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Will genomics help prevent the next pandemic?
October 27, 2009Press release from PLoS Medicine
This week, the Public Library of Science, an open-access publisher, presents the "Genomics of Emerging Infectious Disease," a collection of essays, perspectives, and reviews that explores how genomics-with all its associated tools and techniques-can provide insights into our understanding of emerging infectious disease.
As pandemic H1N1 2009 influenza (commonly referred to as swine flu) continues to spread around the globe, people want to know if this flu poses more of a threat than other seasonal flu strains, how fast it's spreading (and where), and what can be done to contain it. The increasing speed at which complete genome sequences and other genome-scale data can be generated provides tremendous opportunities to address these questions by identifying the molecular changes in disease agents such as influenza viruses that will enable us to track their spread and evolution and to generate the vaccines and drugs necessary to combat them. The "Genomics of Emerging Infectious Disease" collection discusses the challenges involved and how scientists and public health professionals might take advantage of these opportunities and advances to prevent the next pandemic. (See the link at the bottom of the release for a press preview PDF containing all the a rticles in the collection;.when the embargo ends the collection will be available at http://ploscollections.org/emerginginfectiousdisease/)
Emerging infectious diseases are caused by a wide range of organisms, but they are perhaps best typified by zoonotic viral diseases, which cross from animal to human hosts and can have a devastating impact on human health. These zoonotic diseases include monkeypox, Hendra virus, Nipah virus, and severe acute respiratory syndrome coronavirus (SARS-CoV), in addition to influenza A and the lentiviruses (HIV) that cause AIDS. As Albert Osterhaus and colleagues from the Erasmus Medical Center, Rotterdam, The Netherlands, point out in their article in the collection, the apparent increased transmission of pathogens from animals to humans over recent decades can be attributed to the unintended consequences of globalization as well as environmental factors and changes in agricultural practices.
Articles in the collection also shine a spotlight on specific pathogens, some familiar and widespread, such as the influenza A virus, some "reemerging," such as the Mycobacterium tuberculosis complex that causes tuberculosis, and some identified only relatively recently, such as the bacterium Helicobacter pylori, which is associated with peptic ulcers and gastric cancer. Others discuss the broader implications of genomics research in this area, such as what it means for researchers in developing countries or for our biosecurity. As Jacques Ravel and colleagues from the US University of Maryland School of Medicine note, genomics can and should be used proactively to build our preparedness for and responsiveness to biological threats.
The collection is a collaborative effort that combines financial support from Google.org [http://www.google.org/predict.html] with PLoS's editorial independence and rigor and the expert opinion of leading researchers from several different disciplines. Rajesh Gupta from Stanford University, and colleagues provide Google.org's perspective and vision for how systematic application of genomics, proteomics, and bioinformatics to infectious diseases could predict and prevent the next pandemic. To realize this vision, they urge the community to unite under an "Infectious Disease Genomics Project," analogous to the Human Genome Project.
Jonathan Eisen, a Professor at the University of California, whose laboratory is in the UC Davis Genome Center, is the Editor of this PLoS collection, which includes 14 articles-all publishing on 26 October 2009-from six different PLoS journals (PLoS Biology, PLoS Medicine, PLoS Computational Biology, PLoS Genetics, PLoS Neglected Tropical Diseases, and PLoS Pathogens), reflecting the multidisciplinary nature of the topic.
Many scientific journals produce special issues on a topic of interest for their audiences. However, open-access publishing, such as that done by the Public Library of Science, makes it possible to have such a large multidisciplinary cross-journal collection simultaneously available online for unrestricted reuse, regardless of venue (see also the Audio Interview that accompanies the collection: http://www.plos.org/press/plos-emerginginfectiousdisease-audio.mp3). As outlined in the collection's editorial published in PLoS Biology, this collection will add to other "open science" activities that have helped provide insights into infectious disease more quickly than would have been thought feasible only a few years ago.
The faster, cheaper, and more openly we can distribute the discoveries of science, the better for scientific progress and public health. Managing the threat of novel, re-emerging, and longstanding infectious diseases is challenging enough even without barriers to scientific research.
Public Library of Science
Emerging infectious diseases are caused by a wide range of organisms, but they are perhaps best typified by zoonotic viral diseases, which cross from animal to human hosts and can have a devastating impact on human health. These zoonotic diseases include monkeypox, Hendra virus, Nipah virus, and severe acute respiratory syndrome coronavirus (SARS-CoV), in addition to influenza A and the lentiviruses (HIV) that cause AIDS. As Albert Osterhaus and colleagues from the Erasmus Medical Center, Rotterdam, The Netherlands, point out in their article in the collection, the apparent increased transmission of pathogens from animals to humans over recent decades can be attributed to the unintended consequences of globalization as well as environmental factors and changes in agricultural practices.
