Socially structured human movement shapes dengue transmission despite the diffusive effect of mosquito dispersal.
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The interplay of vaccination and vector control on small dengue networksModeling Mosquito-Borne Disease Spread in U.S. Urbanized Areas: The Case of Dengue in MiamiInferring the Spatio-temporal Patterns of Dengue Transmission from Surveillance Data in Guangzhou, ChinaEvaluating the effectiveness of localized control strategies to curtail chikungunyaThe Importance of Socio-Economic Versus Environmental Risk Factors for Reported Dengue Cases in Java, IndonesiaModeling tools for dengue risk mapping - a systematic reviewDengue: knowledge gaps, unmet needs, and research prioritiesThe relationship between entomological indicators of Aedes aegypti abundance and dengue virus infectionContact structure, mobility, environmental impact and behaviour: the importance of social forces to infectious disease dynamics and disease ecology.Theory and data for simulating fine-scale human movement in an urban environment.Unveiling Spatial Epidemiology of HIV with Mobile Phone DataQuantifying the roles of host movement and vector dispersal in the transmission of vector-borne diseases of livestock.A network-patch methodology for adapting agent-based models for directly transmitted disease to mosquito-borne disease.Characterizing the likelihood of dengue emergence and detection in naïve populationsHuman Social Behavior and Demography Drive Patterns of Fine-Scale Dengue Transmission in Endemic Areas of ColombiaModelling input-output flows of severe acute respiratory syndrome in mainland China.Climate forcing and infectious disease transmission in urban landscapes: integrating demographic and socioeconomic heterogeneity.Big city, small world: density, contact rates, and transmission of dengue across PakistanSocioeconomic and environmental determinants of dengue transmission in an urban setting: An ecological study in Nouméa, New Caledonia.Analysis of heterogeneous dengue transmission in Guangdong in 2014 with multivariate time series model.Combining contact tracing with targeted indoor residual spraying significantly reduces dengue transmission.How Important is Vertical Transmission of Dengue Viruses by Mosquitoes (Diptera: Culicidae)?Human movement, cooperation and the effectiveness of coordinated vector control strategies.Space and space-time distributions of dengue in a hyper-endemic urban space: the case of Girardot, Colombia.Epidemiological, Serological, and Virological Features of Dengue in Nha Trang City, Vietnam.Fitness peaks of dengue virus populations.Challenges in dengue research: A computational perspective.Contributions from the silent majority dominate dengue virus transmission.Modeling the Heterogeneity of Dengue Transmission in a City
P2860
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P2860
Socially structured human movement shapes dengue transmission despite the diffusive effect of mosquito dispersal.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 08 January 2014
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Socially structured human move ...... effect of mosquito dispersal.
@en
Socially structured human move ...... effect of mosquito dispersal.
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type
label
Socially structured human move ...... effect of mosquito dispersal.
@en
Socially structured human move ...... effect of mosquito dispersal.
@nl
prefLabel
Socially structured human move ...... effect of mosquito dispersal.
@en
Socially structured human move ...... effect of mosquito dispersal.
@nl
P2860
P1476
Socially structured human move ...... effect of mosquito dispersal.
@en
P2093
Robert C Reiner
Steven T Stoddard
P2860
P356
10.1016/J.EPIDEM.2013.12.003
P577
2014-01-08T00:00:00Z