AUTHOR=Ren Shuqi , Liu Qijia , Chen Zengsheng , Deng Xiaoyan , Sun Anqiang , Luan Jingyuan 

TITLE=Hemodynamic evaluation of endarterectomy and stenting treatments for carotid web

JOURNAL=Frontiers in Cardiovascular Medicine

VOLUME=Volume 9 - 2022

YEAR=2022

URL=https://www.frontiersin.org/journals/cardiovascular-medicine/articles/10.3389/fcvm.2022.993037

DOI=10.3389/fcvm.2022.993037

ISSN=2297-055X

ABSTRACT=Background and purpose: A carotid web is a thin, shelf-like luminal protrusion in the internal carotid artery, which might cause carotid stenosis and stroke by inducing disturbed flow patterns, thrombosis, and abnormal biomechanical stimulus to the endothelial cells. The present study simulated and evaluated how the two main treatments (endarterectomy and stenting) influence hemodynamic environments in the carotid artery and distal carotid siphon arteries, aiming to provide more references for the selection of clinical treatment.
Materials and methods: The carotid model with web, endarterectomy, and stenting models were reconstructed based on CT images. The blood flow simulations were conducted and critical parameters related to thrombosis formation and artery remodeling including swirling strength, wall shear stress (WSS), vortex Q-criterion, and oscillating shear index (OSI) were analyzed. 
Results: In the carotid web model, obvious recirculation formed distal the web, accompanied by lower velocity, lower WSS, higher RRT, and higher Q value. While in both two treatment models, the velocity increased, the Q value and relative resistance time (RRT) decreased at the carotid bifurcation. In addition, both treatments provide more kinetic energy to the distal carotid siphon artery, especially the stenting model.
Conclusion: The carotid web can significantly influence flow environments in the carotid artery. Both endarterectomy and stenting treatments could significantly diminish the side effects of the web and are feasible choices for web patients in hemodynamics views. Besides, the treatments for the carotid web would also influence the flow patterns at the distal carotid siphon, especially for the stenting treatment. But more innovational designs are needed to make the minimally invasive stenting treatment more beneficial.