scholarly journals A dynamic, climate-driven model of Rift Valley fever

2016 ◽  
Vol 11 (1s) ◽  
Author(s):  
Joseph Leedale ◽  
Anne E. Jones ◽  
Cyril Caminade ◽  
Andrew P. Morse
Keyword(s):  
Rift Valley ◽  
Rift Valley Fever ◽  
Climatic Factors ◽  
Model Development ◽  
Eastern Africa ◽  
Climate Data ◽  
Valley Fever ◽  
Model Driven ◽  
Spatio Temporal ◽  
The Impact

Outbreaks of Rift Valley fever (RVF) in eastern Africa have previously occurred following specific rainfall dynamics and flooding events that appear to support the emergence of large numbers of mosquito vectors. As such, transmission of the virus is considered to be sensitive to environmental conditions and therefore changes in climate can impact the spatiotemporal dynamics of epizootic vulnerability. Epidemiological information describing the methods and parameters of RVF transmission and its dependence on climatic factors are used to develop a new spatio-temporal mathematical model that simulates these dynamics and can predict the impact of changes in climate. The Liverpool RVF (LRVF) model is a new dynamic, process-based model driven by climate data that provides a predictive output of geographical changes in RVF outbreak susceptibility as a result of the climate and local livestock immunity. This description of the multi-disciplinary process of model development is accessible to mathematicians, epidemiological modellers and climate scientists, uniting dynamic mathematical modelling, empirical parameterisation and state-of-the-art climate information.

scholarly journals The epidemiology and socio-economic impact of Rift Valley fever epidemics in Tanzania: A review

2012 ◽  
Vol 79 (2) ◽  
Author(s):  
Calvin Sindato ◽  
Esron Karimuribo ◽  
E.G. Mboera
Keyword(s):  
Economic Impact ◽  
Rift Valley ◽  
Rift Valley Fever ◽  
Climatic Factors ◽  
Large Population ◽  
Economic Losses ◽  
Extensive Literature ◽  
Animal Movements ◽  
Valley Fever ◽  
Socio Economic Impact

A review was conducted to provide comprehensive update on Rift Valley fever (RVF) in Tanzania, with particular attention devoted to trend of occurrence, epidemiological factors, socio-economic impact and measures which were applied to its control. Information presented in this paper was obtained through extensive literature review. Rift Valley fever was documented for the first time in Tanzania in 1977. This was followed by epidemics in 1997 and 2007. Contrary to the latest epidemic in 2007 sporadic cases of RVF during the previous epidemics were confined to mainly livestock and mostly affecting northern parts of Tanzania. The latest disease epidemic expanded to cover wider areas (mostly northern and central zones) of the country involving both human and domestic ruminants. During the latest disease outbreak 52.4% (n = 21) of regions in Tanzania mainland were affected and majority (72.7, n = 11) of the regions had concurrent infections in human and animals. Phylogenetic comparison of nucleotide and amimo acid sequences revealed different virus strains between Kenya and Tanzania.Epidemiological factors that were considered responsible for the previous RVF epidemics in Tanzania included farming systems, climatic factors, vector activities and presence of large population of ruminant species, animal movements and food consumption habits. Majority of the RVF positive cases in the latest epidemic were livestock under pastoral and agro-pastoral farming systems.The disease caused serious effects on rural people’s food security and household nutrition and on direct and indirect losses to livestock producers in the country. Psycho-social distress that communities went through was enormous, which involved the thinking about the loss of their family members and/or relatives, their livestock and crop production. Socially, the status of most livestock producers was eroded in their communities.Cessation of lucrative trade in ruminants resulted in serious economic losses to the populations who were totally dependent upon this income. Livestock internal market flows drastically dropped by 37% during latest epidemic. Rift Valley fever epidemics had dramatic impact of RVF outbreak on the international animal trade in which there was a 54% decline in exports equivalent to loss of $352 750.00. The estimate of loss as a result of deaths for cattle was $4 243 250.00 whereas that of goats and sheep was $2 202 467.00.Steps taken to combat epidemics included restriction of animal movements, ban of the slaughter of cattle and vaccination of livestock and health education.From past epidemics we have learnt that each subsequent outbreak had expanded to cover wider areas of the country. The disease had dramatic socio-economic impacts both at community and nation at large. The main challenges related to the control of RVF outbreaks included lack of preparedness plan for RVF, poor coordination and information transmission, limited facilities and manpower for RVF outbreak intervention. Control of the 2007 RVF epidemic was largely the result of animal and human health agencies working in an integrated manner.

scholarly journals Modeling the Impact of Climate Change on the Dynamics of Rift Valley Fever

2014 ◽  
Vol 2014 ◽  
pp. 1-12 ◽  
Author(s):  
Saul C. Mpeshe ◽  
Livingstone S. Luboobi ◽  
Yaw Nkansah-Gyekye
Keyword(s):  
Climate Change ◽  
Rift Valley ◽  
Rift Valley Fever ◽  
Model Parameters ◽  
Climatic Data ◽  
Elasticity Analysis ◽  
Expected Number ◽  
Valley Fever ◽  
Temperature And Precipitation ◽  
The Impact

