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With around 3,500 species identified so far, mosquitoes can be found in virtually every environment and continent around the globe. Blood-feeding biters (e.g., Anopheles, Culex, Aedes, Ochlerotatus, and Mansonia) are among the most influential vectors for harboring and transmitting mosquito-borne diseases (MBDs) such as Zika, Japanese encephalitis, West Nile fever, dengue fever, yellow fever, and malaria, among other diseases. More than 700 million human infections and 725,000 deaths occur every year. Mosquitoes are increasing in number worldwide, yet there are still no effective vaccines or prevention strategies. Thus, traditional vector control strategies remain the most common ways to combat these diseases. Despite this, MBDs linger as one of the major challenges for public health and vector control programs at both global and local levels. This book provides a comprehensive overview of MBDs and vector control strategies.
Mosquitoes --- Control.
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With around 3,500 species identified so far, mosquitoes can be found in virtually every environment and continent around the globe. Blood-feeding biters (e.g., Anopheles, Culex, Aedes, Ochlerotatus, and Mansonia) are among the most influential vectors for harboring and transmitting mosquito-borne diseases (MBDs) such as Zika, Japanese encephalitis, West Nile fever, dengue fever, yellow fever, and malaria, among other diseases. More than 700 million human infections and 725,000 deaths occur every year. Mosquitoes are increasing in number worldwide, yet there are still no effective vaccines or prevention strategies. Thus, traditional vector control strategies remain the most common ways to combat these diseases. Despite this, MBDs linger as one of the major challenges for public health and vector control programs at both global and local levels. This book provides a comprehensive overview of MBDs and vector control strategies.
Mosquitoes --- Control.
Choose an application
With around 3,500 species identified so far, mosquitoes can be found in virtually every environment and continent around the globe. Blood-feeding biters (e.g., Anopheles, Culex, Aedes, Ochlerotatus, and Mansonia) are among the most influential vectors for harboring and transmitting mosquito-borne diseases (MBDs) such as Zika, Japanese encephalitis, West Nile fever, dengue fever, yellow fever, and malaria, among other diseases. More than 700 million human infections and 725,000 deaths occur every year. Mosquitoes are increasing in number worldwide, yet there are still no effective vaccines or prevention strategies. Thus, traditional vector control strategies remain the most common ways to combat these diseases. Despite this, MBDs linger as one of the major challenges for public health and vector control programs at both global and local levels. This book provides a comprehensive overview of MBDs and vector control strategies.
Mosquitoes --- Control.
Choose an application
With around 3,500 species identified so far, mosquitoes can be found in virtually every environment and continent around the globe. Blood-feeding biters (e.g., Anopheles, Culex, Aedes, Ochlerotatus, and Mansonia) are among the most influential vectors for harboring and transmitting mosquito-borne diseases (MBDs) such as Zika, Japanese encephalitis, West Nile fever, dengue fever, yellow fever, and malaria, among other diseases. More than 700 million human infections and 725,000 deaths occur every year. Mosquitoes are increasing in number worldwide, yet there are still no effective vaccines or prevention strategies. Thus, traditional vector control strategies remain the most common ways to combat these diseases. Despite this, MBDs linger as one of the major challenges for public health and vector control programs at both global and local levels. This book provides a comprehensive overview of MBDs and vector control strategies.
Mosquitoes as carriers of disease. --- Mosquitoes --- Control.
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With around 3,500 species identified so far, mosquitoes can be found in virtually every environment and continent around the globe. Blood-feeding biters (e.g., Anopheles, Culex, Aedes, Ochlerotatus, and Mansonia) are among the most influential vectors for harboring and transmitting mosquito-borne diseases (MBDs) such as Zika, Japanese encephalitis, West Nile fever, dengue fever, yellow fever, and malaria, among other diseases. More than 700 million human infections and 725,000 deaths occur every year. Mosquitoes are increasing in number worldwide, yet there are still no effective vaccines or prevention strategies. Thus, traditional vector control strategies remain the most common ways to combat these diseases. Despite this, MBDs linger as one of the major challenges for public health and vector control programs at both global and local levels. This book provides a comprehensive overview of MBDs and vector control strategies.
