新型体外动态模型中伏立康唑对曲霉菌属的体外药代动力学/药效学建模。

In vitro pharmacokinetic/pharmacodynamic modeling of voriconazole activity against Aspergillus species in a new in vitro dynamic model.

机构信息

Clinical Microbiology Laboratory, Attikon University Hospital, Greece.

出版信息

Antimicrob Agents Chemother. 2012 Oct;56(10):5321-7. doi: 10.1128/AAC.00549-12. Epub 2012 Aug 6.

DOI:10.1128/AAC.00549-12

PMID:22869563

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3457389/

Abstract

The pharmacodynamics (PD) of voriconazole activity against Aspergillus spp. were studied using a new in vitro dynamic model simulating voriconazole human pharmacokinetics (PK), and the PK-PD data were bridged with human drug exposure to assess the percent target (near-maximum activity) attainment of different voriconazole dosages. Three Aspergillus clinical isolates (1 A. fumigatus, 1 A. flavus, and 1 A. terreus isolate) with CLSI MICs of 0.5 mg/liter were tested in an in vitro model simulating voriconazole PK in human plasma with C(max) values of 7, 3.5, and 1.75 mg/liter and a t(1/2) of 6 h. The area under the galactomannan index-time curve (AUC(GI)) was used as the PD parameter. In vitro PK-PD data were bridged with population human PK of voriconazole exposure, and the percent target attainment was calculated. The in vitro PK-PD relationship of fAUC(0-24)-AUC(GI) followed a sigmoid pattern (global R(2) = 0.97), with near-maximum activities (10% fungal growth) observed at an fAUC(0-24) (95% confidence interval [CI]) of 18.9 (14.4 to 23.1) mg · h/liter against A. fumigatus, 26.6 (21.1 to 32.9) mg · h/liter against A. flavus, and 36.2 (27.8 to 45.7) mg · h/liter against A. terreus (F test; P < 0.0001). Target attainment for 3, 4, and 5 mg/kg-of-body-weight voriconazole dosages was 24% (11 to 45%), 80% (32 to 97%), and 93% (86 to 97%) for A. fumigatus, 12% (5 to 26%), 63% (17 to 93%), and 86% (73 to 94%) for A. flavus, and 4% (2 to 11%), 36% (6 to 83%), and 68% (47 to 83%) for A. terreus. Based on the in vitro exposure-effect relationships, a standard dosage of voriconazole may be adequate for most patients with A. fumigatus but not A. flavus and A. terreus infections, for which a higher drug exposure may be required. This could be achieved using a higher voriconazole dosage, thus highlighting the usefulness of therapeutic drug monitoring in patients receiving a standard dosage.

摘要

研究了伏立康唑对曲霉菌属的药效学（PD），使用了一种新的体外动态模型，模拟伏立康唑的人体药代动力学（PK），并将 PK-PD 数据与人体药物暴露情况相联系，以评估不同伏立康唑剂量的目标（接近最大活性）实现百分比。对 3 株临床分离的曲霉菌（1 株烟曲霉、1 株黄曲霉和 1 株土曲霉，CLSI MIC 为 0.5mg/L）进行了体外模型测试，该模型模拟了伏立康唑在人血浆中的 PK，C（最大值）值分别为 7、3.5 和 1.75mg/L，t（1/2）为 6 小时。半乳甘露聚糖指数时间曲线下面积（AUC（GI））被用作 PD 参数。将体外 PK-PD 数据与伏立康唑暴露的人群 PK 相联系，并计算目标实现百分比。fAUC（0-24）-AUC（GI）的体外 PK-PD 关系呈 S 型（总体 R（2）=0.97），在 fAUC（0-24）（95%置信区间[CI]）为 18.9（14.4 至 23.1）mg·h/L 时观察到接近最大活性（10%真菌生长），对烟曲霉为 26.6（21.1 至 32.9）mg·h/L，对黄曲霉为 36.2（27.8 至 45.7）mg·h/L（F 检验；P<0.0001）。对于 3、4 和 5mg/kg 体重的伏立康唑剂量，烟曲霉的目标实现率分别为 24%（11%至 45%）、80%（32%至 97%）和 93%（86%至 97%），黄曲霉的目标实现率分别为 12%（5%至 26%）、63%（17%至 93%）和 86%（73%至 94%），土曲霉的目标实现率分别为 4%（2%至 11%）、36%（6%至 83%）和 68%（47%至 83%）。基于体外暴露-效应关系，标准剂量的伏立康唑可能适用于大多数烟曲霉感染患者，但不适用于黄曲霉和土曲霉感染患者，对于这些患者可能需要更高的药物暴露量。这可以通过使用更高剂量的伏立康唑来实现，从而强调了在接受标准剂量治疗的患者中进行治疗药物监测的有用性。

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