Articles in the collection also shine a spotlight on specific pathogens, some familiar and widespread, such as the influenza A virus, some "reemerging," such as the Mycobacterium tuberculosis complex that causes tuberculosis, and some identified only relatively recently, such as the bacterium Helicobacter pylori, which is associated with peptic ulcers and gastric cancer. Others discuss the broader implications of genomics research in this area, such as what it means for researchers in developing countries or for our biosecurity. As Jacques Ravel and colleagues from the US University of Maryland School of Medicine note, genomics can and should be used proactively to build our preparedness for and responsiveness to biological threats.
The collection is a collaborative effort that combines financial support from Google.org [http://www.google.org/predict.html] with PLoS's editorial independence and rigor and the expert opinion of leading researchers from several different disciplines. Rajesh Gupta from Stanford University, and colleagues provide Google.org's perspective and vision for how systematic application of genomics, proteomics, and bioinformatics to infectious diseases could predict and prevent the next pandemic. To realize this vision, they urge the community to unite under an "Infectious Disease Genomics Project," analogous to the Human Genome Project.
Jonathan Eisen, a Professor at the University of California, whose laboratory is in the UC Davis Genome Center, is the Editor of this PLoS collection, which includes 14 articles-all publishing on 26 October 2009-from six different PLoS journals (PLoS Biology, PLoS Medicine, PLoS Computational Biology, PLoS Genetics, PLoS Neglected Tropical Diseases, and PLoS Pathogens), reflecting the multidisciplinary nature of the topic.
Many scientific journals produce special issues on a topic of interest for their audiences. However, open-access publishing, such as that done by the Public Library of Science, makes it possible to have such a large multidisciplinary cross-journal collection simultaneously available online for unrestricted reuse, regardless of venue (see also the Audio Interview that accompanies the collection: http://www.plos.org/press/plos-emerginginfectiousdisease-audio.mp3). As outlined in the collection's editorial published in PLoS Biology, this collection will add to other "open science" activities that have helped provide insights into infectious disease more quickly than would have been thought feasible only a few years ago.
The faster, cheaper, and more openly we can distribute the discoveries of science, the better for scientific progress and public health. Managing the threat of novel, re-emerging, and longstanding infectious diseases is challenging enough even without barriers to scientific research.
Public Library of Science
Infectious Disease Current Events and Infectious Disease News RSSPreventing H1N1 spread to health care workers: Dilemma, debate and confusion
A commentary in the December issue of The Lancet Infectious Diseases brings to light the gaps in knowledge on the transmission of a common pathogen - the influenza virus - and its impact on decisions about how best to protect health care workers.
Research calls for better assessment of tests for tuberculosis, HIV/AIDS and malaria
A rapid and accurate diagnosis is the first step towards treatment in the fight against infectious disease.
Researchers mobilizing global resources to test new treatments for severe H1N1 infection
An important, ground-breaking initiative is unfolding in the global critical care community in response to the H1N1 pandemic.
DNA barcodes: Creative new uses span health, fraud, smuggling, history, more
The scientific ability to quickly and accurately identify species through DNA "barcoding" is being embraced and applied by a growing legion of global authorities - from medical and agricultural researchers to police and customs authorities to palaeontologists and others.
Study reveals a 'missing link' in immune response to disease
The immune system's T cells have the unique responsibilities of being both jury and executioner. They examine other cells for signs of disease, including cancers or infections, and, if such evidence is found, rid them from the body. Precisely how T cells shift so swiftly from one role to another, however, has been a mystery.
Lessons from flu seasons past
Pregnant women who catch the flu are at serious risk for flu-related complications, including death, and that risk far outweighs the risk of possible side effects from injectable vaccines containing killed virus, according to an extensive review of published research and data from previous flu seasons.
Important new novel 2009 H1N1 flu advisory for cardiopulmonary transplantation
Each year 3-5 million people have severe cases and 250-500,000 die from complications of seasonal influenza world-wide. This year, the novel 2009 H1N1 (nH1N1) influenza, previously called swine flu, has reached pandemic status.
MedImmune to present data on RSV and influenza at 2009 AAP National Conference and Exhibition
MedImmune announced today it will present four abstracts at the American Academy of Pediatrics (AAP) 2009 National Conference & Exhibition that add to the company's growing body of research on the burden of respiratory syncytial virus (RSV) on children, as well as pediatric infectious disease prevention.
Paradigm shift needed to combat drug resistance
When people travel, bacteria and other infectious agents travel with them. As about a billion people cross international borders each year, many more billions of the bugs come along for the ride.
Medical imaging may help researchers understand the pathogenesis of H1N1 virus
Researchers at the National Institutes of Health (NIH) have found that imaging can now be used as a tool for identifying severe cases of H1N1 and may play a key role in understanding the pathogenesis of the virus, possibly leading to earlier diagnoses of severe cases in the future.
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