• Antibiotics spawn new communities of harmful bacteria

    Most people have taken an antibiotic to treat a bacterial infection. Now researchers reveal that the way we often think about antibiotics — as straightforward killing machines – needs to be revised. The research not only adds a new dimension to how we treat infections, but also might change our understanding of why bacteria produce antibiotics in the first place.

  • Throwing science at anti-vaxxers just makes them more hardline

    Since the uptick in outbreaks of measles in the United States, those arguing for the right not to vaccinate their children have come under increasing scrutiny. What drives anti-vaxxers is similar to what drives other groups – climate skeptics, for example – which also hold beliefs at odds with conventional scientific thought: It is a process psychologists have called “biased assimilation” — we all regard new information in the light of what we already believe. Research shows that throwing scientific facts at anti-vaxxers is not likely to change minds because the level of knowledge and expertise of the people providing the facts — government, scientists, or journalists, say — was a poor predictor of how much they were trusted on the issue. Instead, what was critical was how much these experts were perceived to have the public’s interests at heart. Researchers who conducted surveys on the issue of pollution, for example, found that groups of people — such as friends and family — who were perceived to want to act in line with the survey respondents’ best interests were highly trusted, even if their expertise on the issue was judged as poor. Rather than lacking scientific facts, anti-vaxxers lack a trust in the establishments which produce and disseminate science.

  • Listeria pathogen is prevalent, persistent in retail delis: Study

    Research shows that standard cleaning procedures in retail delis may not eradicate Listeria monocytogenes bacteria, which can cause a potentially fatal disease in people with vulnerable immune systems. A study found that 6.8 percent of samples taken in fifteen delis before daily operation had begun tested positive for L. monocytogenes. In a second sampling phase, 9.5 percent of samples taken in thirty delis during operation over six months tested positive for the bacteria. In twelve delis, the same subtypes of the bacteria cropped up in several of the monthly samplings, which could mean that L. monocytogenes can persist in growth niches over time.

  • New antibiotic offers promise against antibiotic-resistant infections

    Estimates of deaths from methicillin-resistant Staphylococcus aureus (MRSA) in the United States range upwards of 19,000 annually. Around 1960, when Staphylococcus aureus developed resistance to first-generation penicillin, methicillin and other second-generation beta-lactam antibiotics were adopted to fight the illness. The modern variants of the bacterium have developed resistance to the four drugs now used to treat it. A team of researchers at the university of Notre Dame has discovered a promising new antibiotic, a vital weapon against disease as pathogens evolve to develop resistance to long-used drugs.

  • The water industry needs to join the fight against superbugs

    The fight against antibiotic-resistant bacteria — so-called “superbugs” — is a huge challenge, one that the World Health Organization has described as a grave global problem. The problem of antibiotic resistance is being exacerbated worldwide by the pollution of waste water with leftover drugs, providing breeding grounds for resistant bacteria and their genes. The problem can persist for years, constantly refreshed by new discharges of both drugs and of resistant bacteria themselves, shed by people and animals. It is time for the health and water industries to strike a bargain. Health professionals need to be aware of the need for pharmaceuticals to be managed as organic and persistent pollutants. Tackling hot spots in “source control” such as hospitals and clinics could make significant inroads on the amount of waste drugs entering treatment plants. The water industry should ensure that treatment plants are operating under optimal conditions and that the older ones are either replaced or upgraded.

  • Ebola epidemic ebbing: WHO

    The World Health Organization(WHO) has reported fewer than 100 new cases of Ebola in West Africa in the last week, which means the outbreak could soon reach its end. Some of the resources allocated to building treatment centers for thousands of sick people are now being diverted to contact-tracing efforts. “Efforts have moved from rapidly building infrastructure to ensuring that capacity for case finding, case management, safe burials and community engagement is used as effectively as possible,” read the WHO’s latest situation report.

  • 2014 saw potentially serious safety mishaps at U.S. biolabs

    U.S. government laboratories working with potentially deadly biological agents have had to deal with several lab incidents in the past two years.Congress and federal officials have called for better enforcement of safe operating procedures at U.S. government labs. “There is a continued lack of national standards for designing, constructing, commissioning and overseeing” these labs, said a Government Accountability Office (GAO) expert.

