Computational Fluid Dynamics Indicators to Improve Cardiovascular Pathologies Diagnosis

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Monograph
Authors: E. Soudah, E. Oñate, M. Cervera
Editorial: CIMNE
Year of publication: 2016
Pages: 130
Index: 1. Introduction; 2. A Reduced Order Model based on Coupled 1D/3D Finite Element Simulations for an Efficient Analysis of Hemodynamics Problems; 3. CFD Modelling of Abdominal Aortic Aneurysm on Hemodynamic Loads using a Realistic Geometry with CT; 4. Mechanical Stress in Abdominal Aneuryms using Artificial Neural networks; 5. Estimation of Wall Shear Stress using 4D flow Cardiovascular MRI and Computational Fluid Dynamics; 6. Related Work; 7. Conclusions and Future work; Appendix; A Cardiovascular physiology; B Numerical Model; C Python Script; Bibliography
Monograph
Authors: E. Soudah, E. Oñate, M. Cervera
Editorial: CIMNE
Year of publication: 2016
Pages: 130
Index: 1. Introduction; 2. A Reduced Order Model based on Coupled 1D/3D Finite Element Simulations for an Efficient Analysis of Hemodynamics Problems; 3. CFD Modelling of Abdominal Aortic Aneurysm on Hemodynamic Loads using a Realistic Geometry with CT; 4. Mechanical Stress in Abdominal Aneuryms using Artificial Neural networks; 5. Estimation of Wall Shear Stress using 4D flow Cardiovascular MRI and Computational Fluid Dynamics; 6. Related Work; 7. Conclusions and Future work; Appendix; A Cardiovascular physiology; B Numerical Model; C Python Script; Bibliography