Quantifying the Epidemiological Impact of Vector Control on Dengue

Results will provide a benchmark for subsequent trials in which combinations of interventions are assessed.\n Ignoring human movement during study design considerations would require an artificial increase in the expected effectiveness to achieve adequate power because every individual in a treatmen...

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Veröffentlicht in:	PLoS neglected tropical diseases 2016-05, Vol.10 (5), p.e0004588
Hauptverfasser:	Reiner, Jr, Robert C, Achee, Nicole, Barrera, Roberto, Burkot, Thomas R, Chadee, Dave D, Devine, Gregor J, Endy, Timothy, Gubler, Duane, Hombach, Joachim, Kleinschmidt, Immo, Lenhart, Audrey, Lindsay, Steven W, Longini, Ira, Mondy, Mathias, Morrison, Amy C, Perkins, T Alex, Vazquez-Prokopec, Gonzalo, Reiter, Paul, Ritchie, Scott A, Smith, David L, Strickman, Daniel, Scott, Thomas W
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Sprache:	eng
Schlagworte:	Aedes - physiology Aedes - virology Animals Biology and Life Sciences Dengue - epidemiology Dengue - prevention & control Dengue - transmission Dengue - virology Dengue fever Disease Earth Sciences Epidemiology Evaluation Funding Humans Illnesses Infections Insecticides Intervention Medicine and Health Sciences Methods Mortality Mosquito Control Mosquito Vectors - physiology Mosquito Vectors - virology Mosquitoes Pathogens Planning Policy Platform Prevention Public health Quantitative research Social Sciences Studies Tropical diseases Vaccines Vector control Vectors (Biology) Viral infections Viruses
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container_title	PLoS neglected tropical diseases
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creator	Reiner, Jr, Robert C Achee, Nicole Barrera, Roberto Burkot, Thomas R Chadee, Dave D Devine, Gregor J Endy, Timothy Gubler, Duane Hombach, Joachim Kleinschmidt, Immo Lenhart, Audrey Lindsay, Steven W Longini, Ira Mondy, Mathias Morrison, Amy C Perkins, T Alex Vazquez-Prokopec, Gonzalo Reiter, Paul Ritchie, Scott A Smith, David L Strickman, Daniel Scott, Thomas W
description	Results will provide a benchmark for subsequent trials in which combinations of interventions are assessed.\n Ignoring human movement during study design considerations would require an artificial increase in the expected effectiveness to achieve adequate power because every individual in a treatment cluster will be predicted to have the "maximum" effect. Insights from such trials will help guide the scaling up of effective dengue control strategies, whether vector control alone or in combination with vaccines, and will be applicable to other Ae. aegypti-borne viral infections of current public health concern, such as chikungunya and Zika viruses.
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subjects	Aedes - physiology Aedes - virology Animals Biology and Life Sciences Dengue - epidemiology Dengue - prevention & control Dengue - transmission Dengue - virology Dengue fever Disease Earth Sciences Epidemiology Evaluation Funding Humans Illnesses Infections Insecticides Intervention Medicine and Health Sciences Methods Mortality Mosquito Control Mosquito Vectors - physiology Mosquito Vectors - virology Mosquitoes Pathogens Planning Policy Platform Prevention Public health Quantitative research Social Sciences Studies Tropical diseases Vaccines Vector control Vectors (Biology) Viral infections Viruses
title	Quantifying the Epidemiological Impact of Vector Control on Dengue
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