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 ...

Innovative technology that creates ultra-thin layers of human cells in tube-like structures could spur development of lifelike blood vessels and intestines in the lab. Innovative technology that ...

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 ...

3D printed ice template of blood vessels shown on the left. The right shows imaging of cells forming a blood vessel-like structure on the template one week later. ROCKVILLE, MD – Over 100,000 ...

Researchers are using ice as a template for the 3D printing of artificial blood vessels in engineered tissues, which could one day be utilized for artificial organ transplants and drug testing.

A technique for printing 3D structures from ice could be used to help make artificial veins and arteries. When you purchase through links on our site, we may earn an affiliate commission. Here’s how ...

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 ...

Lab-grown organs for transplant are one step closer thanks to a technique for making artificial blood vessels using 3D printers and liquid metal. One challenge in developing organs in the lab is to ...

One day, robots might navigate through your blood vessels to break up clots, deliver targeted chemotherapy or repair ruptured blood vessels more efficiently and effectively than existing tools, ...