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Recasting the theory of mosquito-borne pathogen transmission dynamics and control

Recasting the theory of mosquito-borne pathogen transmission dynamics and control
Recasting the theory of mosquito-borne pathogen transmission dynamics and control
Mosquito-borne diseases pose some of the greatest challenges in public health, especially in tropical and sub-tropical regions of the world. Efforts to control these diseases have been underpinned by a theoretical framework developed for malaria by Ross and Macdonald, including models, metrics for measuring transmission, and theory of control that identifies key vulnerabilities in the transmission cycle. That framework, especially Macdonald's formula for R0 and its entomological derivative, vectorial capacity, are now used to study dynamics and design interventions for many mosquito-borne diseases. A systematic review of 388 models published between 1970 and 2010 found that the vast majority adopted the Ross–Macdonald assumption of homogeneous transmission in a well-mixed population. Studies comparing models and data question these assumptions and point to the capacity to model heterogeneous, focal transmission as the most important but relatively unexplored component in current theory. Fine-scale heterogeneity causes transmission dynamics to be nonlinear, and poses problems for modeling, epidemiology and measurement. Novel mathematical approaches show how heterogeneity arises from the biology and the landscape on which the processes of mosquito biting and pathogen transmission unfold. Emerging theory focuses attention on the ecological and social context for mosquito blood feeding, the movement of both hosts and mosquitoes, and the relevant spatial scales for measuring transmission and for modeling dynamics and control
0035-9203
1-13
Smith, D.L.
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Perkins, T.A.
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Reiner, R.C.
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Barker, C.M.
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Niu, T.
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Chaves, L.F.
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Ellis, A.M.
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George, D.B.
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Le Menach, A.
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Pulliam, J.R.C.
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Bisanzio, D.
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Buckee, C.
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Chiyaka, C.
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Cummings, D.A.T.
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Gatton, M.L.
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Gething, P. W.
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Hartley, D.M.
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Johnston, G.
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Klein, E.Y.
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Michael, E.
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Lloyd, A.L.
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Pigott, D.M.
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Reisen, W.K.
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Ruktanonchai, N.
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Singh, B.K.
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Stoller, J.
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Tatem, A.J.
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Kitron, U.
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Godfray, H.C.J.
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Cohen, J.M.
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Hay, S. I.
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Scott, T.W.
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Smith, D.L.
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Perkins, T.A.
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Barker, C.M.
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Chaves, L.F.
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George, D.B.
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Cummings, D.A.T.
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Garcia, A.J.
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Gatton, M.L.
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Gething, P. W.
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Hartley, D.M.
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Johnston, G.
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Michael, E.
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Lloyd, A.L.
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Pigott, D.M.
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Singh, B.K.
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Stoller, J.
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Tatem, A.J.
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Kitron, U.
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Godfray, H.C.J.
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Cohen, J.M.
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Hay, S. I.
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Scott, T.W.
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Smith, D.L., Perkins, T.A., Reiner, R.C., Barker, C.M., Niu, T., Chaves, L.F., Ellis, A.M., George, D.B., Le Menach, A., Pulliam, J.R.C., Bisanzio, D., Buckee, C., Chiyaka, C., Cummings, D.A.T., Garcia, A.J., Gatton, M.L., Gething, P. W., Hartley, D.M., Johnston, G., Klein, E.Y., Michael, E., Lloyd, A.L., Pigott, D.M., Reisen, W.K., Ruktanonchai, N., Singh, B.K., Stoller, J., Tatem, A.J., Kitron, U., Godfray, H.C.J., Cohen, J.M., Hay, S. I. and Scott, T.W. (2014) Recasting the theory of mosquito-borne pathogen transmission dynamics and control. Transactions of the Royal Society of Tropical Medicine and Hygiene, 1-13. (doi:10.1093/trstmh/tru026).

Record type: Article

Abstract

Mosquito-borne diseases pose some of the greatest challenges in public health, especially in tropical and sub-tropical regions of the world. Efforts to control these diseases have been underpinned by a theoretical framework developed for malaria by Ross and Macdonald, including models, metrics for measuring transmission, and theory of control that identifies key vulnerabilities in the transmission cycle. That framework, especially Macdonald's formula for R0 and its entomological derivative, vectorial capacity, are now used to study dynamics and design interventions for many mosquito-borne diseases. A systematic review of 388 models published between 1970 and 2010 found that the vast majority adopted the Ross–Macdonald assumption of homogeneous transmission in a well-mixed population. Studies comparing models and data question these assumptions and point to the capacity to model heterogeneous, focal transmission as the most important but relatively unexplored component in current theory. Fine-scale heterogeneity causes transmission dynamics to be nonlinear, and poses problems for modeling, epidemiology and measurement. Novel mathematical approaches show how heterogeneity arises from the biology and the landscape on which the processes of mosquito biting and pathogen transmission unfold. Emerging theory focuses attention on the ecological and social context for mosquito blood feeding, the movement of both hosts and mosquitoes, and the relevant spatial scales for measuring transmission and for modeling dynamics and control

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More information

Published date: 2014
Organisations: Global Env Change & Earth Observation, WorldPop, Population, Health & Wellbeing (PHeW)

Identifiers

Local EPrints ID: 362720
URI: http://eprints.soton.ac.uk/id/eprint/362720
ISSN: 0035-9203
PURE UUID: 7319d721-2c66-4961-8187-dd57c0ec69b7
ORCID for A.J. Tatem: ORCID iD orcid.org/0000-0002-7270-941X

Catalogue record

Date deposited: 06 Mar 2014 09:26
Last modified: 15 Mar 2024 03:43

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Contributors

Author: D.L. Smith
Author: T.A. Perkins
Author: R.C. Reiner
Author: C.M. Barker
Author: T. Niu
Author: L.F. Chaves
Author: A.M. Ellis
Author: D.B. George
Author: A. Le Menach
Author: J.R.C. Pulliam
Author: D. Bisanzio
Author: C. Buckee
Author: C. Chiyaka
Author: D.A.T. Cummings
Author: A.J. Garcia
Author: M.L. Gatton
Author: P. W. Gething
Author: D.M. Hartley
Author: G. Johnston
Author: E.Y. Klein
Author: E. Michael
Author: A.L. Lloyd
Author: D.M. Pigott
Author: W.K. Reisen
Author: N. Ruktanonchai
Author: B.K. Singh
Author: J. Stoller
Author: A.J. Tatem ORCID iD
Author: U. Kitron
Author: H.C.J. Godfray
Author: J.M. Cohen
Author: S. I. Hay
Author: T.W. Scott

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