Every day, your body replaces billions of cells—and yet, your tissues stay perfectly organized. How is that possible? A team of researchers at ChristianaCare's Helen F. Graham Cancer Center & Research ...

3D printed tissues and organs have shown real potential in addressing shortages of available donor tissue for people in need of transplants, but having them take root and survive after implantation ...

Scientists demonstrate a novel way of using porous structures as a drug-delivery vehicle that can help boost the integration of host tissue with surgically implanted titanium. Instead of being acted ...

A simple light-based method is uncovering hidden fiber networks inside the brain and body, even in tissue slides over 100 years old.

For the first time, scientists have produced 3D-printed structures made of living cells that are big enough and strong enough to replace human tissues. A bioprinter, described today in Nature ...

A new cryogenic 3D printing technique could one day enable fabrication of off-the-shelf artificial muscle fibres, according to research published in Advanced Materials. Printing synthetic tissue that ...

The human body undergoes a daily replacement of billions of cells, but the tissues remain flawlessly organized. How can that be? Image credit: sdecoret/Shutterstock.com Researchers from the University ...

Now, MIT engineers have found that this "intercellular" fluid plays a major role in how tissues respond when squeezed, pressed, or physically deformed. Their findings could help scientists understand ...

This research is the product of more than 15 years of collaboration between mathematicians and cancer biologists to unlock the rules that govern tissue structure and cellular behavior. “This may be ...