Peer-reviewed Journal papers

Google Scholar.

Researchgate (publications available for download).

    1. Habibi, H., Dawson, S. T. M., Arzani, A., Data-Driven Pulsatile Blood Flow Physics with Dynamic Mode Decomposition, Fluids, 5(3). 111, 2020.
    2. Farghadan, A., Poorbahrami, K., Jalal, S., Oakes, J. M., Coletti, F., Arzani, A., Particle transport and deposition correlation with near-wall flow characteristic under inspiratory airflow in lung airways, Computers in Biology and Medicine, 120. 103703, 2020.
    3. Arzani, A., Coronary artery plaque growth: a two-way coupled shear stress driven model, International Journal for Numerical Methods in Biomedical Engineering, 36, e3293, 2020.
    4. Farghadan, A., Coletti, F., Arzani, A., Topological analysis of particle transport in lung airways: predicting particle source and destination, Computers in Biology and Medicine, 115. 103497, 2019
    5. Reza, M. M. S., Arzani, A.,  A critical comparison of different residence time measures in aneurysmsJournal of Biomechanics, 88. 122-129, 2019.
    6. Farghadan, A., Arzani, A., The combined effect of wall shear stress topology and magnitude on cardiovascular mass transportInternational Journal of Heat and Mass Transfer131, 2019.
    7. Arzani, A., Accounting for residence-time in blood rheology models: do we really need non-Newtonian blood flow modeling in large arteries?Journal of the Royal Society Interface, 15(146), 2018.
    8. Hansen, K. B., Arzani, A. and Shadden, S. C., Finite element modeling of near‐wall mass transport in cardiovascular flowsInternational Journal for Numerical Methods in Biomedical Engineering, 35, 2019.
    9. Arzani, A., Shadden, S. C., Wall shear stress fixed points in cardiovascular fluid mechanics, Journal of Biomechanics, 73, 145-152, 2018.
    10. Arzani, A., Mofrad, M. R. K., A strain-based finite element model for calcification progression in aortic valves, Journal of Biomechanics, 65, 216-220, 2017.
    11. Arzani, A., Masters, K. S., Mofrad, M. R. K., Multiscale systems biology model of calcific aortic valve disease progression,  ACS Biomaterials Science & Engineering, 3(11), 2922-2933, 2017.
    12. Arzani, A., Gambaruto, A. M., Chen, G. and Shadden, S. C., Wall shear stress exposure time: A Lagrangian measure of near-wall stagnation and concentration in cardiovascular flowsBiomechanics and Modeling in Mechanobiology16(3), 787–803, 2017.
    13. Arzani, A., Gambaruto, A. M., Chen, G. and Shadden, S. C., Lagrangian wall shear stress structures and near wall transport in high Schmidt aneurysmal flowsJournal of Fluid Mechanics790, 158-172, 2016.
    14. Arzani, A. and Shadden, S. C. Characterizations and correlations of wall shear stress in aneurysmal flowJournal of Biomechanical Engineering 138(1), 014503-1-10, 2015.
    15. Hansen, K. B., Arzani, A. and Shadden, S. C., Mechanical platelet activation potential in abdominal aortic aneurysmsJournal of Biomechanical Engineering137(4), 041005-1-8, 2015.
    16. Shadden, S. C. and Arzani, A., Lagrangian postprocessing of computational hemodynamicsAnnals of Biomedical Engineering43(1), 41-58, 2015.
    17. Arzani, A., Suh, G. Y., Dalman, R. L. and Shadden, S. C., A longitudinal comparison of hemodynamics and intraluminal thrombus deposition in abdominal aortic aneurysmsAmerican Journal of Physiology- Heart and Circulatory Physiology307(12), H1786-H1795, 2014.
    18. Arzani, A., Les, A. S., Dalman, R. L. and Shadden, S. C., Effect of exercise on patient specific abdominal aortic aneurysm flow topology and mixingInternational Journal for Numerical Methods in Biomedical Engineering30(2), 280-295, 2014.
    19. Steinman, D. A., Hoi, Y., Fahy, P., Morris, L., Walsh, M. T., Aristokleous, N., Anayiotos, A. S., Papaharilaou, Y., Arzani, A., Shadden, S. C., et al., Variability of computational fluid dynamics solutions for pressure and flow in a giant aneurysm: The ASME 2012 Summer Bioengineering Conference CFD ChallengeJournal of Biomechanical Engineering135(2), 021016-1-13, 2013.
    20. Arzani, A. and Shadden, S. C., Characterization of the transport topology in patient-specific abdominal aortic aneurysm modelsPhysics of Fluids24(8), 081901-1-16, 2012.
    21. Arzani, A., Dyverfeldt, P., Ebbers, T. and Shadden, S. C., In vivo validation of numerical prediction for turbulence intensity in an aortic coarctationAnnals of Biomedical Engineering40(4), 860-870, 2012.
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