Gut Bacteria Drive Aging Through Toxic Metabolites That Damage Multiple Organs
New research reveals how harmful gut bacterial compounds accelerate aging by disrupting metabolism across the liver, lungs, and brain.
396 articles in this topic
New research reveals how harmful gut bacterial compounds accelerate aging by disrupting metabolism across the liver, lungs, and brain.
Study reveals how gut microbiota-derived propionic acid can restore reproductive function and reverse aging effects through gut-organ communication.
New research reveals how gut bacteria communicate with brain immune cells, offering therapeutic targets for age-related cognitive decline.
New research reveals how gut microbes influence both weight and mood, opening doors to dual-purpose treatments.
New research reveals how gut microbes influence hearing decline and identifies a promising compound that could protect against age-related hearing loss.
New research reveals how gut microbiome changes with aging contribute to macular degeneration and potential therapeutic approaches.
Just 14 days of inactivity changed gut microbiome composition and increased frailty markers, but exercise provided protection.
Systematic review reveals how fiber, nuts, and aging affect how much energy your body actually extracts from food.
First study of its kind reveals age-related gut changes that may support healthy aging through enhanced beneficial bacteria production.
New research reveals how your gut's ability to bounce back from stress could determine your lifespan and healthspan.
New research reveals how microplastics damage intestinal health and gut bacteria in animals, with implications for human health.
New research reveals how gut bacteria and immune aging create a vicious cycle that accelerates inflammaging and offers intervention targets.