You can regrow damaged skin in the area, sure—but also bone, tissue, and nerves.

New research from Stanford, Texas A&M, and Wake Forest has revealed biological and genetic mechanisms that allow mammals, ...

A new study of the PhyloBone project of the University of Turku, Finland, identifies hundreds of non-collagenous proteins in the bone matrix that may play regulatory roles in bone formation and ...

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

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

Tumor cells are known to be fickle sleeper agents, often lying dormant in distant tissues for years before reactivating and forming metastasis. Numerous factors have been studied to understand why the ...

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

Researchers have developed a soft laser-printed scaffold made almost entirely of water that bone cells readily colonize.

Bone marrow is the spongy tissue located within the hollow center of bones, serving as the primary site for the continuous production of red blood cells, platelets, and white blood cells. Despite its ...