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 ...

When detached cancer cells squeeze through the tiniest blood vessels, they can become prone to grow new tumors far from where ...

Researchers at the Georgia Institute of Technology, collaborating with pediatric cardiologists and surgeons at The Children's Hospital of Philadelphia, have developed a tool for virtual surgery that ...

Tezduyar first introduced space-time computational flow analysis in 1990 as a framework for modeling fluid flow with greater ...

Researchers at the Institute of Science Tokyo have developed a computational method to simulate blood flow in brain aneurysms using four-dimensional (4D) flow magnetic resonance imaging (MRI), ...

Researchers at NYU Langone Health discovered that cutting off blood flow accelerates cancer growth by prematurely aging the ...

Cancer cells can become more aggressive when squeezed through narrow capillaries. The physical stress of being forced through ...

Restricted blood flow speeds tumor growth by aging the immune system. The findings highlight risks for patients with vascular ...