Three-dimensional Computational Mechanical Analysis for 3-layered Aortic Arch Model under Steady and Unsteady Flow with Fluid-structure Interactions

摘要

Cardiovascular disease is the No. 1 killer in the developed countries and is responsible for millions of deaths and disabilities every year. In cardiovascular biomechanics the fluid-structure interaction within large blood vessel is required to understand the aortic wall tear, aortic dissection and so on. A loosely coupled method was used to study the complex mechanical interaction under steady flow and pulsatile flow in a three-layered aortic arch model. The results showed the impact of steady flow and pulsatile flow, the variations of wall stress along arch portion, and wall stress distribution in three-layered wall. The study provide insight into the biomechanics of aortic dissection: at systolic acceleration phase, the highest normal stress in the media layer may be responsible for the tear and dissection extending into the media layer; at foot entrance flow or diastolic phase, the shear stress might contribute to the dissection in the media near the adventitia layer.