Researchers in Brazil have developed a graphene-based scaffold derived from industrial waste that attracted bone cells and promoted fracture repair in laboratory and animal tests. The work, published ...

Experiments conducted in Brazil using laboratory rats have shown that graphene-based structures can act as a powerful ally in bone regeneration. These structures are made of sheets of the chemical ...

A bone-like composite developed at EPFL uses naturally occurring enzymes to accelerate mineralization through an energy-efficient, room-temperature process. The strong, lightweight material shows ...

Scientists have engineered a nanocomposite scaffold from collagen, chitosan, and nano-hydroxyapatite sourced from marine processing waste, demonstrating strong potential in bone tissue engineering.

Natural extracts from turmeric and ginger enhance implant bonding, fight infection, and reduce cancer cells, offering a promising improvement for medical implants.

An implantable scaffold and magnetic probes capture circulating tumor cells directly in the bloodstream, eliminating over 90% of captured cells in rabbits and goats. (Nanowerk Spotlight) A single ...