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Showing posts with label LEPTOSPIROSIS. Show all posts
Showing posts with label LEPTOSPIROSIS. Show all posts
Wednesday, April 1, 2015
NSF FUNDS STUDYING ECO-EPIDEMOLOGY OF LEPTOSPIROSIS
FROM: NATIONAL SCIENCE FOUNDATION
Field fever, harvest fever, rat catcher's yellows: Leptospirosis by any name is a serious disease
Infection is more prevalent in lower-income tropical areas
Rat catcher's yellows, field fever, harvest fever, black jaundice.
All are names for the same disease, leptospirosis, an infection caused by corkscrew-shaped bacteria called Leptospira.
Symptoms range from mild--headaches, muscle aches, fever--to more severe conditions, such as meningitis and bleeding from the lungs.
Looking for leptospirosis
"Leptospira bacteria are maintained through a complex transmission cycle," write scientist Claudia Munoz-Zanzi of the University of Minnesota and colleagues in a 2014 paper in the American Journal of Tropical Medicine.
"Humans and other mammals, domestic and wild, become infected after contact with urine from an infected host, or Leptospira-contaminated water or damp soil."
Some 7 to 10 million people contract leptospirosis each year. The disease is most prevalent in tropical areas, but may be found almost anywhere that's warm and wet.
In the developed world, leptospirosis occurs in people involved in outdoor activities, such as canoeing and kayaking in warm places. In developing countries, the disease largely happens to farmers and poorer people who live in cities.
Infection with Leptospira is linked with agricultural practices, fouling of household or recreational water, poor housing and waste disposal, and changes in the density or proximity of infected animals such as rodents, domestic animals like dogs and wildlife.
Rodents most common carriers
Rodents are the most common reservoirs of Leptospira, says Munoz-Zanzi.
With a grant from the National Science Foundation (NSF)-National Institutes of Health-U.S. Department of Agriculture Ecology and Evolution of Infectious Diseases (EEID) program, Munoz-Zanzi is studying the eco-epidemiology of leptospirosis.
Awards through the EEID program fund scientists to study how large-scale environmental events--such as habitat destruction and climate variability--alter the risks of viral, parasitic and bacterial diseases.
Munoz-Zanzi's goal is to improve knowledge of the social, epidemiological and ecological factors influencing leptospirosis in South America. She and colleagues are working to identify intervention strategies to reduce the disease's effect on the health of humans and other animals.
South-central Chile: a perfect home for Leptospira?
The study is taking place in the Los Rios region of south-central Chile. The area's climate is moderate, with an economy that's based on farming, agriculture, forestry and tourism.
Most of the region's human population is concentrated in a few urban centers, with the rest scattered in small towns or villages and farm areas.
Munoz-Zanzi's research involves contrasting leptospirosis in three community types: urban slums, rural villages, and farms.
Initial findings from the research showed that 20 percent of leptospirosis starts with rodents, including rats and mice, inside households and in other environments in populated areas.
Leptospira-carrying rodents turned out to be more abundant in rural villages than slums and farms.
"Social factors can be important causes of diseases," says Sam Scheiner, NSF EEID program director. "This study shows that the type of community can determine the presence of rats and mice that are disease-carriers. The results have implications for the control of many infectious diseases."
Danger in a puddle
"Because Leptospira live in water and soil," Munoz-Zanzi says, "the environment plays a key role in transmission in household pets, farm animals and people."
When the scientists collected water from puddles, containers, animal troughs, rivers, canals and drinking water, all showed contamination with Leptospira.
In households where puddles were found along with signs of rodent infestations, leptospirosis was common.
"However," says Munoz-Zanzi, "that was true only in lower income houses."
Some 19 percent of samples from these households--most from locations with warmer temperatures, and many with dogs as pets--tested positive.
Community setting important
The scientists are now examining leptospirosis in dogs and livestock, as well as in humans. They're integrating molecular, epidemiological and other data to gain insights into patterns of infection in various community types.
"The more we understand about this disease," says Munoz-Zanzi, "the more we realize the importance of the local community setting."
Ongoing efforts, she says, include the use of mathematical models to develop recommendations for disease control that's locally relevant. The scientists hope to provide people living in the most affected areas with tools to decrease the effects of leptospirosis.
In the meantime, how can people avoid contracting the disease?
"Wear protective equipment to prevent contact with potentially infected animals and environments," says Munoz-Zanzi, "wash after any such contact, and reduce rodents in places where people live and work."
Crowded tropical conditions where rats and mice freely run from house to house may herald another unwanted guest: Leptospira.
