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Computer Methods in Biomechanics and Biomedical Engineering Volume 18, 2015 - Issue 11
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Articles

An orthotropic viscoelastic material model for passive myocardium: theory and algorithmic treatment

F. Barış Can CansızInstitute for Structural Analysis, Technische Universität Dresden, Dresden, GermanyView further author information
,
Hüsnü DalInstitute for Applied Mechanics, Chair I, Universität Stuttgart, Stuttgart, GermanyView further author information
&
Michael KaliskeInstitute for Structural Analysis, Technische Universität Dresden, Dresden, GermanyCorrespondence[email protected]
View further author information
Pages 1160-1172 | Received 22 Aug 2013, Accepted 07 Jan 2014, Published online: 17 Feb 2014

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Osman Gültekin, Gerhard Sommer & Gerhard A. Holzapfel. (2016) An orthotropic viscoelastic model for the passive myocardium: continuum basis and numerical treatment. Computer Methods in Biomechanics and Biomedical Engineering 19:15, pages 1647-1664.
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Articles from other publishers (33)

Yongjae Lee, Barış Cansız & Michael Kaliske. (2023) A multiphysical computational model of myocardial growth adopted to human pathological ventricular remodelling. Computational Mechanics 72:6, pages 1215-1237.
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Hüsnü Dal, Alp Kağan Açan, Ciara Durcan & Mokarram Hossain. (2023) An In Silico-Based Investigation on Anisotropic Hyperelastic Constitutive Models for Soft Biological Tissues. Archives of Computational Methods in Engineering 30:8, pages 4601-4632.
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Will Zhang, Javiera Jilberto, Gerhard Sommer, Michael S. Sacks, Gerhard A. Holzapfel & David A. Nordsletten. (2023) Simulating hyperelasticity and fractional viscoelasticity in the human heart. Computer Methods in Applied Mechanics and Engineering 411, pages 116048.
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Min Xu & Lijia Wang. (2023) Left ventricular myocardial motion tracking in cardiac cine magnetic resonance images based on a biomechanical model. Journal of X-Ray Science and Technology 31:3, pages 525-543.
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Alp Kağan Açan, Cem Altun & Hüsnü Dal. (2023) Dispersion‐type Anisotropic Viscoelasticity: Model Validation for Myocardium. PAMM 23:1.
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Annette Caenen, Stephanie Bezy, Aniela Petrescu, Annegret Werner, Jens-Uwe Voigt, Jan D'hooge & Patrick Segers. (2023) Transmural Wave Speed Gradient May Distinguish Intrinsic Myocardial Stiffening From Preload-Induced Changes in Operational Stiffness in Shear Wave Elastography. IEEE Transactions on Biomedical Engineering 70:1, pages 259-270.
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Oğuz Ziya Tikenoğulları, Francisco Sahli Costabal, Jiang Yao, Alison Marsden & Ellen Kuhl. (2022) How viscous is the beating heart? Insights from a computational study. Computational Mechanics 70:3, pages 565-579.
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Qinwei Hu, Qin‐Zhi Fang, Baolin Sha & Li Jin. (2022) Study on the Viscoelastic Damage Properties of NEPE Solid Propellant with Different Cyclic Stress Ratios. Propellants, Explosives, Pyrotechnics 47:5.
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Will Zhang, Gerhard Sommer, Justyna A. Niestrawska, Gerhard A. Holzapfel & David Nordsletten. (2022) The effects of viscoelasticity on residual strain in aortic soft tissues. Acta Biomaterialia 140, pages 398-411.
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Azam Ahmad Bakir, Amr Al Abed, Nigel H. Lovell & Socrates Dokos. (2022) Multiphysics Computational Modelling of the Cardiac Ventricles. IEEE Reviews in Biomedical Engineering 15, pages 309-324.
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Osman Gültekin & Hüsnü Dal. 2022. Solid (Bio)mechanics: Challenges of the Next Decade. Solid (Bio)mechanics: Challenges of the Next Decade 257 278 .
Barış Cansız, Lucas A. Woodworth & Michael Kaliske. (2021) A simple phenomenological approach for myocardial contraction: formulation, parameter sensitivity study and applications in organ level simulations. Mechanics of Soft Materials 3:1.
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Abhishek Kumar Singh, Siddhartha Koley & Mriganka Shekhar Chaki. (2021) Generation and Propagation of SH Waves Due to Shearing Stress Discontinuity in Linear Orthotropic Viscoelastic Layered Structure. International Journal of Applied and Computational Mathematics 7:6.
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David Nordsletten, Adela Capilnasiu, Will Zhang, Anna Wittgenstein, Myrianthi Hadjicharalambous, Gerhard Sommer, Ralph Sinkus & Gerhard A. Holzapfel. (2021) A viscoelastic model for human myocardium. Acta Biomaterialia 135, pages 441-457.
