Pellegrin Isabelle, Wittkop Linda, Joubert Laurence Morand, Neau Didier, Bollens Diane, Bonarek Mojgan, Girard Pierre-Marie, Fleury Hervé, Winters Bart, Saux Marie-Claude, Pellegrin Jean-Luc, Thiébaut Rodolphe, Breilh Dominique
Department of Virology, Bordeaux University Hospital, Bordeaux, France.
Antivir Ther. 2008;13(2):271-9.
We assessed the association of baseline HIV-1 mutations, phenotypic sensitivity and pharmacokinetics with virological failure (VF) at week 12 (W12) after onset of a darunavir/ritonavir (DRV/r)-based regimen in a cohort of 67 antiretroviral-experienced HIV-patients failing on highly active antiretroviral therapy (HAART).
VF was defined as HIV RNA >2.3 log10copies/ml at W12. HIV reverse transcriptase and protease sequencing was performed at WO; mutations with a P-value <0.25 in univariable analyses were used for a backward selection to find the best mutation set for VF prediction. Genotypic and phenotypic sensitivity scores were calculated and virtual phenotype predicted fold change (FC) assessed. DRV Cmin, Cmax, AUC(0-->12 h) and genotypic inhibitory quotient (GIQ) were determined.
Patients had a median of 15 previous treatments for 10 years. Median W0 values included a T-cell count of 129 cells/microl, 4.7 log10 HIV RNA copies/ml, four major protease and six nucleoside reverse transcriptase inhibitor resistance mutations. At W12, median HIV RNA decrease was -2.1 log10 copies/ml with a gain of +67 CD4+ T-cells/microl; 40% of patients failed. We determined the genotypic score I13V+V32I+L33F/I/V+E35D+ M361/L/V+I47V+F53L+I62V. According to <4, 4-5 and >5 mutations, failure occurred in 11%, 48% and 100% of patients. Failure was associated with CDC stage, baseline CD4+ T-cell count, number of major protease inhibitor resistance mutations, FC and DRV/r score. Pharmacokinetics were not associated with failure, but GIQ was.
At W12, 60% of heavily pretreated patients responded on DRV/r-based HAART. Genotypic and phenotypic information constituted the main virological response determinant in patients with optimal drug concentrations.
我们评估了67例接受过抗逆转录病毒治疗(HAART)但治疗失败的有经验的HIV患者,在采用基于达芦那韦/利托那韦(DRV/r)的治疗方案开始治疗12周(W12)时,基线HIV-1突变、表型敏感性和药代动力学与病毒学失败(VF)之间的关联。
VF定义为W12时HIV RNA>2.3 log10拷贝/ml。在W0时进行HIV逆转录酶和蛋白酶测序;单变量分析中P值<0.25的突变用于反向选择,以找到预测VF的最佳突变集。计算基因型和表型敏感性评分,并评估虚拟表型预测的变化倍数(FC)。测定DRV的Cmin、Cmax、AUC(0→12 h)和基因型抑制商(GIQ)。
患者既往治疗中位数为15次,治疗时间为10年。W0的中位数数值包括T细胞计数为129个细胞/微升、HIV RNA 4.7 log10拷贝/ml、四个主要蛋白酶和六个核苷类逆转录酶抑制剂耐药突变。在W12时,HIV RNA中位数下降-2.1 log10拷贝/ml,CD4+ T细胞增加67个/微升;40%的患者治疗失败。我们确定了基因型评分I13V+V32I+L33F/I/V+E35D+M361/L/V+I47V+F53L+I62V。根据<4、4-5和>5个突变,患者治疗失败率分别为11%、48%和100%。治疗失败与疾病控制中心(CDC)分期、基线CD4+ T细胞计数、主要蛋白酶抑制剂耐药突变数量、FC和DRV/r评分相关。药代动力学与治疗失败无关,但GIQ与之相关。
在W12时,60%的接受过大量治疗的患者对基于DRV/r的HAART有反应。在药物浓度适宜的患者中,基因型和表型信息是主要的病毒学反应决定因素。