水动力学研究与进展B辑
水動力學研究與進展B輯
수동역학연구여진전B집
JOURNAL OF HYDRODYNAMICS
2013年
6期
848-855
,共8页
邱晓宁%费智敏%张珏%曹兆敏
邱曉寧%費智敏%張玨%曹兆敏
구효저%비지민%장각%조조민
Computational Fluid Dynamics (CFD)%stent%basilar tip aneurysm%hemodynamics
This paper studies the influence of a High-Porosity Mesh (HPM) stent on the hemodynamic characteristics in the intracra- nial aneurysm based on the Computational Fluid Dynamics (CFD). An idealized basilar tip aneurysm model and a HPM stent model are built. The pulsating blood flow in a cardiac cycle is computationally simulated for non-stented and stented models, to provide a wealth of information of the spatio-temporally varying blood flow field. The influence of the stent placement on the hemodynamic characteristics is analyzed in terms of distributions of velocity, pressure, Wall Shear Stress (WSS) and Energy Loss (EL), which are believed to play an important role in the development and rupture of the aneurysm. The numerical results clearly show that the velo- city, pressure, WSS and EL of the blood flow in the aneurysm are reduced by 30%-40% when the HPM stent is implanted. These computational results may provide valuable hemodynamic information for clinical neurosurgeon.
