Friday, November 30, 2012

Emerging vector-borne diseases create new public health challenges

Emerging vector-borne diseases create new public health challenges [ Back to EurekAlert! ] Public release date: 30-Nov-2012
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Contact: Tim Stephens
stephens@ucsc.edu
831-459-2495
University of California - Santa Cruz

Land-use change, globalization of trade and travel, and social upheaval are driving the emergence of diseases in many regions, experts say

West Nile virus, Lyme disease, dengue fever, and plague are examples of "vector-borne zoonotic diseases," caused by pathogens that naturally infect wildlife and are transmitted to humans by vectors such as mosquitoes or ticks.

According to Marm Kilpatrick, who studies the ecology of infectious diseases at the University of California, Santa Cruz, a broad range of human activities can affect the spread of zoonotic diseases. In an article in the December 1 issue of the British medical journal Lancet, Kilpatrick and coauthor Sarah Randolph of the University of Oxford describe how widespread land-use change, globalization of trade and travel, and social upheaval are driving the emergence of zoonotic vector-borne diseases around the world. The article is part of a special series of papers focused on emerging zoonotic diseases.

"This collection of papers offers a bridge between ecologists and clinicians whose combined efforts are needed to address the ongoing challenges of emerging zoonotic diseases," said Kilpatrick, an assistant professor of ecology and evolutionary biology at UC Santa Cruz.

Emerging infectious diseases can be roughly split between introduced and locally emerging diseases. Introduced diseases arise from the spread of a pathogen to a new location, as when West Nile virus arrived in New York in 1999 and subsequently spread across North America. Locally emerging diseases increase in importance in areas where they are endemic, as with Lyme disease in the United States over the past three decades. These two types of emerging diseases can differ markedly with respect to infection dynamics, or the number of cases over time, Kilpatrick said.

"Introduced diseases often cause a big spike in infections and then decrease substantially. Locally emerging diseases often show a steady, sustained increase," he said.

The movement of pathogens by global trade and travel results in the emergence of diseases in new regions. Once established, introduced pathogens often evolve to take advantage of their new environment, including new hosts and vectors. With so much of the landscape shaped by human activities, pathogens may thrive by infecting hosts and vectors that do well in manmade environments.

"Increasing human population and the urbanization and agricultural intensification of landscapes puts strong selective pressure on vector-borne pathogens to infect humans and be transmitted by vectors and hosts that live around humans," Kilpatrick said.

Emergence of endemic vector-borne diseases can result from changes in land use, such as expansion of people into new habitats, or environmental changes affecting the wild animals that serve as natural hosts or the insect vectors that spread the disease to humans. Although vector-borne diseases are highly sensitive to climate, climate change does not appear to be a major driving force behind emerging diseases, the authors said.

"So far, climate change has been a relatively minor player compared to land use and socioeconomic factors in the emergence of vector-borne disease," Kilpatrick said.

Social and economic changes, ranging from economic downturns to displacement of populations by armed conflict, frequently precipitate disease outbreaks through their impacts on public health systems, sanitation systems, behavioral patterns, and uses of natural environmental resources. One example cited in the article is a large upsurge of tick-borne encephalitis after an economic downturn in eastern Europe resulted in more people harvesting food from forests.

The incidence of any vector-borne disease involves a complex interplay of multiple factors affecting animal hosts, vectors, and people. Kilpatrick and Randolph emphasize that control of these diseases requires combined efforts by clinicians and public health officials to treat patients, promote behavior likely to minimize the risk of infection, and advise on efforts to reverse the ecological drivers of transmission through vector control, urban planning, and ecological restoration.

Publication of the Lancet series coincides with an Institute of Medicine (IOM) symposium on Emerging Infections, Microbial Threats to Health, and the Microbiome, December 11-12 in Washington, D.C. The symposium marks the 20th anniversary of an influential 1992 IOM report on emerging diseases.

"Humans are altering the environment and moving themselves and other organisms around the globe at an ever-increasing pace," said Sam Scheiner, program director for the Ecology and Evolution of Infectious Diseases program at the National Science Foundation (NSF), a joint effort with the National Institutes of Health (NIH). "That has led to a growing disease threat. These papers show how and why that's happening, and what we need to know to ease the disease burden."

###

Kilpatrick's research on the ecology of infectious diseases is supported by grants from NSF and NIH.



