The researchers combined two imaging methods, rotational ultrasound tomography (RUST) and photoacoustic tomography (PAT), to ...

RUS-PAT, developed in collaboration by USC and Caltech, could transform medical imaging through noninvasive, cost-effective ...

A review paper by scientists at the Chonnam National University summarized the recent research on bioprinting methods for fabricating bioengineered blood vessel models. The new review paper, published ...

3D-printed organs are a biopunk’s dream and which may soon come true thanks to researchers from the University of California, San Diego. Led by Shaochen Chen, the team of nanoengineers developed a new ...

In a proof-of-concept study, researchers from the Keck School of Medicine of USC and the California Institute of Technology ...

Imagine if you were trying to clear rubble out of a tunnel, but you could only see that tunnel from the side, instead of looking straight into it. Well, that's currently what it's like for doctors who ...

Ultrasound conducted before a patient develops symptoms could improve early detection of diseases in blood vessels, research led by the University of Leicester has shown. In a paper published in the ...

Left: 3D power-Doppler volumes overlaid on anatomical volumes of the myocardium in the left-anterior descending artery. Right: Absolute flow velocities estimated by 4D ultrafast ultrasound flow ...

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.

Blood vessels are the lifeline of any organ. The dense web of channels, spread across tissues like a spider web, allow oxygen and nutrients to reach the deepest cores of our hearts, brains, and lungs.