Bone tissue engineering and regeneration stands at the forefront of regenerative medicine, offering innovative solutions for skeletal repair and reconstruction. This multidisciplinary field integrates ...

A bone-like composite developed at EPFL uses naturally occurring enzymes to accelerate mineralization through an ...

DNA can help to stimulate bone healing in a localized and targeted manner, for example after a complicated fracture or after severe tissue loss following surgery. Scientists have developed a new ...

Researchers in Sweden have engineered a cell-free cartilage scaffold that can guide the body to rebuild damaged bone. By removing the cells but preserving the structure and natural growth signals, the ...

Researchers in EPFL’s School of Engineering have now created a room‑temperature 3D printing process that uses enzymes to rapidly mineralise HA‑based scaffolds.

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 ...

In our bones, specialized cells called osteoblasts are responsible for building up bone substance. A team of researchers led by scientists from the DKFZ-Hector Cancer Institute at the University ...

Bone implants often fail to fully integrate with surrounding tissue, limiting their effectiveness in regeneration. A natural but often overlooked cellular process could hold the key to better outcomes ...

The growing paleopathological literature shows that scurvy was not a rare problem among people living in the ancient Asia-Pacific tropics. Scurvy is increasingly identified throughout the region, ...

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