Whole Body Physiologically Based Pharmacokinetic Model to Explain A Patient With Drug–Drug Interaction Between Voriconazole and Flucloxacillin

IF 1.9 4区 医学 Q3 PHARMACOLOGY & PHARMACY
Heshu Abdullah-Koolmees, Julia F. van den Nieuwendijk, Simone M. K. ten Hoope, David C. de Leeuw, Linda G. W. Franken, Medhat M. Said, Maarten R. Seefat, Eleonora L. Swart, N. Harry Hendrikse, Imke H. Bartelink
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引用次数: 0

Abstract

Background and Objectives

Voriconazole administered concomitantly with flucloxacillin may result in subtherapeutic plasma concentrations as shown in a patient with Staphylococcus aureus sepsis and a probable pulmonary aspergillosis. After switching our patient to posaconazole, therapeutic concentrations were reached. The aim of this study was to first test our hypothesis that flucloxacillin competes with voriconazole not posaconazole for binding to albumin ex vivo, leading to lower total concentrations in plasma.

Methods

A physiologically based pharmacokinetic (PBPK) model was then applied to predict the mechanism of action of the drug–drug interaction (DDI). The model included non-linear hepatic metabolism and the effect of a severe infectious disease on cytochrome P450 (CYP) enzymes activity.

Results

The unbound voriconazole concentration remained unchanged in plasma after adding flucloxacillin, thereby rejecting our hypothesis of albumin-binding site competition. The PBPK model was able to adequately predict the plasma concentration of both voriconazole and posaconazole over time in healthy volunteers. Upregulation of CYP3A4, CYP2C9, and CYP2C19 through the pregnane X receptor (PXR) gene by flucloxacillin resulted in decreased voriconazole plasma concentrations, reflecting the DDI observations in our patient. Posaconazole metabolism was not affected, or was only limitedly affected, by the changes through the PXR gene, which agrees with the observed plasma concentrations within the target range in our patient.

Conclusions

Ex vivo experiments reported that the unbound voriconazole plasma concentration remained unchanged after adding flucloxacillin. The PBPK model describes the potential mechanism driving the drug–drug and drug–disease interaction of voriconazole and flucloxacillin, highlighting the large substantial influence of flucloxacillin on the PXR gene and the influence of infection on voriconazole plasma concentrations, and suggests a more limited effect on other triazoles.

Abstract Image

基于全身生理学的药代动力学模型解释伏立康唑与氟氯西林之间的药物相互作用
背景和目的在一名患有金黄色葡萄球菌败血症和可能的肺曲霉菌病的患者中,伏立康唑与氟氯西林同时给药可能会导致血浆浓度低于治疗浓度。患者改用泊沙康唑后,血浆浓度达到了治疗浓度。本研究的目的是首先验证我们的假设,即氟氯西林与伏立康唑而非泊沙康唑在体内竞争结合白蛋白,从而导致血浆中总浓度降低。该模型包括非线性肝脏代谢和严重传染病对细胞色素 P450(CYP)酶活性的影响。结果加入氟氯西林后,血浆中未结合的伏立康唑浓度保持不变,从而否定了我们关于白蛋白结合位点竞争的假设。PBPK 模型能够充分预测伏立康唑和泊沙康唑在健康志愿者体内随时间变化的血浆浓度。氟氯西林通过孕烷 X 受体(PXR)基因对 CYP3A4、CYP2C9 和 CYP2C19 的上调导致伏立康唑的血浆浓度降低,这反映了在我们的患者身上观察到的 DDI。波沙康唑的代谢不受 PXR 基因变化的影响,或仅受到有限的影响,这与在我们患者体内观察到的血浆浓度在目标范围内是一致的。结论体内实验报告显示,加入氟氯西林后,未结合的伏立康唑血浆浓度保持不变。PBPK 模型描述了驱动伏立康唑和氟氯西林的药物-药物和药物-疾病相互作用的潜在机制,强调了氟氯西林对 PXR 基因的巨大实质性影响以及感染对伏立康唑血浆浓度的影响,并表明对其他三唑类药物的影响较为有限。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.70
自引率
0.00%
发文量
64
审稿时长
>12 weeks
期刊介绍: Hepatology International is a peer-reviewed journal featuring articles written by clinicians, clinical researchers and basic scientists is dedicated to research and patient care issues in hepatology. This journal focuses mainly on new and emerging diagnostic and treatment options, protocols and molecular and cellular basis of disease pathogenesis, new technologies, in liver and biliary sciences. Hepatology International publishes original research articles related to clinical care and basic research; review articles; consensus guidelines for diagnosis and treatment; invited editorials, and controversies in contemporary issues. The journal does not publish case reports.
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