-- Cheryl Dybas, NSF
Friday, February 6, 2015
HUNTING FOR LEPTOSPIRA BACTERIA
FROM: THE NATIONAL SCIENCE FOUNDATION
Field fever, harvest fever, rat catcher's yellows: Leptospirosis by any name is a serious disease
Infection is more prevalent in lower-income tropical areas
Rat catcher's yellows, field fever, harvest fever, black jaundice.
All are names for the same disease, leptospirosis, an infection caused by corkscrew-shaped bacteria called Leptospira.
Symptoms range from mild--headaches, muscle aches, fever--to more severe conditions, such as meningitis and bleeding from the lungs.
Looking for leptospirosis
"Leptospira bacteria are maintained through a complex transmission cycle," write scientist Claudia Munoz-Zanzi of the University of Minnesota and colleagues in a 2014 paper in the American Journal of Tropical Medicine.
"Humans and other mammals, domestic and wild, become infected after contact with urine from an infected host, or Leptospira-contaminated water or damp soil."
Some 7 to 10 million people contract leptospirosis each year. The disease is most prevalent in tropical areas, but may be found almost anywhere that's warm and wet.
In the developed world, leptospirosis occurs in people involved in outdoor activities, such as canoeing and kayaking in warm places. In developing countries, the disease largely happens to farmers and poorer people who live in cities.
Infection with Leptospira is linked with agricultural practices, fouling of household or recreational water, poor housing and waste disposal, and changes in the density or proximity of infected animals such as rodents, domestic animals like dogs and wildlife.
Rodents most common carriers
Rodents are the most common reservoirs of Leptospira, says Munoz-Zanzi.
With a grant from the National Science Foundation (NSF)-National Institutes of Health-U.S. Department of Agriculture Ecology and Evolution of Infectious Diseases (EEID) program, Munoz-Zanzi is studying the eco-epidemiology of leptospirosis.
Awards through the EEID program fund scientists to study how large-scale environmental events--such as habitat destruction and climate variability--alter the risks of viral, parasitic and bacterial diseases.
Munoz-Zanzi's goal is to improve knowledge of the social, epidemiological and ecological factors influencing leptospirosis in South America. She and colleagues are working to identify intervention strategies to reduce the disease's effect on the health of humans and other animals.
South-central Chile: a perfect home for Leptospira?
The study is taking place in the Los Rios region of south-central Chile. The area's climate is moderate, with an economy that's based on farming, agriculture, forestry and tourism.
Most of the region's human population is concentrated in a few urban centers, with the rest scattered in small towns or villages and farm areas.
Munoz-Zanzi's research involves contrasting leptospirosis in three community types: urban slums, rural villages, and farms.
Initial findings from the research showed that 20 percent of leptospirosis starts with rodents, including rats and mice, inside households and in other environments in populated areas.
Leptospira-carrying rodents turned out to be more abundant in rural villages than slums and farms.
"Social factors can be important causes of diseases," says Sam Scheiner, NSF EEID program director. "This study shows that the type of community can determine the presence of rats and mice that are disease-carriers. The results have implications for the control of many infectious diseases."
Danger in a puddle
"Because Leptospira live in water and soil," Munoz-Zanzi says, "the environment plays a key role in transmission in household pets, farm animals and people."
When the scientists collected water from puddles, containers, animal troughs, rivers, canals and drinking water, all showed contamination with Leptospira.
In households where puddles were found along with signs of rodent infestations, leptospirosis was common.
"However," says Munoz-Zanzi, "that was true only in lower income houses."
Some 19 percent of samples from these households--most from locations with warmer temperatures, and many with dogs as pets--tested positive.
Community setting important
The scientists are now examining leptospirosis in dogs and livestock, as well as in humans. They're integrating molecular, epidemiological and other data to gain insights into patterns of infection in various community types.
"The more we understand about this disease," says Munoz-Zanzi, "the more we realize the importance of the local community setting."
Ongoing efforts, she says, include the use of mathematical models to develop recommendations for disease control that's locally relevant. The scientists hope to provide people living in the most affected areas with tools to decrease the effects of leptospirosis.
In the meantime, how can people avoid contracting the disease?
"Wear protective equipment to prevent contact with potentially infected animals and environments," says Munoz-Zanzi, "wash after any such contact, and reduce rodents in places where people live and work."
Crowded tropical conditions where rats and mice freely run from house to house may herald another unwanted guest: Leptospira.
-- Cheryl Dybas, NSF
Field fever, harvest fever, rat catcher's yellows: Leptospirosis by any name is a serious disease
Infection is more prevalent in lower-income tropical areas
Rat catcher's yellows, field fever, harvest fever, black jaundice.
