Seamless design Why, what and when to adapt in clinical trials This practice is straightforward, but clearly inflexible Traditionally, clinical trials have been run in three as it does not include options for changes that may steps [1]: become desirable or necessary during the course of the trial. Adaptive designs (ADs) provide an alternative. They 1. The trial is designed. have been described as ‘planning to be flexible’ [2], ‘driv- 2. The trial is conducted as prescribed by the design. ing with one’s eyes open’ [3] or ‘taking out insurance’ 3. Once the data are ready, they are analysed according against assumptions [4]. They add a review–adapt loop to a pre-specified analysis plan. to the linear design–conduct–analysis sequence (Fig. 1). Scheduled interim looks at the data are allowed while the *Correspondence: [email protected] trial is ongoing, and pre-specified changes to the trial’s 1Department of Mathematics & Statistics, Lancaster University, Lancaster, LA1 course can be made based on analyses of accumulating 4YF, UK data, whilst maintaining the validity and integrity of the Full list of author information is available at the end of the article trial. Such a priori planned adaptations are fundamentally © The Author(s). 2018 Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. Pallmann et al. BMC Medicine (2018) 16:29 Page 2 of 15 Fig. 1 Schematic of a traditional clinical trial design with fixed sample size, and an adaptive design with pre-specified review(s) and adaptation(s) different from unplanned ad hoc modifications, which p values [15–17] and confidence intervals (CIs) for the are common in traditional trials (e.g. alterations to the treatment comparisons [18, 19]. All these issues will be eligibility criteria). discussed in detail in subsequent sections. Pre-planned changes that an AD may permit include, The flexibility to make mid-course adaptations to a trial butarenotlimitedto[5]: is not a virtue in itself but rather a gateway to more effi- cient trials [20] that should also be more appealing from a • refining the sample size patient’s perspective in comparison to non-ADs because: • abandoning treatments or doses • changing the allocation ratio of patients to trial arms • identifying patients most likely to benefit and Table 1 Overview of adaptive designs with examples of trials focusing recruitment efforts on them that employed these methods • stopping the whole trial at an early stage for success Design Idea Examples or lack of efficacy. Continual Model-based dose escalation to TRAFIC [136], reassessment estimate the maximum tolerated Viola [137], Table 1 lists some well-recognised adaptations and method dose RomiCar [138] examples of their use. Note that multiple adaptations may Group-sequential Include options to stop the trial DEVELOP-UK [139] be used in a single trial, e.g. a group-sequential design early for safety, futility or efficacy may also feature mid-course sample size re-estimation Sample size Adjust sample size to ensure the DEVELOP-UK [139] and/or adaptive randomisation [6], and many multi-arm re-estimation desired power multi-stage (MAMS) designs are inherently seamless [7]. Multi-arm Explore multiple treatments, TAILoR [31], multi-stage doses, durations or combinations STAMPEDE [67, 140], ADs can improve trials across all phases of clinical devel- with options to ‘drop losers’ or COMPARE [141], opment, and seamless designs allow for a more rapid ‘select winners’ early 18-F PET study [142] transition between phases I and II [8, 9]orphasesIIand Population Narrow down recruitment to Rizatriptan study III [10, 11]. enrichment patients more likely to benefit [143, 144] The defining characteristic of all ADs is that results from (most) from the treatment interim data analyses are used to modify the ongoing trial, Biomarker- Incorporate information from or FOCUS4 [145], adaptive adapt on biomarkers DILfrequency [146]; without undermining its integrity or validity [12]. Preserv- examples in [147, 148] ing the integrity and validity is crucial. In an AD, data are Adaptive Shift allocation ratio towards DexFEM [149]; repeatedly examined. Thus, we need to make sure they randomisation more promising or informative case studies in are collected, analysed and stored correctly and in accor- treatment(s) [150, 151] dance with good clinical practice at every stage. Integrity Adaptive Shift allocation ratio towards DILfrequency [146] means ensuring that trial data and processes have not dose-ranging more promising or informative been compromised, e.g. minimising information leakage dose(s) at the interim analyses [13]. Validity implies there is an Seamless phase Combine safety and activity MK-0572 [152], assurance that the trial answers the original research ques- I/II assessment into one trial Matchpoint [153, 154] tions appropriately, e.g. by using methods that provide Seamless phase Combine selection and Case studies in [133] II/III confirmatory stages into one trial accurate estimates of treatment effects [14]andcorrect Pallmann et al. BMC Medicine (2018) 16:29 Page 3 of 15 • Recruitment to futile treatment arms may stop early. twice daily placebo or 750 mg or 1000 mg of ranolazine • Fewer patients may be randomised to a less given over 12 weeks, in combination with standard doses promising treatment or dose. of either atenolol, amlodipine or diltiazem at the discre- • On average, fewer patients may be required overall to tion of the treating physician. The primary endpoint was ensure the same high chance of getting the right treadmill exercise duration at trough, i.e. 12 hours after answer. dosing. The sample size necessary to achieve 90% power • An underpowered trial, which would mean a waste of was calculated as 462, and expanded to 577 to account for resources, may be prevented. potential dropouts. • A better understanding of the dose–response or After 231 patients had been randomised and followed dose–toxicity relationship may be achieved, thus, up for 12 weeks, the investigators undertook a planned facilitating the identification of a safe and effective blinded sample size re-estimation. This was done to main- dose to use clinically. tain the trial power at 90% even if assumptions underlying • The patient population most likely to benefit from a the initial sample size calculation were wrong. The stan- treatment may be identified. dard deviation of the primary endpoint turned out to be • Treatment effects may be estimated with greater considerably higher than planned for, so the recruitment precision, which reduces uncertainty about what the target was increased by 40% to 810. The adaptation pre- better treatment is. vented an underpowered trial, and as it was conducted • A definitive conclusion may be reached earlier so that in a blinded fashion, it did not increase the type I error novel effective medicines can be accessed sooner by rate.

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