RESUMEN
Background: We examined HIV prevalence and transmission dynamics among people who inject drugs in the U.S./Mexico border region during the COVID-19 pandemic. Methods: People who inject drugs aged ≥18 years from 3 groups were recruited: people who inject drugs who live in San Diego (SD) and engaged in cross-border drug use in Tijuana, Mexico (SD CBDUs), and people who inject drugs in SD and Tijuana (TJ) who did not engage in cross-border drug use (NCBDUs). We computed HIV prevalence at baseline and bivariate incidence-density rates (IR) at 18-month follow-up. Bayesian phylogenetic analysis was used to identify local transmission clusters, estimate their age, and effective reproductive number (Re) over time within the clusters. Findings: At baseline (n = 612), 26% of participants were female, 9% engaged in sex work, and HIV prevalence was 8% (4% SD CBDU, 4% SD NCBDU, 16% TJ NCBDU). Nine HIV seroconversions occurred over 18 months, IR: 1.357 per 100 person-years (95% CI: 0.470, 2.243); 7 in TJ NCBDU and 2 in SD CBDU. Out of 16 identified phylogenetic clusters, 9 (56%) had sequences from both the U.S. and Mexico (mixed-country). The age of three youngest mixed-country dyads (2018-2021) overlapped with the COVID-related US-Mexico border closure in 2020. One large mixed-country cluster (N = 15) continued to grow during the border closure (Re = 4.8, 95% Highest Posterior Density (HPD) 1.5-9.1) with 47% engaging in sex work. Interpretation: Amidst the COVID-19 pandemic and the border closure, cross-border HIV clusters grew. Efforts to end the HIV epidemic in the U.S. should take into account cross-border HIV-1 transmission from Tijuana. Mobile harm reduction services and coordination with municipal HIV programs to initiate anti-retroviral therapy and pre-exposure prophylaxisis are needed to reduce transmission. Funding: This research was supported by the James B. Pendleton Charitable Trust and the San Diego Center for AIDS Research.
RESUMEN
The inhalational administration of drugs is a practical and non-invasive approach with the potential to reduce side effects and with a quick onset of therapeutic activity. Perillyl alcohol (POH) is a monoterpene with antitumor activity that currently is undergoing clinical evaluation as an inhalational anticancer agent. A detection method was developed that will be applicable to pharmacokinetic studies of not only POH, but also its longer-lived main metabolite, perillic acid (PA), in lung tissue and plasma after inhalational delivery. The anticancer activity of POH was investigated in vitro with the use of various lung cancer cell lines. Toxicity was established by a standard MTT assay, and apoptosis markers were analyzed by Western blot. For the detection of POH and PA in lungs and plasma, albino Wistar rats were used that were exposed to POH inhalation. Tissues were subjected to chromatographic separation on an Agilent Zorbax Eclipse XDB C18 column, followed by detection of absorption in the ultraviolet (UV) range. In vitro, POH exerted cytotoxic activity against six different lung tumor cell lines, and apoptotic cell death was indicated by induction of active caspase 3 and cleavage of poly (ADP-ribose) polymerase 1 (PARP1). These results demonstrate that inhalational delivery of POH results in effective biodistribution and metabolism of POH in the systemic circulation. In addition, our study introduces a simple, rapid HPLC-UV method with high accuracy for simultaneous detection of POH and its metabolite PA in plasma, and for sensitive detection of PA in lung tissue, which should prove useful for applications in clinical studies.