The California Institute for Regenerative Medicine awarded Scripps Health $12.7 million to study using stem cells to repair ...

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

In patients with severe osteoarthritis, cartilage can wear so thin that joints essentially transform into bone on bone — without a cushion between. A new therapy that uses synthetic nanofibers to ...

Boise State University researchers have developed a new technique and platform to communicate with cells and help drive them towards cartilage formation. Their work leverages a 3-dimensional ...

The approach being studied at Scripps is for larger knee injuries, where the damage to the cartilage and underlying bone are ...

Researchers at NIT Rourkela have developed a patented bio-ink designed to balance structural integrity with cell viability, addressing a long-standing challenge in 3D bioprinting. Early lab results ...

An international research team led by the University of California, Irvine has discovered a new type of skeletal tissue that offers great potential for advancing regenerative medicine and tissue ...

Northwestern University scientists have developed a cell-free bioactive material comprising a complex network of molecular components that work together as a scaffold to mimic cartilage’s natural ...

New research by an interdisciplinary team in Lithuania has revealed a promising and unconventional approach to cartilage ...