Orthodontic tooth movement is fundamentally driven by the application of controlled mechanical forces to reposition teeth within the alveolar process. This movement is intrinsically linked to alveolar ...

An international collaboration study reveals how evolution and locomotion patterns, such as bipedalism, shaped bone structures through proteins present in the bone matrix. The findings of the study, ...

Fam102a-Rbpjl axis in osteoblast differentiation reveals significant insights into bone remodeling and may aid the development of therapeutic strategies. Bones are the living tissue on which the human ...

In a new study, researchers from Japan reveal that iSN40 suppresses osteoclast differentiation and bone matrix resorption, offering a potential therapeutic approach for osteoporosis by restoring the ...

Osteocytes, the most abundant cells in bone tissue, have long been underestimated in their functional capacity. Traditionally viewed as passive entities, recent research has illuminated their pivotal ...

The discovery of a family with sequence similarity 102 member A (Fam102a) protein as a novel bone remodeling factor that regulates both osteoclast and osteoblast differentiation can aid the ...

Osteoporosis or the weakening of bones makes the aging population vulnerable to fractures and a decreased quality of life. The parathyroid hormone (PTH)-derived peptide -- teriparatide has ...

Bones are the living tissue on which the human skeleton is constructed and play a key role in enabling physical movements. The structural integrity of bones has been attributed to bone remodeling-aa ...

Sustained hypoxia affects orthodontic tooth movement (OTM) by altering osteoclast and osteoblast differentiation, report researchers from Institute of Science Tokyo, Japan. Hypoxic conditions resulted ...