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

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

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

Until now, conventional 3D cell cultures have often been either too rigid or too unstable to realistically reproduce the complex interactions between brain cells. Researchers at Kiel University (CAU) ...

Northwestern University scientists have developed a cell-free bioactive material comprising a complex network of molecular components that work together as a scaffold to mimic cartilage’s natural ...

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.

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 ...

Tissue/organ repair has been the ultimate goal of surgery from ancient times to the present. Repair has traditionally taken two forms: (i) tissue grafting and organ transplantation, and (ii) ...