9:30 - 9:42ID: 391
HAEMODYNAMIC ANALYSIS OF DIFFERENT SURGICAL STRATEGIES OF A TYPE-B AORTIC DISSECTION VIA VIRTUAL GRAFTING
L. Girardin1,2, C. Stokes1,2, M. S. Thet3, A. Y. Oo3, S. Balabani1,2, V. Diaz1,2
1University College London, United Kingdom; 2Wellcome/ESPRC Centre for Interventional and Surgical Sciences (WEISS); 3St Bartholomew's Hospital
9:42 - 9:54ID: 414
FSI COMPUTATIONAL MODEL OF A PATIENT SPECIFIC AAA VALIDATED BY LED ILLUMINATED PIV
F. Bardi1,2,3, M. N. Antonuccio1,2, E. Gasparotti1, E. Vignali1, M. Aguirre2, S. Avril2, S. Celi1
1BioCardioLab, Fondazione Toscana “G. Monasterio”, Italy; 2Ecole des Mines de Saint-Etienne, France; 3PrediSurge, France
9:54 - 10:06ID: 471
MODELLING AORTIC FLOWS: IMPACT OF WALL DISPLACEMENTS ON LARGE-SCALE HEMODYNAMIC COHERENCE IN ASCENDING AORTA
K. Calò1, K. Capellini2, G. De Nisco1, V. Mazzi1, E. Gasparotti2, D. Gallo1, S. Celi2, U. Morbiducci1
1PolitoBIOMed Lab, Department of Mechanical and Aerospace Engineering, Politecnico di Torino, Turin, Italy; 2BioCardioLab, Bioengineering Unit – Heart Hospital, Fondazione Toscana “G. Monasterio”, Massa, Italy
10:06 - 10:18ID: 508
IN SILICO HEMODYNAMICAL SIMULATIONS SHOW SECONDARY BENEFITS OF ANTIHYPERTENSIVE DRUGS
J. Jagos1, J. Kohut1, T. Novotny2, T. Krivka2, P. Hajek1, M. Formanek1, J. Bursa1
1Brno University of Technology, Czech Republic; 2St. Anne’s University Hospital in Brno, Czech Republic
10:18 - 10:30ID: 636
A COMBINED CFD AND MESH MOPHING TECHNIQUE TO INVESTIGATE THORACIC AORTA HEMODYNAMICS
F. Dell'Agnello1,2, M. A. Scarpolini1,3, K. Capellini1, E. Vignali1, E. Gasparotti1, F. Cademartiri4, S. Celi1
1BioCardioLab, Fondazione Toscana Gabriele Monasterio, Italy; 2Department of Information Engineering, University of Pisa, Italy; 3Department of Industrial Engineering, University of Rome “Tor Vergata”, Italy; 4Clinical Imaging Department, Fondazione Toscana Gabriele Monasterio, Italy
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