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Journal of Medical Engineering & Technology Volume 20, 1996 - Issue 3
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Original Article

A comparative study of linear and nonlinear simulations of the leaflets in a bioprosthetic heart valve during the cardiac cycle

E. A. Patterson Department of Mechanical and Process Engineering, The University of Sheffield, Mappin Street, Sheffeld, S1 3JD, UK
,
I. C. Howard Department of Mechanical and Process Engineering, The University of Sheffield, Mappin Street, Sheffeld, S1 3JD, UK
&
M. A. Thornton Department of Mechanical and Process Engineering, The University of Sheffield, Mappin Street, Sheffeld, S1 3JD, UK
Pages 95-108 | Published online: 09 Jul 2009

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Rana Zakerzadeh, Ming-Chen Hsu & Michael S. Sacks. (2017) Computational methods for the aortic heart valve and its replacements. Expert Review of Medical Devices 14:11, pages 849-866.
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Hossein Mohammadi, Raymond Cartier & Rosaire Mongrain. (2016) Review of numerical methods for simulation of the aortic root: Present and future directions. International Journal for Computational Methods in Engineering Science and Mechanics 17:3, pages 182-195.
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T.M. Koch, B.D. Reddy, P. Zilla & T. Franz. (2010) Aortic valve leaflet mechanical properties facilitate diastolic valve function. Computer Methods in Biomechanics and Biomedical Engineering 13:2, pages 225-234.
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Michael S Sacks, Ali Mirnajafi, Wei Sun & Paul Schmidt. (2006) Bioprosthetic heart valve heterograft biomaterials: structure, mechanical behavior and computational simulation. Expert Review of Medical Devices 3:6, pages 817-834.
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Jaroslav Mackerle. (2005) Finite element modelling and simulations in cardiovascular mechanics and cardiology: A bibliography 1993–2004. Computer Methods in Biomechanics and Biomedical Engineering 8:2, pages 59-81.
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IC Howard, EA Patterson & A Yoxall. (2003) On the opening mechanism of the aortic valve: some observations from simulations. Journal of Medical Engineering & Technology 27:6, pages 259-266.
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G. G. Chew, I. C. Howard, E. A. Patterson. (1999) Simulation of damage in a porcine prosthetic heart valve. Journal of Medical Engineering & Technology 23:5, pages 178-189.
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G. Burriesci, I. C. Howard, E. A. Patterson. (1999) Influence of anisotropy on the mechanical behaviour of bioprosthetic heart valves. Journal of Medical Engineering & Technology 23:6, pages 203-215.
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Articles from other publishers (36)