Mosquitoes as carriers of disease. --- Mosquitoes --- Control.
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"An ethically informed analysis of gene drives used to combat malaria in African countries, written by a leading bioethics scholar."
Malaria --- Gene drives --- Mosquitoes
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Five years after Ronald Ross discovered the link between malaria and mosquitos, American entomologist Leland Howard wrote of the "mosquito evil" that occurs when "everybody's business is nobody's business." Howard’s insight was largely ignored, but it captures what social scientists now refer to as the problem of collective action. When this problem persists in the context of malaria, individuals under-provide prevention and suffer from a higher prevalence of malaria. Imagine a group of people trying to drain a pond where mosquitoes breed. Everyone in the group faces an incentive to free ride, which can hinder their drainage efforts. Thus, when people fail to resolve issues related to collective action, they submit to the "mosquito evil" and, potentially, to malaria. This book explores Howard’s logic, the economics of collective action, and the history, epidemiology, and public health of malaria to analyze the conditions under which people privately resolve collective action problems associated with mosquito abatement and malaria prevention. Generally, people are more likely to resolve these problems when the benefits of abatement and prevention outweigh the costs. This logic is developed into a framework and applied to historical and modern-day issues related to malaria, including the lack or abundance of private prevention in the United States and in developing areas; malaria’s resurgence in countries like China, Venezuela, and Bangladesh; and the difficulties of large-scale insecticide-treated bed net campaigns. Given this framework, we should develop a greater appreciation for entrepreneurial responses, civil society, market processes, and private forms of collective action. Byron B. Carson, III is Associate Professor of Economics and Business at Hampden-Sydney College in Hampden-Sydney, Virginia (USA). He teaches courses on introductory economics, money and banking, development economics, health economics, and urban economics. He earned a Ph.D. in Economics from George Mason University and a B.A. in Economics from Rhodes College. His research interests include economic epidemiology, public choice, and Austrian economics.
Economics. --- Epidemiology. --- Political Economy and Economic Systems. --- Malaria --- Mosquitoes --- Prevention --- History. --- Control.
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How insecticide-treated bed nets became a staple of global public health initiatives and reshaped health practices in Africa and beyond. Distributed to millions of people annually across Africa and the global south, insecticide-treated bed nets have become a cornerstone of malaria control and twenty-first-century global health initiatives. Despite their seemingly obvious public health utility, however, these chemically infused nets and their rise to prominence were anything but inevitable. In Nothing But Nets, Kirsten Moore-Sheeley untangles the complicated history of insecticide-treated nets as it unfolded transnationally and in Kenya specifically--a key site of insecticide-treated net research--to reveal how the development of this intervention was deeply enmeshed with the emergence of the contemporary global health enterprise. While public health workers initially conceived of nets as a stopgap measure that could be tailored to impoverished, rural health systems in the early 1980s, nets became standardized market goods with the potential to save lives and promote economic development globally. This shift attracted donor resources for malaria control amid the rise of neoliberal regimes in international development, but it also perpetuated a paradigm of fighting malaria and poverty at the level of individual consumers. Africans' experiences with insecticide-treated nets illustrate the limitations of this paradigm and provide a warning for the precariousness of malaria control efforts today. Drawing on archival, published, and oral historical evidence from three continents, Moore-Sheeley reveals the important role Africans have played in shaping global health science and technology. In placing both insecticide-treated nets and Africa at the center of global health history, this book sheds new light on how and why commodity-based health interventions have become so entrenched as solutions to global disease control as well as the challenges these interventions pose for at-risk populations.
Moustiques --- Public health campaigns --- Mosquitoes --- Malaria --- Insecticide-treated mosquito nets --- Lutte contre --- Histoire. --- History --- Control --- History. --- Prevention --- Africa --- Histoire
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