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Implementation of a mass canine rabies vaccination campaign in both rural and urban regions in southern Malawi

Author

Listed:
  • Carlos Sánchez-Soriano
  • Andrew D Gibson
  • Luke Gamble
  • Jordana L Burdon Bailey
  • Dagmar Mayer
  • Frederic Lohr
  • Patrick Chikungwa
  • Julius Chulu
  • Ian G Handel
  • Barend M deC Bronsvoort
  • Richard J Mellanby
  • Stella Mazeri

Abstract

Rabies is a devastating zoonotic disease causing nearly 60,000 deaths globally each year. The disease causes Malawi an economic loss of 13 million USD and kills almost 500 people annually. Domestic dogs are the main reservoir for rabies and vaccinating over 70% of the dog population is the most efficient method to reduce its incidence in both humans and canines. However, achieving such coverages is often difficult and depend on many geospatial factors. Rural and pastoral regions are considered difficult to vaccinate efficiently due to low dog densities, and reports of campaigns spanning large areas containing vastly different communities are lacking. This study describes a mass canine vaccination campaign covering rural and urban regions in southern Malawi. The campaign achieved an average vaccination coverage of 83.4% across 3 districts, and vaccinated over 89,000 dogs through a combined static point and door-to-door effort. A dog population of 107,574 dogs was estimated (dog:human ratio of 1:23). The canine population was found to be almost completely owned (99.2%) and mostly kept for security purposes (82.7%). The dogs were mainly adults, males, and not neutered. Regression analysis identified education level and proportion of young dogs as the only factors influencing (positively and negatively, respectively) whether vaccination coverage over 70% was achieved in a region, independently of variables such as population density or poverty. A second regression analysis was performed predicting absolute vaccination coverage. While education level and the proportion of confined dogs were associated with positive vaccination coverage, higher proportions of young animals and female dogs were associated with a decrease in coverage. This study confirms the feasibility of homogeneously vaccinating over 70% of the dogs in a large area including rural and urban communities. These findings can inform the logistics of future campaigns and might be used as a template to facilitate high-number, high-coverage vaccination campaigns to other regions in sub-Saharan Africa.Author summary: Since 99% of human rabies cases are caused by dog bites, mass dog vaccination campaigns are to be the most efficient method to eradicate the disease. The annual vaccination of over 70% of the population is needed to stop transmission of rabies and reduce the incidence of the disease in human and dog populations. Despite international efforts, rabies continues to be prevalent in sub-Saharan Africa, where dog vaccination coverages remain suboptimal. Different communities require different approaches depending on socio-economic and spatial factors. This study describes a mass dog vaccination campaign which achieved homogeneous vaccination coverages of over 70% in 3 districts in southern Malawi, including rural and urban regions, and vaccinated over 89,000 dogs. The dog demographics were studied and compared with reports from other regions of sub-Saharan Africa. Logistic regression models were developed to identify the effect of different factors on coverage. While the influence of several variables on absolute vaccination coverage was determined, only education level and the proportion of young animals were shown to have a significant influence on a region achieving adequate coverage. This study demonstrates the feasibility of vaccinating large number of dogs at high coverage across a wide range of geographical areas in southern Malawi.

Suggested Citation

  • Carlos Sánchez-Soriano & Andrew D Gibson & Luke Gamble & Jordana L Burdon Bailey & Dagmar Mayer & Frederic Lohr & Patrick Chikungwa & Julius Chulu & Ian G Handel & Barend M deC Bronsvoort & Richard J , 2020. "Implementation of a mass canine rabies vaccination campaign in both rural and urban regions in southern Malawi," PLOS Neglected Tropical Diseases, Public Library of Science, vol. 14(1), pages 1-19, January.
  • Handle: RePEc:plo:pntd00:0008004
    DOI: 10.1371/journal.pntd.0008004
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    References listed on IDEAS

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    1. Santosh Kumar & Emily A. Dansereau & Christopher J. L. Murray, 2014. "Does distance matter for institutional delivery in rural India?," Applied Economics, Taylor & Francis Journals, vol. 46(33), pages 4091-4103, November.
    2. Tariku Jibat & Henk Hogeveen & Monique C M Mourits, 2015. "Review on Dog Rabies Vaccination Coverage in Africa: A Question of Dog Accessibility or Cost Recovery?," PLOS Neglected Tropical Diseases, Public Library of Science, vol. 9(2), pages 1-13, February.
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