Artigos com autorizações de acesso público - Vijay VedulaSaiba mais
1 artigo não disponível publicamente
A highly scalable sharp-interface immersed boundary method for large-scale parallel computers
C Zhu, JH Seo, V Vedula, R Mittal
23rd AIAA Computational Fluid Dynamics Conference, 3622, 2017
Autorizações: US National Science Foundation, US Department of Defense
19 artigos disponíveis publicamente
Computational modeling of cardiac hemodynamics: Current status and future outlook
R Mittal, JH Seo, V Vedula, YJ Choi, H Liu, HH Huang, S Jain, L Younes, ...
Journal of Computational Physics 305, 1065-1082, 2016
Autorizações: US National Science Foundation, US National Institutes of Health, US …
Fluid–structure interaction simulations of patient-specific aortic dissection
K Bäumler, V Vedula, AM Sailer, J Seo, P Chiu, G Mistelbauer, FP Chan, ...
Biomechanics and modeling in mechanobiology 19 (5), 1607-1628, 2020
Autorizações: US National Science Foundation
Effect of trabeculae and papillary muscles on the hemodynamics of the left ventricle
V Vedula, JH Seo, AC Lardo, R Mittal
Theoretical and Computational Fluid Dynamics 30, 3-21, 2016
Autorizações: US National Science Foundation
A method to quantify mechanobiologic forces during zebrafish cardiac development using 4-D light sheet imaging and computational modeling
V Vedula, J Lee, H Xu, CCJ Kuo, TK Hsiai, AL Marsden
PLoS computational biology 13 (10), e1005828, 2017
Autorizações: US National Science Foundation, US National Institutes of Health, American …
Spatial and temporal variations in hemodynamic forces initiate cardiac trabeculation
J Lee, V Vedula, KI Baek, J Chen, JJ Hsu, Y Ding, CC Chang, H Kang, ...
JCI insight 3 (13), e96672, 2018
Autorizações: US National Institutes of Health, American Heart Association
Computational modeling and validation of intraventricular flow in a simple model of the left ventricle
V Vedula, S Fortini, JH Seo, G Querzoli, R Mittal
Theoretical and Computational Fluid Dynamics 28, 589-604, 2014
Autorizações: Government of Italy
Contractile and hemodynamic forces coordinate Notch1b-mediated outflow tract valve formation
JJ Hsu, V Vedula, KI Baek, C Chen, J Chen, MI Chou, J Lam, S Subhedar, ...
JCI insight 4 (10), e124460, 2019
Autorizações: US National Institutes of Health, American Heart Association
svFSI: a multiphysics package for integrated cardiac modeling
C Zhu, V Vedula, D Parker, N Wilson, S Shadden, A Marsden
Journal of Open Source Software 7 (78), 4118, 2022
Autorizações: US National Science Foundation, American Heart Association
A new MRI-based model of heart function with coupled hemodynamics and application to normal and diseased canine left ventricles
YJ Choi, J Constantino, V Vedula, N Trayanova, R Mittal
Frontiers in bioengineering and biotechnology 3, 140, 2015
Autorizações: US National Institutes of Health
Fluid-structure interaction simulation of tissue degradation and its effects on intra-aneurysm hemodynamics
H Wang, K Uhlmann, V Vedula, D Balzani, F Varnik
Biomechanics and Modeling in Mechanobiology 21 (2), 671-683, 2022
Autorizações: German Research Foundation
Design optimization of a cardiovascular stent with application to a balloon expandable prosthetic heart valve
JB Russ, RL Li, AR Herschman, H Waisman, V Vedula, JW Kysar, D Kalfa
Materials & design 209, 109977, 2021
Autorizações: US National Institutes of Health
On the potential self-amplification of aneurysms due to tissue degradation and blood flow revealed from FSI simulations
H Wang, D Balzani, V Vedula, K Uhlmann, F Varnik
Frontiers in Physiology 12, 785780, 2021
Autorizações: German Research Foundation
Simulating developmental cardiac morphology in virtual reality using a deformable image registration approach
A Abiri, Y Ding, P Abiri, RRS Packard, V Vedula, A Marsden, CCJ Kuo, ...
Annals of biomedical engineering 46, 2177-2188, 2018
Autorizações: US National Institutes of Health, American Heart Association
Computational simulations of the 4D micro-circulatory network in zebrafish tail amputation and regeneration
M Roustaei, K In Baek, Z Wang, S Cavallero, S Satta, A Lai, R O'Donnell, ...
Journal of The Royal Society Interface 19 (187), 20210898, 2022
Autorizações: US National Institutes of Health, US Department of Veterans Affairs
A modular framework for implicit 3D–0D coupling in cardiac mechanics
AL Brown, M Salvador, L Shi, MR Pfaller, Z Hu, KE Harold, T Hsiai, ...
Computer Methods in Applied Mechanics and Engineering 421, 116764, 2024
Autorizações: US National Institutes of Health
Experimental and Mouse-Specific Computational Models of the Fbln4SMKO Mouse to Identify Potential Biomarkers for Ascending Thoracic Aortic Aneurysm
MS Bazzi, R Balouchzadeh, SN Pavey, JD Quirk, H Yanagisawa, ...
Cardiovascular engineering and technology 13 (4), 558-572, 2022
Autorizações: US National Institutes of Health
Preoperative computed tomography angiography reveals leaflet-specific calcification and excursion patterns in aortic stenosis
IY Chen, V Vedula, SB Malik, T Liang, AY Chang, KS Chung, N Sayed, ...
Circulation: Cardiovascular Imaging 14 (12), 1122-1132, 2021
Autorizações: US National Science Foundation, US National Institutes of Health, American …
In vitro proof of concept of a first‐generation growth‐accommodating heart Valved conduit for pediatric use
RL Li, M Sun, JB Russ, PL Pousse, AP Kossar, I Gibson, C Paschalides, ...
Macromolecular bioscience 23 (7), 2300011, 2023
Autorizações: US National Science Foundation, US National Institutes of Health
A software benchmark for cardiac elastodynamics
R Aróstica, D Nolte, A Brown, A Gebauer, E Karabelas, J Jilberto, ...
Computer Methods in Applied Mechanics and Engineering 435, 117485, 2025
Autorizações: Austrian Science Fund, Netherlands Organisation for Scientific Research …
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