Rana Zakerzadeh
Rana Zakerzadeh
Verified email at duq.edu - Homepage
Cited by
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A framework for designing patient‐specific bioprosthetic heart valves using immersogeometric fluid–structure interaction analysis
F Xu, S Morganti, R Zakerzadeh, D Kamensky, F Auricchio, A Reali, ...
International journal for numerical methods in biomedical engineering 34 (4 …, 2018
Partitioning strategies for the interaction of a fluid with a poroelastic material based on a Nitsche’s coupling approach
M Bukač, I Yotov, R Zakerzadeh, P Zunino
Computer Methods in Applied Mechanics and Engineering 292, 138-170, 2015
Computational methods for the aortic heart valve and its replacements
R Zakerzadeh, MC Hsu, MS Sacks
Expert review of medical devices 14 (11), 849-866, 2017
An anisotropic constitutive model for immersogeometric fluid–structure interaction analysis of bioprosthetic heart valves
MCH Wu, R Zakerzadeh, D Kamensky, J Kiendl, MS Sacks, MC Hsu
Journal of biomechanics 74, 23-31, 2018
Effects of poroelasticity on fluid-structure interaction in arteries: A computational sensitivity study
M Bukac, I Yotov, R Zakerzadeh, P Zunino
Modeling the heart and the circulatory system, 197-220, 2015
A computational framework for fluid–porous structure interaction with large structural deformation
PZ Rana Zakerzadeh
Meccanica, 2018
A material modeling approach for the effective response of planar soft tissues for efficient computational simulations
W Zhang, R Zakerzadeh, W Zhang, MS Sacks
Journal of the mechanical behavior of biomedical materials 89, 168-198, 2019
Computational analysis of energy distribution of coupled blood flow and arterial deformation
R Zakerzadeh, M Bukac, P Zunino
International Journal of Advances in Engineering Sciences and Applied …, 2016
Fluid-structure interaction in arteries with a poroelastic wall model
R Zakerzadeh, P Zunino
2014 21th Iranian Conference on Biomedical Engineering (ICBME), 35-39, 2014
A Computational model for fluid-porous structure interaction
R Zakerzadeh
University of Pittsburgh, 2016
Hyperbolic–Parabolic Coupling and the Occurrence of Resonance in Partially Dissipative Systems
GP Galdi, M Mohebbi, R Zakerzadeh, P Zunino
Fluid-structure interaction and biomedical applications, 197-256, 2014
Oxygen transport in a permeable model of abdominal aortic aneurysm
R Zakerzadeh, T Cupac, M Durka
Computer Methods in Biomechanics and Biomedical Engineering 24 (2), 215-229, 2021
Fluid–Structure Interaction Analysis of Bioprosthetic Heart Valves: the Application of a Computationally-Efficient Tissue Constitutive Model
R Zakerzadeh, MCH Wu, W Zhang, MC Hsu, MS Sacks
Advances in Heart Valve Biomechanics, 447-469, 2018
Numerical modeling of fluid-porous structure interaction in arteries
R Zakerzadeh, P Zunino
Fluid-Structure interaction modeling in deformable porous arteries
R Zakerzadeh, P Zunino
APS Division of Fluid Dynamics Meeting Abstracts, L24. 010, 2015
Computational models for fluid-structure interaction with a poroelastic structure
R Zakerzadeh, P Zunino, M Bukac, I Yotov
APS Division of Fluid Dynamics Meeting Abstracts, 1A. 029, 2013
Numerical Analysis of Stenoses Severity and Aortic Wall Mechanics in Patients with Supravalvular Aortic Stenosis
T Lone, A Alday, R Zakerzadeh
Computers in Biology and Medicine, 104573, 2021
Coupled Hemodynamics and Oxygen Diffusion in Abdominal Aortic Aneurysm: A Computational Sensitivity Study
R Zakerzadeh, T Cupac, N Dorfner, A Guy
Cardiovascular Engineering and Technology 12 (2), 166-182, 2021
Book Review: Matrix Methods: Applied Linear Algebra and Sabermetrics
R Zakerzadeh
AIAA Journal 59 (4), 1515-1516, 2021
Academic Games as a Form of Increasing Student Engagement in Remote Teaching
N Dorfner, R Zakerzadeh
Biomedical Engineering Education, 1-9, 2021
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