The illusion of personal health decisions for infectious disease management: disease spread in social contact networks

Author:

Michalska-Smith Matthew12ORCID,Enns Eva A.3ORCID,White Lauren A.4ORCID,Gilbertson Marie L. J.5ORCID,Craft Meggan E.1ORCID

Affiliation:

1. Department of Ecology, Evolution and behavior, University of Minnesota, Minneapolis, MN, USA

2. Department of Plant Pathology, University of Minnesota, Minneapolis, MN, USA

3. School of Public Health, University of Minnesota, Minneapolis, MN, USA

4. National Socio-Environmental Synthesis Center, University of Maryland, Annapolis, MD, USA

5. Department of Veterinary Population Medicine, University of Minnesota, Minneapolis, MN, USA

Abstract

Close contacts between individuals provide opportunities for the transmission of diseases, including COVID-19. While individuals take part in many different types of interactions, including those with classmates, co-workers and household members, it is the conglomeration of all of these interactions that produces the complex social contact network interconnecting individuals across the population. Thus, while an individual might decide their own risk tolerance in response to a threat of infection, the consequences of such decisions are rarely so confined, propagating far beyond any one person. We assess the effect of different population-level risk-tolerance regimes, population structure in the form of age and household-size distributions, and different interaction types on epidemic spread in plausible human contact networks to gain insight into how contact network structure affects pathogen spread through a population. In particular, we find that behavioural changes by vulnerable individuals in isolation are insufficient to reduce those individuals’ infection risk and that population structure can have varied and counteracting effects on epidemic outcomes. The relative impact of each interaction type was contingent on assumptions underlying contact network construction, stressing the importance of empirical validation. Taken together, these results promote a nuanced understanding of disease spread on contact networks, with implications for public health strategies.

Funder

University of Minnesota Informatics Institute

Division of Environmental Biology

NIH Office of the Director

Division of Biological Infrastructure

Van Sloun Foundation

University of Minnesota Office of Academic Clinical Affairs

Publisher

The Royal Society

Subject

Multidisciplinary

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