20 articles
Researchers found a way to rejuvenate blood stem cells by targeting branched-chain amino acid pathways, potentially extending healthspan.
Dihydrotestosterone treatment restored heart function in aging mice by activating DNA repair mechanisms and reducing inflammation.
Activating three Yamanaka factors โ OCT4, SOX2, and KLF4 โ appears to reverse epigenetic aging in human eye cells, marking a milestone in rejuvenation medicine.
Researchers discover that microbes from young mice can rejuvenate aged intestinal stem cells, opening new paths for longevity interventions.
A retrospective look at 30 years of groundbreaking biotechnology advances that have shaped modern medicine and longevity science.
Discover how four tiny proteins can turn back the clock on aging cells โ and what this means for the future of medicine and longevity.
Revolutionary AI can interpret and generate DNA, RNA, and proteins simultaneously, potentially transforming disease research and drug discovery.
Groundbreaking cellular therapy gets green light for human testing, potentially reversing aging at the cellular level.
Go beyond the basics to understand the enzymes, signaling pathways, and cellular crosstalk that govern how your extracellular matrix ages โ and what researchers are doing about it.
Revolutionary AI tool can forecast disease onset years in advance, potentially transforming preventive healthcare and longevity strategies.
Longevity startup secures major funding to test one-time gene therapy designed to reverse cellular aging in clinical trials.
A new Nature Biotechnology review maps how large-scale AI foundation models are transforming biomedicine, from genomics to clinical diagnostics.
Discover how revolutionary drugs target 'zombie cells' that accumulate with age, potentially reversing aging and extending healthspan.
New research reveals how LMNA gene mutations cause premature aging in heart cells by shortening protective telomeres.
Researchers developed a method to rejuvenate aging stem cells, extending their lifespan beyond 100 days while preserving function.
Clinical trial investigated whether pressurized oxygen treatments could stimulate new blood vessel growth in elderly participants.
Scientists review breakthrough methods for transferring healthy mitochondria into damaged cells to restore cellular energy and combat aging.
Scientists converted fibroblasts into functional osteoblasts using small molecules, then formed transplantable spheroids that repair bone defects without scaffolding.
Discover the invisible framework that holds your body together โ and why keeping it healthy is one of the most exciting frontiers in longevity science.
Emerging neurotech approaches are shifting focus from failed drug targets toward gene therapy, bioelectronics, and AI-guided diagnostics.
