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Hemodynamics investigation for a giant aneurysm treated by a flow diverter implantation

Issue title: Frontiers in Biomedical Engineering and Biotechnology – Proceedings of the 4th International Conference on Biomedical Engineering and Biotechnology, 18–21 August 2015, Shanghai, China

Guest editors: Feng Liu, Dong-Hoon Lee, Ricardo Lagoa and Sandeep Kumar

Article type: Research Article

Authors: Wang, Shengzhanga | Li, Jianjuna | Wang, Chaob | Yang, Xinjianb; * | Mu, Shiqingb | Wang, Wuqingc; *

Affiliations: [a] Department of Mechanics and Engineering Science, Fudan University, 220 Handan Road, Shanghai 200433, China | [b] Beijing Neurosurgery Institute, 6 Tiantan Xili, Beijing 100050, China | [c] Department of Dermatology, Minghang District Central Hospital, 170 Xinsong Road, Shanghai 201199, China

Correspondence: [*] Address for co-corresponding authors: Xinjian Yang, Beijing Neurosurgery Institute, 6 Tiantan Xili, Beijing 100050, China. Tel.: +86-1-67098852; Fax: +86-21-67018349; E-mail: yang-xj@163.com. Wuqing Wang, Department of Dermatology, Minghang District Central Hospital, 170 Xinsong Road, Shanghai 201199, China. Tel.: +86-21-64923400; Fax: +86-21-64923400-4406; E-mail: wuqingw2006@sina.com.

Keywords: Cerebral aneurysm, hemodynamics, flow diverter, virtual deployment, numerical simulation

DOI: 10.3233/BME-151309

Journal: Bio-Medical Materials and Engineering, vol. 26, no. s1, pp. S225-S231, 2015

Published: 2015
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Flow diverter is a kind of stent-like devices with higher metal coverage rate, and it is deployed endovascularly to treat cerebral aneurysms, especially to treat giant aneurysms. However, there exist some arguments about its safety and efficacy. Hemodynamics is considered to play very important role during the initiation, growth and rupture of cerebral aneurysms. In this study, the models of a giant cerebral aneurysm involved a small branch at the aneurysmal sac before and after flow diverter implantation were constructed by virtual deployment, the blood flows in the models were simulated by computational fluid dynamics method. Analyzing the variations of the hemodynamics, the following conclusions were summarized. The flow diverter is very effective device to occlude the aneurysm, the flow rate at the small branch was rarely changed when the flow diverter deployed and the flow diverter.

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