How Aging Blood Stem Cells Drive Decline Across the Entire Body
A new review reveals how aged hematopoietic stem cells disrupt immune balance and impair regeneration in brain, muscle, and skin.
6,382 articles
A new review reveals how aged hematopoietic stem cells disrupt immune balance and impair regeneration in brain, muscle, and skin.
A 2025 review maps the integrin signaling pathways governing how mesenchymal stem cells differentiate—with implications for tissue engineering and regenerative medicine.
Glioma-associated mesenchymal stem cells suppress immunity and drive tumor growth — but may also be engineered into powerful cancer therapies.
A depleted gut microbe produces butyrate that suppresses ferroptosis in heart cells, offering a new target for age-related heart failure.
A meta-analysis of 30 studies reveals Chinese children's CRF is within healthy range but suboptimal, with boys and Tibetan youth leading key metrics.
A 23-trial meta-analysis finds protein supplementation significantly extends time to exhaustion during endurance training, but doesn't move the needle on body fat or VO2max.
An 8-week RCT shows combining high-intensity interval training with robotic gait therapy significantly outperforms treadmill therapy in chronic stroke patients.
Runners who regularly train long maintain better running efficiency over 90 minutes — and preserve more neuromuscular power — than performance-equal peers.
A 2025 review reveals how exosomes reshape energy metabolism in thyroid cancer, fueling immune escape, metastasis, and drug resistance.
Researchers propose that cells losing their identity and turning mesenchymal is the common thread linking all known hallmarks of aging.
Beyond cholesterol: gene editing, siRNA, and immune reprogramming may soon reverse arterial plaque rather than just slow it.
A landmark review maps how ovarian aging accelerates systemic disease in women and outlines cutting-edge tools to study it.