The invention uses light, sound and bubbles to quickly create copies of soft tissue that might one day support testing ...

In the medical field, in addition to applications such as the creation of prostheses or the optimization of surgical ...

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 ...

A study published in Nature Communications by a team at Penn State lays out the key factor for speeding up tissue generation: ...

This new bioprinting technique uses cell clusters, called spheroids, to fabricate complex tissue. This development could lead ...

Basics of 3D printing The traditional printers ... How close are we to bioprinting internal organs? Today’s technology is not yet sophisticated enough to bioprint complex human organs, however ...

A novel bioprinting technique that uses spheroids to create complex tissue improves the scalability of tissue fabrication.

Researchers have developed a novel bioprinting technique that uses spheroids, which are clusters of cells, to create complex tissue. This new technique improves the precision and scalability of tissue ...

University of Twente researchers develop programmable 3D printing bioinks to precisely guide the growth and organization of ...

Penn State increases speed of bioprinting tissue by 10x - expanding opportunities to develop functional organs in ...

Lloyd Huck Chair in 3D Bioprinting and Regenerative Medicine ... to production of larger and more intricate tissues, such as organs and organ tissue like the liver. Ozbolat said that the team ...