Publication

Predictive Spatial Dynamics and Strategic Planning for Raccoon Rabies Emergence in Ohio

Downloadable Content

Persistent URL
Last modified
  • 02/20/2025
Type of Material
Authors
    Colin A Russell, University of CambridgeDavid L Smith, Fogarty International CenterJames E Childs, Emory UniversityLeslie Real, Emory University
Language
  • English
Date
  • 2005-03
Publisher
  • Public Library of Science
Publication Version
Copyright Statement
  • © 2005 Real et al.
License
Final Published Version (URL)
Title of Journal or Parent Work
ISSN
  • 1544-9173
Volume
  • 3
Issue
  • 3
Start Page
  • e88
End Page
  • e88
Grant/Funding Information
  • This research was funded through National Institutes of Health grant RO1 AI047498 and USDA grant 0371004129 CA to LAR and by a Gates Cambridge Trust Fellowship to CAR.
Abstract
  • Rabies is an important public health concern in North America because of recent epidemics of a rabies virus variant associated with raccoons. The costs associated with surveillance, diagnostic testing, and post-exposure treatment of humans exposed to rabies have fostered coordinated efforts to control rabies spread by distributing an oral rabies vaccine to wild raccoons. Authorities have tried to contain westward expansion of the epidemic front of raccoon-associated rabies via a vaccine corridor established in counties of eastern Ohio, western Pennsylvania, and West Virginia. Although sporadic cases of rabies have been identified in Ohio since oral rabies vaccine distribution in 1998, the first evidence of a significant breach in this vaccine corridor was not detected until 2004 in Lake County, Ohio. Herein, we forecast the spatial spread of rabies in Ohio from this breach using a stochastic spatial model that was first developed for exploratory data analysis in Connecticut and next used to successfully hind-cast wave-front dynamics of rabies spread across New York. The projections, based on expansion from the Lake County breach, are strongly affected by the spread of rabies by rare, but unpredictable long-distance translocation of rabid raccoons; rabies may traverse central Ohio at a rate 2.5-fold greater than previously analyzed wildlife epidemics. Using prior estimates of the impact of local heterogeneities on wave-front propagation and of the time lag between surveillance-based detection of an initial rabies case to full-blown epidemic, specific regions within the state are identified for vaccine delivery and expanded surveillance effort.
Author Notes
Research Categories
  • Health Sciences, Public Health
  • Biology, General
  • Health Sciences, Epidemiology

Tools

Relations

In Collection:

Items

Thumbnail Title File Description Date Uploaded Visibility Actions
file details Publication File - tw68b.pdf Primary Content 2025-02-06 Public Download