沙奎那韦、阿扎那韦和利托那韦在每日两次强化双蛋白酶抑制剂方案中的药代动力学。
Pharmacokinetics of saquinavir, atazanavir, and ritonavir in a twice-daily boosted double-protease inhibitor regimen.
作者信息
von Hentig Nils, Müller Axel, Rottmann Carsten, Wolf Timo, Lutz Thomas, Klauke Stephan, Kurowski Michael, Oertel Bruno, Dauer Brenda, Harder Sebastian, Staszewski Schlomo
机构信息
Pharmazentrum Frankfurt and HIV Treatment and Clinical Research Unit at the J.W. Goethe University Hospital, Frankfurt, Germany.
出版信息
Antimicrob Agents Chemother. 2007 Apr;51(4):1431-9. doi: 10.1128/AAC.00854-06. Epub 2007 Feb 12.
The objective of this study was to evaluate the pharmacokinetics of atazanavir (ATV), saquinavir (SQV), and ritonavir (RTV) in a boosted double-protease inhibitor (PI) therapy regimen without reverse transcriptase inhibitors (RTIs). The study design was as follows. Patients with limited RTI options received a PI combination of 300/100 mg ATV/RTV once daily and 1,000 mg SQV twice daily (group 1; n=49) without RTI comedication. The results were compared to the plasma concentrations of PIs of patients taking either 300 mg ATV/100 mg RTV once daily plus RTIs (group 2; n=72) or patients taking 1,000 mg SQV/100 mg RTV plus RTIs (group 3; n=90). The study methods were as follows. Patients were given a 12/24-h pharmacokinetic assessment at steady state. Drug concentrations were measured by liquid chromatography-tandem mass spectrometry. The minimum and maximum concentrations (Cmin and Cmax), area under the concentration-time curve under steady-state conditions (AUCss), elimination half-life, time of maximum concentration and lag time were subject to statistical analysis. The results show that patients treated with ATV/SQV/RTV exhibited significantly high SQV concentrations and moderate enhancement of the AUCss of ATV in comparison to those of patients of the control groups: for SQV in groups 1 and 3, the geometric mean (GM) of the AUCss was 22,794 versus 15,759 ng.h/ml (GM ratio [GMR]=1.45; P<0.05), the GM of the Cmax was 3,257 versus 2,331 ng/ml (GMR=1.40; P<0.05), and the GM of the Cmin was 438 versus 437 ng/ml (GMR=1.00); for ATV in groups 1 and 2, the GM of the AUCss was 39,154 versus 33,626 ng.h/ml (GMR=1.16), the GM of the Cmax was 3,488 versus 2,924 ng/ml (GMR=1.20), and the GM of the Cmin was 515 versus 428 ng/ml (GMR=1.21). RTV levels were comparable for all groups. A subgroup analysis detected only marginal differences in ATV plasma exposure if combined with tenofovir-disoproxilfumarate and without it. We conclude that our pharmacokinetic results support the use of a boosted double-PI regimen of ATV/SQV/RTV as a treatment option for patients who need antiretroviral therapy without RTIs.
本研究的目的是评估在不使用逆转录酶抑制剂(RTIs)的强化双蛋白酶抑制剂(PI)治疗方案中,阿扎那韦(ATV)、沙奎那韦(SQV)和利托那韦(RTV)的药代动力学。研究设计如下。RTI选择有限的患者接受每日一次300/100mg ATV/RTV和每日两次1000mg SQV的PI联合治疗(第1组;n = 49),不联合使用RTIs。将结果与每日一次服用300mg ATV/100mg RTV加RTIs的患者(第2组;n = 72)或服用1000mg SQV/100mg RTV加RTIs的患者(第3组;n = 90)的PI血浆浓度进行比较。研究方法如下。在稳态时对患者进行12/24小时药代动力学评估。通过液相色谱 - 串联质谱法测量药物浓度。对最低和最高浓度(Cmin和Cmax)、稳态条件下浓度 - 时间曲线下的面积(AUCss)、消除半衰期、最大浓度时间和滞后时间进行统计分析。结果显示,与对照组患者相比,接受ATV/SQV/RTV治疗的患者SQV浓度显著更高,ATV的AUCss有中度增强:对于第1组和第3组中的SQV,AUCss的几何平均值(GM)为22,794对15,759 ng·h/ml(GM比率[GMR]=1.45;P<0.05),Cmax的GM为3,257对2,331 ng/ml(GMR=1.40;P<0.05),Cmin的GM为438对437 ng/ml(GMR=1.00);对于第1组和第2组中的ATV,AUCss的GM为39,154对33,626 ng·h/ml(GMR=1.16),Cmax的GM为3,488对2,924 ng/ml(GMR=1.20),Cmin的GM为515对428 ng/ml(GMR=1.21)。所有组的RTV水平相当。亚组分析发现,ATV与替诺福韦酯联合使用和不联合使用时,其血浆暴露仅存在微小差异。我们得出结论,我们的药代动力学结果支持将ATV/SQV/RTV的强化双PI方案作为需要抗逆转录病毒治疗但不使用RTIs的患者的一种治疗选择。
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