  • A combination ricin/anthrax vaccine shows promise

    Soligenix, Inc. last month announced the publication of data demonstrating that the combination of RiVax and VeloThrax induces protective immunity to both ricin toxin and anthrax toxin exposure. RiVax is the company’s candidate vaccine for the prevention of exposure to ricin toxin using an antigen which is completely devoid of the toxic activity of ricin. VeloThrax is the company’s candidate vaccine which employs a derivative of recombinant protective antigen, termed Dominant Negative Inhibitor (DNI), which is a candidate for inclusion in a next generation anthrax vaccine.

  • Preventing animal-borne diseases from affecting humans

    Roughly 75 percent of newly emerging diseases are zoonotic, which means that they can spread from animals to humans. Incredibly damaging, these diseases usually wreak havoc on humans, who rarely have natural defenses to protect them against such strains. About 2.7 million people die each year from zoonotic diseases. It is estimated that between 1997 and 2009, the cost of dealing with and treating these types of diseases around the world amounted roughly $80 billion. Scientists hope that by connecting human medical and veterinary science, and by organizing and establishing different medical professionals along a spectrum of disease detection, it would be possible to thwart the outbreak of another zoonotic disease.

  • World's response to Ebola slow, inconsistent, inadequate: Médecins sans Frontières

    The NGO Médecins sans Frontières (MSF) has harshly criticized the international community for its slow and inconsistent response to the Ebola crisis in West Africa. MSF says the world’s response risks creating “a double failure” because ill-equipped locals in Sierra Leone, Liberia, and Guinea have been left to run hospitals and treatment centers. MSF international president, Dr. Joanne Liu, said it was “extremely disappointing that states with biological-disaster response capacities have chosen not to deploy them.”

  • Portable, fast Ebola test kit in trials in Guinea

    Scientists say that early diagnosis is key to surviving Ebola once a person has been infected. Roughly 50 percent of those known to be infected with Ebola have died, but scientists hope to reduce the number as a new test designed to diagnose the Ebola virus in humans in under fifteen minutes will be tried out at a treatment center in Conakry, Guinea. The test is six times faster than tests currently used in West Africa.The mobile testing device is one of six projects jointly funded by Wellcome and the U.K.’s Department for International Development under the 6.5 million pounds Research for Health in Humanitarian Crises initiative.

  • Subjects produce immune response, develop antibodies in Ebola vaccine test

    All twenty research subjects recruited by the University of Maryland School of Medicine in partnership with the National Institute of Health (NIH) to test an experimental Ebola vaccine developed by the National Institute of Allergy and Infectious Diseases (NIAID) in collaboration with drug maker, GlaxoSmithKline, have produced an immune response and developed anti-Ebola antibodies. Half of the research participants were initially injected with ten billion particles of a chimpanzee cold virus modified to resemble Ebola, while the other half received a dose with ten times as many particles.

  • NIAID/GSK experimental Ebola vaccine appears safe, prompts immune response

    An experimental vaccine to prevent Ebola virus disease was well-tolerated and produced immune system responses in all twenty healthy adults who received it in a phase 1 clinical trial conducted by researchers from the National Institutes of Health. The results from the NIH Phase 1 clinical trial will support accelerated development of candidate vaccine.

  • Pre-empting flu evolution may make for better vaccines

    Influenza is a notoriously difficult virus against which to vaccinate. There are many different strains circulating — both in human and animal populations — and these strains themselves evolve rapidly. Yet manufacturers, who need to produce around 350 million doses ahead of the annual flu season, must know which strain to put in the vaccine months in advance — during which time the circulating viruses can evolve again. An international team of researchers has shown that it may be possible to improve the effectiveness of the seasonal flu vaccine by “pre-empting” the evolution of the influenza virus.

  • Scientists identify weak spots in Ebola’s defenses

    Scientists have identified weak spots on the surface of Ebola virus that are targeted by the antibodies in ZMapp, the experimental drug cocktail administered to several patients during the recent Ebola outbreak. “The structural images of Ebola virus are like enemy reconnaissance,” said one of the scientists involved in the research. “They tell us exactly where to target antibodies or drugs.”