How can we investigate the effects of a new drug? How can we better understand the interaction between different organs to grasp the systemic response? In biomedical research, so-called ...

Senior author Professor Anthony Weiss from the Charles Perkins Centre said while others have tried to build blood vessels with various degrees of success before, this is the first time scientists have ...

Animal studies often fail to predict human tissue responses to new drugs or newly developed therapies. Besides generating ...

Scientists at the University of North Texas report a breakthrough in building tiny, lab-grown replicas of human organs. These replicas, called organoids, can mimic some functions and structures of ...

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.

Over 100,000 individuals in the United States are currently in need of organ transplants. The demand for organs, such as hearts, kidneys, and livers, far exceeds the available supply and people ...

There are more than 100,000 people on organ transplant lists in the U.S., some of whom will wait years to receive one – and some may not survive the wait. Even with a good match, there is a chance ...

Networks adapt over time and in this way form a kind of memory. Researchers show that the structure of blood vascular network is dynamic and can adapt to external factors. In particular, the ...

Because blood vessels need to withstand significant forces, the research team next turned to a process known as melt electrowriting. This is a 3D-printing technique that can make intricate rigid ...