The role of livestock movements in the spread of Rift Valley fever virus in animals and humans in Mayotte, 2018–19

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.

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Human Infection with Rift Valley Fever Virus and Immunity Twelve Years After Single Attack.

Experimental Biology and Medicine ◽

10.3181/00379727-64-15803 ◽

1947 ◽

Vol 64 (4) ◽

pp. 385-389 ◽

Cited By ~ 32

Author(s):

A. B. Sabin ◽

R. W. Blumberg

Keyword(s):

Rift Valley ◽

Rift Valley Fever ◽

Rift Valley Fever Virus ◽

Human Infection ◽

Fever Virus ◽

Valley Fever

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Detection of Rift Valley Fever Virus Interepidemic Activity in Lower Moshi area of Kilimanjaro Region, North Eastern Tanzania: A Community Survey

10.21203/rs.3.rs-143963/v1 ◽

2021 ◽

Author(s):

Jaffu Chilongola ◽

Medard Kumalija ◽

Rule Budodo ◽

Pius Horumpende ◽

Sixbert Mkumbaye ◽

...

Keyword(s):

Public Health ◽

Infection Rate ◽

Rift Valley ◽

Rift Valley Fever ◽

Rift Valley Fever Virus ◽

Health Impact ◽

Fever Virus ◽

Public Health Importance ◽

Valley Fever ◽

Significant Difference

Abstract Background: Rift Valley fever virus (RVFV) is a zoonotic arbovirus of public health impact infecting livestock, wildlife, and humans mainly in Africa and other parts of the world. Despite its public health importance, mechanisms of RVFV maintenance during inter-epidemic (IEPS) periods and potentially spread to new areas remain unclear.We aimed to comparatively examine exposure to RVFV and RVFV infection among humans, goats and mosquitoes in an agro-pastoral community in Lower Moshi area of Moshi rural district.Results:Results show that the male gender was related to RVFV seropositivity (χ2 = 5.351; p=0.030). Being 50 years and above was related to seropositivity (χ2=14.430; p=0.006) whereas bed net use, larger numbers of persons living in the same house (>7 persons) and RVFV seropositivity in goats were related to higher seropositivity to RVFV among humans (χ2=6.003; p=0.021, χ2=23.213; p=0.000 and 27.053; p=0.000), respectively.RVFV antibody concentrations were only marginally higher in humans without statistically significant difference [t (112) =0.526; p=0.60)]. By the use of RT-qPCR, goats exhibited the highest RVFV infection rate of 4.1%, followed by humans (2.6%), Aedes spp(2.3%), and Culex spp(1.5%). Conclusions: In the absence of RVFV infection data in areas nearby the study site, our findings suggest Lower Moshi area as a potential hotspot for RVF, posing the danger of being a source of RVFV spread to other areas. Goats had the highest infection rate, suggesting goats as important hosts in the virus maintenance during IEPs. We recommend the design and implementation of strategies that will warrant effective active surveillance of RVF through the identification of RVF hotspots for targeted control of RVF.

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Genetic Reassortment of Rift Valley Fever Virus in Nature

Journal of Virology ◽

10.1128/jvi.73.10.8196-8200.1999 ◽

1999 ◽

Vol 73 (10) ◽

pp. 8196-8200 ◽

Cited By ~ 86

Author(s):

A. A. Sall ◽

P. M. de A. Zanotto ◽

O. K. Sene ◽

H. G. Zeller ◽

J. P. Digoutte ◽

...

Keyword(s):

East Africa ◽

Rift Valley ◽

Rift Valley Fever ◽

Rift Valley Fever Virus ◽

Statistical Tests ◽

Direct Sequencing ◽

Fever Virus ◽

Human Populations ◽

Sylvatic Cycle ◽

Valley Fever

ABSTRACT Rift Valley fever virus (RVFV), a phlebovirus of theBunyaviridae family, is an arthropod-borne virus which emerges periodically throughout Africa, emphasizing that it poses a major threat for animal and human populations. To assess the genetic variability of RVFV, several isolates from diverse localities of Africa were investigated by means of reverse transcription-PCR followed by direct sequencing of a region of the small (S), medium (M), and large (L) genomic segments. Phylogenetic analysis showed the existence of three major lineages corresponding to geographic variants from West Africa, Egypt, and Central-East Africa. However, incongruences detected between the L, M, and S phylogenies suggested that genetic exchange via reassortment occurred between strains from different lineages. This hypothesis, depicted by parallel phylogenies, was further confirmed by statistical tests. Our findings, which strongly suggest exchanges between strains from areas of endemicity in West and East Africa, strengthen the potential existence of a sylvatic cycle in the tropical rain forest. This also emphasizes the risk of generating uncontrolled chimeric viruses by using live attenuated vaccines in areas of endemicity.

