Infection in Social Networks: Using Network Analysis to Identify High-Risk Individuals

doi:10.1093/aje/kwi308

American Journal of Epidemiology Advance Access originally published online on September 21, 2005
American Journal of Epidemiology 2005 162(10):1024-1031; doi:10.1093/aje/kwi308

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American Journal of Epidemiology Copyright © 2005 by the Johns Hopkins Bloomberg School of Public Health All rights reserved; printed in U.S.A.

Practice of Epidemiology

Infection in Social Networks: Using Network Analysis to Identify High-Risk Individuals

R. M. Christley¹, G. L. Pinchbeck¹, R. G. Bowers², D. Clancy², N. P. French¹, R. Bennett² and J. Turner¹

¹ Epidemiology Group, Faculty of Veterinary Science, University of Liverpool, Liverpool, United Kingdom
² Department of Mathematics, Faculty of Science, University of Liverpool, Liverpool, United Kingdom

Correspondence to Dr. Robert M. Christley, Epidemiology Group, Faculty of Veterinary Science, University of Liverpool, Leahurst, Neston CH64 7TE, United Kingdom (e-mail: robc{at}liverpool.ac.uk).

Simulation studies using susceptible-infectious-recovered modelswere conducted to estimate individuals' risk of infection andtime to infection in small-world and randomly mixing networks.Infection transmitted more rapidly but ultimately resulted infewer infected individuals in the small-world, compared withthe random, network. The ability of measures of network centralityto identify high-risk individuals was also assessed. "Centrality"describes an individual's position in a population; numerousparameters are available to assess this attribute. Here, theauthors use the centrality measures degree (number of contacts),random-walk betweenness (a measure of the proportion of timesan individual lies on the path between other individuals), shortest-pathbetweenness (the proportion of times an individual lies on theshortest path between other individuals), and farness (the sumof the number of steps between an individual and all other individuals).Each was associated with time to infection and risk of infectionin the simulated outbreaks. In the networks examined, degree(which is the most readily measured) was at least as good asother network parameters in predicting risk of infection. Identificationof more central individuals in populations may be used to informsurveillance and infection control strategies.

disease outbreaks; disease transmission; infection; population surveillance

Abbreviations: HIV, human immunodeficiency virus; R₀, basic reproductive number

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