BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Europe/Stockholm X-LIC-LOCATION:Europe/Stockholm BEGIN:DAYLIGHT TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST DTSTART:19700308T020000 RRULE:FREQ=YEARLY;BYMONTH=3;BYDAY=-1SU END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:+0200 TZOFFSETTO:+0100 TZNAME:CET DTSTART:19701101T020000 RRULE:FREQ=YEARLY;BYMONTH=10;BYDAY=-1SU END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20260421T090513Z LOCATION:Bldg. 6 - Room 103 DTSTART;TZID=Europe/Stockholm:20260629T133000 DTEND;TZID=Europe/Stockholm:20260629T153000 UID:submissions.pasc-conference.org_PASC26_sess108@linklings.com SUMMARY:MS1E - Advanced Fluid–Structure Interaction Modeling for Complex F lows in Biomedical and Engineering Applications DESCRIPTION:High-fidelity simulation of coupled fluid–structure systems is central to predictive modeling across biomedical and industrial applicati ons. This minisymposium presents complementary advances in geometry genera tion, patient-specific modeling, and strongly coupled fluid–structure–cont act interaction methods, with emphasis on robust numerics and scalable imp lementation. It will highlight advances in coupled multiphysics modeling, and solver technology for flow–structure systems in complex settings. The minisymposium with conclude with a panel discussion on future directions i n the field.\n\nGenerating and exploiting virtual cardiac cohorts for mult iphysics simulations from patient-specific data\n\nMultiphysics cardiac si mulations coupling fluid–structure interaction and electrophysiology can r eproduce complex cardiac dynamics, but most studies remain limited to sing le, often patient-specific anatomies. Incorporating population-level varia bility is essential for robust modeling, uncertai...\n\n\nMartino Andrea S carpolini, Francesco Fabbri, and Francesco Viola (Gran Sasso Science Insti tute (GSSI))\n---------------------\nFluid-Structure-Contact Interaction F ramework for Simulating Liquid Diaphragm Pumps\n\nFluid–Structure–Contact Interaction (FSCI) is required to predict flows with large structural defo rmations, contact events, and rapidly varying pressure fields. Such condit ions can produce high-speed jets, free-surface breakup, and cavitation, wh ich may cause erosion and reduce device li...\n\n\nPatrick Zulian (UniDist ance Suisse, Università della Svizzera italiana); Fabian Wermelinger (HSLU T&A); Gabriele Marchi and Simone Riva (Università della Svizzera italiana ); Daniel Ganellari and Christos Kotsalos (ETH Zurich / CSCS); and Luca Ma ngani and Ernesto Casartelli (HSLU T&A)\n---------------------\nFSI model for patient-specific mitral valve with transcatheter edge-to-edge repair\n \nMitral regurgitation affects 1 in 12 people over age 75, in which the mi tral valve (MV) does not fully close during ejection of blood into the bod y. A transcatheter edge-to-edge repair (TEER) is a minimally invasive proc edure that attaches the two leaflets using a clipping device. As the impac t of T...\n\n\nValérie Kulka (ARTORG Center, University of Bern); Natalie Simonian and Michael Sacks (James T. Willerson Center for Cardiovascular M odeling and Simulation, The Oden Institute for Computational Engineering a nd Sciences and the Department of Biomedical Engineering, The University o f Texas at Austin); and Dominik Obrist (ARTORG Center, University of Bern) \n\nDomain: Engineering, Life Sciences, Computational Methods and Applied Mathematics\n\nSession Chair: Dominik Obrist (University of Bern) END:VEVENT END:VCALENDAR