Abstract
BackgroundTo develop a low cost method to screen for virologic failure of antiretroviral therapy (ART) and HIV-1 drug resistance, we performed a retrospective evaluation of a screening assay using serial dilutions of HIV-1 RNA-spiked blood plasma and samples from patients receiving >6 months of first-line ART.MethodsSerial dilution testing was used to assess sensitivity of a simple PCR-based assay (targeted at ≥1,000 HIV RNA copies/mL). We created blood plasma minipools of five samples, extracted HIV RNA from the pools, PCR amplified the reverse transcriptase (RT) coding region of the HIV-1 pol gene from extracted RNA, sequenced PCR product of positive pools, and used sequences to determine drug resistance. Sensitivity, specificity, and predictive values were determined for different levels of virologic failure based on maximum viral loads of individual samples within a pool.ResultsOf 295 samples analyzed, 43 (15%) had virologic failure at ≥50 copies/mL (range 50–10,500 copies/mL, four at ≥1,000 copies/mL). The assay demonstrated 100% sensitivity to detect virus from these four samples, requiring only one round of PCR, and 56% and 89% sensitivity to detect samples with ≥50 and ≥500 copies/mL using two rounds. Amplified PCR products of all positive pools were successfully sequenced and 30% harbored ≥1 major resistance mutation. This method would have cost 10% of the combined costs of individual viral load and resistance testing.ConclusionsWe present a novel method that can screen for both virologic failure of first-line ART and drug resistance. The method is much less expensive than current methods, which may offer sustainability in resource-limited settings.
Highlights
Where available, routine HIV viral load testing is recommended to monitor for virologic failure of antiretroviral therapy (ART) [1]
In most resource-limited settings, drug resistance testing is even less feasible than viral load monitoring due to cost (US$200–400 per genotyping assay). In these settings where second-line treatment options are limited and maximizing first-line therapy is of utmost importance, a low-cost assay designed to allow for detection of virologic failure and evaluation for drug resistance mutations would likely be more useful clinically than assays designed to quantify viral load, which are expensive and do not reliably predict the need for a change in therapy when unaccompanied by drug resistance data
For the serial dilutions of RNA in spiked HIV-negative plasma, first-round polymerase chain reaction (PCR) product was detected for all replicates with viral loads of 5,000 and 1,000 HIV RNA copies/mL
Summary
Routine HIV viral load testing is recommended to monitor for virologic failure of antiretroviral therapy (ART) [1]. In most resource-limited settings, drug resistance testing is even less feasible than viral load monitoring due to cost (US$200–400 per genotyping assay) In these settings where second-line treatment options are limited and maximizing first-line therapy is of utmost importance, a low-cost assay designed to allow for detection of virologic failure and evaluation for drug resistance mutations would likely be more useful clinically than assays designed to quantify viral load, which are expensive and do not reliably predict the need for a change in therapy when unaccompanied by drug resistance data. To develop a low cost method to screen for virologic failure of antiretroviral therapy (ART) and HIV-1 drug resistance, we performed a retrospective evaluation of a screening assay using serial dilutions of HIV-1 RNA-spiked blood plasma and samples from patients receiving .6 months of first-line ART
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