优化针对多药耐药菌的抗菌药物临床试验的设计和分析:COMBACTE 的 STAT-Net 的白皮书。
Optimizing the Design and Analysis of Clinical Trials for Antibacterials Against Multidrug-resistant Organisms: A White Paper From COMBACTE's STAT-Net.
机构信息
Infection Control Program, Geneva University Hospitals and Faculty of Medicine, Switzerland.
Institute for Medical Biometry and Statistics, Faculty of Medicine and Medical Center, University of Freiburg, Germany.
出版信息
Clin Infect Dis. 2018 Nov 28;67(12):1922-1931. doi: 10.1093/cid/ciy516.
Abstract
Innovations are urgently required for clinical development of antibacterials against multidrug-resistant organisms. Therefore, a European, public-private working group (STAT-Net; part of Combatting Bacterial Resistance in Europe [COMBACTE]), has reviewed and tested several innovative trials designs and analytical methods for randomized clinical trials, which has resulted in 8 recommendations. The first 3 focus on pharmacokinetic and pharmacodynamic modeling, emphasizing the pertinence of population-based pharmacokinetic models, regulatory procedures for the reassessment of old antibiotics, and rigorous quality improvement. Recommendations 4 and 5 address the need for more sensitive primary end points through the use of rank-based or time-dependent composite end points. Recommendation 6 relates to the applicability of hierarchical nested-trial designs, and the last 2 recommendations propose the incorporation of historical or concomitant trial data through Bayesian methods and/or platform trials. Although not all of these recommendations are directly applicable, they provide a solid, evidence-based approach to develop new, and established, antibacterials and address this public health challenge.
摘要
针对多药耐药菌,临床开发抗菌药物急需创新。因此,一个由欧洲公私合营的工作组(STAT-Net;COMBACTE 的一部分),已审查并测试了几种创新的临床试验设计和分析方法,从而提出了 8 项建议。前 3 项侧重于药代动力学和药效动力学建模,强调基于群体的药代动力学模型的相关性、重新评估旧抗生素的监管程序,以及严格的质量改进。建议 4 和 5 涉及通过使用基于等级或时间依赖性复合终点,需要更敏感的主要终点。建议 6 与分层嵌套试验设计的适用性有关,最后 2 条建议通过贝叶斯方法和/或平台试验纳入历史或同期试验数据。虽然并非所有这些建议都直接适用,但它们为开发新的和现有的抗菌药物提供了一种坚实的、基于证据的方法,并应对这一公共卫生挑战。
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