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Computer Methods in Biomechanics and Biomedical Engineering Volume 17, 2014 - Issue 4
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Articles

Evaluation of a transient, simultaneous, arbitrary Lagrange–Euler based multi-physics method for simulating the mitral heart valve

Daniel M. EspinoSchool of Mechanical Engineering, University of Birmingham, Birmingham, B15 2TT, UKCorrespondence[email protected]
,
Duncan E.T. ShepherdSchool of Mechanical Engineering, University of Birmingham, Birmingham, B15 2TT, UK
&
David W.L. HukinsSchool of Mechanical Engineering, University of Birmingham, Birmingham, B15 2TT, UK
Pages 450-458 | Received 18 Nov 2011, Accepted 23 Apr 2012, Published online: 29 May 2012

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Saeed Adham Esfahani, Kamran Hassani & Daniel M. Espino. (2019) Fluid-structure interaction assessment of blood flow hemodynamics and leaflet stress during mitral regurgitation. Computer Methods in Biomechanics and Biomedical Engineering 22:3, pages 288-303.
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May Y.S. Kuan & Daniel M. Espino. (2015) Systolic fluid–structure interaction model of the congenitally bicuspid aortic valve: assessment of modelling requirements. Computer Methods in Biomechanics and Biomedical Engineering 18:12, pages 1305-1320.
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Hamidreza Ghasemi Bahraseman, Kamran Hassani, Mahdi Navidbakhsh, Daniel M. Espino, Zahra Alizadeh Sani & Nasser Fatouraee. (2014) Effect of exercise on blood flow through the aortic valve: a combined clinical and numerical study. Computer Methods in Biomechanics and Biomedical Engineering 17:16, pages 1821-1834.
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Articles from other publishers (27)

