Portal de Periódicos da CAPES

Measuring the Unknown

2013; Lippincott Williams & Wilkins; Volume: 63; Issue: 2 Linguagem: Inglês

10.1097/qai.0b013e31828ed2e4

1944-7884

Moupali Das, H. Fisher Raymond, Priscilla Lee Chu, Israel Nieves-Rivera, Mark Pandori, Brian Louie, Leah Rauch, Susan Scheer, Eric Vittinghoff, Willi McFarland,

HIV Research and Treatment

To the Editors: "Community viral load" (CVL), broadly defined as the mean, median, or total viral load (VL) of a population of persons living with HIV, has been posited as one measure that may provide both as an indicator of burden of disease [eg, higher proportions of patients virally suppressed by antiretroviral treatment (ART) will lower CVL, thus tracking treatment benefit] and as an indicator of potential epidemic propagation (eg, more persons in a population with high VL point to increased likelihood of onward transmission for a given level of risky behavior).1–3 CVL may be calculated for a clinic population,4 for persons participating in studies,5,6 or persons from public health surveillance case registries if VL data are systematically abstracted.1–3 For example, we previously reported a mean CVL of 23,348 copies per milliliter for 2005–2008 using data from the San Francisco HIV/AIDS surveillance case registry, which contains an estimated 95% of all HIV-infected individuals diagnosed in the city.1 However, a limitation of calculating CVL from surveillance data of reported cases as a measure of population-level viremic burden and transmission potential is the omission of people living with HIV who are not yet diagnosed and thus not reported to surveillance.1,7,8 Moreover, persons unaware of their HIV infection may have higher VLs by virtue of not being treated with ART and by the high viremia characteristic of acute/early infection.1,7,8 The National HIV Behavioral Surveillance (NHBS) system provided an opportunity to fill one gap in our surveillance-derived estimation of CVL for men who have sex with men (MSM), who comprise 90% of HIV/AIDS cases in San Francisco. The NHBS is a Centers for Disease Control–coordinated series of population-based, cross-sectional surveys among populations at risk for HIV in 21 US cities and was conducted among MSM in San Francisco in 3 waves in 2004, 2008, and 2011.9 The survey methods comprised time–location sampling with random selection of venues where MSM congregate and recruitment of MSM attending the venues. A risk and preventive behavioral questionnaire was completed anonymously. Data included past HIV testing history and self-reported results of their most recent test. In the field, standard venipuncture was done for HIV testing and incidence testing. The present analysis focuses on HIV-positive MSM who reported being undiagnosed; that is, they tested positive in the NHBS survey but reported that their most recent test was negative or that they had never previously been tested. We measured plasma HIV-1 RNA copies per milliliter on remnant specimens from MSM who reported being undiagnosed using Abbott Real-Time HIV-1 assay. From these results, we calculated median, mean, and log mean CVL and the percentage of samples in which no virus was detected or was below the limit of detection at <40 copies per milliliter. Temporal trends across the 3 survey waves were assessed using linear and logistic models. We report interquartile ranges for the median CVL and confidence intervals obtained using bootstrap procedures for the mean and the log mean; we report exact binomial confidence intervals for the proportions. The original protocols, including specimen banking for future analyses, were approved by the University of California, San Francisco Committee on Human Research. From 2004 to 2011, there was a decline in the number of HIV-infected MSM in NHBS who reported being unaware of their infection from 21.7% (13.2–30.3) in 2004 to 18% (10.9–25.2) in 2008 and 7.5% (2.4–12.7) in 2011 (P = 0.025).9 Over all 3 years, 23% (11/48) of the stored specimens did not contain sufficient quantity to measure VL. Median, mean, and log mean CVL are shown in the Table 1. Mean CVL was 23,013 copies per milliliter in the 2004 survey and 4980 copies per milliliter in 2011. Median CVL was 4237 copies per milliliter in 2004 and 3318 copies per milliliter in 2011. No trends in any of the CVL measures over time were statistically significant. Of note, no virus was detected in 25% (5/19) of the samples from MSM who reported being undiagnosed in 2004, 18% (2/11) in 2008, and 43% (3/7) in 2011. These numbers of persons with no detectable virus are higher than expected from persons with untreated HIV infection; possible explanations include the approximately 1 in 300 of HIV-infected individuals known as elite controllers who would be expected to be durably aviremic without ART,10 laboratory error, poor specimen, or persons on ART not being forthcoming about their HIV-infected status before the study test. As a sensitivity analysis