Engineered human capillaries are providing an astounding view of how red blood cells transit ultra-small blood vessels. This new platform was used in a recent study to learn how severe malaria ...

A team of bioengineers at the University of Washington has developed the first structure for growing small human blood vessels in the laboratory. The vessels behave remarkably like those in a living ...

Engineered human capillaries are providing an astounding view of how red blood cells transit ultra-small blood vessels. This new platform was used in a recent study to learn how severe malaria ...

As cardiovascular research continues to evolve, new ways of understanding circulation are expanding how clinicians think ...

Bioengineers have developed the first structure to grow small human blood vessels, creating a 3-D test bed that offers a better way to study disease, test drugs and perhaps someday grow human tissues ...

DGIST team led by professors Jaesok Yu and Jungho Hyun realizes ultrasound super-resolution imaging technology that reduces data by one-third using existing equipment - High-speed, long-duration, and ...

A research team from the Daegu Gyeongbuk Institute of Science and Technology (DGIST) has improved blood vessel observation technology using ultrasound. The team developed "ULM-Lite," which ...

Alzheimer's disease is associated with a reduction of insulin receptors in brain microvessels, which may contribute to brain insulin resistance and the formation of amyloid plaques, one of the disease ...

3D microvessels have been created to observe how red blood cells transit ultra-small blood vessels. They squeeze single-file through microvessels to bring oxygen and nutrients. Red cells burdened with ...