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Evaluation of pathways for release of Rift Valley fever virus into domestic ruminant livestock, ruminant wildlife, and human populations in the continental United States

Journal of the American Veterinary Medical Association ◽

10.2460/javma.232.4.514 ◽

2008 ◽

Vol 232 (4) ◽

pp. 514-529 ◽

Cited By ~ 52

Author(s):

Thomas R. Kasari ◽

Deborah A. Carr ◽

Tracey V. Lynn ◽

J. Todd Weaver

Keyword(s):

United States ◽

Rift Valley ◽

Rift Valley Fever ◽

Rift Valley Fever Virus ◽

Fever Virus ◽

Human Populations ◽

Domestic Ruminant ◽

Valley Fever ◽

Ruminant Livestock

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Has Rift Valley fever virus evolved with increasing severity in human populations in East Africa?

Emerging Microbes & Infections ◽

10.1038/emi.2016.57 ◽

2016 ◽

Vol 5 (1) ◽

pp. 1-10 ◽

Cited By ~ 22

Author(s):

Marycelin Baba ◽

Daniel K Masiga ◽

Rosemary Sang ◽

Jandouwe Villinger

Keyword(s):

East Africa ◽

Rift Valley ◽

Rift Valley Fever ◽

Rift Valley Fever Virus ◽

Fever Virus ◽

Human Populations ◽

Valley Fever

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Rift Valley Fever Virus Lacking the NSs and NSm Genes Is Highly Attenuated, Confers Protective Immunity from Virulent Virus Challenge, and Allows for Differential Identification of Infected and Vaccinated Animals

Journal of Virology ◽

10.1128/jvi.02501-07 ◽

2008 ◽

Vol 82 (6) ◽

pp. 2681-2691 ◽

Cited By ~ 111

Author(s):

Brian H. Bird ◽

César G. Albariño ◽

Amy L. Hartman ◽

Bobbie Rae Erickson ◽

Thomas G. Ksiazek ◽

...

Keyword(s):

Rift Valley ◽

Rift Valley Fever ◽

Fluorescent Protein ◽

Rift Valley Fever Virus ◽

Severe Disease ◽

Virus Genome ◽

Human Infection ◽

High Dose ◽

Valley Fever

ABSTRACT Rift Valley fever (RVF) virus is a mosquito-borne human and veterinary pathogen associated with large outbreaks of severe disease throughout Africa and more recently the Arabian peninsula. Infection of livestock can result in sweeping “abortion storms” and high mortality among young animals. Human infection results in self-limiting febrile disease that in ∼1 to 2% of patients progresses to more serious complications including hepatitis, encephalitis, and retinitis or a hemorrhagic syndrome with high fatality. The virus S segment-encoded NSs and the M segment-encoded NSm proteins are important virulence factors. The development of safe, effective vaccines and tools to screen and evaluate antiviral compounds is critical for future control strategies. Here, we report the successful reverse genetics generation of multiple recombinant enhanced green fluorescent protein-tagged RVF viruses containing either the full-length, complete virus genome or precise deletions of the NSs gene alone or the NSs/NSm genes in combination, thus creating attenuating deletions on multiple virus genome segments. These viruses were highly attenuated, with no detectable viremia or clinical illness observed with high challenge dosages (1.0 × 104 PFU) in the rat lethal disease model. A single-dose immunization regimen induced robust anti-RVF virus immunoglobulin G antibodies (titer, ∼1:6,400) by day 26 postvaccination. All vaccinated animals that were subsequently challenged with a high dose of virulent RVF virus survived infection and could be serologically differentiated from naïve, experimentally infected animals by the lack of NSs antibodies. These rationally designed marker RVF vaccine viruses will be useful tools for in vitro screening of therapeutic compounds and will provide a basis for further development of RVF virus marker vaccines for use in endemic regions or following the natural or intentional introduction of the virus into previously unaffected areas.

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