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Computer Methods in Biomechanics and Biomedical Engineering Volume 18, 2015 - Issue 11
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Numerical simulation of fluid–structure interaction in bypassed DeBakey III aortic dissection

Aike QiaoCenter of Cardiovascular Medical Engineering, College of Life Science and Bioengineering, Beijing University of Technology, Beijing, P.R. ChinaCorrespondence[email protected]
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Wencong YinCenter of Cardiovascular Medical Engineering, College of Life Science and Bioengineering, Beijing University of Technology, Beijing, P.R. ChinaView further author information
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Bo ChuCenter of Cardiovascular Medical Engineering, College of Life Science and Bioengineering, Beijing University of Technology, Beijing, P.R. ChinaView further author information
Pages 1173-1180 | Received 01 Nov 2012, Accepted 07 Jan 2014, Published online: 17 Feb 2014

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Yonghui Qiao, Yujie Zeng, Ying Ding, Jianren Fan, Kun Luo & Ting Zhu. (2019) Numerical simulation of two-phase non-Newtonian blood flow with fluid-structure interaction in aortic dissection. Computer Methods in Biomechanics and Biomedical Engineering 22:6, pages 620-630.
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Fu Rongchang, Wang Kun & Wu Hui. (2023) Study of the mechanism of action of sand therapy on atherosclerosis based on the two-phase flow-Casson model. Bio-Medical Materials and Engineering, pages 1-14.
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T. Kim, P. A. J. van Bakel, N. Nama, N. Burris, H. J. Patel, D. M. Williams & C. A. Figueroa. (2023) A Computational Study of Dynamic Obstruction in Type B Aortic Dissection. Journal of Biomechanical Engineering 145:3.
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Dongting Liu, Xuan Wang, Dongliang Zhao, Zhonghua Sun, Jumatay Biekan, Zhaoying Wen, Lei Xu & Jiayi Liu. (2022) Influence of MRI-based boundary conditions on type B aortic dissection simulations in false lumen with or without abdominal aorta involvement. Frontiers in Physiology 13.
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Yu Zhu, Saeed Mirsadraee, Ulrich Rosendahl, John Pepper & Xiao Yun Xu. (2022) Fluid-Structure Interaction Simulations of Repaired Type A Aortic Dissection: a Comprehensive Comparison With Rigid Wall Models. Frontiers in Physiology 13.
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Huanming Xu, Jiang Xiong, Xiaofeng Han, Yuqian Mei, Yue Shi, Dianpeng Wang, Mingchen Zhang & Duanduan Chen. (2021) Computed tomography-based hemodynamic index for aortic dissection. The Journal of Thoracic and Cardiovascular Surgery 162:2, pages e165-e176.
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Yunfei Ling, Jiguo Tang & Hongtao Liu. (2021) Numerical investigation of two-phase non-Newtonian blood flow in bifurcate pulmonary arteries with a flow resistant using Eulerian multiphase model. Chemical Engineering Science 233, pages 116426.
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Kathrin Bäumler, Vijay Vedula, Anna M. Sailer, Jongmin Seo, Peter Chiu, Gabriel Mistelbauer, Frandics P. Chan, Michael P. Fischbein, Alison L. Marsden & Dominik Fleischmann. (2020) Fluid–structure interaction simulations of patient-specific aortic dissection. Biomechanics and Modeling in Mechanobiology 19:5, pages 1607-1628.
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Bijit Munshi, Louis P. Parker, Paul E. Norman & Barry J. Doyle. (2020) The application of computational modeling for risk prediction in type B aortic dissection. Journal of Vascular Surgery 71:5, pages 1789-1801.e3.
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Selene Pirola, Baolei Guo, Claudia Menichini, Simone Saitta, Weiguo Fu, Zhihui Dong & Xiao Yun Xu. (2019) 4-D Flow MRI-Based Computational Analysis of Blood Flow in Patient-Specific Aortic Dissection. IEEE Transactions on Biomedical Engineering 66:12, pages 3411-3419.
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Osman Gültekin, Sandra Priska Hager, Hüsnü Dal & Gerhard A. Holzapfel. (2019) Computational modeling of progressive damage and rupture in fibrous biological tissues: application to aortic dissection. Biomechanics and Modeling in Mechanobiology 18:6, pages 1607-1628.
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Yuanhang Zhou, Jianhua Tong, Xin Li, Xuanyu Li & Guixue Wang. (2019) Numerical simulation of haemodynamics of the descending aorta in the non-diabetic and diabetic rabbits. Journal of Biomechanics 91, pages 140-150.
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Mirko Bonfanti, Stavroula Balabani, Mona Alimohammadi, Obiekezie Agu, Shervanthi Homer-Vanniasinkam & Vanessa Díaz-Zuccarini. (2018) A simplified method to account for wall motion in patient-specific blood flow simulations of aortic dissection: Comparison with fluid-structure interaction. Medical Engineering & Physics 58, pages 72-79.
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Mona AlimohammadiMona Alimohammadi. 2018. Aortic Dissection: Simulation Tools for Disease Management and Understanding. Aortic Dissection: Simulation Tools for Disease Management and Understanding 127 153 .
Mona AlimohammadiMona Alimohammadi. 2018. Aortic Dissection: Simulation Tools for Disease Management and Understanding. Aortic Dissection: Simulation Tools for Disease Management and Understanding 39 68 .
Mona AlimohammadiMona Alimohammadi. 2018. Aortic Dissection: Simulation Tools for Disease Management and Understanding. Aortic Dissection: Simulation Tools for Disease Management and Understanding 1 38 .
Huanming Xu, Zhenfeng Li, Huiwu Dong, Yilun Zhang, Jianyong Wei, Paul N. Watton, Wei Guo, Duanduan Chen & Jiang Xiong. (2017) Hemodynamic parameters that may predict false-lumen growth in type-B aortic dissection after endovascular repair: A preliminary study on long-term multiple follow-ups. Medical Engineering & Physics 50, pages 12-21.
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Jacky Ka Long Ko, Ryan Wen Liu, Diya Ma, Lin Shi, Simon Chun Ho Yu & Defeng Wang. (2017) Pulsatile hemodynamics in patient-specific thoracic aortic dissection models constructed from computed tomography angiography. Journal of X-Ray Science and Technology 25:2, pages 233-245.
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Mona Alimohammadi, Joseph M Sherwood, Morad Karimpour, Obiekezie Agu, Stavroula Balabani & Vanessa D?az-Zuccarini. (2015) Aortic dissection simulation models for clinical support: fluid-structure interaction vs. rigid wall models. BioMedical Engineering OnLine 14:1.
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