Yuri Vassilevski, Alexey Liogky & Victoria Salamatova. (2022) How material and geometrical nonlinearity influences diastolic function of an idealized aortic valve. Continuum Mechanics and Thermodynamics.
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Akram Joda, Zhongmin Jin, Jon Summers & Sotirios Korossis. (2019) Comparison of a fixed-grid and arbitrary Lagrangian–Eulerian methods on modelling fluid–structure interaction of the aortic valve. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 233:5, pages 544-553.
Crossref
Bruno V. Rego, Amir H. Khalighi, Andrew Drach, Eric K. Lai, Alison M. Pouch, Robert C. Gorman, Joseph H. GormanIIIIII & Michael S. Sacks. (2018) A noninvasive method for the determination of in vivo mitral valve leaflet strains . International Journal for Numerical Methods in Biomedical Engineering 34:12.
Crossref
Hossein Mohammadi, Raymond Cartier & Rosaire Mongrain. (2017) Fiber-reinforced computational model of the aortic root incorporating thoracic aorta and coronary structures. Biomechanics and Modeling in Mechanobiology 17:1, pages 263-283.
Crossref
Artur H. de F. Avelar, Mairon A. G. E. Stófel, Jean A. Canestri & Rudolf Huebner. (2017) Analytical approach on leaflet flutter on biological prosthetic heart valves. Journal of the Brazilian Society of Mechanical Sciences and Engineering 39:12, pages 4849-4858.
Crossref
ANDREA AVANZINI. (2017) INFLUENCE OF LEAFLET’S MATRIX STIFFNESS AND FIBER ORIENTATION ON THE OPENING DYNAMICS OF A PROSTHETIC TRILEAFLET HEART VALVE. Journal of Mechanics in Medicine and Biology 17:06, pages 1750096.
Crossref
Artur H. de F. Avelar, Jean A. Canestri, Camila Bim, Maíra G. M. Silva, Rudolf Huebner & Marcos Pinotti. (2017) Quantification and Analysis of Leaflet Flutter on Biological Prosthetic Cardiac Valves. Artificial Organs 41:9, pages 835-844.
Crossref
K. Dawidowska. (2016) Aortic Valve Geometry Modeling – Review. Advances in Materials Science 16:4, pages 29-37.
Crossref
Joao S. Soares, Kristen R. Feaver, Will Zhang, David Kamensky, Ankush Aggarwal & Michael S. Sacks. (2016) Biomechanical Behavior of Bioprosthetic Heart Valve Heterograft Tissues: Characterization, Simulation, and Performance. Cardiovascular Engineering and Technology 7:4, pages 309-351.
Crossref
Mostafa Abbasi, Mohammed S. Barakat, Koohyar Vahidkhah & Ali N. Azadani. (2016) Characterization of three-dimensional anisotropic heart valve tissue mechanical properties using inverse finite element analysis. Journal of the Mechanical Behavior of Biomedical Materials 62, pages 33-44.
Crossref
Akram Joda, Zhongmin Jin, Axel Haverich, Jon Summers & Sotirios Korossis. (2016) Multiphysics simulation of the effect of leaflet thickness inhomogeneity and material anisotropy on the stress–strain distribution on the aortic valve. Journal of Biomechanics 49:12, pages 2502-2512.
Crossref
David Kamensky, John A. Evans & Ming-Chen Hsu. (2015) Stability and Conservation Properties of Collocated Constraints in Immersogeometric Fluid-Thin Structure Interaction Analysis. Communications in Computational Physics 18:4, pages 1147-1180.
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Andrea Avanzini & Davide Battini. (2014) Structural analysis of a stented pericardial heart valve with leaflets mounted externally. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 228:10, pages 985-995.
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Iman Borazjani. (2013) Fluid–structure interaction, immersed boundary-finite element method simulations of bio-prosthetic heart valves. Computer Methods in Applied Mechanics and Engineering 257, pages 103-116.
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Hiroatsu Sugimoto & Michael S. Sacks. (2013) Effects of Leaflet Stiffness on In Vitro Dynamic Bioprosthetic Heart Valve Leaflet Shape. Cardiovascular Engineering and Technology 4:1, pages 2-15.
Crossref
Paul Schoenhagen, Alexander Hill, Tim Kelley, Zoran Popovic & Sandra S. Halliburton. (2011) In Vivo Imaging and Computational Analysis of the Aortic Root. Application in Clinical Research and Design of Transcatheter Aortic Valve Systems. Journal of Cardiovascular Translational Research 4:4, pages 459-469.
Crossref
Hadi Mohammadi & Kibret Mequanint. (2011) Prosthetic aortic heart valves: Modeling and design. Medical Engineering & Physics 33:2, pages 131-147.
