Simple Summary Fluid-structure interaction algorithms are utilized to examine how the
human circulatory system functions by simulating blood flow and capturing mechanical …

Large aortic aneurysm and acute and chronic aortic dissection are pathologies of the aorta
requiring surgery. Recent advances in medical intervention have improved patient …

Computational hemodynamics has become increasingly important within the context of
precision medicine, providing major insight in cardiovascular pathologies. However, finding …

We present a novel framework for the fluid dynamics analysis of healthy subjects and
patients affected by ascending thoracic aorta aneurysm (aTAA). Our aim is to obtain …

The complicated interaction between a fluid flow and a deformable structure is referred to as
fluid–structure interaction (FSI). FSI plays a crucial role in the functioning of the aortic valve …

Given the associated risks with transcatheter aortic valve replacement (TAVR), it is crucial to
determine how the implant will affect the valve dynamics and cardiac function, and if TAVR …

Prosthetic heart valves deployed in the left heart (aortic and mitral) are subjected to harsh
hemodynamical conditions. Most of the tissue engineered heart valves have been …

We describe the SOniCS (SOFA+ FEniCS) plugin to help develop an intuitive understanding
of complex biomechanics systems. This new approach allows the user to experiment with …

This paper presents a chemo-mechano-biological framework for arterial physiopathology.
The model accounts for the fine remodelling in the multiscale hierarchical arrangement of …

The clinical presentation and natural courses in acute non-A-non-B aortic dissection (AD)
are quite different from classical acute type A or type B AD, and the benefit of hybrid …