Lifeboat Foundation: Safeguarding Humanity
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Blog – Page 28

An international team of researchers has discovered that rifaximin, a commonly prescribed antibiotic for liver disease patients, is contributing to the global rise of a highly resistant strain of vancomycin-resistant Enterococcus faecium (VRE). This superbug, which frequently causes severe infections in hospitalized patients, is becoming increasingly difficult to treat.

The study, published in Nature, reveals that rifaximin use is accelerating resistance to daptomycin—one of the last remaining effective antibiotics against VRE infections.

Led by scientists from the University of Melbourne’s Peter Doherty Institute for Infection and Immunity (Doherty Institute) and Austin Health, the research underscores the urgent need for a more comprehensive understanding of the unintended consequences of antibiotic use. It highlights the critical importance of responsible antibiotic prescribing to mitigate the spread of antimicrobial resistance.

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The eye protein rhodopsin of the Greenland shark was found to have amino acid variations that made them more adept at processing blue-light wavelengths – a feature that is advantageous when living in the dim deep ocean waters.

“These genomic analyses offer new insights into the molecular basis of the exceptional longevity of the Greenland shark and highlight potential genetic mechanisms that could inform future research into longevity,” scientists wrote in the study.

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A newly unveiled photo captured by an astronaut on the International Space Station (ISS) provides a rare glimpse at an upward-shooting “gigantic jet” of lightning likely extending more than 50 miles (80 kilometers) above the U.S. coast.

The striking image was taken by an unnamed ISS crewmember on Nov. 19, 2024, but it was not initially shared by NASA or any other space organization. However, photographer Frankie Lucena, who specializes in capturing giant lightning sprites, stumbled across photos of the event on the Gateway to Astronaut photography of Earth website and shared them with Spaceweather.com, which reshared the shots Feb. 26.

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In a trailblazing advancement in cancer therapy, researchers at Korea Advanced Institute of Science and Technology (KAIST) have developed a technology that transforms colon cancer cells into normal-like cells without destroying them.

This innovative approach, led by Professor Kwang-Hyun Cho of the Department of Bio and Brain Engineering, represents a significant departure from traditional cancer treatments that rely on killing cancer cells, often leading to severe side effects and risks of recurrence.

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An expanded clinical trial that tested a groundbreaking, experimental stem cell treatment for blinding cornea injuries found the treatment was feasible and safe in 14 patients who were treated and followed for 18 months. In addition, there was a high proportion of complete or partial success.

The study developed a two-stage manufacturing process utilizing cultivated autologous limbal epithelial cells (CALEC), the first xenobiotic-free, serum-free, antibiotic-free protocol developed in the United States to treat blindness caused by unilateral limbal stem cell deficiency (LSCD).

The procedure consists of removing stem cells from a healthy eye with a biopsy, expanding them into a cellular tissue graft in a novel manufacturing process that takes two to three weeks, and then surgically transplanting the graft into the eye with a damaged cornea.

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The AI revolution is happening faster than experts ever predicted — and we’ve hit the turning point.

The long-debated arrival of artificial general intelligence (AGI) may be closer than we think, with some experts suggesting we could reach the technological singularity within the next year.

A new analysis of nearly 8,600 expert predictions reveals shifting timelines, particularly since the rise of large language models (LLMs) like ChatGPT. While previous estimates placed AGI’s emergence around 2060, recent advancements have led many to revise their forecasts to as early as 2030.

Some industry leaders, however, believe AGI’s arrival is imminent, and with the rapid progression of computing power and potential breakthroughs in quantum computing, we may soon see machines capable of surpassing human intelligence.

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While his neighbors frantically fled from their oncoming doom, one man stayed in bed. For whatever reason, he didn’t join the other 2000 residents of Herculaneum—the ancient Roman city just north of Pompeii—as they ran from erupting Mount Vesuvius. The first scorching cloud of ash passed through the city so quickly, it turned his brain into black, glasslike shards. Now, a new analysis of these shards, published today in, offers clues about how the man and his neighbors perished in 79 C.E.

Until recently, scientists believed the people of Herculaneum were annihilated by Mount Vesuvius’s avalanche of hot rock, ash, and gas that buried their city, along with Pompeii. But when researchers announced the discovery of those black, glossy chips in 2020, a new culprit emerged: a swift ash cloud preceding this flood of debris. This rethink, however, hinged on whether the brain had indeed turned to glass.

For glass to form, a liquid needs to be cooled so rapidly that its molecules suddenly “freeze” into a rigid structure rather than forming crystals. For this reason, glass is sometimes referred to as a “liquid solid,” says Brian Wowk, a cryobiologist at 21st Century Medicine who was not involved with the work. Thick blankets of pyroclastic flow–the torrent of rocks, ash, and gas expelled by volcanos–cool off far too slowly for glass to form, says study co-author Guido Giordano, a volcanologist at the Roma Tre University. “Once they’re in place, they can take years to cool down.”

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