Literature DB >> 17540051

Modelling the control strategies against dengue in Singapore.

M N Burattini1, M Chen, A Chow, F A B Coutinho, K T Goh, L F Lopez, S Ma, E Massad.   

Abstract

Notified cases of dengue infections in Singapore reached historical highs in 2004 (9459 cases) and 2005 (13,817 cases) and the reason for such an increase is still to be established. We apply a mathematical model for dengue infection that takes into account the seasonal variation in incidence, characteristic of dengue fever, and which mimics the 2004-2005 epidemics in Singapore. We simulated a set of possible control strategies and confirmed the intuitive belief that killing adult mosquitoes is the most effective strategy to control an ongoing epidemic. On the other hand, the control of immature forms was very efficient in preventing the resurgence of dengue epidemics. Since the control of immature forms allows the reduction of adulticide, it seems that the best strategy is to combine both adulticide and larvicide control measures during an outbreak, followed by the maintenance of larvicide methods after the epidemic has subsided. In addition, the model showed that the mixed strategy of adulticide and larvicide methods introduced by the government seems to be very effective in reducing the number of cases in the first weeks after the start of control.

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Mesh:

Year:  2007        PMID: 17540051      PMCID: PMC2870819          DOI: 10.1017/S0950268807008667

Source DB:  PubMed          Journal:  Epidemiol Infect        ISSN: 0950-2688            Impact factor:   2.451


  13 in total

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5.  [Who, where, when, what and why?].

Authors:  O P Forattini
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Authors:  K T Goh
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