Researchers identify bone-forming cells as the driver of scoliosis caused by a genetic disorder, which can be prevented ...

Scientists at Osaka University have discovered that intercellular communication via extracellular vesicles from osteoblasts, cells that are specialized for laying down new bone, is a key factor for ...

Please provide your email address to receive an email when new articles are posted on . In the risk factor excluded cohort, 0.02% of patients in the anabolic group developed primary bone malignancy.

Scientists are closing in on a goal that once sounded like science fiction: triggering the benefits of a workout inside bone ...

Osteoblasts act in a group to make bone over the course of several months. However, how osteoblasts cooperate with each other in vivo is still unknown. Now, researchers at Osaka University established ...

Scientists have identified a protein that blocks the activity of bone-forming cells (osteoblasts) by stopping them from maturing during the journey to sites of bone formation, a new study has found.

Bone remodeling occurs in different parts of the body throughout life to maintain bone architecture balance and systemic mineral homeostasis. During this "remodeling" process, osteoclasts remove ...

Scientists at the Children's Medical Center Research Institute at UT Southwestern (CRI) have identified the specialized environment, known as a niche, in the bone marrow where new bone and immune ...

A multidisciplinary research team has developed a technique to replicate bone tissue complexity and bone-remodeling processes. This breakthrough could help researchers further their study of bone ...

Brittle bone disease (osteogenesis imperfecta) is an inherited genetic condition that causes bone weakness. It can increase a person’s risk of fractures and other medical complications. A person with ...