Discover how four simple changes to an enzyme are helping scientists understand the remarkable 30-year lifespan of naked mole rats. This breakthrough research could change our approach to aging!
A groundbreaking study from Penn Medicine reveals that psilocybin may effectively alleviate chronic pain and improve mental health by targeting specific brain circuits. This research opens new avenues for non-addictive therapies.
A new study reveals that chronic insomnia may lead to cognitive impairment in older adults, suggesting a troubling link between sleeplessness and accelerated brain aging.
New research reveals that rising ocean acidity could damage the teeth of sharks, one of the ocean's top predators. This alarming finding may have significant implications for marine ecosystems.
New research from USC Schaeffer Center disputes Health Secretary Robert F. Kennedy Jr.'s claims about conflicts of interest in vaccine advisory panels, revealing historic lows in conflicts before his overhaul.
A recent study reveals that smartwatches may not accurately measure stress levels, often mistaking excitement for overwork. Researchers found minimal correlation between smartwatch data and self-reported stress, raising questions about wearable tech's reliability.
A groundbreaking study reveals that human aging accelerates significantly around age 50, particularly affecting organ function and increasing chronic disease risk. Discover the science behind this pivotal point in life!
A recent study reveals how women's anger evolves during the transition to menopause. While anger increases with age, its expression diminishes, highlighting the importance of emotional regulation. Experts emphasize the need for awareness and education on mood changes during this crucial life stage.
New research reveals that the construction of thousands of dams since 1835 has caused Earth's poles to wobble, influencing sea levels and the planet's rotation. Learn how massive water storage is reshaping our world.
A groundbreaking study reveals that certain human gut bacteria can absorb and store harmful PFAS, potentially offering a new way to mitigate their health impacts. Could boosting these microbes be the key to protecting our bodies from these toxic 'forever chemicals'?
