Journal article
Mathematical modelling of the impact of expanding levels of malaria control interventions on Plasmodium vivax
MT White, P Walker, S Karl, MW Hetzel, T Freeman, A Waltmann, M Laman, LJ Robinson, A Ghani, I Mueller
Nature Communications | NATURE PUBLISHING GROUP | Published : 2018
Abstract
Plasmodium vivax poses unique challenges for malaria control and elimination, notably the potential for relapses to maintain transmission in the face of drug-based treatment and vector control strategies. We developed an individual-based mathematical model of P. vivax transmission calibrated to epidemiological data from Papua New Guinea (PNG). In many settings in PNG, increasing bed net coverage is predicted to reduce transmission to less than 0.1% prevalence by light microscopy, however there is substantial risk of rebounds in transmission if interventions are removed prematurely. In several high transmission settings, model simulations predict that combinations of existing interventions ar..
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Awarded by National Institutes of Health
Funding Acknowledgements
This work was supported by a Population Health Scientist fellowship awarded to M.T.W. from the MRC (MR/L012170/1), and the NIH as part of the Asia Pacific International Centers of Excellence in Malaria Research. This work was informed by a series of meetings between Imperial College London, the Papua New Guinea National Malaria Control Programme and other key stakeholders, supported by The Global Fund to Fight AIDS, Tuberculosis and Malaria.