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Aug 9, 2020

NASA’s Rover Is Taking a Tree-Like Device That Converts CO2 Into Oxygen to Mars

Posted by in categories: space, sustainability

NASA’s Perseverance Mars rover launched from Cape Canaveral, Florida, on 30 July, carrying a host of cutting-edge technology including high-definition video equipment and the first interplanetary helicopter.

Many of the tools are designed as experimental steps toward human exploration of the red planet. Crucially, Perseverance is equipped with a device called the Mars Oxygen In-Situ Resource Utilization Experiment, or MOXIE: an attempt to produce oxygen on a planet where it makes up less than 0.2 percent of the atmosphere.

Oxygen is a cumbersome payload on space missions. It takes up a lot of room, and it’s very unlikely that astronauts could bring enough of it to Mars for humans to breathe there, let alone to fuel spaceships for the long journey home.

Aug 9, 2020

A CRISPR Way to Restore Hearing

Posted by in categories: biotech/medical, genetics

Hereditary hearing loss is one of the most common disabilities among newborns, affecting approximately 1 in 1000 live-born babies. Most forms of hereditary hearing loss are nonsyndromic; 80% of affected newborns have hearing loss that is inherited in an autosomal recessive pattern, and in the remaining 20%, inheritance shows a dominant pattern.

Many forms of hereditary hearing loss are caused by mutations in genes that affect the formation and function of cochlear hair cells — highly specialized sensory cells that play an important role in the detection and processing of sound. The hair cell has bundles of hair-like projections, called stereocilia, on its apical surface ( Fig. 1 ). The deflection of these bundles by sound results in the opening of mechanotransduction ion channels, which are located at the tips of the stereocilia, and consequently, in the depolarization of the hair-cell membrane. Mutations that affect the protein transmembrane channel-like 1 (TMC1), an integral component of the mechanotransduction complex, cause autosomal dominant and autosomal recessive forms of hearing loss. Correction of the dominant form of hearing loss in a mouse model of Tmc1 (termed “Beethoven”) was recently reported by Gao and colleagues.

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Aug 9, 2020

Saving Beethoven: CRISPR Returns Hearing to Deaf Mice

Posted by in categories: biotech/medical, genetics

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Scientists at Harvard Medical School and Boston Children’s Hospital have used a novel gene-editing approach to salvage the hearing of mice with genetic hearing loss and succeeded in doing so without any apparent off-target effects as a result of the treatment.

Aug 9, 2020

NASA Releases Images of Lightning “Superbolts” on Jupiter

Posted by in categories: climatology, space

NASA researchers have observed “superbolts” of lightning in Jupiter’s atmosphere, which form in clouds made of water and ammonia.

Aug 9, 2020

How To Create An AI (Artificial Intelligence) Startup

Posted by in category: robotics/AI

Here is some advice from tech founders.

Aug 9, 2020

Bacteriophages Could Be a Potential Game Changer in the Trajectory of Coronavirus Disease (COVID-19)

Posted by in categories: biotech/medical, economics, health

Bacteriophage can reduce bacterial growth in the lungs, limiting fluid build-up. This could decrease the mortality of patients affected by COVID-19, according to the peer-reviewed journal PHAGE: Therapy, Applications, and Research.

“The bacterial growth rate could potentially be reduced by the aerosol application of natural bacteriophages. These prey on the main species of bacteria known to cause respiratory failure,” says Marcin Wojewodzic, PhD, University of Birmingham (U.K.). Decreasing bacterial growth would also give the body more time to produce protective antibodies against the disease-causing coronavirus.

Used correctly, phages have an advantage here of being able to very specifically target the bacteria that cause secondary infections. They would remove the problematic bacterium but leave an otherwise fragile microbiome intact.” Martha Clokie, PhD, Editor-in-Chief of PHAGE and Professor of Microbiology, University of Leicester (U.K.)

Continue reading “Bacteriophages Could Be a Potential Game Changer in the Trajectory of Coronavirus Disease (COVID-19)” »

Aug 9, 2020

Drug-Resistant Bacteria Hidden Danger for People with COVID-19

Posted by in category: biotech/medical

Superinfections — a common complication in which a secondary bacterial infection occurs on top of the primary viral infection — are also to blame.

Early evidence (Trusted Source) suggests that about 50 percent of people who’ve died from COVID-19 also had a secondary bacterial or fungal infection, some of which were resistant to antibiotics.