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Emerging vector-borne diseases create new public health challenges [ Back to EurekAlert! ] Public release date: 30-Nov-2012
[ | E-mail | Share Share ]

Contact: Tim Stephens
stephens@ucsc.edu
831-459-2495
University of California - Santa Cruz

Land-use change, globalization of trade and travel, and social upheaval are driving the emergence of diseases in many regions, experts say

West Nile virus, Lyme disease, dengue fever, and plague are examples of "vector-borne zoonotic diseases," caused by pathogens that naturally infect wildlife and are transmitted to humans by vectors such as mosquitoes or ticks.

According to Marm Kilpatrick, who studies the ecology of infectious diseases at the University of California, Santa Cruz, a broad range of human activities can affect the spread of zoonotic diseases. In an article in the December 1 issue of the British medical journal Lancet, Kilpatrick and coauthor Sarah Randolph of the University of Oxford describe how widespread land-use change, globalization of trade and travel, and social upheaval are driving the emergence of zoonotic vector-borne diseases around the world. The article is part of a special series of papers focused on emerging zoonotic diseases.

"This collection of papers offers a bridge between ecologists and clinicians whose combined efforts are needed to address the ongoing challenges of emerging zoonotic diseases," said Kilpatrick, an assistant professor of ecology and evolutionary biology at UC Santa Cruz.

Emerging infectious diseases can be roughly split between introduced and locally emerging diseases. Introduced diseases arise from the spread of a pathogen to a new location, as when West Nile virus arrived in New York in 1999 and subsequently spread across North America. Locally emerging diseases increase in importance in areas where they are endemic, as with Lyme disease in the United States over the past three decades. These two types of emerging diseases can differ markedly with respect to infection dynamics, or the number of cases over time, Kilpatrick said.

"Introduced diseases often cause a big spike in infections and then decrease substantially. Locally emerging diseases often show a steady, sustained increase," he said.

The movement of pathogens by global trade and travel results in the emergence of diseases in new regions. Once established, introduced pathogens often evolve to take advantage of their new environment, including new hosts and vectors. With so much of the landscape shaped by human activities, pathogens may thrive by infecting hosts and vectors that do well in manmade environments.

"Increasing human population and the urbanization and agricultural intensification of landscapes puts strong selective pressure on vector-borne pathogens to infect humans and be transmitted by vectors and hosts that live around humans," Kilpatrick said.

Emergence of endemic vector-borne diseases can result from changes in land use, such as expansion of people into new habitats, or environmental changes affecting the wild animals that serve as natural hosts or the insect vectors that spread the disease to humans. Although vector-borne diseases are highly sensitive to climate, climate change does not appear to be a major driving force behind emerging diseases, the authors said.

"So far, climate change has been a relatively minor player compared to land use and socioeconomic factors in the emergence of vector-borne disease," Kilpatrick said.

Social and economic changes, ranging from economic downturns to displacement of populations by armed conflict, frequently precipitate disease outbreaks through their impacts on public health systems, sanitation systems, behavioral patterns, and uses of natural environmental resources. One example cited in the article is a large upsurge of tick-borne encephalitis after an economic downturn in eastern Europe resulted in more people harvesting food from forests.

The incidence of any vector-borne disease involves a complex interplay of multiple factors affecting animal hosts, vectors, and people. Kilpatrick and Randolph emphasize that control of these diseases requires combined efforts by clinicians and public health officials to treat patients, promote behavior likely to minimize the risk of infection, and advise on efforts to reverse the ecological drivers of transmission through vector control, urban planning, and ecological restoration.

Publication of the Lancet series coincides with an Institute of Medicine (IOM) symposium on Emerging Infections, Microbial Threats to Health, and the Microbiome, December 11-12 in Washington, D.C. The symposium marks the 20th anniversary of an influential 1992 IOM report on emerging diseases.

"Humans are altering the environment and moving themselves and other organisms around the globe at an ever-increasing pace," said Sam Scheiner, program director for the Ecology and Evolution of Infectious Diseases program at the National Science Foundation (NSF), a joint effort with the National Institutes of Health (NIH). "That has led to a growing disease threat. These papers show how and why that's happening, and what we need to know to ease the disease burden."

###

Kilpatrick's research on the ecology of infectious diseases is supported by grants from NSF and NIH.



[ Back to EurekAlert! ] [ | E-mail | Share Share ]

?


AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.


Source: http://www.eurekalert.org/pub_releases/2012-11/uoc--evd113012.php

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