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Combined use of novel diagnostoc tools and strategic vaccination to control bovin brucellosis in endemic areas

ReferenceBB/L004895/1
Principal Investigator / Supervisor Professor Punam Mangtani
Co-Investigators /
Co-Supervisors
Institution London Sch of Hygiene and Trop Medicine
DepartmentEpidemiology and Population Health
Funding typeResearch
Value (£) 158,985
StatusCompleted
TypeResearch Grant
Start date 01/12/2014
End date 31/05/2018
Duration42 months

Abstract

Brucellosis imposes a vast burden on livelihoods as a result of human disease and impaired livestock productivity. Studies carried out by Guru Angad Dev Veterinary and Animal Sciences University have found seroprevalences of human brucellosis higher than 20% in selected populations in Punjab and show the need for integrated control of the disease. Control of ruminant brucellosis has been achieved with different degrees of success by applying a range of diagnostic and prophylactic tools. Researchers from The Royal Veterinary College have shown the potential impact of sustained and strategic use of existing vaccines in endemic settings and how critical it is to adapt the strategy to the level of infection and extent of animal movement. A limiting factor of vaccine-based control programs is the inability of standard diagnostic tools to differentiate between antibodies acquired as a result of natural infection or vaccination. In the proposed research we combine a detailed epidemiological study of bovine brucellosis in Punjab-including validation of novel diagnostic techniques with simulation modelling to generate evidence based on which sustainable control programs for bovine brucellosis could be designed. We will also assess incidence of human infection and economic impact of the disease through animal health economics and transactional cost economics. The results of the field studies will be used to parameterize disease transmission models and to simulate, in silico, the potential impact of different types of vaccination strategies on prevalence reduction. Field studies will also be used to evaluate conventional and novel diagnostics. Specifically, we will study a novel diagnostic strategy using assays measuring response to rLPS antigen. Overall, our work will provide evidence to inform the design and implementation of realistic and sustainable strategies for the reduction of the prevalence of bovine brucellosis and, as a result, human brucellosis, in endemic areas.

Summary

Brucellosis is an infectious disease of animals that also affects people (a zoonosis). It is one of the most common zoonoses worldwide and it imposes a vast burden on livelihoods as a result of human disease and impaired livestock productivity as infected animals can experience infertility, abortions and low milk yield. However, brucellosis is rarely prioritized by health systems and as a result the World Health Organization (WHO) includes it as one of its seven neglected endemic zoonoses. Although Great Britain is free from Brucellosis a constant effort is needed to ensure that cattle and sheep remain free from the disease and to be able to detect it as soon as possible in the event of its introduction. More than a million tests per year are conducted for that purpose in GB. In India brucellosis is endemic and recent reports suggest its incidence may be increasing. In this project UK-based and India-based scientists will work together in an area (Punjab) where Brucellosis is endemic among cattle and buffalo. Control of ruminant brucellosis has been achieved with different degrees of success in several settings by applying a range of diagnostic and vaccines. Previous work carried out by the research team suggests that control programs based on targeted, strategic vaccination of some groups of animals may be a cost-effective way of significantly reducing the prevalence in endemic areas wen resources are limited and animal movement between infected and non-infected herds cannot be fully avoided. However, although vaccines are effective at protecting animals from infection and reducing the prevalence of disease in the long term, an important problem of the use of vaccination is the inability to differentiate between truly infected and vaccinated animals with conventional diagnostic tests. In this project our aim is to carry out a detailed study of the epidemiology of brucellosis in bovines and humans in Punjab, including the use of novel diagnostic tests that can differentiate between vaccinated and infected animals. We will use the results to create computer models that we could use to simulate the effect of a control strategy that incorporates the use of these tests. The project will also study the economic impact of the infection, so that we can propose to the veterinary and public health services a control strategy that is realistic and truly benefits local livestock keepers and the population as a whole. The lessons that we will learn with regard to the laboratory testing of infected animals may eventually benefit countries that are free from the disease, such as GB, but have to spend considerable resources in testing animals to ensure that they remain free from infection.

Impact Summary

the project would allow GADVASU to build capacity in epidemiology, identified as a priority area in preparatory work leading to this call. It will also build up local diagnostic capacity for brucellosis to international standards. Furthermore, successful completion of the project would provide the basis for improved control of a major livestock disease that is endemic in Punjab seriously impacting public health and compromising livestock productivity
Committee Not funded via Committee
Research TopicsAnimal Health, Immunology, Systems Biology
Research PriorityX – Research Priority information not available
Research Initiative Farmed Animal Disease and Health (FADH) [2013]
Funding SchemeX – not Funded via a specific Funding Scheme
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