ID: 798
INTRACRANIAL ANEURYSMS: WHAT ARE YOU MISSING IF YOU CONSIDER FULLY RIGID ARTERIAL TISSUES?
A. Goetz, P. Jeken-Rico, R. Nemer, A. Larcher, P. Meliga, E. Hachem
PSL Mines Paris, CFL Research Group at CEMEF, Sophia Antipolis, 06904, France
ID: 728
SPATIALLY VARYING MULTI-COMPARTMENT MODEL OF BLOOD FLOW AND OXYGEN TRANSPORT IN THE HUMAN BRAIN
S. J. Payne
National Taiwan University, Taiwan
ID: 852
SENSITIVITY OF INTRACRANIAL HAEMODYNAMICS TOWARDS VARYING ARTERIAL TREE EXTENSIONS
P. Jeken Rico, A. Goetz, J. Viquerat, P. Meliga, A. Larcher, E. Hachem
Mines Paris - PSL, France
ID: 916
INFLUENCE OF FLUID-STRUCTURE INTERACTION IN A MODEL OF ATHEROMA PLAQUE GROWTH
P. Hernández-López1, M. Cilla1,2, E. Peña1,2, M. Malvè2,3, M. A. Martinez1,2
1University of Zaragoza, Spain; 2Biomedical Research Networking Center in Bioengineering, Biomaterials and Nanomedicine (CIBER-BBN), Spain; 3Public University of Navarra (UPNA), Pamplona, Spain
ID: 628
INVESTIGATING THE GROWTH & REMODELING MODEL PARAMETERS INFLUENCE ON A HYPERELASTIC ARTERY
K. Yan1, W. Ye2, M. Rochette3, P. Haigron4, A. Bel-Brunon5
1ANSYS France, INSA Lyon, LaMCoS ,69100 Villeurbanne; 2ANSYS France; 3ANSYS France; 4Univ. de Rennes 1, CHU Rennes, Inserm, France; 5Univ Lyon, INSA Lyon, CNRS, LaMCoS, UMR5259, 69621 Villeurbanne, France
ID: 252
CORRECTING THE EJECTION FRACTION FOR BETTER HEART FUNCTION REPRESENTATION AND PROGNOSIS IN HEART FAILURE
W. X. Chan1, A. Kaura2, A. Mulla2, D. Papadimitriou2, B. Glampson2, E. Mayer2,4, A. S V Shah2,3, J. Mayet2, C. H. Yap1
1Department of Bioengineering, Imperial College London, United Kingdom; 2UK National Institute for Health Research Imperial Biomedical Research Centre, Imperial College London and Imperial College Healthcare NHS Trust; 3Department of Non-communicable Disease Epidemiology, London School of Hygiene and Tropical Medicine; 4Department of Surgery & Cancer, Imperial College London
ID: 261
ON THE ANISOTROPY OF THE MYOCARDIUM
N. Tueni1,2, J.-M. Allain1,2, M. Genet1,2
1LMS,Ecole Polytechnique, France; 2Inria, France
ID: 704
A NUMERICAL WORKFLOW TO INVESTIGATE THE HEMODYNAMICS EFFECTS OF THE LEFT ATRIAL APPENDAGE OCCLUSION
B. M. Fanni1, E. Gasparotti1, K. Capellini1, F. Danielli2, F. Berti2, S. Berti3, G. Pennati2, L. Petrini4, S. Celi1
1BioCardioLab, Fondazione Toscana Gabriele Monasterio, Italy; 2LaBS, Department of Chemistry, Materials and Chemical Engineering, Politecnico di Milano, Italy; 3Department of Cardiology, Fondazione Toscana Gabriele Monasterio, Italy; 4Department of Civil and Environmental Engineering, Politecnico di Milano, Italy
ID: 871
MECHANICAL FUNCTION IN THE INFARCTED HEART SUPPORTED BY A REGENERATIVE ASSIST DEVICE: A COMPUTATIONAL STUDY
K. Janssens, M. van der Knaap, P. Bovendeerd
Eindhoven University of Technology, The Netherlands
ID: 971
NOVEL PATIENT-SPECIFIC BEATING HEART MODEL INCORPORATING ACTIVE CONTRACTILITY AND A PSEUDO-FLUID DOMAIN
D. Senthil, J. Concannon, J. P. McGarry
University of Galway, Ireland
ID: 952
CONTRAST AGENT TRANSPORT IN A POROELASTIC MODEL OF MYOCARDIAL PERFUSION
T. Zhang, K. Fraser, H. Gill, A. Cookson
University of Bath, United Kingdom
ID: 661
CARDIAC OUTPUT INFLUENCE ON THE FLOW IN A TRI-LEAFLET MECHANICAL HEART VALVE
L. Ferrari
University of Bern, Switzerland
ID: 867
THE INFLUENCE OF THE POSITION ANGLE OF THE ARTIFICIAL BILEAFLET VALVE ON THE FLOW IN THE CORONARY ARTERIES
K. Jankowski, A. Nieroda, M. Pawlikowski
Warsaw University of Technology, Poland
ID: 838
INVESTIGATION OF HUMAN MITRAL VALVE MECHANICS USING AN INHOUSE HYBRID PHYSICAL-COMPUTATIONAL PLATFORM
S. Javadpour1, F. O'Brien1,2, C. Conway1,2
1Royal College of Surgeons in Ireland, Dublin, Ireland; 2Trinity College Dublin, Dublin, Ireland
ID: 783
EFFECT OF AORTIC VALVE GEOMETRY ON LEAFLET STRAIN WITHIN A PHANTOM SILICONE AORTIC HEART VALVE DURING CLOSING.
T. Pritchard, M. Darcy, J. Davies, E. Geeves, L. Giron, C. Ling, R. van Loon, H. Arora
Swansea University, United Kingdom
ID: 302
EFFECT OF MECHANICAL AORTIC VALVES ON CORONARY ARTERY FLOW IN A PATIENT SUFFERING FROM ISCHEMIC HEART DISEASE
A. Nieroda, K. Jankowski, M. Pawlikowski
Warsaw University of Technology, Poland
ID: 286
BIOMECHANICAL PARAMETER PREDICTS SUCCESSFUL FETAL HEART INTERVENTION OUTCOME BETTER THAN CLINICAL SCANS
L. Green1, W. X. Chan1, A. Tulzer2, G. Tulzer2, C. H. Yap1
1Imperial College London, United Kingdom; 2Children's Heart Centre Linz, Austria
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