Aging biology, lifespan extension, hallmarks of aging, and healthspan optimization
1549 articles
New research reveals how aging primes the gut for barrier breakdown when inflammation strikes, even when baseline function appears normal.
New research reveals how bile acids from gut and liver communicate with brain, offering potential therapeutic targets for cognitive decline.
New research reveals how FOXO transcription factors control cellular aging processes and offers therapeutic targets for longevity.
Salvianolic acid A from Chinese medicine significantly extended lifespan and reduced neurodegeneration in Alzheimer's disease model flies.
New research reveals the precise cellular mechanisms that cause cells to permanently stop dividing as we age.
New research reveals how disrupted sleep directly damages heart function through a critical brain-heart connection that worsens with age.
Age-related gut microbiome shifts trigger neuroinflammation and accelerate cognitive decline through disrupted gut-brain communication.
New research reveals how circular RNAs act as molecular guardians, helping exercise protect muscles from age-related decline.
Promising research on mitochondrial therapy for age-related cognitive decline has been withdrawn from scientific literature.
New research reveals the cellular mechanisms behind colon aging and how multiple systems break down over time.
New research establishes blood aging as a distinct field, revealing how our blood system drives aging throughout the body.
New research reveals how deteriorating nuclear proteins in heart cells accelerate cardiac aging and increase disease risk.
