AI Article Synopsis
- Dog-transmitted rabies accounts for over 98% of human cases globally, especially affecting developing countries where vaccination efforts often leave gaps.
- A study conducted in the Central African Republic used a metapopulation model to analyze rabies spread, revealing that long-range dog movements are crucial for ongoing outbreaks, despite initial assumptions that nearby areas could independently sustain the epidemic.
- The research indicates that controlling long-distance travel of dogs could significantly reduce rabies persistence, with potential applications in other regions facing similar challenges.
Article Abstract
Dog-transmitted rabies is responsible for more than 98% of human cases worldwide, remaining a persistent problem in developing countries. Mass vaccination targets predominantly major cities, often compromising disease control due to re-introductions. Previous work suggested that areas neighboring cities may behave as the source of these re-introductions. To evaluate this hypothesis, we introduce a spatially explicit metapopulation model for rabies diffusion in Central African Republic. Calibrated on epidemiological data for the capital city, Bangui, the model predicts that long-range movements are essential for continuous re-introductions of rabies-exposed dogs across settlements, eased by the large fluctuations of the incubation period. Bangui's neighborhood, instead, would not be enough to self-sustain the epidemic, contrary to previous expectations. Our findings suggest that restricting long-range travels may be very efficient in limiting rabies persistence in a large and fragmented dog population. Our framework can be applied to other geographical contexts where dog rabies is endemic.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7274467 | PMC |
| http://dx.doi.org/10.1371/journal.pntd.0008317 | DOI Listing |
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