2017 articles in this topic
New study reveals rapamycin directly protects DNA from damage, offering a novel mechanism for its anti-aging effects in humans.
Natural compound morusin from mulberry makes colorectal cancer cells age rapidly, making them vulnerable to targeted elimination.
Aging blood stem cells fuel inflammation and disease throughout the body, but emerging treatments may restore function.
Researchers modified a sea anemone toxin to target senescent cells, showing promise for improving cancer therapy outcomes.
New research reveals specific cellular mechanisms driving sarcopenia and highlights promising therapeutic approaches including NAD+ boosters and senolytics.
New research reveals how colorful plant compounds in berries and grapes could restore gut health and reduce age-related inflammation.
Revolutionary delivery system eliminates harmful senescent cells at fracture sites, dramatically speeding bone repair and recovery.
New review reveals how targeting aging cells could break the vicious cycle between cellular senescence and metabolic dysfunction.
New research reveals glaucoma involves reversible epigenetic changes, opening doors to vision restoration therapies beyond pressure treatments.
Two compounds working together dramatically improved brain cell survival and reduced inflammation after oxygen deprivation injury.
Scientists identify overlooked protein damage mechanism in aging and reveal promising therapeutic compounds that could slow the process.
Scientists identify promising biomarkers in blood and other fluids that could revolutionize early detection of this devastating brain disease.
