Pharmacokinetics and Bioequivalence of Apremilast Tablets in Chinese Healthy Subjects Under Fasting and Postprandial States.

Objective: This study compared the pharmacokinetics, safety and bioequivalence (BE) of generic and original apremilast tablets in healthy Chinese subjects under fasting and postprandial conditions, providing sufficient evidence for abbreviated new drug application. Methods: A randomized, open-label, two-formulation, single-dose, two-period crossover pharmacokinetic study was performed. Thirty-two eligible healthy Chinese subjects were enrolled in fasting and postprandial studies, respectively. In each trial, subjects received a single 30-mg dose of the test or reference apremilast tablet, followed by a 7-day washout interval between periods. Serial blood samples were obtained for up to 48 h post-intake in each period, and the plasma concentrations of apremilast were determined by a validated method. The primary pharmacokinetic (PK) parameters, including the maximum plasma concentration (Cmax), the areas under the plasma concentration-time curve (AUC0-t, AUC0-∞), were calculated using the non-compartmental method. The geometric mean ratios of the two formulations and the corresponding 90% confidence intervals (CIs) were acquired for bioequivalence analysis. The safety of both formulations was also evaluated. Results: Under fasting and postprandial states, the PK parameters of the test drug were similar to those of the reference drug. The 90% CIs of the geometric mean ratios of the test to reference formulations were 94.09-103.44% for Cmax, 94.05-103.51% for AUC0-t, and 94.56-103.86% for AUC0-∞ under fasting conditions, and 99.18-112.48% for Cmax, 98.79-106.02% for AUC0-t, and 98.95-105.89% for AUC0-∞ under postprandial conditions, all of which were within the bioequivalence range of 80.00-125.00%. Both formulations were well tolerated, and no serious adverse events occurred during the study. Conclusion: The trial confirmed that the PK parameters of the generic and original apremilast tablets were bioequivalent in healthy Chinese subjects under fasting and postprandial states, which met the predetermined regulatory standards. Both formulations were safe and well tolerated. Clinical Trial Registration: chinaDrugtrials.org.cn, identifier CTR20191056 (July 30, 2019); chictr.org.cn, identifier ChiCTR2300076806 (October 19, 2023).

Identification of the metabolites of Ixerin Z from Ixeris sonchifolia Hance in rats by HPLC-LTQ-Orbitrap mass spectrometry.

Ixerin Z, one of major sesquiterpene lactones from Ixeris sonchifolia Hance, was considered to be a major active compound because of their special structure and activity. However, studies on Ixerin Z metabolism have rarely been reported. This study is the first to investigate the in vivo metabolism of Ixerin Z following intravenously administered of Ixerin Z by HPLC-LTQ-Orbitrap mass spectrometry and multiple mass defect filters (MMDF) technique. A total of 41 metabolites as well as parent drug after using two MMDF filter templates were unambiguously or tentatively identified based on accurate mass measurements, fragmentation patterns, and chromatographic retention times. The metabolic pathways of Ixerin Z were also proposed for the first time. The results demonstrated that Ixerin Z underwent extensive metabolic reaction including hydrogenation, hydroxylation, hydrolysis, methylation, cysteine conjugation, glutathione (GSH) conjugation, sulfate conjugation, N-acetylcysteine conjugation, and glucuronidation. In conclusion, our study provided an insight into the metabolism of Ixerin Z.