Scientists have been fantasizing about the potential of precise 3D bioprinting for years. Just imagine, for example, if doctors could trial therapies on an exact replica of a kidney disease patient’s ...

On November 10, 2025, scientists achieved a significant milestone in the field of biotechnology by 3D printing muscle tissue in microgravity. This groundbreaking experiment was conducted with the ...

You may not be able to grow bigger muscles out of thin air, but you can 3D print them in microgravity, scientists at ETH Zurich have now established. "3D printing" refers to a type of manufacturing ...

A rapid form of 3D printing that uses sound and light could one day produce copies of human organs made from a person’s own cells, allowing for a range of drug tests. Traditional 3D printers build ...

What just happened? Another technology that's long been the thing of sci-fi has taken its first steps to becoming a reality: 3D bioprinting complex human organs. The concept of being able to 3D-print ...

Engineers at the University of Pittsburgh are working to develop 3D-printed organic tissue models that mimic the behavior of living organs. Online cover of Science Advances, April issue. A ...

Bioprinting holds the promise of engineering organs on demand. Now, researchers have solved one of the major bottlenecks—how to create the fine networks of blood vessels needed to keep organs alive.

Stem cells anchor the development of human organs and other structures, and, in some cases, can also perform repairs. The intensive interest in these developmental masterminds relates directly to ...

Zachary Sexton and colleagues have developed a design platform that can rapidly generate vasculature trees that can then be bioprinted and used to successfully perfuse living tissue constructs. The ...