Ossification and concomitant vascularization are crucial processes for healing large bone fractures. Despite the multifunctional role of endothelial cells, vascularizing large bone grafts in ...

Scientists from Sun Yat-sen University's School of Biomedical Engineering have developed groundbreaking tubular scaffolds made from electrospun membranes, which significantly enhance bone regeneration ...

A pioneering study conducted by Professor Fangyin Dai's team at Southwest University introduces a novel strategy for bone defect repair using flat silkworm cocoon (FSC) fiber scaffolds functionalized ...

A team of scientists headed by researchers at Technische Universität (TU) Dresden has used computer modeling and simulations to design novel bio-inspired molecules to enhance bone regeneration in mice ...

The field of bone implants has taken incredible strides thanks to technological innovations that allow for stronger grafts that are easier to install. Yet even with these advances, there are still ...

Bacteriologist taking a bacterial culture from a Petri dish. Image: Tim Sandle Bacteriologist taking a bacterial culture from a Petri dish. Image: Tim Sandle Some 2.2 million bone-grafting procedures ...

The reconstruction of large bone segments is an important clinical problem, and none of the approaches proposed thus far have proved very effective. In animals, repair and functional recovery of ...

Recent technological innovations which have allowed plasma to be generated at room temperature and at ambient atmosphere in what is called non-thermal atmospheric pressure plasma (NTAPP) have given ...