A deterministic SEIR model of rift valley fever (RVF) with climate change parameters was considered to compute the basic reproduction numberℛ0and investigate the impact of temperature and precipitation onℛ0. To study the effect of model parameters toℛ0, sensitivity and elasticity analysis ofℛ0were performed. When temperature and precipitation effects are not considered,ℛ0is more sensitive to the expected number of infectedAedesspp. due to one infected livestock and more elastic to the expected number of infected livestock due to one infectedAedesspp. When climatic data are used,ℛ0is found to be more sensitive and elastic to the expected number of infected eggs laid byAedesspp. via transovarial transmission, followed by the expected number of infected livestock due to one infectedAedesspp. and the expected number of infectedAedesspp. due to one infected livestock for both regions Arusha and Dodoma. These results call for attention to parameters regarding incubation period, the adequate contact rate ofAedesspp. and livestock, the infective periods of livestock andAedesspp., and the vertical transmission inAedesspecies.

scholarly journals Pathologic Studies on Suspect Animal and Human Cases of Rift Valley Fever from an Outbreak in Eastern Africa, 2006–2007

2010 ◽  
Vol 83 (2_Suppl) ◽  
pp. 38-42 ◽  
Author(s):  
Wun-Ju Shieh ◽  
Robert F. Breiman ◽  
Fausta Mosha ◽  
Peter Bloland ◽  
Carol Y. Rao ◽  
...  
Keyword(s):  
Rift Valley ◽  
Rift Valley Fever ◽  
Eastern Africa ◽  
Valley Fever

scholarly journals Estimation of Rift Valley fever virus spillover to humans during the Mayotte 2018–2019 epidemic

2020 ◽  
Vol 117 (39) ◽  
pp. 24567-24574 ◽  
Author(s):  
Raphaëlle Métras ◽  
W. John Edmunds ◽  
Chouanibou Youssouffi ◽  
Laure Dommergues ◽  
Guillaume Fournié ◽  
...  
Keyword(s):  
Rift Valley ◽  
Direct Contact ◽  
Rift Valley Fever ◽  
Rift Valley Fever Virus ◽  
Animal Health ◽  
Hemorrhagic Fever ◽  
Control Measures ◽  
Similar Reduction ◽  
Valley Fever ◽  
The Impact

Rift Valley fever (RVF) is an emerging, zoonotic, arboviral hemorrhagic fever threatening livestock and humans mainly in Africa. RVF is of global concern, having expanded its geographical range over the last decades. The impact of control measures on epidemic dynamics using empirical data has not been assessed. Here, we fitted a mathematical model to seroprevalence livestock and human RVF case data from the 2018–2019 epidemic in Mayotte to estimate viral transmission among livestock, and spillover from livestock to humans through both direct contact and vector-mediated routes. Model simulations were used to assess the impact of vaccination on reducing the epidemic size. The rate of spillover by direct contact was about twice as high as vector transmission. Assuming 30% of the population were farmers, each transmission route contributed to 45% and 55% of the number of human infections, respectively. Reactive vaccination immunizing 20% of the livestock population reduced the number of human cases by 30%. Vaccinating 1 mo later required using 50% more vaccine doses for a similar reduction. Vaccinating only farmers required 10 times as more vaccine doses for a similar reduction in human cases. Finally, with 52.0% (95% credible interval [CrI] [42.9–59.4]) of livestock immune at the end of the epidemic wave, viral reemergence in the next rainy season (2019–2020) is unlikely. Coordinated human and animal health surveillance, and timely livestock vaccination appear to be key to controlling RVF in this setting. We furthermore demonstrate the value of a One Health quantitative approach to surveillance and control of zoonotic infectious diseases.

scholarly journals Drivers of Rift Valley fever virus persistence and the impact of control measures in a spatially heterogeneous landscape: the case of the Comoros archipelago, 2004–2015

2021 ◽  
Author(s):  
Warren S. D. Tennant ◽  
Eric Cardinale ◽  
Catherine Cêtre-Sossah ◽  
Youssouf Moutroifi ◽  
Gilles Le Godais ◽  
...  
Keyword(s):  
Rift Valley ◽  
Rift Valley Fever ◽  
Rift Valley Fever Virus ◽  
Virus Transmission ◽  
Control Measures ◽  
Virus Persistence ◽  
Valley Fever ◽  
Grande Comore ◽  
The Many ◽  
The Impact

