Division of Community Health Sciences, University of Illinois at Chicago School of Public Health, Chicago.
Rollins School of Public Health, Emory University, Atlanta, GA.
Ann Epidemiol. 2020 May;45:12-23. doi: 10.1016/j.annepidem.2020.03.011. Epub 2020 Apr 3.
After years of stable or declining HIV prevalence and declining incidence among people who inject drugs (PWID) in the United States, some rapidly emerging outbreaks have recently occurred in new areas (e.g., Scott County, Indiana). However, to our knowledge, trends over time in HIV prevalence among PWID in US metropolitan statistical areas (MSAs) across all major regions of the country have not been systematically estimated beyond 2002, and the extent to which HIV prevalence may be increasing in other areas is largely unknown. This article estimates HIV prevalence among PWID in 89 of the most populated US MSAs, both overall and by geographic region, using more recent surveillance and HIV testing data.
We computed MSA-specific annual estimates of HIV prevalence (both diagnosed and undiagnosed infections) among PWID for these 89 MSAs, for 1992-2013, using several data series from the Centers for Disease Control and Prevention's (CDC) National HIV Surveillance System and National HIV Prevention Monitoring and Evaluation data; Holmberg's (1997) estimates of 1992 PWID population size and of HIV prevalence and incidence among PWID; and research estimates from published literature using 1992-2013 data. A mixed effects model, with time nested within MSAs, was used to regress the literature review estimates on all of the other data series. Multiple imputation was used to address missing data. Resulting estimates were validated using previous 1992-2002 estimates of HIV prevalence and data on antiretroviral (ARV) prescription volumes and examined for patterns based on geographic region, numbers of people tested for HIV, and baseline HIV prevalence.
Mean (across all MSAs) trends over time suggested decreases through 2002 (from approximately 11.4% in 1992 to 9.2% in 2002), followed by a period of stability, and steep increases after 2010 (to 10.6% in 2013). Validation analyses found a moderate positive correlation between our estimates and ARV prescription volumes (r = 0.45), and a very strong positive correlation (r = 0.94) between our estimates and previous estimates by Tempalski et al. (2009) for 1992-2002 (which used different methods). Analysis by region and baseline prevalence suggested that mean increases in later years were largely driven by MSAs in the Western United States and by MSAs in the Midwest that had low baseline prevalence. Our estimates suggest that prevalence decreased across all years in the Eastern United States. These trends were particularly clear when MSAs with very low numbers of people tested for HIV were removed from analyses to reduce unexplained variability in mean trajectories.
Our estimates suggest a fairly large degree of variation in 1992-2013 trajectories of PWID HIV prevalence among 89 US MSAs, particularly by geographic region. They suggest that public health responses in many MSAs (particularly those with larger HIV prevalence among PWID in the early 1990s) were sufficient to decrease or maintain HIV prevalence over time. However, future research should investigate potential factors driving the estimated increase in prevalence after 2002 MSAs in the West and Midwest. These findings have potentially important implications for program and/or policy decisions, but estimates for MSAs with low HIV testing denominators should be interpreted with caution and verified locally before planning action.
在美国,经过多年 HIV 流行率稳定或下降以及注射吸毒者(IDU)发病率下降之后,最近在一些新地区(例如印第安纳州斯科特县)出现了一些快速爆发的疫情。但是,据我们所知,目前还没有系统地估算过全国所有主要地区的美国大都市统计区(MSA)中 IDU 的 HIV 流行率随时间的变化趋势,其他地区的 HIV 流行率是否在上升也在很大程度上尚不清楚。本文利用美国疾病控制与预防中心(CDC)国家 HIV 监测系统和国家 HIV 预防监测与评估数据中的几个数据系列,对 89 个人口最多的美国 MSA 中 IDU 的 HIV 流行率(包括确诊和未确诊感染)进行了估算,时间范围为 1992 年至 2013 年。
我们使用几种数据系列,包括来自疾病预防控制中心的国家艾滋病毒监测系统和国家艾滋病毒预防监测和评估数据中的几个数据系列,计算了这 89 个 MSA 中 IDU 的 HIV 流行率(包括确诊和未确诊感染)的 MSA 特定年度估计值,用于 1992-2013 年期间;使用 Holmberg(1997 年)的 1992 年 IDU 人口规模和 IDU 中的 HIV 流行率和发病率估算值;以及使用 1992-2013 年数据的已发表文献中的研究估算值。我们使用混合效应模型,将时间嵌套在 MSA 内,将文献综述估计值回归到所有其他数据系列。使用多重插补处理缺失数据。使用以前的 1992-2002 年 HIV 流行率估计值和关于抗逆转录病毒(ARV)处方量的数据以及基于地理区域、接受 HIV 检测的人数和基线 HIV 流行率的模式来验证结果。
总体而言,随着时间的推移,趋势表明在 2002 年之前呈下降趋势(从 1992 年的约 11.4%降至 2002 年的 9.2%),随后是稳定期,2010 年后急剧上升(2013 年上升至 10.6%)。验证分析发现,我们的估计值与 ARV 处方量之间存在中度正相关(r=0.45),与 Tempalski 等人(2009 年)的 1992-2002 年的估计值(使用不同方法)之间存在非常强的正相关(r=0.94)。按区域和基线流行率进行分析表明,近年来平均增长率的上升主要归因于美国西部的 MSA 和中西部基线流行率较低的 MSA。我们的估计表明,在整个东部的美国,流行率都在下降。当从分析中删除接受 HIV 检测人数非常少的 MSA 以减少平均轨迹的不可解释变异性时,这些趋势尤其明显。
我们的估计表明,在 89 个美国 MSA 中,1992-2013 年 IDU 的 HIV 流行率轨迹存在相当大的变化,特别是按地理区域划分。它们表明,在许多 MSA 中,公共卫生应对措施足以随时间降低或维持 HIV 流行率,尤其是在 20 世纪 90 年代初 IDU 中的 HIV 流行率较高的 MSA 中。然而,未来的研究应该调查驱动西部和中西部 MSA 中估计的流行率增加的潜在因素。这些发现对计划和/或政策决策具有潜在的重要意义,但对于 HIV 检测分母较低的 MSA,应谨慎解释和在本地验证估计值,然后再采取行动。