Vijay Govindarajan, Arun Kolanjiyil, Charles Wanna, Hyunggun Kim, Siddharth Prakash, Krishnan B. Chandran, David D. McPherson & Nils P. Johnson. (2023) Biomechanical Evaluation of Aortic Valve Stenosis by Means of a Virtual Stress Test: A Fluid–Structure Interaction Study. Annals of Biomedical Engineering.
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Jan‐Niklas Thiel, Ulrich Steinseifer & Michael Neidlin. (2023) Generic framework for quantifying the influence of the mitral valve on ventricular blood flow. International Journal for Numerical Methods in Biomedical Engineering 39:11.
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Alberto Zingaro, Michele Bucelli, Ivan Fumagalli, Luca Dede' & Alfio Quarteroni. (2023) Modeling isovolumetric phases in cardiac flows by an Augmented Resistive Immersed Implicit Surface method. International Journal for Numerical Methods in Biomedical Engineering.
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Yousef Alharbi, Amr Al Abed, Azam Ahmad Bakir, Nigel H. Lovell, David W.M. Muller, James Otton & Socrates Dokos. (2022) Fluid structure computational model of simulating mitral valve motion in a contracting left ventricle. Computers in Biology and Medicine 148, pages 105834.
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Christoph Ager, Alexander Seitz & Wolfgang A. Wall. (2020) A consistent and versatile computational approach for general fluid‐structure‐contact interaction problems. International Journal for Numerical Methods in Engineering 122:19, pages 5279-5312.
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Ruhang Zhou, Hongyan Zhai, Zhiming Yin, Jian Cui & Nan Hu. (2021) Virtual Reality-Assisted Percutaneous Transluminal Angioplasty for Interventional Treatment of Lower-Extremity Arteriosclerosis Obliterans. Journal of Healthcare Engineering 2021, pages 1-13.
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Rhiannon Northeast, Matthew Constable, Hanna E Burton, Bernard M Lawless, Vera Gramigna, Kheng Lim Goh, Keith G Buchan & Daniel M Espino. (2020) Mechanical testing of glutaraldehyde cross-linked mitral valves. Part one: In vitro mechanical behaviour. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 235:3, pages 281-290.
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S Turzi, M Zoppello & D Ambrosi. (2020) Equilibrium of Two Rods in Contact Under Pressure. The Quarterly Journal of Mechanics and Applied Mathematics 73:4, pages 329-346.
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Ivan Fumagalli, Marco Fedele, Christian Vergara, Luca Dede’, Sonia Ippolito, Francesca Nicolò, Carlo Antona, Roberto Scrofani & Alfio Quarteroni. (2020) An image-based computational hemodynamics study of the Systolic Anterior Motion of the mitral valve. Computers in Biology and Medicine 123, pages 103922.
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Diana M. C. de Oliveira, Nazirul Abdullah, Naomi C. Green & Daniel M. Espino. (2020) Biomechanical Assessment of Bicuspid Aortic Valve Phenotypes: A Fluid–Structure Interaction Modelling Approach. Cardiovascular Engineering and Technology 11:4, pages 431-447.
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Anna Daub, Jochen Kriegseis & Bettina Frohnapfel. (2020) Replication of left ventricular haemodynamics with a simple planar mitral valve model. Biomedical Engineering / Biomedizinische Technik 0:0.
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Iman Borazjani & Amir Akbarzadeh. 2020. Modeling and Simulation of Turbulent Mixing and Reaction. Modeling and Simulation of Turbulent Mixing and Reaction 201 225 .
Dongwei Yuan, Yiping Luo & Yong Peng. (2019) Research on the Crashworthiness of Regular Centurion 2M Barrier Based on the Arbitrary Lagrange-Euler Method. International Journal of Automotive Technology 20:3, pages 549-558.
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Chung-Hao Lee, Devin W. Laurence, Colton J. Ross, Katherine E. Kramer, Anju R. Babu, Emily L. Johnson, Ming-Chen Hsu, Ankush Aggarwal, Arshid Mir, Harold M. Burkhart, Rheal A. Towner, Ryan Baumwart & Yi Wu. (2019) Mechanics of the Tricuspid Valve—From Clinical Diagnosis/Treatment, In-Vivo and In-Vitro Investigations, to Patient-Specific Biomechanical Modeling. Bioengineering 6:2, pages 47.
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Kamran Hassani, Alireza Karimi, Ali Dehghani, Ali Tavakoli Golpaygani, Hamed Abdi & Daniel M. Espino. (2018) Development of a fluid-structure interaction model to simulate mitral valve malcoaptation. Perfusion 34:3, pages 225-230.
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Jenny M. Freij, Hanna E. Burton & Daniel M. Espino. (2018) Objective Uniaxial Identification of Transition Points in Non-Linear Materials: Sample Application to Porcine Coronary Arteries and the Dependency of Their Pre- and Post-Transitional Moduli with Position. Cardiovascular Engineering and Technology 10:1, pages 61-68.
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Rachel Jewkes, Hanna Burton & Daniel Espino. (2018) Towards Additive Manufacture of Functional, Spline-Based Morphometric Models of Healthy and Diseased Coronary Arteries: In Vitro Proof-of-Concept Using a Porcine Template. Journal of Functional Biomaterials 9:1, pages 15.
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M. Ariane, W. Wen, D. Vigolo, A. Brill, F.G.B. Nash, M. Barigou & A. Alexiadis. (2017) Modelling and simulation of flow and agglomeration in deep veins valves using discrete multi physics. Computers in Biology and Medicine 89, pages 96-103.
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Hao Gao, Nan Qi, Liuyang Feng, Xingshuang Ma, Mark Danton, Colin Berry & Xiaoyu Luo. (2017) Modelling mitral valvular dynamics-current trend and future directions. International Journal for Numerical Methods in Biomedical Engineering 33:10, pages e2858.
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Jonathan Baxter, Keith G Buchan & Daniel M Espino. (2017) Viscoelastic properties of mitral valve leaflets: An analysis of regional variation and frequency-dependency. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, pages 095441191771974.
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Hanna E. Burton, Jenny M. Freij & Daniel M. Espino. (2016) Dynamic Viscoelasticity and Surface Properties of Porcine Left Anterior Descending Coronary Arteries. Cardiovascular Engineering and Technology 8:1, pages 41-56.
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Yaghoub Dabiri, Janet Ronsky, Imtiaz Ali, Ameen Basha, Alisha Bhanji & Kishan Narine. (2016) Effects of Leaflet Design on Transvalvular Gradients of Bioprosthetic Heart Valves. Cardiovascular Engineering and Technology 7:4, pages 363-373.
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Sen Mei, Francisco S.N. de Souza Júnior, May Y.S. Kuan, Naomi C. Green & Daniel M. Espino. (2016) Hemodynamics through the congenitally bicuspid aortic valve: a computational fluid dynamics comparison of opening orifice area and leaflet orientation. Perfusion 31:8, pages 683-690.
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Gregory Carty, Surapong Chatpun & Daniel M. Espino. (2016) Modeling Blood Flow Through Intracranial Aneurysms: A Comparison of Newtonian and Non-Newtonian Viscosity. Journal of Medical and Biological Engineering 36:3, pages 396-409.
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Daniel M. Espino, Duncan E.T. Shepherd & David W.L. Hukins. (2015) Transient large strain contact modelling: A comparison of contact techniques for simultaneous fluid?structure interaction. European Journal of Mechanics - B/Fluids 51, pages 54-60.
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HG Bahraseman, K Hassani, A Khosravi, M Navidbakhsh, DM Espino, N Fatouraee & D Kazemi-Saleh. (2014) Combining numerical and clinical methods to assess aortic valve hemodynamics during exercise. Perfusion 29:4, pages 340-350.
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Upinder S. Bhalla. 2014. Computational Neuroscience. Computational Neuroscience 351 386 .

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