Massimiliano Russo, Francesco Mariani, James M Cleary, Geoffrey I Shapiro, Gregory M Coté, Lorenzo Trippa
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引用次数: 0
摘要
目的:我们介绍了一种新的算法方法,用于设计肿瘤药物组合的 I 期试验:我们提出的毒性自适应列表设计(TALE)简单易行,只需预先设定少量参数,这些参数定义了剂量升级、降级或重新评估先前探索过的剂量水平的规则。这些规则可有效调节剂量探索并控制毒性反应的数量。TALE 的一个主要特点是可以同时分配先前积累的数据认为安全的多种剂量组合:一项数值研究表明,在确定最大耐受剂量(MTD)方面,TALE 与贝叶斯最优间隔设计、COPULA、独立贝塔概率升级乘积、部分排序设计的持续再评估法等替代方法具有相似的操作特性,同时降低了患者用药过量的风险:结论:建议的 TALE 设计在维护患者安全和准确确定 MTD 之间取得了良好的平衡。为了方便使用 TALE,我们提供了一个用户友好的 R Shiny 应用程序和一个 R 软件包,用于计算相关的运行特征,如分配高毒性剂量组合的风险。
Toxicity Adaptive Lists Design: A Practical Design for Phase I Drug Combination Trials in Oncology.
Purpose: We introduce a novel algorithmic approach to design phase I trials for oncology drug combinations.
Methods: Our proposed Toxicity Adaptive Lists Design (TALE) is straightforward to implement, requiring the prespecification of a small number of parameters that define rules governing dose escalation, de-escalation, or reassessment of previously explored dose levels. These rules effectively regulate dose exploration and control the number of toxicities. A key feature of TALE is the possibility of simultaneous assignment of multiple-dose combinations that are deemed safe by previously accrued data.
Results: A numerical study shows that TALE shares comparable operative characteristics, in terms of identification of the maximum tolerated dose (MTD), to alternative approaches such as the Bayesian optimal interval design, the COPULA, the product of independent beta probabilities escalation, and the continual reassessment method for partial ordering designs while reducing the risk of overdosing patients.
Conclusion: The proposed TALE design provides a favorable balance between maintaining patient safety and accurately identifying the MTD. To facilitate the use of TALE, we provide a user-friendly R Shiny application and an R package for computing relevant operating characteristics, such as the risk of assigning highly toxic dose combinations.
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