"The model can reproduce key pressure, flow, motion, valve and imaging features that align with human heart behavior. However, before this platform can be used for clinical decision-making, we need to ...
A team led by researchers at UNC-Chapel Hill have developed an innovative computer model of blood flow in the human heart that promises to transform how we understand, diagnose, and treat heart ...
Researchers at UNSW Sydney have developed a fully synthetic soft robotic heart that reproduces the complex movements and ...
A team led by researchers at UNC-Chapel Hill have developed an innovative computer model of blood flow in the human heart that promises to transform how we understand, diagnose, and treat heart ...