All are names for the same disease, leptospirosis, an infection caused by corkscrew-shaped bacteria called Leptospira.
Symptoms range from mild--headaches, muscle aches, fever--to more severe conditions, such as meningitis and bleeding from the lungs.
Looking for leptospirosis
"Leptospira bacteria are maintained through a complex transmission cycle," write scientist Claudia Munoz-Zanzi of the University of Minnesota and colleagues in a 2014 paper in the American Journal of Tropical Medicine.
"Humans and other mammals, domestic and wild, become infected after contact with urine from an infected host, or Leptospira-contaminated water or damp soil."
Some 7 to 10 million people contract leptospirosis each year. The disease is most prevalent in tropical areas, but may be found almost anywhere that's warm and wet.
In the developed world, leptospirosis occurs in people involved in outdoor activities, such as canoeing and kayaking in warm places. In developing countries, the disease largely happens to farmers and poorer people who live in cities.
Infection with Leptospira is linked with agricultural practices, fouling of household or recreational water, poor housing and waste disposal, and changes in the density or proximity of infected animals such as rodents, domestic animals like dogs and wildlife.
Rodents most common carriers
Rodents are the most common reservoirs of Leptospira, says Munoz-Zanzi.
With a grant from the National Science Foundation (NSF)-National Institutes of Health-U.S. Department of Agriculture Ecology and Evolution of Infectious Diseases (EEID) program, Munoz-Zanzi is studying the eco-epidemiology of leptospirosis.
Awards through the EEID program fund scientists to study how large-scale environmental events--such as habitat destruction and climate variability--alter the risks of viral, parasitic and bacterial diseases.
Munoz-Zanzi's goal is to improve knowledge of the social, epidemiological and ecological factors influencing leptospirosis in South America. She and colleagues are working to identify intervention strategies to reduce the disease's effect on the health of humans and other animals.
South-central Chile: a perfect home for Leptospira?
The study is taking place in the Los Rios region of south-central Chile. The area's climate is moderate, with an economy that's based on farming, agriculture, forestry and tourism.
Most of the region's human population is concentrated in a few urban centers, with the rest scattered in small towns or villages and farm areas.
Munoz-Zanzi's research involves contrasting leptospirosis in three community types: urban slums, rural villages, and farms.
Initial findings from the research showed that 20 percent of leptospirosis starts with rodents, including rats and mice, inside households and in other environments in populated areas.
Leptospira-carrying rodents turned out to be more abundant in rural villages than slums and farms.
"Social factors can be important causes of diseases," says Sam Scheiner, NSF EEID program director. "This study shows that the type of community can determine the presence of rats and mice that are disease-carriers. The results have implications for the control of many infectious diseases."
Danger in a puddle
"Because Leptospira live in water and soil," Munoz-Zanzi says, "the environment plays a key role in transmission in household pets, farm animals and people."
When the scientists collected water from puddles, containers, animal troughs, rivers, canals and drinking water, all showed contamination with Leptospira.
In households where puddles were found along with signs of rodent infestations, leptospirosis was common.
"However," says Munoz-Zanzi, "that was true only in lower income houses."
Some 19 percent of samples from these households--most from locations with warmer temperatures, and many with dogs as pets--tested positive.
Community setting important
The scientists are now examining leptospirosis in dogs and livestock, as well as in humans. They're integrating molecular, epidemiological and other data to gain insights into patterns of infection in various community types.
"The more we understand about this disease," says Munoz-Zanzi, "the more we realize the importance of the local community setting."
Ongoing efforts, she says, include the use of mathematical models to develop recommendations for disease control that's locally relevant. The scientists hope to provide people living in the most affected areas with tools to decrease the effects of leptospirosis.
In the meantime, how can people avoid contracting the disease?
"Wear protective equipment to prevent contact with potentially infected animals and environments," says Munoz-Zanzi, "wash after any such contact, and reduce rodents in places where people live and work."
Crowded tropical conditions where rats and mice freely run from house to house may herald another unwanted guest: Leptospira.
-- Cheryl Dybas, NSF
Tuesday, May 28, 2013
FUTURE THREAT TO HUMANS MAY COME FROM THE BANDED MONGOOSE
Banded Mongoose. Credit: Wikimedia. |
Human Disease Leptospirosis Identified in New Species, the Banded Mongoose, in Africa
The newest public health threat in Africa, scientists have found, is coming from a previously unknown source: the banded mongoose.
Leptospirosis, the disease is called. And the banded mongoose carries it.
