Researchers at the University of Minnesota Twin Cities have developed a new 3D-printing method for creating realistic human ...

New York Tech and UC Irvine develop a 3D-printed human colon model to advance cancer drug testing and gastrointestinal ...

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 ...

In the world of medical advancements, 3D-printed organs have made a significant stride. Latest trials have demonstrated that these bioengineered organs can maintain their function for up to six months ...

Lab-grown organs are a long-time 'holy grail' of organ engineering that has yet to be achieved, but new research has brought that goal a big step closer to reality using a new 3D-printing method ...

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 ...

3D bioprinting combines cells, growth factors, and biomaterials to fabricate biomedical parts. The process requires special “bio-inks,” often made of materials like alginate or gelatin. A key goal is ...

Stanford bioengineer Mark Skylar-Scott writes about what he’s working on, how it could advance human health and well-being, and why universities are critical players in the nation’s innovation ...

On World Organ Transplant Day, we usually hear about the urgent need for more donors, the lifesaving power of a transplant, and how one person’s decision can save up to eight lives. That is all still ...

D printing creates solid objects from the additive process of layering plastics, metal, wood, synthetic fibers, and more.

In Book One, Steele explores the idea of an inexpensive, organically grown plant that could cure everything from coronavirus to cancer to the common cold. In Book Three, the ancient secret to fusion ...