Ether Lipids and Sphingolipids Reveal Sex-Specific Aging Waves in Human Plasma
A 1,030-person lipidomic study uncovers three distinct aging 'crests' and sex-divergent lipid shifts that reshape how we understand biological aging.
Biological age reversal, epigenetic clocks, senolytics, and anti-aging interventions
1,805 articles
A 1,030-person lipidomic study uncovers three distinct aging 'crests' and sex-divergent lipid shifts that reshape how we understand biological aging.
Qi-Gu capsule activates the HIF-1α/AMPK pathway to reduce oxidative stress and stem cell senescence, restoring bone density in preclinical models.
A deep mechanistic examination of mitophagy's molecular circuitry — from ubiquitin chain topology to mitochondrial-nuclear crosstalk — and the emerging therapeutic strategies targeting this pathway to slow aging.
A landmark NIH grant renewal will extend research into families with exceptional longevity and add long-read whole-genome sequencing to uncover new genetic clues.
A Nature Aging study proposes two fundamental aging modes that may finally explain why lifespans vary so dramatically across the animal kingdom.
A massive multi-species transcriptomic study reveals conserved molecular hallmarks of aging and mortality, uncovering modular architecture linking inflammation, mitochondria, and chromatin.
Go beyond the basics and explore the precise signaling pathways, protein machinery, and regulatory networks that determine which mitochondria live and which get recycled — and why this matters for aging.
Beijing's 301 Hospital begins recruiting adults 50+ for the world's largest stem cell antiaging clinical trial using an already-approved therapy.
Forever Healthy Foundation's Evipedia offers structured, AI-assisted evidence reviews of 500+ longevity interventions, updated every 4–6 weeks.
The provided source does not match the article title; only a one-line digest reference to a June 2025 NIH taurine release is available, insufficient for a reliable summary.
A landmark open challenge invites researchers worldwide to validate and rank aging biomarkers, aiming to standardize how biological age is measured.
Scientists mapped how aging rewires protein glycosylation in the thymus, uncovering sugar patterns that drive immune decline.