Abstract
Rift Valley fever (RVF) is a vector-borne viral disease of major animal and public health importance. In 2018–19, it caused an epidemic in both livestock and human populations of the island of Mayotte. Using Bayesian modelling approaches, we assessed the spatio-temporal pattern of RVF virus (RVFV) infection in livestock and human populations across the island, and factors shaping it. First, we assessed if (i) livestock movements, (ii) spatial proximity from communes with infected animals, and (iii) livestock density were associated with the temporal sequence of RVFV introduction into Mayotte communes’ livestock populations. Second, we assessed whether the rate of human infection was associated with (a) spatial proximity from and (b) livestock density of communes with infected animals. Our analyses showed that the temporal sequence of RVFV introduction into communes’ livestock populations was associated with livestock movements and spatial proximity from communes with infected animals, with livestock movements being associated with the best model fit. Moreover, the pattern of human cases was associated with their spatial proximity from communes with infected animals, with the risk of human infection sharply increasing if livestock in the same or close communes were infected. This study highlights the importance of understanding livestock movement networks in informing the design of risk-based RVF surveillance programs.
Highlights
Livestock movements are a major pathway for the spread of many infectious diseases, including those with zoonotic potential [1,2,3]
Primarily by the bite of infected mosquitos, whereas direct or indirect contact with infected animals forms the primary route of RVF virus (RVFV) transmission to humans
We investigated factors shaping the spatio-temporal pattern of RVFV infection in livestock and human populations across Mayotte
Summary
Livestock movements are a major pathway for the spread of many infectious diseases, including those with zoonotic potential [1,2,3]. Compared to other livestock infectious diseases, our understanding of the role of livestock movements in the spread of Rift Valley fever (RVF) is limited. In the 2008–10 epidemic, RVFV antibody prevalence patterns suggested that the network of livestock movements influenced the spatial dissemination of the virus among the island’s livestock population [11]. Among the island’s 17 communes (i.e. administrative regions), in the early stage of the 2008– 10 epidemic, seroprevalence was significantly higher in central communes, which formed a group of communes densely connected via livestock movements, than in outer communes, which were weakly connected with one another and received most livestock from central communes. Explicitly modelled, and their potential contribution to RVFV dissemination was not quantified [11]
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