Saved in:
Bibliographic Details
Main Authors: Cerdeira, J. Orestes, Chalub, Fabio A. C. C., Hansen, Matheus
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.00572
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866918312286355456
author Cerdeira, J. Orestes
Chalub, Fabio A. C. C.
Hansen, Matheus
author_facet Cerdeira, J. Orestes
Chalub, Fabio A. C. C.
Hansen, Matheus
contents The pursuit of strategies that minimize the number of individuals needing vaccination to control an outbreak is a well-established area of study in mathematical epidemiology. However, for certain diseases, public policy tends to prioritize immunizing vulnerable individuals over epidemic control. As a result, optimal vaccination strategies may not always be effective in supporting real-world public policies. A similar situation happens when a new vaccine is introduced and is in short supply, as target priority groups for vaccination have to be defined. In this work, we focus on a disease that results in long-term immunity and spreads through a heterogeneous population, represented by a contact network. We study four well-known group centrality measures and show that the GED-Walk offers a reliable means of estimating the impact of vaccinating specific groups of individuals, even in suboptimal cases. Additionally, we depart from the search for target individuals to be vaccinated and provide proxies for identifying optimal groups for vaccination. While the GED-Walk is the most useful centrality measure for suboptimal cases, the betweenness (a related, but different centrality measure) stands out when looking for optimal groups. This indicates that optimal vaccination is not concerned with breaking the largest number of transmission routes, but interrupting geodesic ones.
format Preprint
id arxiv_https___arxiv_org_abs_2504_00572
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Group centrality in optimal and suboptimal vaccination for epidemic models in contact networks
Cerdeira, J. Orestes
Chalub, Fabio A. C. C.
Hansen, Matheus
Populations and Evolution
05C90, 90C35, 92D30
G.2.2
The pursuit of strategies that minimize the number of individuals needing vaccination to control an outbreak is a well-established area of study in mathematical epidemiology. However, for certain diseases, public policy tends to prioritize immunizing vulnerable individuals over epidemic control. As a result, optimal vaccination strategies may not always be effective in supporting real-world public policies. A similar situation happens when a new vaccine is introduced and is in short supply, as target priority groups for vaccination have to be defined. In this work, we focus on a disease that results in long-term immunity and spreads through a heterogeneous population, represented by a contact network. We study four well-known group centrality measures and show that the GED-Walk offers a reliable means of estimating the impact of vaccinating specific groups of individuals, even in suboptimal cases. Additionally, we depart from the search for target individuals to be vaccinated and provide proxies for identifying optimal groups for vaccination. While the GED-Walk is the most useful centrality measure for suboptimal cases, the betweenness (a related, but different centrality measure) stands out when looking for optimal groups. This indicates that optimal vaccination is not concerned with breaking the largest number of transmission routes, but interrupting geodesic ones.
title Group centrality in optimal and suboptimal vaccination for epidemic models in contact networks
topic Populations and Evolution
05C90, 90C35, 92D30
G.2.2
url https://arxiv.org/abs/2504.00572