Skip to Content

Search: {{$root.lsaSearchQuery.q}}, Page {{$root.page}}

A human-environment systems approach to prioritizing COVID-19 vaccination

Madhur Anand - University of Guelph and Chris Bauch - University of Waterloo
Thursday, January 28, 2021
11:30 AM-1:00 PM
Virtual
SEMINAR LINK: myumi.ch/v2ZYv

Madhur Anand - School of Environmental Sciences
Chris Bauch - Department of Math, Applied Math

Join us THURSDAY January 28 at 11:30 am for our first VIRTUAL SEMINAR of 2021.

Abstract:
During the COVID-19 pandemic, authorities must decide which groups to prioritize for vaccination in an evolving landscape where infection dynamics and population mitigating behavior are mutually connected in a feedback loop (i.e., human-environment interactions). Moreover, if we discover that vaccines prevent not only disease but also transmission, authorities must factor vaccine indirect protection (vaccine-generated herd immunity) into their considerations, which sometimes suggest a strategy of targeting groups that cause the most transmission. In this talk we will use a mathematical model to address the question: which age group should be prioritized for COVID-19 vaccination in order to prevent the most deaths? We developed an age-structured human-environment mathematical model for Ontario, Canada, where evolutionary game theory describes how population adherence to non-pharmaceutical interventions (NPIs) responds to case incidence. Schools and workplaces are also closed and re-opened based on reported cases. We compared strategies of vaccinating 60+ year-olds first; <20 year-olds first; uniformly by age; and a novel contact-based strategy. The last three strategies interrupt transmission while the first targets a vulnerable group. The model shows realistic dynamics whereby case notifications, NPI adherence, and lockdown undergo successive waves that interact with timing of the vaccine program to determine the relative effectiveness of the four strategies. We identify a parameter regime where transmission-interrupting strategies are more effective in preventing deaths than prioritizing older age groups. We conclude that using SARS-CoV-2 vaccines to interrupt transmission may prevent more deaths than prioritizing vulnerable age groups, depending on the time course of the pandemic in a given population.
Building: Off Campus Location
Location: Virtual
Event Link:
Website:
Event Type: Livestream / Virtual
Tags: Biology, Biosciences, Coronavirus, Game Theory, Information and Technology, Interdisciplinary, Natural Sciences, Research, seminar
Source: Happening @ Michigan from The Center for the Study of Complex Systems, The College of Literature, Science, and the Arts, Department of Physics