抑制商数作为含利托那韦增强型沙奎那韦挽救性抗逆转录病毒治疗反应的预后因素。CIVSA研究。

Inhibitory quotient as a prognostic factor of response to a salvage antiretroviral therapy containing ritonavir-boosted saquinavir. The CIVSA Study.

作者信息

Mallolas J, Blanco Jl, Labarga P, Vergara A, Ocampo A, Sarasa M, Arnedo M, López-Púa Y, García J, Juega J, Guelar A, Terrón A, Dalmau D, García I, Zárraga M, Martínez E, Carné X, Pumarola T, Escayola R, Gatell Jm

机构信息

Hospital Clínic, Barcelona, Spain.

出版信息

HIV Med. 2007 May;8(4):226-33. doi: 10.1111/j.1468-1293.2007.00464.x.

DOI:10.1111/j.1468-1293.2007.00464.x

PMID:17461850

Abstract

BACKGROUND

The addition of a low dose of ritonavir to protease inhibitors (PIs) has become a widespread strategy to improve PI pharmacokinetics. As resistance is a major barrier to long-term suppression, in salvage therapy genotype and/or phenotype scoring is currently used to predict the response. We evaluated the relationship between the saquinavir (SQV) inhibitory quotient (IQ) (virtual and genotypic) and virological response.

METHODS

Eligible patients were on a PI-containing highly active antiretroviral therapy (HAART) regimen excluding SQV and had a viral load >5000 HIV-1 RNA copies/mL. The PI was switched to SQV/ritonavir (RTV) 1000/100 mg twice a day (bid) and the same two backbone nucleoside reverse transcriptase inhibitors (NRTIs) were maintained at least until week 4, when the resistance test results became available. Genotype and virtual phenotype were determined at baseline, while the SQV trough plasma concentration was determined at week 4.

RESULTS

Fifty-three patients were included in the study. Mean baseline viral load and CD4 count were 137,693 copies/mL and 263 cells/microL, respectively, the mean number of previous PIs was 2.3 and the mean number of protease gene mutations (PGMs) was 4.1. Using an on-treatment analysis, at week 16 the mean increase in CD4 count was 70.9 cells/microL, viral load was <200 copies/mL in 17 out of 37 patients (45.9%), and 30 out of 45 patients (66.7%) were considered virological responders (VRs) (viral load <200 copies/mL or viral load declined > or =1 log(10) at week 16). Median virtual phenotype was 1.3 (0.6-6.9). Baseline differences were detected between VR and non-VR populations: the mean numbers of PGMs were 3.2 and 5.8 (P<0.05), the mean numbers of SQV-associated mutations were 2 and 3.8 (P<0.05), and the mean CD4 counts were 365.9 and 184.3 cells/microL (P<0.05), respectively. Mean SQV trough concentrations at week 4 were 1.1 and 1.0 microg/mL (not significant), and mean virtual IQs were 0.7 and 0.1 (P<0.01), respectively. Multivariate analysis showed that baseline PGMs >5 or SQV-associated mutations>5, virtual phenotype, baseline viral load >50,000 copies/mL, and virtual IQ <0.5, but not genotypic IQ, were the variables independently associated with non-VR.

CONCLUSION

In heavily pretreated patients, the use of SQV virtual IQ or alternatively virtual phenotype, as well as PGMs, is a useful tool for the prediction of virological response.

摘要

背景

在蛋白酶抑制剂（PI）中添加低剂量利托那韦已成为改善PI药代动力学的广泛策略。由于耐药性是长期抑制的主要障碍，在挽救治疗中，目前使用基因型和/或表型评分来预测疗效。我们评估了沙奎那韦（SQV）抑制指数（IQ）（虚拟和基因型）与病毒学反应之间的关系。

方法

符合条件的患者接受不含SQV的含PI高效抗逆转录病毒治疗（HAART）方案，且病毒载量>5000 HIV-1 RNA拷贝/mL。将PI换为每日两次（bid）的SQV/利托那韦（RTV）1000/100 mg，并至少维持相同的两种骨干核苷类逆转录酶抑制剂（NRTIs）至第4周，此时可获得耐药检测结果。在基线时测定基因型和虚拟表型，在第4周时测定SQV谷浓度。

结果

53例患者纳入研究。平均基线病毒载量和CD4细胞计数分别为137,693拷贝/mL和263个细胞/μL，既往使用PI的平均数量为2.3，蛋白酶基因突变（PGM）的平均数量为4.1。采用治疗中分析，在第16周时，CD4细胞计数的平均增加为70.9个细胞/μL，37例患者中有17例（45.9%）病毒载量<200拷贝/mL，45例患者中有30例（66.7%）被视为病毒学应答者（VR）（病毒载量<200拷贝/mL或在第16周时病毒载量下降>或=1 log(10)）。虚拟表型中位数为1.3（0.6 - 6.9）。在VR和非VR人群之间检测到基线差异：PGM的平均数分别为3.2和5.8（P<0.05），与SQV相关的突变平均数分别为2和3.8（P<0.05），平均CD4细胞计数分别为365.9和184.3个细胞/μL（P<0.05）。第4周时SQV谷浓度的平均值分别为1.1和1.0 μg/mL（无显著差异），虚拟IQ的平均值分别为0.7和0.1（P<0.01）。多因素分析显示，基线PGM>5或与SQV相关的突变>5、虚拟表型、基线病毒载量>50,000拷贝/mL以及虚拟IQ<0.5，但不包括基因型IQ，是与非VR独立相关的变量。