Abstract
Background
Human immunodeficiency virus (HIV)-1 RNA quantification is the primary method of monitoring response to antiretroviral therapy. In the U.S. viral RNA testing is recommended for all HIV-infected patients at entry into care, at initiation or modification of therapy, and on a regular basis thereafter. HIV-1 DNA testing may pose additional advantages. For example, proviral DNA may predict early loss of viral suppression. The Cepheid® (Sunnyvale, CA) HIV-1 Qualitative (HIV Qual) assay detects total nucleic acid for both RNA and DNA and provides a qualitative result (HIV detectable or undetectable).
Methods
We tested participants aged 14–24 years old from the Adolescent Trials Network (ATN) CARES study with known HIV infection in Los Angeles, California and New Orleans, Louisiana. We tested participants using the Cepheid® HIV Qual assay and the quantitative HIV-1 RNA, real-time PCR test using the COBAS P6800 system (Roche, Branchburg, NJ). We used 100 μL of whole blood for the HIV Qual assay and results were provided in 90 minutes. We sent the remainder of the whole blood from the same visit to a commercial laboratory for HIV-RNA PCR testing and results were reported as “detected,” “detected, <20 copies/mL plasma” or “not detected, <20 copies/mL plasma.” We compared HIV Qual and HIV RNA PCR test results from the same visit for each participant.
Results
Overall, 57 HIV Qual tests were performed with concurrent HIV RNA PCR tests. Of those, 9/15 tests were concordant with HIV viral RNA suppression while 39/42 tests were concordant with HIV viral RNA detection. In 6 cases, the HIV RNA was not detected at <20 copies/mL by the Roche PCR while the HIV Qual assay detected HIV DNA. Of those 6 cases, 3 had subsequent HIV RNA PCR testing. All 3 cases had detectable HIV RNA at their next testing date (214 copies/mL, detected <20 copies/mL, 2130 copies/mL).
Conclusion
The HIV Qual test is feasible for the monitoring of HIV-infection. Due to its detection of HIV DNA, it may predict future lack of HIV RNA suppression.
Disclosures
All authors: No reported disclosures.
A Label-free and Turn-on Fluorescence Strategy for DNA Detection with a Wide Detection Range Based on Exonuclease III-aided Target Recycling Amplification
