Biological age reversal, epigenetic clocks, senolytics, and anti-aging interventions
746 articles
Comprehensive analysis of aging changes in C. elegans reveals new insights that could transform how we understand and combat human aging.
New research shows how a natural peptide can prevent spinal disc degeneration by reactivating autophagy and reducing cellular aging.
New research reveals how inhibiting SRC protein enhances mitochondrial cleanup in blood vessels, potentially slowing cardiovascular aging.
New research reveals how physical activity combats seven hallmarks of heart aging, offering targeted strategies for cardiovascular longevity.
New research reveals how oligodendrocytes become dysfunctional with aging, leading to brain deterioration and cognitive decline.
New research reveals how cellular recycling centers change shape with age, potentially offering novel targets for anti-aging therapies.
Fanconi anemia compresses decades of aging into childhood, offering insights into epigenetic drift and immune decline.
New research reveals how the aging liver transforms into an inflammatory center, driving immune dysfunction throughout the body.
Revolutionary precision tools show aging varies dramatically between cell types, opening doors to targeted anti-aging interventions.
New research reveals how cellular aging creates a cascade of mitochondrial damage and brain inflammation that makes chronic pain worse in older adults.
Review of 25 longevity studies reveals improved blood circulation and vessel growth as crucial factors for extending healthspan.
New research reveals how a critical enzyme repairs DNA damage, potentially opening pathways to enhanced cellular health and longevity.
