Vijay Vedula
TitleCited byYear
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
Computational modeling and analysis of intracardiac flows in simple models of the left ventricle
X Zheng, JH Seo, V Vedula, T Abraham, R Mittal
European Journal of Mechanics-B/Fluids 35, 31-39, 2012
Further improvement and analysis of CCD scheme: dissipation discretization and de-aliasing properties
TK Sengupta, V Vijay, S Bhaumik
Journal of Computational Physics 228 (17), 6150-6168, 2009
A new combined stable and dispersion relation preserving compact scheme for non-periodic problems
TK Sengupta, V Lakshmanan, V Vijay
Journal of Computational Physics 228 (8), 3048-3071, 2009
Effect of the mitral valve on diastolic flow patterns
JH Seo, V Vedula, T Abraham, AC Lardo, F Dawoud, H Luo, R Mittal
Physics of fluids 26 (12), 121901, 2014
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 (1-2), 3-21, 2016
Universal instability modes in internal and external flows
TK Sengupta, V Vijay, N Singh
Computers & Fluids 40 (1), 221-235, 2011
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 (6), 589-604, 2014
Hemodynamics in the left atrium and its effect on ventricular flow patterns
V Vedula, R George, L Younes, R Mittal
Journal of biomechanical engineering 137 (11), 111003, 2015
Computational study of the dynamics of a bileaflet mechanical heart valve in the mitral position
YJ Choi, V Vedula, R Mittal
Annals of biomedical engineering 42 (8), 1668-1680, 2014
Multiphysics computational models for cardiac flow and virtual cardiography
JH Seo, V Vedula, T Abraham, R Mittal
International journal for numerical methods in biomedical engineering 29 (8 …, 2013
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
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
Analysis of anisotropy of numerical wave solutions by high accuracy finite difference methods
TK Sengupta, MK Rajpoot, S Saurabh, V Vijay
Journal of Computational Physics 230 (1), 27-60, 2011
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), 2018
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
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), 2019
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 (12), 2177-2188, 2018
Contractile and Hemodynamic Forces Promote Cardiac Valve Development via Notch1b-Mediated Endothelial-to-Mesenchymal Transition
JJ Hsu, V Vedula, KI Baek, C Chen, Y Ding, Y Tintut, AL Marsden, ...
Circulation 138 (Suppl_1), A14393-A14393, 2018
Abstract 14393
J Hsu, V Vedula, K Baek, C Chen, Y Ding, Y Tintut, A Marsden, T Hsiai
Circulation 138 (Suppl_1), 2018
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Articles 1–20