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 ...

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 ...

A cube of healthy bone is anything but solid. Inside it, countless tiny channels carry fluid and help cells move, feed, and rebuild.

In sports medicine and physical rehabilitation, the continuous improvement and need for effective bone and cartilage regeneration technologies are becoming more critical due to increased injuries, ...

Researchers in Sweden have engineered a cell-free cartilage scaffold that can guide the body to rebuild damaged bone. By removing the cells but preserving the structure and natural growth signals, the ...

As previously disclosed, in late Q3 2022, the Company began to experience material supply issues related to its ALLOCYTE ® Advanced Cellular Bone Matrix (“ALLOCYTE”) product line. The supply ...

Researchers have developed a method to 3D print porous scaffolds made from hydroxyapatite (HA) – the primary mineral component of bone.

Researchers in EPFL’s School of Engineering have now created a room‑temperature 3D printing process that uses enzymes to rapidly mineralise HA‑based scaffolds.