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 ...

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

This diagram illustrates the role of macrophage ATF6 in orthodontic tooth movement. When corticotomy is applied, monocytes are recruited to the bone, where they differentiate into pro-inflammatory ...

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

Scientists have discovered the stem cells, CXCL12, that anchor teeth to the bone, opening up new possibilities for ...

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 ...

Tooth loss and bone degeneration are problems that modern medicine still struggles to fix. Data from the National Bone Health Policy Institute shows that 10 million Americans over the age of 50 have ...

Japanese scientists have made a groundbreaking discovery in stem cell research that could revolutionize the treatment of dental loss. The recent study reveals the identification of two specific stem ...