Schematic illustration of the GMHD/TFe@Aca hydrogel system: (1) Near-infrared (NIR) light triggers controlled release of acacetin from tannic acid-iron nanoparticles; (2) Acacetin inhibits STING ...

An innovative technology developed at Tel Aviv University will enable bone regeneration to correct large bone defects by means of a special hydrogel. Following successful tests in an animal model, the ...

A research team has developed an innovative injectable adhesive hydrogel for bone regeneration. This hydrogel utilizes harmless visible light to simultaneously achieve cross-linking and mineralization ...

A team develops an innovative injectable hydrogel for bone regeneration, addressing the limitations of traditional bone grafts and adhesion methods. A research team led by Professor Hyung Joon Cha ...

In today's world, more people suffer from bone problems caused by injuries, infections, or birth defects. As the population grows older, these issues are becoming more common. Traditional treatments ...

An innovative technology has been developed to enable bone regeneration to correct large bone defects by means of a special hydrogel. Following successful tests in an animal model, the researchers now ...

Whether they're caused by injury, disease or other factors, missing sections of bone can be quite difficult to replace. A new injectable hydrogel could change that, however, by transforming into a ...

While bone injuries such as fractures typically heal on their own, large sections of missing bone often never grow back, requiring bone transplants from other parts of the body. A new hydrogel, ...