Modelling entomological-climatic interactions of Plasmodium falciparum malaria transmission in two Colombian endemic-regions: contributions to a National Malaria Early Warning SystemReportar como inadecuado




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Malaria Journal

, 5:66

First Online: 01 August 2006Received: 27 March 2006Accepted: 01 August 2006

Abstract

BackgroundMalaria has recently re-emerged as a public health burden in Colombia. Although the problem seems to be climate-driven, there remain significant gaps of knowledge in the understanding of the complexity of malaria transmission, which have motivated attempts to develop a comprehensive model.

MethodsThe mathematical tool was applied to represent Plasmodium falciparum malaria transmission in two endemic-areas. Entomological exogenous variables were estimated through field campaigns and laboratory experiments. Availability of breeding places was included towards representing fluctuations in vector densities. Diverse scenarios, sensitivity analyses and instabilities cases were considered during experimentation-validation process.

ResultsCorrelation coefficients and mean square errors between observed and modelled incidences reached 0.897–0.668 P > 0.95 and 0.0002–0.0005, respectively. Temperature became the most relevant climatic parameter driving the final incidence. Accordingly, malaria outbreaks are possible during the favourable epochs following the onset of El Niño warm events. Sporogonic and gonotrophic cycles showed to be the entomological key-variables controlling the transmission potential of mosquitoes- population. Simulation results also showed that seasonality of vector density becomes an important factor towards understanding disease transmission.

ConclusionThe model constitutes a promising tool to deepen the understanding of the multiple interactions related to malaria transmission conducive to outbreaks. In the foreseeable future it could be implemented as a tool to diagnose possible dynamical patterns of malaria incidence under several scenarios, as well as a decision-making tool for the early detection and control of outbreaks. The model will be also able to be merged with forecasts of El Niño events to provide a National Malaria Early Warning System.

Electronic supplementary materialThe online version of this article doi:10.1186-1475-2875-5-66 contains supplementary material, which is available to authorized users.

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Autor: Daniel Ruiz - Germán Poveda - Iván D Vélez - Martha L Quiñones - Guillermo L Rúa - Luz E Velásquez - Juan S Zulu

Fuente: https://link.springer.com/







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