Laboratory trials demonstrated that the bio-ink closely mimics the extracellular matrix of bone tissue, facilitating cell ...

Scientists have succeeded in regenerating bone, cartilage, and muscle using stem cells, marking advancement toward practical ...

When bone defects are too large for natural repair, the space fills with scar tissue. New 3D scaffolds with connected spaces ...

For centuries, the inability to regrow lost body parts has been considered a defining limitation of humans and other mammals. While animals like salamanders can regenerate entire limbs, humans are ...

While aging is known to weaken bone repair, the underlying causes remain unclear. Researchers have now discovered that mitochondrial DNA structures called G-quadruplex accumulate in periosteal stem ...

A breakthrough study reveals how shifting the body’s healing response could help regenerate tissue instead of forming scars.

Sande, a predoctoral researcher at the Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), provides new ...

New protein-polysaccharide bio-ink enhances 3D bioprinting precision, cell viability and structural strength, offering ...

Invisible "dark matter"—what cosmologists call the mysterious glue that holds everything together—is estimated to make up ...