(CIDRAP News) – A study showing that it takes as few as five mutations to turn the H5N1 avian influenza virus into an airborne spreader in mammals—and that launched a historic debate on scientific accountability and transparency—was released today in Science, spilling the full experimental details that many experts had sought to suppress out of concern that publishing them could lead to the unleashing of a dangerous virus.
(CIDRAP News) – The controversy over research about potentially dangerous H5N1 viruses heated up last night in a New York City debate that featured some of the leading voices exchanging blunt comments on the alleged risks and benefits of publishing or withholding the full details of the studies.
(CIDRAP News) The United Nations Food and Agriculture Organization (FAO) expressed renewed concern today about H5N1 avian influenza, warning of a "possible major resurgence" of bird outbreaks and saying that a vaccine-evading strain has emerged in Vietnam and China.
(CIDRAP News) – A new report from the University of Minnesota warns that an influenza pandemic could disrupt the coal industry, thereby endangering the nation's significantly coal-dependent electric power system and everything that depends on it.
(CIDRAP News) The US Department of Health and Human Services (HHS) today hosted an online conversation among experts, government officials, and members of the public that touched on emerging issues in pandemic planning, such as anticipating supply chain interruptions and keeping the momentum going during tough economic times.
(CIDRAP News) Lax biosecurity measures around poultry in some countries could lead to an increasing number of H5N1 avian influenza outbreaks that could exacerbate the global food crisis, an official from the United Nations Food and AgricultureOrganization (FAO) said at an international infectious disease conference in Malaysia today.
(CIDRAP News) A pharmaceutical company is reporting good results in the first clinical trial of an H5N1 avian influenza vaccine that uses a whole, killed H5N1 virus grown in cell culturea combination of techniques that entails some risk but may boost immune response and shorten production time.