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101. Hi-POD solution of parametrized fluid dynamics problems: preliminary results

Author

National Science Foundation - NSF [sponsor], Baroli, Davide(*), Cova, Maria Cristina(*), Perotto, Simona(*), Sala, Lorenzo(*), Veneziani, Alessandro(*), National Science Foundation - NSF [sponsor], Baroli, Davide(*), Cova, Maria Cristina(*), Perotto, Simona(*), Sala, Lorenzo(*), and Veneziani, Alessandro(*)

Abstract

Numerical modeling of fluids in pipes or network of pipes (like in the circulatory system) has been recently faced with new methods that exploit the specific nature of the dynamics, so that a one dimensional axial mainstream is enriched by local secondary transverse components [4, 16, 18]. These methods - under the name of Hi-Mod approximation - construct a solution as a finite element axial discretization, completed by a spectral approximation of the transverse dynamics. It has been demonstrated that Hi-Mod reduction significantly accelerates the computations without com- promising the accuracy. In view of variational data assimilation procedures (or, more in general, control problems), it is crucial to have efficient model reduction techniques to rapidly solve, for instance, a parametrized problem for several choices of the parameters of interest. In this work, we present some preliminary results merging Hi-Mod techniques with a classical Proper Orthogonal Decomposition (POD) strategy. We name this new approach as Hi-POD model reduction. We demonstrate the efficiency and the reliability of Hi-POD on multiparameter advection-diffusion-reaction problems as well as on the incompressible Navier-Stokes equations, both in a steady and in an unsteady setting.

Published
2018

104. Aggiornamenti sul concetto di "cronica" in podologia bovina: nuovi riferimenti bibliografici e loro ripercussioni sul lavoro di campo.

Author

Casellato, Andrea and Veneziani, Alessandro

Abstract

Copyright of Summa, Animali da Reddito is the property of Point Veterinaire Italie s.r.l. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2020

106. TCT-663 Comparison of Conformability and Wall Shear Stress Between Resolute Integrity Zotarolimus-Eluting Stent and the XIENCE Xpedition Everolimus-Eluting Stent in Angulated Vessels: An Interim Analysis of the SHEAR-STENT Randomized Controlled Study

Author

Kumar, Arnav, primary, Molony, David, additional, Raad, Mohamad, additional, Hosseini, Hossein, additional, Lee, Won, additional, Thompson, Elizabeth, additional, Lefieux, Adrien, additional, Hung, Olivia, additional, Machado, Kalina, additional, Kumar, Sonali, additional, Khawaja, Sameer, additional, Sternheim, David, additional, Vasigh, Mostafa, additional, Gupta, Sonu, additional, Gogas, Bill, additional, Veneziani, Alessandro, additional, Lee, Joo Myung, additional, Chen, Shao-Liang, additional, Otake, Hiromasa, additional, Akasaka, Takashi, additional, Shin, Eun-Seok, additional, Koo, Bon-Kwon, additional, Stankovic, Goran, additional, Milasinovic, Dejan, additional, Erglis, Andrejs, additional, Chandran, Karthic, additional, Nam, Chang-Wook, additional, Escaned, Javier, additional, Giddens, Don P., additional, and Samady, Habib, additional

Published
2018
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107. TCT-156 The Absorb Bioresorbable Vascular Scaffolds Demonstrate Lower Wall Shear Stress Compared to Metallic Xience V: Interim Analysis from the ABSORB III Imaging Study

Author

Kumar, Arnav, primary, Gogas, Bill, additional, Thompson, Elizabeth, additional, Hosseini, Hossein, additional, Molony, David, additional, Sternheim, David, additional, Raad, Mohamad, additional, Gupta, Sonu, additional, Lefieux, Adrien, additional, Vasigh, Mostafa, additional, Machado, Kalina, additional, Khawaja, Sameer, additional, Chandran, Karthic, additional, Kumar, Sonali, additional, Lee, Won, additional, Gandhi, Rounak, additional, Giddens, Don P., additional, Veneziani, Alessandro, additional, King, Spencer, additional, and Samady, Habib, additional

Published
2018
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111. HIGH WALL SHEAR STRESS IN THE PROXIMAL SEGMENTS OF HEMODYNAMICALLY SIGNIFICANT CORONARY LESIONS IS INDEPENDENTLY PREDICTIVE OF SUBSEQUENT MYOCARDIAL INFARCTION: A MECHANISTIC SUB-STUDY OF THE FAME II TRIAL

