Researchers at Tampere University, Finland, have developed a groundbreaking 3D-printed ceramic implant material that closely ...

Activating the GPR133 receptor with a small molecule can rebuild bone from within, offering a new direction for osteoporosis ...

A new study explores the potential of fibroblast growth factor receptor (FGFR) antagonists in restoring defective mandibular bone repair in mouse models of osteochondrodysplasia, a group of genetic ...

See more of our trusted coverage when you search. Prefer Newsweek on Google to see more of our trusted coverage when you search. A tool made from a modified glue gun can now repair broken bones in ...

See more of our trusted coverage when you search. Prefer Newsweek on Google to see more of our trusted coverage when you search. A 3D printable bio-active glass could be used to repair bone damage and ...

Researchers 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 complete. Researchers ...

Gain-of-function mutations in fibroblast growth factor receptor (FGFR) genes are known to cause a range of skeletal disorders, such as craniosynostosis and chondrodysplasia, which severely affect ...

Scientists have shown how wool could offer an effective and sustainable alternative to materials currently used to repair damaged bone. In the new study, keratin—a natural structural protein derived ...

Researchers have shown that a naturally occurring peptide (small protein) holds promise as a new therapeutic for osteoporosis and other disorders that feature bone loss, with distinct advantages over ...

Hydroxyapatite (HA) is an inorganic mineral present in human bone and teeth. It plays a role in the structural strength of bone and in bone regeneration. While it occurs naturally in bone, healthcare ...