酮康唑对吡喹酮药代动力学的影响及 CYP3A4 在形成 X-OH-吡喹酮而非 4-OH-吡喹酮中的作用。

The effect of ketoconazole on praziquantel pharmacokinetics and the role of CYP3A4 in the formation of X-OH-praziquantel and not 4-OH-praziquantel.

机构信息

African Institute of Biomedical Science and Technology (AIBST), Harare, Zimbabwe.

Department of Clinical Pharmacology, University of Zimbabwe College of Health Sciences, Harare, Zimbabwe.

出版信息

Eur J Clin Pharmacol. 2019 Aug;75(8):1077-1087. doi: 10.1007/s00228-019-02663-8. Epub 2019 May 15.

DOI:10.1007/s00228-019-02663-8

PMID:31089768

Abstract

AIM

The study sought to determine the effect of ketoconazole (KTZ) on the pharmacokinetics of praziquantel (PZQ) and on the formation of its major hydroxylated metabolites, cis- and trans-4-OH-PZQ, and X-OH-PZQ in healthy subjects.

METHODS

Two treatments were evaluated by single-dose PK studies; the reference treatment was a 20 mg/kg dose of praziquantel given alone. The test treatment was a 20 mg/kg dose of praziquantel given in combination with 200 mg of ketoconazole. The study had a balanced and randomised cross-over design. Serial blood samples were collected between 0 and 12 h after each drug administration. PZQ, and cis- and trans-4-OH-PZQ and X-OH-PZQ concentrations in plasma were determined by LC-MS. A non-compartmental approach was used for pharmacokinetic analysis. Data were analysed using ANOVA and assessment of the 90% confidence interval of the geometric means of the log-transformed PK parameters obtained for each treatment.

RESULTS

The pharmacokinetics of PZQ following the two treatments, PZQ alone and PZQ + KTZ, were not equivalent based on the assessment of the 90% CI of the geometric mean ratios of the AUC and C (α = 0.05). The geometric mean ratios of the AUC and C were found to be 176.8% and 227% respectively. The 90% CI of the AUC and C were found to be 129.8%-239.8% and 151.4%-341.4% respectively. The AUC of PZQ was increased by 75% with KTZ co-administration (3516 vs 6172 ng h/ml) (p < 0.01). Meanwhile, the mean AUC of trans-4-OH-PZQ increased by 67% (61,749 ng h/ml vs 103,105 ng h/ml) (p < 0.01). X-OH-PZQ levels were reduced by about 57% (semi-quantified as 7311 ng h/ml vs 3109 ng h/ml by using trans-4-OH as standards) (p < 0.01) with KTZ co-administration.

CONCLUSIONS

The relative bioavailability of praziquantel was increased by concomitant KTZ administration. KTZ preferentially inhibited the formation of X-OH-PZQ rather than 4-OH-PZQ, confirming in vitro data which implicates CYP3A4 in the formation of X-OH-PZQ rather than 4-OH-PZQ. The 4-hydroxylation of PZQ was shown to be the major metabolic pathway of PZQ, as evidenced by larger quantities of 4-OH-PZQ produced, thus explaining the modest albeit significant effect of ketoconazole on PZQ pharmacokinetics.

摘要

目的

本研究旨在确定酮康唑（KTZ）对吡喹酮（PZQ）药代动力学的影响，以及对其主要羟基化代谢物顺式和反式-4-OH-PZQ 和 X-OH-PZQ 在健康受试者中的形成的影响。

方法

通过单次剂量药代动力学研究评估了两种治疗方法；参考治疗为单独给予 20mg/kg 的吡喹酮。试验治疗为给予 20mg/kg 的吡喹酮与 200mg 的酮康唑联合使用。该研究采用平衡随机交叉设计。在每次药物给药后 0 至 12 小时之间采集连续的血样。通过 LC-MS 测定血浆中 PZQ、顺式和反式-4-OH-PZQ 和 X-OH-PZQ 的浓度。采用非房室模型进行药代动力学分析。使用方差分析和评估每种治疗方法获得的对数转换 PK 参数的几何平均值的 90%置信区间来分析数据。

结果

根据几何平均值比值 90%置信区间（α=0.05）的评估，两种治疗方法（单独使用 PZQ 和 PZQ+KTZ）的 PZQ 药代动力学并不等效。AUC 和 C 的几何平均值比值分别为 176.8%和 227%。AUC 和 C 的 90%置信区间分别为 129.8%-239.8%和 151.4%-341.4%。酮康唑联合使用使 PZQ 的 AUC 增加了 75%（3516 与 6172ng h/ml）（p<0.01）。同时，反式-4-OH-PZQ 的平均 AUC 增加了 67%（61749ng h/ml 与 103105ng h/ml）（p<0.01）。酮康唑联合使用使 X-OH-PZQ 水平降低约 57%（半定量为使用反式-4-OH 作为标准时的 7311ng h/ml 与 3109ng h/ml）（p<0.01）。

结论

酮康唑的同时给药增加了吡喹酮的相对生物利用度。酮康唑优先抑制 X-OH-PZQ 的形成，而不是 4-OH-PZQ 的形成，这证实了体外数据表明 CYP3A4 参与了 X-OH-PZQ 的形成，而不是 4-OH-PZQ。PZQ 的 4-羟化被证明是 PZQ 的主要代谢途径，这可以从产生的 4-OH-PZQ 的数量较多来证明，因此解释了酮康唑对 PZQ 药代动力学的适度但显著的影响。

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酮康唑对吡喹酮药代动力学的影响及 CYP3A4 在形成 X-OH-吡喹酮而非 4-OH-吡喹酮中的作用。

The effect of ketoconazole on praziquantel pharmacokinetics and the role of CYP3A4 in the formation of X-OH-praziquantel and not 4-OH-praziquantel.

机构信息

出版信息

AIM

METHODS

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CONCLUSIONS

目的

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结论

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