First is a condition called ventilator-associated pneumonia (Trusted Source), a lung infection that develops when harmful germs get into a person’s lungs via the part of the ventilator that goes through the throat.

Continue reading “Drug-Resistant Bacteria Hidden Danger for People with COVID-19” »

Aug 9, 2020

The Role of Procalcitonin for Risk Assessment and Treatment of COVID-19 Patients

Posted by in category: biotech/medical

50% of people who die of covid19 have bacterial co-infections. Procalcitonin (PCT) tests may be needed to predict who will have severe infections, and how to respond with adaquate treatment. Clearly the wrong testing is being done. People need 3 tests for covid. People need antigen tests, antibody tests, and Procalcitonin (PCT) tests to see the severity of sickness a person will have.

Procalcitonin (PCT) is a widely used biomarker to assess the risk of bacterial infection and disease progression. In patients with bacterial sepsis, suspected or confirmed lower respiratory tract infections, including community-acquired pneumonia, acute bronchitis and acute exacerbations of COPD, PCT can be a useful decision-making tool for antibiotic therapy (Schuetz et al. 2018). In addition, early evidence suggests that PCT may also be a valuable tool in identifying COVID-19 patients who may be at risk for bacterial co-infection.


Procalcitonin is widely used to assess the risk of bacterial infection and disease progression. Can it be an additional tool to identify COVID-19 patients at risk of severe disease?

Continue reading “The Role of Procalcitonin for Risk Assessment and Treatment of COVID-19 Patients” »

Aug 9, 2020

The Biology of Lactoferrin, an Iron-Binding Protein That Can Help Defend Against Viruses and Bacteria

Posted by in categories: biotech/medical, food

Lactoferrin is a nutrient classically found in mammalian milk. It binds iron and is transferred via a variety of receptors into and between cells, serum, bile, and cerebrospinal fluid. It has important immunological properties, and is both antibacterial and antiviral. In particular, there is evidence that it can bind to at least some of the receptors used by coronaviruses and thereby block their entry. Of importance are Heparan Sulfate Proteoglycans (HSPGs) and the host receptor angiotensin-converting enzyme 2 (ACE2), as based on other activities lactoferrin might prevent severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) from attaching to the host cells. Lactoferrin (and more specifically enteric-coated LF because of increased bioavailability) may consequently be of preventive and therapeutic value during the present COVID-19 pandemic.

Lactoferrin (LF) or lactotransferrin has recently come under the spotlight, particularly with regards to the new coronavirus pandemic that started in 2019 (COVID-19). Diet and supplements support a well-functioning immune system, and favorably influence the body’s ability to fight infection. Although LF is produced by the body itself, as a secretion by exocrine glands (such as maternal milk or tears) and secondary granules of human neutrophils (1), it can also be taken as a supplement, where it then acts as nutraceutical or functional food. Our particular focus is on its role as an oral supplement. Here we also collate some of the evidence that shows how LF may be an important nutrient to support host immunity, including as an antibacterial and antiviral agent, but particularly with the current COVID-19 pandemic in mind.

We summarize what is already known about LF, including its immunological properties, as well as its antibacterial and antiviral activities. We also discuss how LF uses Heparan Sulfate Proteoglycans (HSPGs) on cell surfaces to facilitate entry. This is of particular importance to coronaviruses, as these viruses are considered to bind to the host cell by attaching first to HSPGs using them as preliminary docking sites on the host cell surface. LF is known to interfere with some of the receptors used by coronaviruses, it may thus contribute to the prevention and treatment of SARS CoV-2 infections. In COVID-19 infection, LF may therefore have a role to play, not only sequestering iron and inflammatory molecules that are severely increased during the cytokine burst, but also possibly in assisting by occupying receptors and HSPGs.

Aug 9, 2020

The covid-19 pandemic is forcing a rethink in macroeconomics

Posted by in categories: biotech/medical, employment, policy

« In the form it is known today, macroeconomics began in 1936 with the publication of John Maynard Keynes’s “The General Theory of Employment, Interest and Money”. Its subsequent history can be divided into three eras. The era of policy which was guided by Keynes’s ideas began in the 1940s. By the 1970s it had encountered problems that it could not solve and so, in the 1980s, the monetarist era, most commonly associated with the work of Milton Friedman, began. In the 1990s and 2000s economists combined insights from both approaches. But now, in the wreckage left behind by the coronavirus pandemic, a new era is beginning. What does it hold? »


It is not yet clear where it will lead.