W W Hauck1, A Parekh, L J Lesko, M L Chen, R L Williams. 1. Biostatistics Section, Division of Clinical Pharmacology, Thomas Jefferson University, Philadelphia, PA 19107, USA. whauck@lac.jci.tju.edu
Abstract
OBJECTIVE: The US Food and Drug Administration (FDA) currently uses bioequivalence (BE) limits for fasting BE studies that are based on the 90% confidence interval for the ratio of difference of the test and reference products Cmax and AUC falling within 80% to 125%. The FDA has also proposed that BE limits be used similarly for AUC and Cmax measurements from fed BE studies. In some cases, regulatory agencies have considered a wider BE limit for Cmax, because of the typically higher variability of Cmax compared to AUC. We investigated the consequences of changing from an 80%/ 125% limit for both pharmacokinetic measures to one that uses a limit of 80%/125% for AUC and 70%/143% for Cmax. METHODS: We computed the sample sizes required for BE studies using 80%/125% for AUC and 70%/143% for Cmax as BE limits. We also determined the range of the ratios of Cmax and AUC values in a study that could meet the 70%/143% and 80%/125% BE limits. RESULTS: The sample size for the study, in order to have adequate power with 80%/125% for AUC and 70%/143% for Cmax, will be determined primarily by the intrasubject variability of AUC, though with a substantial proportion of studies (about one third) still determined by the variability of Cmax. The ratio of mean Cmax values that can pass a wider 70%/143% BE limit could easily be as high as 128%. CONCLUSION: Without further scientific or clinical rationale, we find it difficult to justify widening the bioequivalence limit for Cmax to 70%/143% for either fasting or fed BE studies.
OBJECTIVE: The US Food and Drug Administration (FDA) currently uses bioequivalence (BE) limits for fasting BE studies that are based on the 90% confidence interval for the ratio of difference of the test and reference products Cmax and AUC falling within 80% to 125%. The FDA has also proposed that BE limits be used similarly for AUC and Cmax measurements from fed BE studies. In some cases, regulatory agencies have considered a wider BE limit for Cmax, because of the typically higher variability of Cmax compared to AUC. We investigated the consequences of changing from an 80%/ 125% limit for both pharmacokinetic measures to one that uses a limit of 80%/125% for AUC and 70%/143% for Cmax. METHODS: We computed the sample sizes required for BE studies using 80%/125% for AUC and 70%/143% for Cmax as BE limits. We also determined the range of the ratios of Cmax and AUC values in a study that could meet the 70%/143% and 80%/125% BE limits. RESULTS: The sample size for the study, in order to have adequate power with 80%/125% for AUC and 70%/143% for Cmax, will be determined primarily by the intrasubject variability of AUC, though with a substantial proportion of studies (about one third) still determined by the variability of Cmax. The ratio of mean Cmax values that can pass a wider 70%/143% BE limit could easily be as high as 128%. CONCLUSION: Without further scientific or clinical rationale, we find it difficult to justify widening the bioequivalence limit for Cmax to 70%/143% for either fasting or fed BE studies.
Authors: Sam H Haidar; Fairouz Makhlouf; Donald J Schuirmann; Terry Hyslop; Barbara Davit; Dale Conner; Lawrence X Yu Journal: AAPS J Date: 2008-08-26 Impact factor: 4.009
Authors: D Jovanović; V Kilibarda; S Dordević; M Jovanović; J Jovic-Stosić; D Srdić; T Knezević Journal: Eur J Drug Metab Pharmacokinet Date: 2006 Jan-Mar Impact factor: 2.441