Weber Benjamin, Lee Sau L, Delvadia Renishkumar, Lionberger Robert, Li Bing V, Tsong Yi, Hochhaus Guenther
Department of Pharmaceutics, College of Pharmacy, Center of Pharmacometrics and Systems Pharmacology, University of Florida, Gainesville, FL, USA.
AAPS J. 2015 Mar;17(2):370-9. doi: 10.1208/s12248-014-9698-0. Epub 2014 Dec 17.
Equivalence testing of aerodynamic particle size distribution (APSD) through multi-stage cascade impactors (CIs) is important for establishing bioequivalence of orally inhaled drug products. Recent work demonstrated that the median of the modified chi-square ratio statistic (MmCSRS) is a promising metric for APSD equivalence testing of test (T) and reference (R) products as it can be applied to a reduced number of CI sites that are more relevant for lung deposition. This metric is also less sensitive to the increased variability often observed for low-deposition sites. A method to establish critical values for the MmCSRS is described here. This method considers the variability of the R product by employing a reference variance scaling approach that allows definition of critical values as a function of the observed variability of the R product. A stepwise CI equivalence test is proposed that integrates the MmCSRS as a method for comparing the relative shapes of CI profiles and incorporates statistical tests for assessing equivalence of single actuation content and impactor sized mass. This stepwise CI equivalence test was applied to 55 published CI profile scenarios, which were classified as equivalent or inequivalent by members of the Product Quality Research Institute working group (PQRI WG). The results of the stepwise CI equivalence test using a 25% difference in MmCSRS as an acceptance criterion provided the best matching with those of the PQRI WG as decisions of both methods agreed in 75% of the 55 CI profile scenarios.
通过多级撞击器(CI)进行空气动力学粒度分布(APSD)的等效性测试对于确定口服吸入药物产品的生物等效性很重要。最近的研究表明,修正卡方比统计量的中位数(MmCSRS)是测试(T)和参比(R)产品APSD等效性测试的一个有前景的指标,因为它可以应用于与肺部沉积更相关的较少数量的CI位点。该指标对低沉积位点通常观察到的变异性增加也不太敏感。本文描述了一种确定MmCSRS临界值的方法。该方法通过采用参比方差缩放方法来考虑R产品的变异性,该方法允许将临界值定义为R产品观察到的变异性的函数。提出了一种逐步CI等效性测试,该测试将MmCSRS作为比较CI曲线相对形状的方法,并纳入了用于评估单次驱动含量和撞击器粒度质量等效性的统计测试。该逐步CI等效性测试应用于55个已发表的CI曲线场景,产品质量研究协会工作组(PQRI WG)的成员将其分类为等效或不等效。使用MmCSRS 25%的差异作为接受标准的逐步CI等效性测试结果与PQRI WG的结果匹配度最佳,因为在55个CI曲线场景中的75%中,两种方法的决策一致。