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A.N. Smuts, D.C. Blaine, C. Scheffer, H. Weich, A.F. Doubell & K.H. Dellimore. (2011) Application of finite element analysis to the design of tissue leaflets for a percutaneous aortic valve. Journal of the Mechanical Behavior of Biomedical Materials 4:1, pages 85-98.
Crossref
Caitlin Martin & Wei Sun. 2011. Mechanics of Biological Systems and Materials, Volume 2. Mechanics of Biological Systems and Materials, Volume 2 73 78 .
Michel R. Labrosse, Keegan Lobo & Carsten J. Beller. (2010) Structural analysis of the natural aortic valve in dynamics: From unpressurized to physiologically loaded. Journal of Biomechanics 43:10, pages 1916-1922.
Crossref
Fang Li Xiong, Wolfgang A. Goetz, Chuh Khiun Chong, Yeow Leng Chua, Stefan Pfeifer, Erich Wintermantel & Joon Hock Yeo. (2010) Finite Element Investigation of Stentless Pericardial Aortic Valves: Relevance of Leaflet Geometry. Annals of Biomedical Engineering 38:5, pages 1908-1918.
Crossref
Carlo A. Conti, Emiliano Votta, Alessandro Della Corte, Luca Del Viscovo, Ciro Bancone, Maurizio Cotrufo & Alberto Redaelli. (2010) Dynamic finite element analysis of the aortic root from MRI-derived parameters. Medical Engineering & Physics 32:2, pages 212-221.
Crossref
Krishnan B. Chandran. (2010) Role of Computational Simulations in Heart Valve Dynamics and Design of Valvular Prostheses. Cardiovascular Engineering and Technology 1:1, pages 18-38.
Crossref
Laura R. Croft & Mohammad R. Kaazempur Mofrad. 2010. Computational Modeling in Biomechanics. Computational Modeling in Biomechanics 221 252 .
Hyunggun Kim, Jia Lu & K.B. Chandran. 2011. Image-Based Computational Modeling of the Human Circulatory and Pulmonary Systems. Image-Based Computational Modeling of the Human Circulatory and Pulmonary Systems 403 435 .
Laura R. Croft & Mohammad R. Kaazempur Mofrad. 2010. Computational Cardiovascular Mechanics. Computational Cardiovascular Mechanics 255 275 .
Hadi Mohammadi, Fereshteh Bahramian & Wankei Wan. (2009) Advanced modeling strategy for the analysis of heart valve leaflet tissue mechanics using high-order finite element method. Medical Engineering & Physics 31:9, pages 1110-1117.
Crossref
H Mohammadi, D Boughner, L E Millon & W K Wan. (2009) Design and simulation of a poly(vinyl alcohol)—bacterial cellulose nanocomposite mechanical aortic heart valve prosthesis. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 223:6, pages 697-711.
Crossref
Hyunggun Kim, Jia Lu, Michael S. Sacks & Krishnan B. Chandran. (2006) Dynamic Simulation Pericardial Bioprosthetic Heart Valve Function. Journal of Biomechanical Engineering 128:5, pages 717-724.
Crossref
C.J. Carmody, G. Burriesci, I.C. Howard & E.A. Patterson. (2006) An approach to the simulation of fluid–structure interaction in the aortic valve. Journal of Biomechanics 39:1, pages 158-169.
Crossref
Wei Sun, Ajay Abad & Michael S. Sacks. (2005) Simulated Bioprosthetic Heart Valve Deformation under Quasi-Static Loading. Journal of Biomechanical Engineering 127:6, pages 905-914.
Crossref
X. Y. Luo, W. G. Li & J. Li. (2003) Geometrical Stress-Reducing Factors in the Anisotropic Porcine Heart Valves. Journal of Biomechanical Engineering 125:5, pages 735-744.
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Peter J. HunterAndrew J. PullanBruce H. Smaill. (2003) Modeling Total Heart Function. Annual Review of Biomedical Engineering 5:1, pages 147-177.
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J. Li, X.Y. Luo & Z.B. Kuang. (2001) A nonlinear anisotropic model for porcine aortic heart valves. Journal of Biomechanics 34:10, pages 1279-1289.
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K.J. Grande-Allen, R.P. Cochran, P.G. Reinhall & K.S. Kunzelman. (2001) Finite-element analysis of aortic valve-sparing: influence of graft shape and stiffness. IEEE Transactions on Biomedical Engineering 48:6, pages 647-659.
Crossref
Matthew D. Graen, Daniel L. Ewert, Jacob S. Glower, Laman A. Gray & Steven C. Koenig. (2000) Can a Linear Electrical Analog Model of a Mechanical Valve Predict Flow by Using a Pressure Gradient?. ASAIO Journal 46:5, pages 563-568.
Crossref

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