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

Cell- and animal-based models of bone formation reveal novel mechanisms involved in the cartilage-to-bone phenotype transitions CHENGDU, SICHUAN, CHINA, March 20 ...

A newly discovered pair of stem cell lineages drives the formation of both tooth roots and the bone that anchors them. Understanding how these cells switch roles could pave the way for regenerating ...

In our bones, specialized cells called osteoblasts are responsible for building up bone substance. A team of researchers has now identified an enzyme that controls the activity of osteoblasts. An ...

A recent mouse model based study suggests that blocking TGF-β may improve osteoporosis treatment by helping quiescent ...

Bone marrow is the spongy tissue located within the hollow center of bones, serving as the primary site for the continuous production of red blood cells, platelets, and white blood cells. Despite its ...

A recent mouse model based study suggests that blocking TGF-β may improve osteoporosis treatment by helping quiescent osteoblasts in inactive bone surfaces return to an active state. Using spatial ...

Researchers at Dresden University Hospital may have discovered a new therapeutic approach for treating myelodysplastic ...

Osteopenia causes reduced bone density without symptoms, driven by aging, hormones, and lifestyle factors. Early detection ...