Idit Avrahami
Cited by
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Influence of microcalcifications on vulnerable plaque mechanics using FSI modeling
D Bluestein, Y Alemu, I Avrahami, M Gharib, K Dumont, JJ Ricotta, ...
Journal of biomechanics 41 (5), 1111-1118, 2008
Vortical Flow Structures in Ventricular Assist Devices (VADs)
ED., A Kheradvar, G Pedrizzetti
Vortex formation in the Heart 4, 102-109, 2012
Vascular flow assessment
I Lavi, R Kornowski, I Avrahami, N Benishti, G Lavi
US Patent 9,858,387, 2018
Computational studies of resonance wave pumping in compliant tubes
I Avrahami, M Gharib
Journal of Fluid Mechanics 608, 139-160, 2008
Calculating a fractional flow reserve
I Lavi, R Kornowski, I Avrahami, N Benishti, G Lavi
US Patent 10,595,807, 2020
DPIV prediction of flow induced platelet activation—comparison to numerical predictions
S Raz, S Einav, Y Alemu, D Bluestein
Annals of biomedical engineering 35 (4), 493-504, 2007
Numerical model of flow in a sac‐type ventricular assist device
I Avrahami, M Rosenfeld, S Raz, S Einav
Artificial organs 30 (7), 529-538, 2006
Unsteady effects on the flow across tilting disk valves
M Rosenfeld, I Avrahami, S Einav
J. Biomech. Eng. 124 (1), 21-29, 2002
Creating a vascular tree model
N Benishti, I Lavi, R Kornowski, I Avrahami, G Lavi
US Patent 9,814,433, 2017
Resonant pumping in a multilayer impedance pump
L Loumes, I Avrahami, M Gharib
Physics of Fluids 20 (2), 023103, 2008
Can vortices in the flow across mechanical heart valves contribute to cavitation?
I Avrahami, M Rosenfeld, S Einav, M Eichler, H Reul
Medical and Biological Engineering and Computing 38 (1), 93-97, 2000
The hemodynamics of the Berlin pulsatile VAD and the role of its MHV configuration
I Avrahami, M Rosenfeld, S Einav
Annals of biomedical engineering 34 (9), 1373-1388, 2006
A 3D rotary renal and mesenchymal stem cell culture model unveils cell death mechanisms induced by matrix deficiency and low shear stress
N Shimony, I Avrahami, R Gorodetsky, G Elkin, K Tzukert, L Zangi, ...
Nephrology Dialysis Transplantation 23 (6), 2071-2080, 2008
Peripheral microcirculatory hemodynamic changes in patients with myocardial ischemia
Z Ovadia-Blechman, I Avrahami, E Weizman-Shammai, T Sharir, M Eldar, ...
Biomedicine & Pharmacotherapy 74, 83-88, 2015
Net flow rate generation by a multi-pincher impedance pump
M Rosenfeld, I Avrahami
Computers & fluids 39 (9), 1634-1643, 2010
Hemodynamic and mechanical aspects of fenestrated endografts for treatment of abdominal aortic aneurysm
I Avrahami, M Brand, T Meirson, Z Ovadia-Blechman, M Halak
European Journal of Mechanics-B/Fluids 35, 85-91, 2012
Multilayer impedance pump: a bio-inspired valveless pump with medical applications
L Loumes
California Institute of Technology, 2007
Approaches for treatment of aortic arch aneurysm, a numerical study
A Nardi, I Avrahami
Journal of biomechanics 50, 158-165, 2017
Hemodynamic Aspects of Ventricle Assist Device
I Avrahami, S Einav, M Rosenfeld, K Affeld
International Society of Biomechanics XVIIIth Congress, S331, 2001
Investigation of risks for cerebral embolism associated with the hemodynamics of cardiopulmonary bypass cannula: a numerical model
I Avrahami, B Dilmoney, A Azuri, M Brand, O Cohen, L Shani, RR Nir, ...
Artificial organs 37 (10), 857-865, 2013
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