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Contributions of prestrains, hyperelasticity, and muscle fiber activation on mitral valve systolic performance." International Journal for Numerical Methods in Biomedical Engineering 33 (2017)."
Nanoindentation and finite element modelling of chitosan–alginate multilayer coated hydrogels." Soft Matter 12 (2017): 7338-7349."
Contributions of residual strains, hyperelasticity models, and muscle fiber activation on mitral valve systolic performance In 9. European Solid Mechanics Conference, Madrid, 2015., 2015.
Effects of an Orthogonal Contractile System in the Anterior Leaflet on the Systolic Mitral Valve Response: a Nonlinear Finite Element Study In 10th Internation Symposium, Computational Methods in Biomechanics and Biomedical Engineering., 2012.
Effects of an Orthogonal Contractile System in the Anterior Leaflet on the Systolic Mitral Valve Response: a Nonlinear Finite Element Study In 10th International Symposium on Biomechanics and Biomedical Engineering, Berlin., 2012.
A Biomechanical Model for Human Umbilical Veins and Wharton's Jelly In 8th International Conference on Computational Fluid Dynamics in the Oil & Gas, Metallurgical and Process Industries., 2011.
Finite Element Analysis of the Mitral Valve With Active Muscle Fibres In SIAM CSE Reno, Nevada, USA., 2011.
Modeling active muscle contraction in mitral valve leaflets during systole: A first approach." Biomechanics and Modeling in Mechanobiology 10 (2011): 11-26."
FSI Simulation of the Mitral Valve With Contact and Active Anisotropic Material Models In 6th World Congress of Biomechanics., 2010.
Initial Study on Material Modeling of Umbilical Veins in Fetal Sheep In 6th World Congress of Biomechanics., 2010.
Modeling Active Muscle Contraction in Mitral Valve Leaflets During Systole: a First Approach." Biomechanics and Modeling in Mechanobiology 10, no. 1 (2010): 11-26."
On Modelling and Analysis of Healthy and Pathological Human Mitral Valves: Two Case Studies." Journal of the Mechanical Behavior of Biomedical Materials 3 (2010): 167-177."
Alternative Elasticity Modeling Approaches for Mitral Valve Analysis: Consequences for Stress and Deformation Prediction In Talk at the 22nd Nordic seminar on Computational Mechanics, Aalborg, Denmark, October 22-23 2009., 2009.
Alternative Elasticity Modeling Approaches for Mitral Valve Analysis: Consequences for Stress and Deformation Prediction In Proceeding of the 22nd Nordic Seminar on Computational Mechanics, Edited by L. Damkilde, L. Andersen, A. Kristensen and E. Lund., 2009.
Finite Element Analysis of the Mitral Apparatus: Annulus Shape Effect and Chordal Force Distribution." Biomechanics and Modeling in Mechanobiology 8 (2009): 43-55."
On Material Modelling of Umbilical Vein In Fifth National Conference on Computational Mechanics (MekIT´09), Edited by B. H. Skallerud and H. Andersson. Tapir Akademisk Forlag, 2009.
Nonlinear Solid Finite Element Analysis of Mitral Valves With Heterogeneous Leaflet Layers." Computational Mechanics 43 (2009): 353-368."
Mitral Valve Finite Element Analysis Using Human Uniaxial Tensile Data In Talk at Talk at 8th World Congress on Computational Mechanics, Venice., 2008.
Modelling and Numerical Analysis of the Porcine and Human Mitral Apparatus. Norwegian University of Science and Technology, 2008.
Solid Versus Membrane Finite Elements in Analysis of the Mitral Valve: a Case Study In Talk at the 6th International Conference on Computation of Shell & Spatial Structures., 2008.
Effects on Connective Tissue Pathologies on Mitral Valve Response In Talk at the Conference on Modeling of heterogeneous materials with application in construction and biomedical engineering, Prague., 2007.
Solid Finite Element Analysis of the Mitral Valve In Talk at CBC Seminar on Biomechanics, Trondheim., 2007.
Transversely Isotropic Membrane Shells With Application to Mitral Valve Mechanics. Constitutive Modelling and Finite Element Implementation." International Journal for Numerical Methods in Engineering 71 (2007): 987-1008."