This new imaging technique, when applied to humans, could both improve our understanding of the circulatory system (veins, ...

Blood microcirculation is a complex network that transports blood to tissues and organs through tiny blood vessels. When this mechanism functions properly, cells receive the oxygen and nutrients they ...

A new ultrasound-based imaging tech has been developed to map the organ blood flow in four dimensions (3D + time) — a level ...

Blood microcirculation is a complex network that transports blood to tissues and organs through tiny blood vessels. When this ...

AI-generated 3D modeling belonged to research labs and Hollywood studios. Today, it’s seeping into classrooms, social media ...

Human health is the Achilles heel of space travel. Researchers at ETH Zurich have now succeeded in printing complex muscle ...

ETH Zurich scientists 3D print muscle tissue in simulated zero gravity, paving the way for growing human tissue in space.

A team from the Department of Electronics, Information and Bioengineering of the Politecnico di Milano, led by Dr. Andrea ...

This study presents valuable findings on the role of KLF6 in in vitro endothelial cells exposed to altered (high or low) shear stress with a customized microfluidic device to investigate mechanisms of ...

Explore how ETH Zurich successfully performed 3D print in microgravity, creating human muscle tissue in simulated zero gravity.

Washington University engineers 3D print bioelectronic hydrogels, which could one day replace existing implantable devices.