Leptospirosis is the world's most common illness transmitted to humans by animals. It's a two-phase disease that begins with flu-like symptoms. If untreated, it can cause meningitis, liver damage, pulmonary hemorrhage, renal failure and death.
"The problem in Botswana and much of Africa is that leptospirosis may remain unidentified in animal populations but contribute to human disease, possibly misdiagnosed as other diseases such as malaria," said disease ecologist Kathleen Alexander of Virginia Tech.
With a grant from the National Science Foundation's (NSF) Coupled Natural and Human Systems Program, Alexander and colleagues found that the banded mongoose in Botswana is infected with Leptospira interrogans, the pathogen that causes leptospirosis.
Coupled Natural and Human Systems is part of NSF's Science, Engineering and Education for Sustainability investment and is supported by NSF's Directorates for Biological Sciences; Geosciences; and Social, Behavioral and Economic Sciences.
"The transmission of infectious diseases from wildlife to humans represents a serious and growing public health risk due to increasing contact between humans and animals," said Alan Tessier, program director in NSF's Division of Environmental Biology. "This study identified an important new avenue for the spread of leptospirosis."
The results are published today in a paper in the journal Zoonoses and Public Health. The paper was co-authored by Alexander, Sarah Jobbins and Claire Sanderson of Virginia Tech.
The banded mongoose, although wild, lives in close proximity to humans, sharing scarce water resources and scavenging in human waste.
The disease-causing pathogen it carries can pass to humans through soil or water contaminated with infected urine.
Mongoose and other species are consumed as bushmeat, which may also contribute to leptospirosis exposure and infection in humans.
"I was convinced that we were going to find Leptospira interrogans in some species in the ecosystem," said Alexander.
"The pathogen had not been reported previously in Botswana, with the exception of one cow more than a quarter of a century ago.
"We looked at public health records dating back to 1974 and there were no records of any human cases of leptospirosis. Doctors said they were not expecting to see the disease in patients. They were not aware that the pathogen occurred in the country."
Alexander conducted a long-term study of human, wildlife and environmental health in the Chobe District of Northern Botswana, an area that includes the Chobe National Park, forest reserves and surrounding villages.
"This pathogen can infect many animals, both wild and domestic, including dogs," said Jobbins. "Banded mongoose is likely not the only species infected."
The researchers worked to understand how people, animals and the environment are connected, including the potential for diseases to move between humans and wildlife.
"Diseases such as leptospirosis that have been around for a very long time are often overlooked amid the hunt for the next newly emerging disease," Alexander said.
Leptospirosis was first described in 1886, said Jobbins, "but we still know little about its occurrence in Africa."
With the new identification of leptospirosis in Botswana, Alexander is concerned about the public health threat it may pose to the immunocompromised population there. Some 25 percent of 15- to 49-year-olds are HIV positive.
"In much of Africa, people die without a cause being determined," she said.
"Leptospirosis is likely affecting human populations in this region. But without knowledge that the organism is present in the environment, overburdened public health officials are unlikely to identify clinical cases in humans, particularly if the supporting diagnostics are not easily accessible."
The researchers looked for Leptospira interrogans in archived kidneys collected from banded mongoose that had been found dead from a variety of causes. Of the sampled mongoose, 43 percent tested positive for the pathogen.
"Given this high prevalence in the mongoose, we believe that Botswana possesses an as-yet-unidentified burden of human leptospirosis," said Jobbins.
"There is an urgent need to look for this disease in people who have clinical signs consistent with infection."
Because banded mongoose have an extended range across sub-Saharan Africa, the results have important implications for public health beyond Botswana.
"Investigating exposure in other wildlife, and assessing what species act as carriers, is essential for improving our understanding of human, wildlife, and domestic animal risk of leptospirosis in this ecosystem," the scientists write in their paper.
The paper also cites predictions that the region will become more arid, concentrating humans and animals around limited water supplies and increasing the potential for disease transmission.
"Infectious diseases, particularly those that can be transmitted from animals, often occur where people are more vulnerable to environmental change and have less access to public health services," said Alexander.
"That's particularly true in Africa. While we're concerned about emerging diseases that might threaten public health--the next new pandemic--we need to be careful that we don't drop the ball and stop pursuing important diseases like leptospirosis."
Alexander is working to identify immediate research and management actions--in particular, alerting frontline medical practitioners and public health officials to the potential for leptospirosis in humans.
The research was also funded by the WildiZe Foundation. Jobbins and Sanderson were supported in part by Virginia Tech's Fralin Life Science Institute.
-NSF-
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