Dolton Michael J, D'Argenio David Z
J Antimicrob Chemother. 2017 Apr 1;72(4):1129-1136. doi: 10.1093/jac/dkw553.
The macrolide antibiotic roxithromycin has seen widespread clinical use for several decades; however, no population pharmacokinetic analysis has been published. Early studies indicated saturation of protein binding and absorption at doses within the approved range, which may impact pharmacodynamic target attainment since regimens of 150 mg twice daily and 300 mg once daily are used interchangeably in clinical practice. This study aimed to develop a population-based meta-analysis of roxithromycin pharmacokinetics, and utilize this model to inform optimal dosing regimens.
Following an extensive search, roxithromycin pharmacokinetic data were collected or digitized from literature publications. Population pharmacokinetic modelling was undertaken with ADAPT. Dosing simulations were performed to investigate differences in exposure and pharmacodynamic target attainment between dosing regimens.
A two-compartment model with saturable absorption described the data ( n = 63); changes in free drug exposure were simulated using a saturable protein binding model. Simulations indicated that a 300 mg daily regimen achieves a 37% and 53% lower total or free AUC ( f AUC), respectively, compared with 150 mg twice daily. These pharmacokinetic differences translated to significantly lower target attainment ( f AUC/MIC ratio >20) with a 300 mg daily regimen at MICs of 0.5 and 1 mg/L (51% and 7%) compared with patients receiving 150 mg twice daily (82% and 54%).
Roxithromycin displays saturable absorption and protein binding leading to lower exposure and lower target attainment at MICs ≥0.5 mg/L with widely used once-daily dosing regimens, indicating that twice-daily regimens may be preferable for pathogens less susceptible to roxithromycin.
大环内酯类抗生素罗红霉素已在临床广泛应用数十年;然而,尚未有群体药代动力学分析发表。早期研究表明,在批准剂量范围内,蛋白质结合和吸收会出现饱和,这可能会影响药效学目标的实现,因为在临床实践中,每日两次150mg和每日一次300mg的给药方案可交替使用。本研究旨在开展罗红霉素药代动力学的基于群体的荟萃分析,并利用该模型确定最佳给药方案。
在广泛检索后,从文献出版物中收集或数字化罗红霉素药代动力学数据。使用ADAPT进行群体药代动力学建模。进行给药模拟,以研究不同给药方案之间暴露量和药效学目标实现情况的差异。
具有饱和吸收的二室模型描述了数据(n = 63);使用饱和蛋白质结合模型模拟游离药物暴露的变化。模拟表明,与每日两次150mg相比,每日一次300mg的给药方案的总AUC或游离AUC(fAUC)分别降低37%和53%。这些药代动力学差异导致在MIC为0.5和1mg/L时,每日一次300mg给药方案的目标实现率(fAUC/MIC比值>20)显著低于每日两次150mg给药的患者(分别为51%和7%对比82%和54%)。
罗红霉素表现出饱和吸收和蛋白质结合,导致在MIC≥0.5mg/L时,广泛使用的每日一次给药方案的暴露量降低,目标实现率降低,这表明对于对罗红霉素敏感性较低的病原体,每日两次给药方案可能更可取。
