Researchers at the Francis Crick Institute and University College London have rebuilt a human thymus, an essential organ in the immune system, using human stem cells and a bioengineered scaffold.

Today, people who suffer from cartilage damage don't have effective therapies at their disposal. But now, researchers at the Duke University Medical Center have developed a weaving machine to repair ...

Please provide your email address to receive an email when new articles are posted on . CareDx intends to develop a testing solution to use in pre-clinical animal models. CareDx will provide ...

University of Connecticut bioengineers have used piezoelectric biodegradable nanofiber tissue scaffold technology to successfully regrow cartilage directly in a rabbit’s knee, an achievement that ...

Scientists at the University of California-Davis say they used a bioengineered scaffold made up of human mesenchymal stem cells (MSCs) combined with timolol, a drug commonly used to treat glaucoma, to ...

Neurons (greenish yellow) attach to silk-based scaffold (blue), creating functional networks throughout the scaffold pores (dark areas).--Courtesy of Tufts University Investigators from Tufts ...

CHICAGO – Modern tissue engineering developed at the University of Michigan could improve the function of prosthetic hands and possibly restore the sense of touch for injured patients. Researchers ...

Researchers at the Francis Crick Institute and University College London have rebuilt a human thymus, an essential organ in the immune system, using human stem cells and a bioengineered scaffold.

Scientists were able to show that bioengineered uteri in an animal model developed the native tissue-like structures needed to support normal reproductive function. In new research from the Wake ...