Biological Fluid Dynamics: Physiological I
ORAL · A13 · ID: 677427
Presentations
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Wave pumping mechanism from aortic stretch and recoil in the systemic circulation
ORAL
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Presenters
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Arian Aghilinejad
University of Southern California
Authors
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Arian Aghilinejad
University of Southern California
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Haojie Geng
University of Southern California
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Niema M Pahlevan
University of Southern California
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Longitudinal resonance wave pumping in compliant tubes: a bio-inspired approach
ORAL
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Presenters
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Niema M Pahlevan
University of Southern California
Authors
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Niema M Pahlevan
University of Southern California
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Bryson Rogers
University of Southern California
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Haojie Geng
University of Southern California
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Arian Aghilinejad
University of Southern California
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Evaluating Intravascular Transport of Nitric Oxide with the Heat-Mass Transfer Analogy
ORAL
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Presenters
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Joseph C Muskat
Purdue University
Authors
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Joseph C Muskat
Purdue University
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Charles F Babbs
Purdue University
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Craig J Goergen
Purdue University
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Vitaliy L Rayz
Purdue University, Purdue
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Using Procedurally Expanded Discrete Cerebral Vasculature with a Vascular-Porous Model to Simulate Perfusion and Temperature Effects Following Ischaemic Stroke
ORAL
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Presenters
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Prashant Valluri
School of Engineering, Univ of Edinburgh, School of Engineering, University of Edinburgh
Authors
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Luke Fulford
School of Engineering, University of Edinburgh
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Ian Marshall
Centre for Clinical Brain Sciences, University of Edinburgh
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Joanna M Wardlaw
Centre for Clinical Brain Sciences, University of Edinburgh
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Prashant Valluri
School of Engineering, Univ of Edinburgh, School of Engineering, University of Edinburgh
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A lumped parameter model of liver resections for improving surgical outcomes
ORAL
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Presenters
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Jeffrey Tithof
University of Minnesota, U Minnesota
Authors
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Jeffrey Tithof
University of Minnesota, U Minnesota
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Timothy Pruett
University of Minnesota
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Joseph Sushil Rao
University of Minnesota
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Modeling of Catheter Microsphere Injection for Patient Specific Y-90 Radioembolization
ORAL
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Publication: Taebi A, Vu CT, Roncali E. Multiscale computational fluid dynamics modeling for personalized liver cancer radioembolization dosimetry. Journal of biomechanical engineering. 2021 Jan 1;143.<br>Roncali E, Taebi A, Foster C, Vu CT. Personalized dosimetry for liver cancer Y-90 radioembolization using computational fluid dynamics and monte carlo simulation. Annals of biomedical engineering. 2020 May;48(5):1499-510.
Presenters
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Carlos A Ruvalcaba
University of California, Davis
Authors
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Carlos A Ruvalcaba
University of California, Davis
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Emilie Roncali
University of California, Davis, Department of Biomedical Engineering
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The impact of fluid mechanics in liver cell therapies
ORAL
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Presenters
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Evangelia Antonopoulou
University of Oxford
Authors
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Evangelia Antonopoulou
University of Oxford
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Melissa R Vieira
University of Birmingham
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Alicia El Haj
University of Birmingham
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Sarah L Waters
University of Oxford, Oxford Centre for Industrial and Applied Mathematics, Mathematical Institute, University of Oxford
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Patient-specific modeling of hemodynamic disorders using Physics Informed Neural Networks
ORAL
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Presenters
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Peetak Mitra
Palo Alto Research Center
Authors
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Rohit Kameshwara Sampath Sai Vuppala
Oklahoma State University-Stillwater
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Peetak Mitra
Palo Alto Research Center
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Kalai Ramea
Palo Alto Research Center
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Fluid-Structure Interaction of a Collapsible Thin-Walled Vessel under Steady and Pulsatile Flow Conditions
ORAL
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Presenters
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Yan Zhang
North Dakota State University
Authors
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Yan Zhang
North Dakota State University
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Jennifer Schmeling
North Dakota State University
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Sifat K Chowdhury
North Dakota State University
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