AbstractRift Valley fever (RVF) is one of the many zoonotic arboviral haemorrhagic fevers present in Africa. The ability of the pathogen to persist in multiple geographically distinct regions has raised concerns about its potential for spread to and persistence within currently disease-free areas. However, the mechanisms for which RVF virus persistence occurs at both local and broader geographical scales have yet to be fully understood and rigorously quantified. Here, we developed a mathematical metapopulation model describing RVF virus transmission in livestock across the four islands of the Comoros archipelago and fitted this model in a Bayesian framework to surveillance data conducted in livestock across those islands between 2004 and 2015. In doing so, we estimated the importance of island-specific environmental factors and animal movements between those islands on the persistence of RVF virus in the archipelago, and we further tested the impact of different control scenarios on reducing disease burden. We demonstrated that the archipelago network was able to sustain viral transmission over 10 years after assuming only one introduction event during early 2007. Movement restrictions were only useful to control the disease in Anjouan and Mayotte, as Grande Comore and Mohéli were able to self-sustain RVF viral persistence, probably due to local environmental conditions that are more favourable for vectors. We also evidenced that repeated outbreaks during 2004-2020 may have gone under-detected by local surveillance in Grande Comore and Mohéli. Strengthened longterm and coordinated surveillance would enable the detection of viral re-emergence and evaluation of different relevant vaccination programmes.

scholarly journals Estimation of Rift Valley fever virus spillover to humans during the Mayotte 2018-2019 epidemic

2020 ◽  
Author(s):  
Raphaëlle Métras ◽  
W John Edmunds ◽  
Chouanibou Youssouffi ◽  
Laure Dommergues ◽  
Guillaume Fournié ◽  
...  
Keyword(s):  
Mathematical Model ◽  
Rift Valley ◽  
Rift Valley Fever ◽  
Disease Risk ◽  
Rift Valley Fever Virus ◽  
Animal Health ◽  
Control Measures ◽  
Real World Data ◽  
Valley Fever ◽  
The Impact

AbstractRift Valley fever (RVF) is an emerging, zoonotic, arboviral haemorrhagic fever threatening livestock and humans mainly in Africa. RVF is of global concern, having expanded its geographical range over the last decades. The impact of control measures on epidemic dynamics using empirical data has not been assessed. Here, we combined seroprevalence livestock and human RVF case data from the 2018-2019 epidemic in Mayotte, with a dynamic mathematical model. Using a Bayesian inference framework, we estimated viral transmission potential amongst livestock, and spillover from livestock to humans, through both direct contact and vector-mediated routes. Model simulations were used to assess the impact of vaccination on reducing the human epidemic size. Reactive vaccination immunising 20% of the livestock population reduced the number of human cases by 30%. To achieve a similar impact, delaying the vaccination by one month required using 50% more vaccine doses, and vaccinating only humans required 20 times as more as the number of doses for livestock. Finally, with 53.92% (95%CrI [44.76-61.29]) of livestock estimated to be immune at the end of the epidemic wave, viral re-emergence in the next rainy season (2019-2020) was unlikely. We present the first mathematical model for RVF fitted to real-world data to estimate virus transmission parameters, and able to inform potential control programmes. Human and animal health surveillance, and timely livestock vaccination appear to be key in reducing disease risk in humans. We furthermore demonstrate the value of a One Health quantitative approach to surveillance and control of zoonotic infectious diseases.

scholarly journals Sequential Rift Valley Fever Outbreaks in Eastern Africa Caused by Multiple Lineages of the Virus

2010 ◽  
Vol 203 (5) ◽  
pp. 655-665 ◽  
Author(s):  
Leonard Nderitu ◽  
John S. Lee ◽  
Jared Omolo ◽  
Sylvia Omulo ◽  
Monica L. O'Guinn ◽  
...  
Keyword(s):  
Rift Valley ◽  
Rift Valley Fever ◽  
Eastern Africa ◽  
Valley Fever

scholarly journals Modelling the persistence and control of Rift Valley fever virus in a spatially heterogeneous landscape

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Warren S. D. Tennant ◽  
Eric Cardinale ◽  
Catherine Cêtre-Sossah ◽  
Youssouf Moutroifi ◽  
Gilles Le Godais ◽  
...  
Keyword(s):  
Rift Valley ◽  
Rift Valley Fever ◽  
Animal Movement ◽  
Rift Valley Fever Virus ◽  
Virus Transmission ◽  
Control Measures ◽  
Environmental Drivers ◽  
Animal Movements ◽  
Valley Fever ◽  
The Impact

AbstractThe persistence mechanisms of Rift Valley fever (RVF), a zoonotic arboviral haemorrhagic fever, at both local and broader geographical scales have yet to be fully understood and rigorously quantified. We developed a mathematical metapopulation model describing RVF virus transmission in livestock across the four islands of the Comoros archipelago, accounting for island-specific environments and inter-island animal movements. By fitting our model in a Bayesian framework to 2004–2015 surveillance data, we estimated the importance of environmental drivers and animal movements on disease persistence, and tested the impact of different control scenarios on reducing disease burden throughout the archipelago. Here we report that (i) the archipelago network was able to sustain viral transmission in the absence of explicit disease introduction events after early 2007, (ii) repeated outbreaks during 2004–2020 may have gone under-detected by local surveillance, and (iii) co-ordinated within-island control measures are more effective than between-island animal movement restrictions.

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