For the first time ever, an anti-aging drug is providing hope for millions who suffer from this common condition.

Organoids developed from human stem cells modeled spinal cord injuries, providing a powerful in vitro tool to evaluate ...

Researchers uncover a redox-regulated mechanism that determines whether bone fractures heal or progress to nonunion ...

A newly identified protein may hold the key to rejuvenating aging brain cells. Researchers found that boosting DMTF1 can restore the ability of neural stem cells to regenerate, even when age-related ...

Doctoral students work hand-in-hand with faculty researchers on advances such as a “band-aid” for the heart, non-invasive ...

The intestinal epithelium undergoes rapid renewal every 3–5 days, a process driven by intestinal stem cells (ISCs) located at the base of crypts.

This rare outcome in cartilage repair suggests true biological cartilage regeneration, not merely defect filling Unlike ...

A new therapy developed by Professor Samuel I. Stupp triggers neurite growth and reduces scarring in injured organoids.

Randomized, blinded clinical study evaluating injectable autologous hair follicle secretome in patients with androgenic ...

Bone fractures heal more slowly with age, increasing health risks for older adults. A new study reveals that rising levels of the liver-produced ...

HepaRegeniX GmbH (“HepaRegeniX”), a clinical-stage biotech company advancing novel therapies for acute and chronic liver diseases, today announced the completion of the Phase Ib minor resection study ...