The utilization of biodegradable biomaterials as a therapeutic modality for musculoskeletal tissue regeneration has emerged as a promising avenue for ...

UNSW develops new 3D printed bone implant - bringing personalized, biodegradable implants one step closer to reality.

The emergence of biodegradable polymers has transformed tissue engineering and biomedical applications by offering materials that can safely degrade within the body while providing temporary support ...

And third, tissue-engineered patches must be functional from the moment they’re implanted. With these challenges in mind, the researchers used electrospinning – the creation of nanofibers by the ...

Scientists have developed biodegradable polymers that can mimic the ability of white blood cells to target inflamed blood vessel walls, according to a new study led by Ohio University researchers.

Scientists of Tomsk Polytechnic University jointly with their colleagues from the University of Aveiro (Portugal) and a number of some overseas universities have developed a polymeric material ...

The traditional paradigm of metallic biomaterials requires metals with improved corrosion resistance in the body. A new class of biodegradable materials – ...

Researchers have successfully regenerated functional bladder tissue in a baboon using the animal’s own bone marrow cells. With the organ working within a few months and staying healthy throughout the ...

CAMBRIDGE, Mass. -- Many diseases, including cirrhosis and hepatitis, can lead to liver failure. More than 17,000 Americans suffering from these diseases are now waiting for liver transplants, but ...

3D printing is opening new frontiers in regenerative medicine, particularly in the development of next generation of musculoskeletal treatment strategies via tissue engineering approach. This ...