Abstract: https://www.acpjournals.org/doi/10.7326/M22-2734
URL goes live when the embargo lifts
A model of mpox transmission among students living on a college campus suggests that sustained transmission could be significantly reduced with timely detection and isolation on its own. The model also showed that preventative vaccination of the high-risk population could help limit the size and scope of outbreaks. The findings are published in Annals of Internal Medicine.
In spring and summer 2022, an outbreak of mpox occurred worldwide, largely confined to men who have sex with men. There was concern that mpox could break swiftly into congregate settings and populations with high levels of regular frequent physical contact, like university campus communities.
Researchers from Yale School of Public Health created a stochastic dynamic SEIR (susceptible, exposed but not infectious, infectious, or recovered) model of mpox transmission comprising 6,500 college students in both low- and high-risk mpox transmission groups. The model produced 1,000 simulations of mpox transmission. The authors found that the model estimated an 83 percent likelihood of sustained transmission, or 183 cases on average, if no detection and isolation efforts were implemented. However, in scenarios when detection and isolation were implemented for 20, 50, or 80 percent of cases, the average infections would fall to 117, 37, and 8, respectively. The number of average infections were further reduced in scenarios using both reactive and preemptive vaccination. According to the authors, because their model shows that simple interventions could be highly effective in reducing both the likelihood and the magnitude of potential outbreaks, planning for mpox offers few downsides for administrators.
Media contacts: For an embargoed PDF, please contact Angela Collom at acollom@acponline.org. To speak with corresponding author, Alexandra Savinkina, MSPH, you may contact her at Alexandra.savinkina@yale.edu.