Rima Izem, Emmanuel Zuber, Nadia Daizadeh, Frank Bretz, Oleksandr Sverdlov, Pascal Edrich, Janice Branson, Evgeny Degtyarev, Nikolaos Sfikas, Robert Hemmings
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引用次数: 0
摘要
尽管业界和监管机构对分散临床试验(DCT)的兴趣由来已久,但 Covid-19 大流行加速并扩大了这些试验的应用和经验。分散临床试验的关键理念是使临床试验设计(通常是现场设计)更贴近患者的体验(现场或非现场)。因此,分散临床试验的潜在益处包括减轻参与试验的负担、扩大更多不同人群的参与范围或使用场外收集的创新终点。本文将帮助研究人员仔细评估 DCT 的附加值及其实施操作之外的影响。建议采用的方法是使用 ICH E9(R1) 估计指标框架来指导围绕每个权力下放组成部分的战略决策。此外,该框架还能指导临床试验人员依次系统地考虑权力下放对估算指标每个属性的影响。我们通过一个完全 DCT 的案例研究来说明这种方法的使用,并表明所建议的系统流程可以发现与试验设计中可能使用的分散化组件相关的科学机遇、假设和潜在风险。这一过程还能突出以细粒度的方式指定估计值属性的好处。因此,我们证明,在设计中引入分散成分不仅会影响估算者和估算,还能解决更细化的问题,从而发现新的目标估算值。
Decentralized Clinical Trials: Scientific Considerations Through the Lens of the Estimand Framework.
While industry and regulators' interest in decentralized clinical trials (DCTs) is long-standing, the Covid-19 pandemic accelerated and broadened the adoption and experience with these trials. The key idea in decentralization is bringing the clinical trial design, typically on-site, closer to the patient's experience (on-site or off-site). Thus, potential benefits of DCTs include reducing the burden of participation in trials, broadening access to a more diverse population, or using innovative endpoints collected off-site. This paper helps researchers to carefully evaluate the added value and the implications of DCTs beyond the operational aspects of their implementation. The proposed approach is to use the ICH E9(R1) estimand framework to guide the strategic decisions around each decentralization component. Furthermore, the framework can guide the process for clinical trialists to systematically consider the implications of decentralization, in turn, for each attribute of the estimand. We illustrate the use of this approach with a fully DCT case study and show that the proposed systematic process can uncover the scientific opportunities, assumptions, and potential risks associated with a possible use of decentralization components in the design of a trial. This process can also highlight the benefits of specifying estimand attributes in a granular way. Thus, we demonstrate that bringing a decentralization component into the design will not only impact estimators and estimation but can also correspond to addressing more granular questions, thereby uncovering new target estimands.
期刊介绍:
Therapeutic Innovation & Regulatory Science (TIRS) is the official scientific journal of DIA that strives to advance medical product discovery, development, regulation, and use through the publication of peer-reviewed original and review articles, commentaries, and letters to the editor across the spectrum of converting biomedical science into practical solutions to advance human health.
The focus areas of the journal are as follows:
Biostatistics
Clinical Trials
Product Development and Innovation
Global Perspectives
Policy
Regulatory Science
Product Safety
Special Populations