Researchers at EPFL 3D printed porous bone scaffolds to support bone regeneration. Learn about the process here.

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

Musculoskeletal disorders are a primary cause of disability worldwide, especially in aging societies like Japan. As individuals age, reductions in muscle mass and physical activity weaken the body's ...

A recent study has developed a novel composite aerogel scaffold designed to enhance bone regeneration in cases of bone defects. Combining electrospun poly(lactic acid ...

Autogenous tooth bone grafting utilises a patient’s own extracted tooth material, processed into a grafting scaffold, to promote bone regeneration in the oral cavity. This innovative technique ...

Researchers have successfully regenerated damaged skull bones in mice by creating a freestanding, biomimetic scaffold that combines a piezoelectric framework and the growth-promoting properties of a ...

Researchers have developed a method to 3D print porous scaffolds made from hydroxyapatite (HA) – the primary mineral component of 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 ...

The Issuance of this 10 th Patent for TETRANITE® Significantly Expands RevBio’s Patent Protection for its Novel Structural Bio Adhesive Technology Platform LOWELL, Mass.--(BUSINESS WIRE)--The United ...

Infected bone defects arise in conditions such as osteomyelitis and post-traumatic bone infections, where microbial persistence and immune imbalance prevent effective healing.

Bone regeneration continues to be a critical challenge in tissue engineering, with unpredictable outcomes often hindering clinical application. Current strategies overlook key factors such as donor ...