一项用于评估疗效和毒性且具有延迟结果的贝叶斯适应性I-II期临床试验。
A Bayesian adaptive Phase I-II clinical trial for evaluating efficacy and toxicity with delayed outcomes.
作者信息
Koopmeiners Joseph S, Modiano Jaime
机构信息
aDivision of Biostatistics, University of Minnesota, Minneapolis, MN, USA.
出版信息
Clin Trials. 2014 Feb;11(1):38-48. doi: 10.1177/1740774513500589. Epub 2013 Sep 30.
BACKGROUND
In traditional Phase-I oncology trials, the safety of a new chemotherapeutic agent is tested in a dose escalation study to identify the maximum tolerated dose, which is defined as the highest dose with acceptable toxicity. An alternate approach is to jointly model toxicity and efficacy and allow dose finding to be directed by a prespecified trade-off between efficacy and toxicity. With this goal in mind, several designs have been proposed to jointly model toxicity and efficacy in a Phase I-II dose escalation study. A factor limiting the use of these designs is that toxicity and efficacy must be observed in a timely manner.
PURPOSE
One approach to overcoming this problem is to model toxicity and efficacy as time-to-event outcomes. This would allow new subjects to be enrolled before full information is available for previous subjects while incorporating partial information when adaptively assigning new subjects to a dose level.
METHODS
We propose a Phase I-II dose escalation study for evaluating toxicity and efficacy with delayed outcomes by jointly modeling toxicity and efficacy as time-to-event outcomes. We apply our proposed design to a Phase I-II clinical trial of a novel targeted toxin for canine hemangiosarcoma.
RESULTS
Our simulation results show that our design identifies the optimal dose at a similar rate to dose finding that treats toxicity and efficacy as binary outcomes, but with substantial savings in study duration.
LIMITATIONS
Our proposed design has acceptable operating characteristics and dramatically reduces the trial duration compared to a design that considers toxicity and efficacy as binary outcomes, but comes at the cost of enrolling additional subjects when all dose levels are unacceptable.
CONCLUSIONS
We developed a novel Phase I-II design that accounts for delayed outcomes by modeling toxicity and efficacy as time-to-event outcomes. Our design has similar operating characteristics to efficacy/toxicity trade-off designs that consider efficacy and toxicity as binary outcomes, but with a dramatically shorter study duration.
背景
在传统的I期肿瘤学试验中,新化疗药物的安全性在剂量递增研究中进行测试,以确定最大耐受剂量,其定义为具有可接受毒性的最高剂量。另一种方法是联合建模毒性和疗效,并允许根据预先设定的疗效与毒性之间的权衡来指导剂量探索。出于这个目标,已经提出了几种设计,用于在I-II期剂量递增研究中联合建模毒性和疗效。限制这些设计使用的一个因素是必须及时观察到毒性和疗效。
目的
克服这个问题的一种方法是将毒性和疗效建模为事件发生时间结局。这将允许在先前受试者的完整信息可用之前招募新受试者,同时在将新受试者自适应分配到剂量水平时纳入部分信息。
方法
我们提出了一项I-II期剂量递增研究,通过将毒性和疗效联合建模为事件发生时间结局来评估具有延迟结局的毒性和疗效。我们将我们提出的设计应用于一种新型靶向毒素治疗犬血管肉瘤的I-II期临床试验。
结果
我们的模拟结果表明,我们的设计以与将毒性和疗效视为二元结局的剂量探索相似的速率确定最佳剂量,但在研究持续时间上有大幅节省。
局限性
我们提出的设计具有可接受的操作特征,与将毒性和疗效视为二元结局的设计相比,显著缩短了试验持续时间,但代价是当所有剂量水平都不可接受时需要招募额外的受试者。
结论
我们开发了一种新型的I-II期设计,通过将毒性和疗效建模为事件发生时间结局来考虑延迟结局。我们的设计与将疗效和毒性视为二元结局的疗效/毒性权衡设计具有相似的操作特征,但研究持续时间显著缩短。
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