Vector-Borne Diseases: Understanding the Environmental, Human Health, and Ecological Connections: Workshop SummaryNational Academies Press, 2008 M03 18 - 350 pages Vector-borne infectious diseases, such as malaria, dengue fever, yellow fever, and plague, cause a significant fraction of the global infectious disease burden; indeed, nearly half of the world's population is infected with at least one type of vector-borne pathogen (CIESIN, 2007; WHO, 2004a). Vector-borne plant and animal diseases, including several newly recognized pathogens, reduce agricultural productivity and disrupt ecosystems throughout the world. These diseases profoundly restrict socioeconomic status and development in countries with the highest rates of infection, many of which are located in the tropics and subtropics. Although this workshop summary provides an account of the individual presentations, it also reflects an important aspect of the Forum philosophy. The workshop functions as a dialogue among representatives from different sectors and allows them to present their beliefs about which areas may merit further attention. These proceedings summarize only the statements of participants in the workshop and are not intended to be an exhaustive exploration of the subject matter or a representation of consensus evaluation. Vector-Borne Diseases : Understanding the Environmental, Human Health, and Ecological Connections, Workshop Summary (Forum on Microbial Threats) summarizes this workshop. |
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... Model illustrating a hypothesis on how newly introduced vectors may drive new disease epidemics, 77 1-13 Dengue incidence calculated per 100,000 population for Thailand from 1973 to 1999 plotted against OLR anomalies from 1979 to 2000 ...
... Model illustrating a hypothesis on how newly introduced vectors may drive new disease epidemics, 77 1-13 Dengue incidence calculated per 100,000 population for Thailand from 1973 to 1999 plotted against OLR anomalies from 1979 to 2000 ...
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... model to identify two important sources of heterogeneity in dengue transmission—age of infection and location—in ... modeling of transmission patterns and vector life cycles may suggest targeted interventions directed toward specific ...
... model to identify two important sources of heterogeneity in dengue transmission—age of infection and location—in ... modeling of transmission patterns and vector life cycles may suggest targeted interventions directed toward specific ...
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... modeling of dengue transmission. The malaria DSS, which is the predecessor and model for the dengue DSS, evolved from ... models and the critical need for quality information that emphasizes strong surveillance, diagnostics, and evidence ...
... modeling of dengue transmission. The malaria DSS, which is the predecessor and model for the dengue DSS, evolved from ... models and the critical need for quality information that emphasizes strong surveillance, diagnostics, and evidence ...
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... models. A Pandemic of Epidemics Gubler described a “dramatic increase” in vector-borne disease epidemics over the past 30 years and identified several factors that underlie this trend (see Chapter 1). Some recent epidemics have been ...
... models. A Pandemic of Epidemics Gubler described a “dramatic increase” in vector-borne disease epidemics over the past 30 years and identified several factors that underlie this trend (see Chapter 1). Some recent epidemics have been ...
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Contents
1 VectorBorne Disease Emergence and Resurgence | |
2 VectorBorne Disease Detection and Control | |
3 Integrating Strategies to Address VectorBorne Disease | |
Appendixes | |
Acronyms | |
Forum Member Biographies | |
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accessed October Aedes aegypti Africa American Journal Animal Health Anopheles gambiae arboviruses areas associated bluetongue BTVs Calisher climate change clinical Colorado control programs Culicoides decision support system dengue hemorrhagic fever density Disease Control ecology effective Emerging Infectious Diseases encephalitis Entomology environmental epidemic epidemiology factors fastidiosa genetic global hantavirus host human impact increase Institute International Journal of Medical Journal of Tropical Kenya Linthicum Lyme disease Medical Entomology Medicine and Hygiene Microbial Threats Microbiology models molecular monitoring National Academy Nombre virus outbreak pathogen Patz pesticides Ph.D plant potential predict prevention public health region response Rift Valley fever risk rodent Science serotypes Sin Nombre virus spatial species strategies studies syndrome temperature tion transmission transmitted Tropical Medicine United University urban vaccines VBDs vector biology vector control vector populations vector-borne diseases Veterinary viral viruses West Nile virus World Health Organization yellow fever zoonotic diseases