Research Activities
Topics on this page:
- General Research Activities
- H1N1 (Swine Flu) Specific Research
- H5N1 (Avian Flu) Specific Research
Research is essential to preparing for a pandemic. Expanding research on influenza viruses will lead to better understanding of how these viruses change over time and how the viruses spread. From this research will come new ways to prevent and treat influenza, including how to effectively use vaccines and antivirals.
General Research Activities
Virus Research
- Focus on the Flu: Are We Ready? Preparing for a Pandemic (國家敏感症及傳染病研究所)
Read why scientists are studying the mechanisms within influenza viruses. - Second Research Team Finds Same Common Achilles’ Heel in Seasonal and Pandemic Flu Viruses (國家敏感症及傳染病研究所)
Researchers have identified a common Achilles’ heel in a wide range of seasonal and pandemic influenza A viruses. The study found an infection-fighting protein, or human antibody, that neutralizes various influenza A virus subtypes by attaching to these viruses in the same place. This common attachment site provides a constant region of the flu virus for scientists to target in an effort to develop a so-called universal flu vaccine. Such a vaccine would overcome the annual struggle to make the seasonal flu vaccine match next year’s circulating flu strains and might help blunt emerging pandemic influenza viruses as well. - Scientists Identify Lab-Made Proteins That Neutralize Multiple Strains of Seasonal and Pandemic Flu Viruses (國家敏感症及傳染病研究所)
Scientists have identified a small family of lab-made proteins that neutralize a broad range of influenza A viruses, including the H5N1 avian virus, the 1918 pandemic influenza virus and seasonal H1N1 flu viruses.
Vaccine Research
- Initiative for Vaccine Research (世界衛生組織)
Read about WHO's actions to guide, support, and facilitate the development, clinical evaluation, and world-wide access to safe, effective and affordable vaccines against infectious diseases.
Personal Protective Equipment
- Face Mask Use and Control of Respiratory Virus Transmission in Households 美國傳染病防治中心(CDC)
Study concludes that household use of face masks is associated with low adherence and is ineffective for controlling seasonal respiratory disease. However, during a severe pandemic when use of face masks might be greater, pandemic transmission in households could be reduced.
Prediction/Modeling
- NIAID Scientists Propose New Explanation for Flu Virus Antigenic Drift (國家敏感症及傳染病研究所)
This model predicts that decreasing the immunologically naïve population — by increasing the number of children vaccinated against influenza, for example — could slow the rate of antigenic drift and extend the duration of effectiveness of seasonal influenza vaccines. - Questions and Answers: EID article "Estimates of the Prevalence of Pandemic (H1N1) 2009, United States, April-July 2009"
(疾病控制和預防中心)
Through July 2009, a total of 43,677 laboratory-confirmed cases of 2009 H1N1 were reported in the U.S., which is likely a substantial underestimate of the true number. Correcting for under-ascertainment using a multiplier model, researchers in this study estimate there may have been between 1.8 million and 5.7 million cases during this time period, including 9,000-21,000 hospitalizations. - The Next Influenza Pandemic: Can It Be Predicted?
(Journal of the American Medical Association)
Scientists at the National Institutes of Health discuss why predicting the next pandemic is so difficult and outline steps that can be taken to better understand the behavior of the virus - Models of Infectious Disease Agents: Publications (National Institute of General Medical Sciences)
Research results of computational models that simulate disease spread and evaluate different intervention strategies. Some studies report preliminary findings on the origin, infectiousness and likely spread of the 2009 H1N1 virus.
Learning from the Past
- Dynasty: Influenza Virus in 1918 and Today (國家敏感症及傳染病研究所)
Researchers find that all human-adapted influenza A viruses of today — both seasonal variations and those that caused more dramatic pandemics — are descendents, direct or indirect, of the 1918-1919 virus. - Early Pandemic Flu Wave May Protect Against Worse One Later (National Institutes of Health)
Evidence from the worldwide influenza pandemic of 1918-1919 indicates that getting the flu early protected many people against a second deadlier wave. - Interregional Spread of Influenza Through United States Described by Virus Type, Size of Population and Commuting Rates and Distance (National Institutes of Health)
Researchers find that the spread of yearly flu epidemics in an area within the US is closely connected with people going to and from work.
Technology Transfer
- Influenza Technologies Available for Product Development
Learn how HHS facilitates the world-wide development of new influenza technologies
H1N1 (Swine Flu) Specific Research
- Questions and Answers: EID article "Estimates of the Prevalence of Pandemic (H1N1) 2009, United States, April-July 2009" (疾病控制和預防中心)
- Studies in Animals Suggest 2009 H1N1 Virus May Have Biological Advantage Over Seasonal Influenza Viruses (國家敏感症及傳染病研究所)
- Transmission and Pathogenesis of Swine-Origin 2009 A(H1N1) Influenza Viruses in Ferrets and Mice (Science)
- Pathogenesis and Transmission of Swine-Origin 2009 A(H1N1) Influenza Virus in Ferrets (Science)
- Spread of a Novel Influenza A (H1N1) Virus via Global Airline Transportation (PDF – 563KB) (The New England Journal of Medicine)
- Emergence of a Novel Swine-Origin Influenza A (H1N1) Virus in Humans (The New England Journal of Medicine)
- NIAID and 2009 H1N1 Influenza (Swine Flu) (國家敏感症及傳染病研究所)
- Triple-Reassortant Swine Influenza A (H1) in Humans in the United States, 2005–2009 (The New England Journal of Medicine)
H5N1 (Avian Flu) Specific Research
H5N1: Virus Research
- 人類抗體對禽流感的保護作用 (National Institutes of Health)
H5N1: Vaccine Research
- Questions and Answers: H5N1 Avian Flu Vaccine Trials (國家敏感症及傳染病研究所)
Questions and answers about testing and evaluating potential avian flu vaccines for people.
H5N1: Learning from the Past
- Scientists Isolate Genes that Made 1918 Flu Lethal (University of Wisconsin-Madison)
Researchers identify a set of three genes that helped underpin the extraordinary virulence of the 1918 virus. - Bacterial Pneumonia Caused Most Deaths in 1918 Influenza Pandemic (國家敏感症及傳染病研究所)
Study finds that pneumonia was caused when bacteria that normally inhabit the nose and throat invaded the lungs along a pathway created when the virus destroyed the cells that line the bronchial tubes and lungs. - New Study Describes Key Protein from Highly Pathogenic H5N1 Avian Flu Virus and How it Might Mutate (國家敏感症及傳染病研究所)
Summary of research results comparing the structure of an H5 protein from a highly pathogenic strain of H5N1 avian flu virus to the same proteins from other pandemic flu A viruses, including the deadly 1918 virus.
Learn how CDC's research to piece together the virus responsible for the 1918 pandemic influenza virus is guiding preparation for a potential pandemic influenza.
H5N1: Virus Sharing
Find out how the WHO collaborates with an international network of laboratories and countries to obtain H5N1 sequencing data.
