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Abstract
Increasing injection of heroin and prescription opioids have led to increases in the incidence of hepatitis C virus (HCV) infections in US young adults since the early 2000s. How best to interrupt transmission and decrease HCV prevalence in young people who inject drugs (PWID) is uncertain.We developed an age-stratified ordinary differential equation HCV transmission model of PWID aged 15–64, which we fit to Michigan HCV surveillance data among young PWID aged 15–29. We used Latin hypercube sampling to fit to data under 10,000 plausible model parameterizations. We used the best-fitting 10% of simulations to predict the potential impact of primary (reducing injection initiation), secondary (increasing cessation, reducing injection partners, or reducing injection drug use relapse), and tertiary (HCV treatment) interventions (over the period 2017–2030) on acute and chronic HCV cases by the year 2030.Treating 3 per 100 current and former PWID per year could reduce chronic HCV by 27.3% (range: 18.7–30.3%) and acute HCV by 23.6% (range: 6.7–29.5%) by 2030 among PWID aged 15–29 if 90% are cured (i.e. achieved sustained virologic response [SVR] to treatment). Reducing the number of syringe sharing partners per year by 10% was predicted to reduce chronic HCV by 15.7% (range: 9.4–23.8%) and acute cases by 21.4% (range: 14.2–32.3%) among PWID aged 15–29 by 2030. In simulations of combinations of interventions, reducing injection initiation, syringe sharing, and relapse rates each by 10% while increasing cessation rates by 10% predicted a 27.7% (range: 18.0–39.7%) reduction in chronic HCV and a 38.4% (range: 28.3–53.3%) reduction in acute HCV.Our results highlight the need for HCV treatment among both current and former PWID and the scale up of both primary and secondary interventions to concurrently reduce HCV prevalence and incidence in Michigan.
Highlights
We developed and implemented an hepatitis C virus (HCV) transmission model among people who inject drugs (PWID) informed by Michigan HCV surveillance data, and leveraged our model to evaluate the potential benefits of primary, secondary, and tertiary interventions for reducing HCV prevalence and incidence
Simulation results suggested that HCV treatment could be a highly effective strategy to reduce HCV prevalence among young PWID, especially when both former and current PWID receive treatment
We found no differences in the predicted impact of treatment when PWID continued to share syringes and contribute to transmission during treatment, supporting current recommendations that all PWID be provided treatment, regardless of their injection drug use (IDU) behaviors.[13]
Summary
The epidemiology of hepatitis C virus (HCV) infections in the United States (US) has changed dramatically over the last decade, with notable increases in HCV incidence among young people aged approximately 15–29 years.[1,2,3,4,5] These changes in incidence have been associated with increases in opioid and injection drug use (IDU).[1,2,3,4,5] In the US, up to 2.6% of adults have injected drugs in their lifetime and more than half of US people who inject drugs (PWID) have HCV infection.[6,7,8,9,10,11] IDU is the primary risk factor for new HCV infections in the US.[5]. In the US, transmission modeling studies have shaped HCV screening, treatment, and prevention policies by increasing our understanding of HCV transmission dynamics, forecasting prevalence of HCV-related liver diseases, and simulating the impact, costs, and benefits of highly effective direct-acting antivirals (DAAs) among PWID and other groups disparately burdened by HCV.[12,14,15,16,17,18,19] Multiple studies support the cost-effectiveness of treating PWID with DAAs to interrupt HCV transmission, a strategy known as ‘treatment as prevention.’[15,16,18,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43]
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