Osteoblasts derived from MSCs are cells required for bone formation. Oxidative phosphorylation produces a lot of ATP and other products including NAD+ and ROS. These factors play important roles in ...

Wif1 overexpression accelerated osteogenic differentiation by activating genes related to late-stage osteogenic differentiation and mitophagy processes. Moreover administering Wif1-overexpressing ...

A recent study identifies Neural EGFL-like 2 (NELL2), a secreted protein, as a key regulator of bone homeostasis, offering potential therapeutic applications for osteoporosis. NELL2 promotes ...

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 research team from the Department of Medicine, School of Clinical Medicine, LKS Faculty of Medicine at the University of ...

Skeletal conditions such as developmental dysplasia of the hip (DDH), osteoporosis, and osteoarthritis affect millions worldwide, often causing chronic pain and disability. These disorders stem from ...

An international collaboration study reveals how evolution and locomotion patterns, such as bipedalism, shaped bone ...

Our fat tissue could be used to make our bones regrow, with scientists successfully using adipose cells to repair spinal compression fractures. It could change how breaks are treated and improve bone ...

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 ...