A team develops an innovative injectable hydrogel for bone regeneration, addressing the limitations of traditional bone grafts and adhesion methods. A research team led by Professor Hyung Joon Cha ...

Researchers from the School of Engineering and Applied Science and the Perelman School of Medicine, along with the Children's Hospital of Philadelphia, have developed a bioengineered chip that ...

The schematic illustration of the synthesis process of Qx-D (A) and the rat model of femoral infectious bone defect (B). In the realm of orthopedic medicine, the challenge of managing infected bone ...

We were unable to process your request. Please try again later. If you continue to have this issue please contact [email protected]. A 78-year-old man presented to clinic with long-standing ...

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 ...

Two million bone transplants are performed worldwide yearly, including half a million in the United States alone. Yet, a QUT-led study has found surgeons are slow to adopt newly developed biomaterials ...

The From Labs to Lives Blog connects everyday topics with UC Davis research. Each post is reviewed by our experts, ensuring you always get useful information you can trust. Because we can’t see them, ...

Scientists have developed a tool made from a modified glue gun that can 3D print bone grafts directly onto fractures and defects during surgery. The tool, described September 5th in the Cell Press ...