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 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 ...

A drug that kills cancer cells by puncturing them comes with an additional benefit: tests in mice suggest it reduces the ...

Scientists uncovered how the protein Piezo1 translates physical activity into stronger bones, offering a path to ...

Researchers in Osaka have found that stem cells from fat tissue can repair spinal fractures similar to those caused by osteoporosis. By turning these cells into bone-forming clusters and pairing them ...

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.

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 ...

Scientists at the Children’s Medical Center Research Institute at UT Southwestern (CRI) have identified a new mechanism by which exercise strengthens bones and immune function. Their studies in ...

In the event of a bone fracture, fatty acids in our blood signal to stem cells that they have to develop into bone-forming cells. If there are no blood vessels nearby, the stem cells end up forming ...