Modeling the 2022 Mpox Outbreak with a Mechanistic Network Model

TL;DR

This study uses a dynamic agent-based network model to simulate mpox spread among MSM in the US, demonstrating that behavior change and vaccination, especially early, significantly reduce infections.

Contribution

Introduces a data-informed mechanistic network model capturing behavioral adaptations and intervention effects on mpox transmission in a realistic population.

Findings

Behavior change and vaccination reduce infections by 30%.

Early intervention decreases infections to 5.5%.

One-time partnerships significantly drive early transmission.

Abstract

We implemented a dynamic agent-based network model to simulate the spread of mpox in a United States-based MSM population. This model allowed us to implement data-informed dynamic network evolution to simulate realistic disease spreading and behavioral adaptations. We found that behavior change, the reduction in one-time partnerships, and widespread vaccination are effective in preventing the transmission of mpox and that earlier intervention has a greater effect, even when only a high-risk portion of the population participates. With no intervention, 16% of the population was infected (25th percentile, 75th percentiles of simulations: 15.3%, 16.6%). With vaccination and behavior change in only the 25% of individuals most likely to have a one-time partner, cumulative infections were reduced by 30%, or a total reduction in nearly 500 infections. Earlier intervention further reduces cumulative infections; beginning vaccination a year before the outbreak results in only 5.5% of men being infected, averting 950 infections or nearly 10% of the total population in our model. We also show that sustained partnerships drive the early outbreak, while one-time partnerships drive transmission after the first initial weeks. The median effective reproductive number, Rt, at t = 0 days is 1.30 for casual partnerships, 1.00 for main, and 0.6 for one-time. By t = 28, the median Rt for one-time partnerships has more than doubled to 1.48, while it decreased for casual and main partnerships: 0.46 and 0.29, respectively. With the ability to model individuals' behavior, mechanistic networks are particularly well suited to studying sexually transmitted infections, the spread and control of which are often governed by individual-level action. Our results contribute valuable insights into the role of different interventions and relationship types in mpox transmission dynamics.