The Feasibility Study of Carotid Artery Stent Implantation Surgery Simulation based on CFD Technology

Yanhan Song; Xue Wang; Yikai Meng; Xin Lin; Xinyue Zhang; Xinyu Liang; Na Zhu; Hongfei Zhu; Guo Yu; Wendi Sun; Liya Wang; Jianhui Wu

doi:10.54097/xcm2z358

Authors

Yanhan Song
Xue Wang
Yikai Meng
Xin Lin
Xinyue Zhang
Xinyu Liang
Na Zhu
Hongfei Zhu
Guo Yu
Wendi Sun
Liya Wang
Jianhui Wu

DOI:

https://doi.org/10.54097/xcm2z358

Keywords:

Carotid Artery Stenting, 3D Blood Vessel Model, CFD Simulation

Abstract

Carotid artery stenting (CAS) is an emerging endovascular intervention technique that has the potential to reduce the risk of stroke; however, it may be associated with a variety of complications postoperatively. Consequently, it is imperative to identify risk factors prior to CAS preoperative. Computational Fluid Dynamics (CFD) simulation uses numerical calculation methods to simulate and analyze the physical phenomena of blood flow. This research leverages a carotid ultrasound database to construct 3D models and conducts stent implantation simulations at sites of carotid stenosis to predict postoperative recovery outcomes. By providing more comprehensive and accurate information as feasibly as possible, the aim is to assist physicians in optimizing surgical plans, enhancing the success rate of surgeries, minimizing operative risks and ultimately delivering superior therapeutic results to patients.

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