The reconstruction of large bone segments is an important clinical problem, and none of the approaches proposed thus far have proved very effective. In animals, repair and functional recovery of ...

Bone defects are a major challenge in regenerative medicine, often requiring advanced biomaterials to enhance the natural healing process. Traditional bone repair methods, including bone grafts, face ...

The cranial bone in the human body performs very important functions, such as protecting the brain and enabling the passage of the cranial nerves that are essential to physiological functioning.

A pioneering study conducted by Professor Fangyin Dai's team at Southwest University introduces a novel strategy for bone defect repair using flat silkworm cocoon (FSC) fiber scaffolds functionalized ...

Researchers from Ocean University of China and Qilu Hospital of Shandong University have developed nacre-derived biphasic calcium phosphate (BCP) composite scaffolds that combine osteogenic and ...

Researchers at Swansea University have developed a revolutionary bone graft substitute inspired by coral which not only promotes faster healing but dissolves naturally in the body after the repair is ...

First discovered in the 1950s, NGF is now known to direct the growth, maintenance, proliferation and preservation of neurons ...

Researchers at UNSW Canberra are exploring whether 3D printing can help close that gap. Their work focuses on biodegradable ...

(Nanowerk Spotlight) The maxillofacial bone defects after the trauma, deformity, tumor, or infection may cause severe dysfunctions and dramatically decrease the life quality of patients. According to ...