New Griffith University research investigated how the Nuralyte device, similar in size to an electric toothbrush, enhanced mitochondrial respiration and stimulated gene expression in bone-forming stem ...

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 ...

A recent discovery could transform our understanding of bone health maintenance and pave the way for potential treatments for bone diseases, including osteoporosis. Researchers at the University of ...

What keeps bones able to remodel themselves and stay healthy? A team has discovered clues to the key function of non-collagen protein compounds and how they help bone cells react to external load. The ...

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 ...

Scientists from Stanley Manne Children’s Research Institute at Ann & Robert H. Lurie Children’s Hospital of Chicago and Northwestern University report they have succeeded in regenerating fully ...

The field of bone tissue engineering (BTE) was a promising avenue for addressing bone injuries and defects by constructing artificial scaffolds with bionic functionalities. Due to its unique 3D ...

Hidden inside every organ, microscopic fibers form a scaffolding that quietly shapes how we move, think, and heal. For the first time, scientists have produced detailed maps of these fiber webs across ...

Researchers at Children's Hospital of Philadelphia (CHOP) revealed important genetic components that affect bone density in children and adolescents. This information could help identify pediatric ...