Like mathematical and statistical modelling? Malaria, demographic, epidemiological and clinical data? Come work with us for 3y as a postdoc.
Current global ambitions for malaria elimination focus on the margins of stable malaria transmission, where countries have enjoyed economic development, and have already made substantive progress toward international development targets. Conversely, the heartland of the global malaria burden remains entrenched in poor, low-income countries of Africa. Without a better understanding of the relationships between parasite exposure and disease outcome in these countries it will be hard to predict the impacts of current, and future interventions as part of efforts to define a global future where no one should die of malaria.
Data from a network of hospitals in Africa will be the basis of new research. Examples of how hospital data might provide insights into the changing malaria burden in Africa are already available. For example, hospital-based studies have shown a) mean ages of paediatric malaria presentation have increased with declining community levels of parasite prevalence; b) increasing proportions of severe malaria admissions with cerebral complications have been observed at some sites following an increase in community-based intervention coverage and a decrease in infection prevalence; and c) crude estimates of hospital admission rates from selected areas have been used, over short periods of surveillance, to demonstrate the inconsistencies in assuming that linear increases in vector control coverage can solely explain the changes in disease burden. However, studies already published have not used standard methodologies, preventing detailed comparison between settings.
The post involves statistical data analysis and the development of mathematical models with the aim of developing a comprehensive, contemporary, and standardised understanding of the relationship between parasite exposure, age and disease outcome. Models will be data-driven, including epidemiological, demographic and clinical data. Experience with statistical and programming computer languages is required, and experience with mathematical modelling of infectious diseases is desirable.
The successful candidate is expected to submit publications to scientific journals, attend and present at conferences, contribute to Kenyan doctoral and post-doctoral student supervision as part of on-going capacity building of the KEMRI-Wellcome Trust Programme, and engage with other researchers. They will be based at the University of Oxford under the supervision of Professor Sunetra Gupta and Dr Jose Lourenco. Work will be in close collaboration with Professor Bob Snow and colleagues at KEMRI Centre for Geographic Medical Research (Kenya). Occasional travel between the two institutions may be necessary.
- Type
- Postdoc
- Institution
- University of Oxford / Department of Zoology
- City
- Oxford
- Country
- UK
- Closing date
- February 7th, 2020
- Posted on
- January 31st, 2020 10:01
- Last updated
- January 31st, 2020 10:01
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