• New framework for guiding controversial research still has worrisome gaps

    In December the Department of Health and Human Services (HHS) release lifted the funding moratorium on Gain of Function (GoF) research, following the controversial projects involving H5N1 in 2011. The “Framework for guiding funding decisions about proposed research involving enhanced potential pandemic pathogens” is similar to the January 2017 “P3C0 Framework,” and it came with the bonus of restoring funding for such research – but there are still considerable concerns with how GoF research is evaluated and if these frameworks have really addressed the gaps.

  • New Congressional Biodefense Caucus launched

    A new Congressional Biodefense Caucus was launched last Monday. The caucus said it already has a bipartisan membership roll which includes twenty-seven Members of Congress. The caucus is “dedicated to strengthening our nation’s biodefense enterprise and national security.”

  • New evidence of nuclear fuel releases discovered at Fukushima

    Uranium and other radioactive materials, such as cesium and technetium, have been found in tiny particles released from the damaged Fukushima Daiichi nuclear reactors. This could mean the environmental impact from the fallout may last much longer than previously expected according to a new study by a team of international researchers. The team says that, for the first time, the fallout of Fukushima Daiichi nuclear reactor fuel debris into the surrounding environment has been “explicitly revealed” by the study.

  • Protecting soldiers from blast-induced brain injury

    Researchers have developed a new military vehicle shock absorbing device that may protect warfighters against traumatic brain injury (TBI) due to exposure to blasts caused by land mines. During Operations Iraqi Freedom and Enduring Freedom, more than 250,000 warfighters were victims of such injuries. Prior to this study, most research on blast-induced TBI has focused on the effects of rapid changes in barometric pressure, also known as overpressure, on unmounted warfighters.

  • Analytical methods to help develop antidotes for cyanide, mustard gas

    Several Food and Drug Administration-approved antidotes are available for cyanide poisoning, but they have severe limitations. To develop effective antidotes for chemical agents, such as cyanide and mustard gas, scientists need analytical methods that track not only the level of exposure but also how the drug counteracts the effects of the chemical.

  • TSA sets new firearm discovery record

    TSA discovered a record breaking 104 firearms in carry-on bags around the United States from 5 through 11 February. The previous record of ninety-six firearms was set in July of 2017. Of the 104 firearms discovered, 87 were loaded and 38 had a round chambered. Firearm possession laws vary by state and locality. TSA says that the agency may impose civil penalties of up to $13,066 per violation per person for prohibited items violations and violations of other TSA regulations. Repeat violations will result in higher penalties.

  • Before the U.S. approves new uranium mining, consider its toxic legacy

    Uranium – the raw material for nuclear power and nuclear weapons – is having a moment in the spotlight. Companies such as Energy Fuels, Inc. have played well-publicized roles in lobbying the Trump administration to reduce federal protection for public lands with uranium deposits. The Defense Department’s Nuclear Posture Review calls for new weapons production to expand the U.S. nuclear arsenal, which could spur new domestic uranium mining. And the Interior Department is advocating more domestic uranium production, along with other materials identified as “critical minerals.” I have studied the legacies of past uranium mining and milling in Western states for over a decade. My book examines dilemmas faced by uranium communities caught between harmful legacies of previous mining booms and the potential promise of new economic development. These people and places are invisible to most Americans, but they helped make the United States an economic and military superpower. In my view, we owe it to them to learn from past mistakes and make more informed and sustainable decisions about possibly renewing uranium production than our nation made in the past.

  • Quicker response to airborne radiological threats

    Researchers have developed a new technique that uses existing technologies to detect potential airborne radiological materials in hours instead of days. at present, emergency responders who are characterizing potential radiological risk need to take an air sample and ship it to a radiochemistry lab after preliminary screening analysis. The process means it can take days or weeks to get quality results that authorities can use to make informed decisions.