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Anas Kanan & Michael Kaliske. (2021) Finite element modeling of electro‐viscoelasticity in fiber reinforced electro‐active polymers. International Journal for Numerical Methods in Engineering 122:8, pages 2005-2037.
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Renee Miller, David Marlevi, Will Zhang, Marc Hirschvogel, Myrianthi Hadjicharalambous, Adela Capilnasiu, Maximilian Balmus, Sandra Hager, Javiera Jilberto, Mia Bonini, Anna Wittgenstein, Yunus Ahmed & David Nordsletten. 2021. Modeling Biomaterials. Modeling Biomaterials 141 239 .
Qinwei Hu, Qin‐Zhi Fang, Baolin Sha & Qiang Xu. (2020) Study on the Viscoelastic Damage Properties of NEPE Solid Propellant. Propellants, Explosives, Pyrotechnics 45:7, pages 1076-1088.
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Justyna A. Niestrawska, Christoph M. Augustin & Gernot Plank. (2020) Computational modeling of cardiac growth and remodeling in pressure overloaded hearts—Linking microstructure to organ phenotype. Acta Biomaterialia 106, pages 34-53.
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Wenqiang Liu & Zhijie Wang. (2019) Current Understanding of the Biomechanics of Ventricular Tissues in Heart Failure. Bioengineering 7:1, pages 2.
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Reza AvazmohammadiJoão S. Soares, David S. LiSamarth S. RautRobert C. Gorman & Michael S. Sacks. (2019) A Contemporary Look at Biomechanical Models of Myocardium. Annual Review of Biomedical Engineering 21:1, pages 417-442.
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Barış Cansız, Krunoslav Sveric, Karim Ibrahim, Ruth H. Strasser, Axel Linke & Michael Kaliske. (2018) Towards predictive computer simulations in cardiology: Finite element analysis of personalized heart models. ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik 98:12, pages 2155-2176.
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Benjamin Owen, Nicholas Bojdo, Andrey Jivkov, Bernard Keavney & Alistair Revell. (2018) Structural modelling of the cardiovascular system. Biomechanics and Modeling in Mechanobiology 17:5, pages 1217-1242.
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Barış Cansız, Hüsnü Dal & Michael Kaliske. (2017) Computational cardiology: the bidomain based modified Hill model incorporating viscous effects for cardiac defibrillation. Computational Mechanics 62:3, pages 253-271.
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Annette Caenen, Mathieu Pernot, Mathias Peirlinck, Luc Mertens, Abigail Swillens & Patrick Segers. (2018) An in silico framework to analyze the anisotropic shear wave mechanics in cardiac shear wave elastography . Physics in Medicine & Biology 63:7, pages 075005.
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Vicky Y. Wang, Jagir R. Hussan, Hashem Yousefi, Chris P. Bradley, Peter J. Hunter & Martyn P. Nash. 2018. Multiscale Soft Tissue Mechanics and Mechanobiology. Multiscale Soft Tissue Mechanics and Mechanobiology 283 305 .
Vicky Y. Wang, Jagir R. Hussan, Hashem Yousefi, Chris P. Bradley, Peter J. Hunter & Martyn P. Nash. (2017) Modelling Cardiac Tissue Growth and Remodelling. Journal of Elasticity 129:1-2, pages 283-305.
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Barış Cansız, Hüsnü Dal & Michael Kaliske. (2017) Computational cardiology: A modified Hill model to describe the electro-visco-elasticity of the myocardium. Computer Methods in Applied Mechanics and Engineering 315, pages 434-466.
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Jing Jin Shen. (2016) A structurally based viscoelastic model for passive myocardium in finite deformation. Computational Mechanics 58:3, pages 491-509.
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Radomir Chabiniok, Vicky Y. Wang, Myrianthi Hadjicharalambous, Liya Asner, Jack Lee, Maxime Sermesant, Ellen Kuhl, Alistair A. Young, Philippe Moireau, Martyn P. Nash, Dominique Chapelle & David A. Nordsletten. (2016) Multiphysics and multiscale modelling, data–model fusion and integration of organ physiology in the clinic: ventricular cardiac mechanics. Interface Focus 6:2, pages 20150083.
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Jacques P. GuyetteJonathan M. CharestRobert W. MillsBernhard J. JankPhilipp T. MoserSarah E. GilpinJoshua R. GershlakTatsuya OkamotoGabriel GonzalezDavid J. MilanGlenn R. GaudetteHarald C. Ott. (2016) Bioengineering Human Myocardium on Native Extracellular Matrix. Circulation Research 118:1, pages 56-72.
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V.Y. Wang, P.M.F. NielsenM.P. Nash. (2015) Image-Based Predictive Modeling of Heart Mechanics. Annual Review of Biomedical Engineering 17:1, pages 351-383.
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Bar?? Cans?z, H?sn? Dal & Michael Kaliske. (2015) Fully Coupled Cardiac Electromechanics with Orthotropic Viscoelastic Effects. Procedia IUTAM 12, pages 124-133.
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Baris Cansiz, Hüsnü Dal & Michael Kaliske. (2014) Computational modeling of cardiac tissue with strongly coupled electromechanics and orthotropic viscoelastic effects. PAMM 14:1, pages 119-120.
Crossref

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