Biomedical engineers at Duke University are developing a massive fluid dynamics simulator that can model blood flow through the full human arterial system at subcellular resolution. One of the goals ...

A review has shed light on the groundbreaking advancements in the simulation of blood flow within the intricate vascular system that could transform medical treatment and device innovation for ...

Researchers from Science Tokyo develop a new computational method that combines 4D MRI, CFD, and DA for faster and realistic blood flow analysis in brain aneurysms. To simulate blood flow inside brain ...

DURHAM – Imagine simulating a patient’s specific vasculature to accurately predict how decisions, such as stent placement, can alter blood flow and affect surgical outcomes. That’s what biomedical ...

Shear stress is often present in the blood flow within blood-contacting devices, which is the leading cause of hemolysis. However, the simulation method for blood flow with shear stress is still not ...

Biomedical engineers are developing a massive fluid dynamics simulator that can model blood flow through the full human arterial system at subcellular resolution. One of the goals of the effort is to ...

To simulate blood flow inside brain aneurysms, a computational method that combines 4D flow MRI, computational fluid dynamics and data assimilation has been developed. Brain aneurysms, also known as ...

A review has shed light on the groundbreaking advancements in the simulation of blood flow within the intricate vascular system that could transform medical treatment and device innovation for ...