  • Distinguishing harmless bacteria from pathogens

    Bacteria underpins much of our world, acting behind the scenes to affect the health and behavior of animals and plants. They help produce food, provide oxygen, and even reshape the environment through a vast array of biological processes. They come in a phenomenal number of strains—many still unknown—and thrive in different ecological and environmental niches all over the world. But while their diverse behaviors make them essential to life, bacteria can also be deadly. This threat only grows as greater global travel brings people into contact with new places, foods, and animals, dramatically increasing the chances of exposure to dangerous microbial species known as pathogens.

  • Spotting IEDs from a safe distance

    Landmines, improvised explosive devices (IEDs), and other homemade bombs struck 6,461 people worldwide in 2015, killing at least 1,672. Survivors are often left with devastating injuries. In a study published in BMJ Open, 70 percent of people hit by IEDS in Afghanistan required multiple amputations. These homemade bombs are often hidden—nestled in bushes, buried underground, or sometimes stuffed inside other objects. To keep soldiers away from these deadly weapons, researchers are developing technology that can spot explosive hazards precisely and from a safe distance.

  • Comparing pollution levels before and after Hurricane Harvey

    Hurricane Harvey, which made landfall in late August 2017, brought more than 64 inches of rain to the Houston area, flooding 200,000 homes, 13 Superfund sites, and more than 800 wastewater treatment facilities. As disasters become more frequent and populations living in vulnerable areas increase, interest in the health effects of exposure to the combination of natural and technological disasters has grown. A new study examined concentrations of polycyclic aromatic hydrocarbons (PAHs) before and after Hurricane Harvey in the Houston neighborhood of Manchester. Manchester, which is located near refineries and other industrial sites along the Houston Ship Channel, is a predominantly Hispanic neighborhood where residents face disproportionate health risks due to pollution and other environmental hazards.

  • Epigenetic technology to help in fight against WMD proliferation

    Intelligence officers in the field, in trying to determine the presence or use of WMDs, would benefit from being able to check the epigenetic markers of an individual who may have come into contact with WMDs, read a history of any time he has been exposed to threat agents, and start piecing together a chain of evidence right there in the field, in real time. The epigenome is biology’s record keeper. Though DNA does not change over a single lifetime, a person’s environment may leave marks on the DNA that modify how that individual’s genes are expressed. DARPA’s new Epigenetic CHaracterization and Observation (ECHO) program aims to build a field-deployable platform technology that quickly reads someone’s epigenome.

  • Scientists call for better global and local control of mercury

    Mercury is a complex, multifaceted contaminant which can take many different forms. It is poisonous to humans and wildlife and damaging to the environment. Currently, around two thirds of the mercury entering the environment comes from current or legacy human sources including mining, industrial activities, coal combustion and incinerators, with the remaining originating from natural sources. A special issue addressing the most up-to-date science on the fate and effects of mercury has now been published in the journal Ambio.

  • Massive reserves of mercury hidden in permafrost hold significant implications for human health

    Researchers have discovered permafrost in the northern hemisphere stores massive amounts of natural mercury, a finding with significant implications for human health and ecosystems worldwide. The scientists measured mercury concentrations in permafrost cores from Alaska and estimated how much mercury has been trapped in permafrost north of the equator since the last Ice Age. Their study reveals northern permafrost soils are the largest reservoir of mercury on the planet, storing nearly twice as much mercury as all other soils, the ocean and the atmosphere combined.

  • Confirmation: Assad has been using chemical weapons from stocks he pledged to relinquish in 2013

    Labs performing scientific analysis for the UN chemical weapons watchdog have confirmed that the Assad regime has continued to use chemical weapons against Sunni civilians in Syria – chemical munitions from stocks which the regime was supposed to have relinquished in 2013. The analysis also concluded that it would have been virtually impossible for the anti-regime rebels to carry out a coordinated, large-scale chemical strikes with poisonous munitions, even if they had been able to steal the chemicals from the government’s stockpile.