Author

Kumar, Arnav, primary, Thompson, Elizabeth, additional, Davis, Emily, additional, Molony, David, additional, Chand, Nikita, additional, Lee, Hee S., additional, Lefieux, Adrien, additional, Gogas, Bill, additional, Suh, Jon, additional, Ko, Yi-An, additional, Molloy, Daniel, additional, Fournier, Stephane, additional, Milkas, Anastasios, additional, Veneziani, Alessandro, additional, Giddens, Don, additional, Bruyne, Bernard D., additional, and Samady, Habib, additional

Published
2018
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112. CRT-500.04 Lower Wall Shear Stress and Clinical Risk Factors are Associated with Endothelial Dysfunction in Patients with Non-Obstructive Coronary Artery Disease

Author

Kumar, Arnav, primary, Hung, Olivia Y., additional, Eshtehardi, Parham, additional, Thompson, Elizabeth, additional, Sternheim, David, additional, Gupta, Sonu, additional, Chandran, Karthic, additional, Molony, David S., additional, Piccinelli, Marina, additional, Lefieux, Adrien, additional, Corban, Michel T., additional, McDaniel, Michael C., additional, Quyyumi, Arshed A., additional, Gogas, Bill D., additional, Giddens, Don P., additional, Veneziani, Alessandro, additional, and Samady, Habib, additional

Published
2018
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113. CRT-300.08 Coronary Vessels with Larger Contiguous Regions of Low Wall Shear Stress Have More Endothelial Dysfunction

Author

Sternheim, David, primary, Thompson, Elizabeth, additional, Kumar, Arnav, additional, Hung, Olivia Y., additional, Piccinelli, Marina, additional, Molony, David, additional, Eshtehardi, Parham, additional, Corban, Michel, additional, Gupta, Sonu, additional, Chandran, Karthic, additional, Lefieux, Adrien, additional, Ko, Yi-An, additional, McDaniel, Michael C., additional, Gogas, Bill D., additional, Quyyumi, Arshed A., additional, Giddens, Don P., additional, Veneziani, Alessandro, additional, and Samady, Habib, additional

Published
2018
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114. Hi-POD solution of parametrized fluid dynamics problems: preliminary results

Author

Baroli, Davide, Cova, Cristina Maria, Perotto, Simona, Sala, Lorenzo, Veneziani, Alessandro, Faculté des Sciences, de la Technologie et de la Communication (Université du Luxembourg), Politecnico di Milano [Milan] (POLIMI), Dipartimento di Matematica F. Brioschi (MOX), Institut de Recherche Mathématique Avancée (IRMA), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Department of Mathematics and Computer Science [Emory University], Emory University [Atlanta, GA], and MOX, Dipartimento di Matematica, Politecnico di Milano

Subjects
Physics::Fluid Dynamics, [MATH]Mathematics [math], [MATH.MATH-NA]Mathematics [math]/Numerical Analysis [math.NA]
Abstract

Numerical modeling of fluids in pipes or network of pipes (like in the circulatory system) has been recently faced with new methods that exploit the specific nature of the dynamics, so that a one dimensional axial mainstream is enriched by local secondary transverse components [4, 16, 18]. These methods - under the name of Hi-Mod approximation - construct a solution as a finite element axial discretization, completed by a spectral approximation of the transverse dynamics. It has been demonstrated that Hi-Mod reduction significantly accelerates the computations without compromising the accuracy. In view of variational data assimilation procedures (or, more in general, control problems), it is crucial to have efficient model reduction techniques to rapidly solve, for instance, a parametrized problem for several choices of the parameters of interest. In this work, we present some preliminary results merging Hi-Mod techniques with a classical Proper Orthogonal Decomposition (POD) strategy. We name this new approach as Hi-POD model reduction. We demonstrate the efficiency and the reliability of Hi-POD on multiparameter advection-diffusion-reaction problems as well as on the incompressible Navier-Stokes equations, both in a steady and in an unsteady setting.