for the latter possibility, we calculated mean CVL only among those with detectable VLs, which increased the estimates slightly, but these differences were not statistically significant.TABLE 1: Measures of CVL Among HIV-Infected MSM Who Reported Being Undiagnosed in San Francisco; 2004, 2008, and 2011The time captured by the 3 waves of NHBS coincides with a period of local efforts to expand coverage and frequency of HIV testing for MSM and other populations at risk for HIV and to promote earlier initiation of ART.1,4,9 The decline in the proportion of HIV-infected MSM who were unaware of their HIV status in our data seems to corroborate the impact of these efforts. Although our approach attempts to fill a gap in the calculation of CVL from case registry data for the population of MSM in San Francisco by evaluating CVL of those MSM who reported being undiagnosed, we recognize limitations that may bias results downward. First, the main limitation of our study is that the proportion of individuals testing HIV positive without detected virus is unexpectedly high for a population purporting to not be on ART. Only 0.3% (1 in 300) of HIV-infected individuals are elite controllers who would be expected to be durably aviremic without ART; this is unlikely to explain the current results.10 The most likely explanation is that these MSM denied already knowing their HIV-positive serostatus when they were in fact aware of their diagnosis and undetectable because they were on ART. A key way to address this would have been to measure ART levels in specimens. Unfortunately, additional specimens were not available for ART level detection. The point estimates of CVL measures calculated excluding the undetectable specimens, as expected, were slightly higher, although within reasonable margins of error. Laboratory error or deterioration of viral RNA in handling and storage could also reduce the count to undetectable levels for some specimens while yielding lower counts for others; however, our laboratory conducted quality control studies with comparable archived specimens with no indication of viral decay. Second, our study does not include persons in the acute phase of infection where their antibody test would be negative yet their VL is likely to be very high.7,8 This gap in the calculation of CVL will be very difficult to fill as such acutely infected persons will rarely be detected in population-based surveys. The challenge compounds interpretation of CVL as an indicator of transmission potential as persons acutely infected may account for a disproportionate number of onward infections.8 Third, there were very few MSM who reported being undiagnosed, particularly in the last year. Although it is welcome information that the proportion of persons unaware of their infection is low and decreasing, the small sample size increases the uncertainty in our estimates of CVL. The challenges of small sample size, the absence of acutely infected individuals, and possible misclassification of undiagnosed individuals could be addressed by including the measurement of VL and ART levels and calculation of CVL across other cities involved in the NHBS, and the quality, handling, and storage of specimens collected specifically for RNA testing and ART levels could be improved in studies specifically designed to measure VL, ART use, and to calculate CVL. The NHBS system was designed to track HIV prevalence and measures of risk for MSM and other populations between cities and over time to complete the picture of the epidemic outside of case reporting and surveillance. It has long been recognized that HIV case reporting and HIV prevalence are sufficient measures to track neither the full burden of disease nor the full potential for further transmission, a point all the more true in the current era of wider use of ART and reduction in transmission because of ART-mediated virologic suppression.11 The addition of VL and ART levels to calculate CVL and objectively measure ART use to the NHBS system would augment estimates of CVL from surveillance registries and add one more indicator to interpret epidemic trends that is well suited to the high impact prevention era of expanded testing and ART. Moreover, direct measures of HIV incidence and acute infection also face logistical and theoretical challenges and are consequently rare on a population level. We recognize that CVL has limitations; nonetheless, taken in the context of expanded HIV testing, ART uptake, and linkage and engagement efforts to promote earlier and durable viral suppression, the measure provides additional insight into our efforts to mitigate the effects of HIV disease among those infected and thereby reduce transmission. Examining CVL trends in upcoming international individual and community cluster randomized trials of ART as prevention12 will further refine our current understanding of the relationship between population-level viremic burden and HIV transmission.