Published
2016

117. TCT-454 Impact of Underexpansion on IVUS-Derived Wall Shear Stress Patterns with Bioresorbable Scaffolds and Metallic DES: Insights from the ABSORB III Imaging Substudy

Author

Gogas, Bill, primary, Thompson, Elizabeth, additional, Molony, David, additional, Spilias, Nikolaos, additional, Okada, Kozo, additional, Honda, Yasuhiro, additional, Veneziani, Alessandro, additional, Giddens, Don P., additional, Rapoza, Richard, additional, Popma, Jeffrey J., additional, and Stone, Gregg, additional

Published
2017
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121. CRT-100.95 Conformability and Wall Shear Stress Assessment Following Deployment of Resolute Integrity Zotarolimus-Eluting Stent and the XIENCE Xpedition Everolimus-Eluting Stent in Angulated Vessels: An Interim Analysis of the SHEAR-STENT Randomized Controlled Study

Author

Gogas, Bill D., primary, Koganti, Vishnu, additional, Bouchi, Yasir H., additional, Molony, David, additional, Zeng, Wenjie, additional, Hung, Olivia Y., additional, Sebaali, Faten, additional, Davis, Emily L., additional, Lee, Hee Su, additional, Thompson, Elizabeth W., additional, Joshi, Udit, additional, Maini, Mansi, additional, Singhal, Esha, additional, Shin, Eun-Seok, additional, Stankovic, Goran, additional, Otake, Hiromasa, additional, Akasaka, Takashi, additional, Escaned, Javier, additional, Kwon-Koo, Bon, additional, Nam, Chang-Wook, additional, Veneziani, Alessandro, additional, Giddens, Don P., additional, King, Spencer B., additional, and Samady, Habib, additional

Published
2017
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130. NOVEL IN-HUMAN FOUR DIMENSIONAL WALL SHEAR STRESS CALCULATION OF A CORONARY BIORESORBABLE SCAFFOLD USING OPTICAL COHERENCE TOMOGRAPHY IMAGES AND BLOOD FLOW SIMULATIONS

Author

Yang, Boyi, primary, Gogas, Bill, additional, Esposito, Gaetano, additional, Hung, Olivia, additional, Arzrumly, Emad Rasoul, additional, Piccinelli, Marina, additional, King, Spencer, additional, Giddens, Don, additional, Veneziani, Alessandro, additional, and Samady, Habib, additional

Published
2015
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134. Computational fluid dynamics applied to virtually deployed drug-eluting coronary bioresorbable scaffolds: Clinical translations derived from a proof-of-concept

Author

Gogas, Bill D., primary, Yang, Boyi, additional, Passerini, Tiziano, additional, Veneziani, Alessandro, additional, Piccinelli, Marina, additional, Esposito, Gaetano, additional, Rasoul-Arzrumly, Emad, additional, Awad, Mosaab, additional, Mekonnen, Girum, additional, Hung, Olivia Y., additional, Holloway, Beth, additional, McDaniel, Michael, additional, Giddens, Don, additional, King, Spencer B., additional, and Samady, Habib, additional

Published
2014
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140. Transversally enriched pipe element method (TEPEM): An effective numerical approach for blood flow modeling.

Author

Mansilla Alvarez, Luis, Blanco, Pablo, Bulant, Carlos, Dari, Enzo, Veneziani, Alessandro, and Feijóo, Raúl

Subjects
HEMODYNAMICS, HIGH-order derivatives (Mathematics), CORONARY circulation, FINITE element method, BIOMEDICAL engineering, MATHEMATICAL models
Abstract

In this work, we present a novel approach tailored to approximate the Navier-Stokes equations to simulate fluid flow in three-dimensional tubular domains of arbitrary cross-sectional shape. The proposed methodology is aimed at filling the gap between (cheap) one-dimensional and (expensive) three-dimensional models, featuring descriptive capabilities comparable with the full and accurate 3D description of the problem at a low computational cost. In addition, this methodology can easily be tuned or even adapted to address local features demanding more accuracy. The numerical strategy employs finite (pipe-type) elements that take advantage of the pipe structure of the spatial domain under analysis. While low order approximation is used for the longitudinal description of the physical fields, transverse approximation is enriched using high order polynomials. Although our application of interest is computational hemodynamics and its relevance to pathological dynamics like atherosclerosis, the approach is quite general and can be applied in any internal fluid dynamics problem in pipe-like domains. Numerical examples covering academic cases as well as patient-specific coronary arterial geometries demonstrate the potentialities of the developed methodology and its performance when compared against traditional finite element methods. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2017
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149. Biomechanical Assessment of Fully Bioresorbable Devices

Author

Gogas, Bill D., primary, King, Spencer B., additional, Timmins, Lucas H., additional, Passerini, Tiziano, additional, Piccinelli, Marina, additional, Veneziani, Alessandro, additional, Kim, Sungho, additional, Molony, David S., additional, Giddens, Don P., additional, Serruys, Patrick W., additional, and Samady, Habib, additional

Published
2013
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