Keyword search (4,163 papers available)

"Kadem L" Authored Publications:

Title Authors PubMed ID
1 Hemodynamic performance and blood damage of the Intra-aortic pumps: A CFD-Based investigation Aycan O; Park Y; Kadem L; 41863715
ENCS
2 A high-fidelity simulator for evaluation of hemodynamic response during cardiopulmonary resuscitation in hypogravity environments Lord Z; Andrade C; Leroux L; Kadem L; 41741473
CHEMISTRY
3 Comprehensive review of reinforcement learning for medical ultrasound imaging Elmekki H; Islam S; Alagha A; Sami H; Spilkin A; Zakeri E; Zanuttini AM; Bentahar J; Kadem L; Xie WF; Pibarot P; Mizouni R; Otrok H; Singh S; Mourad A; 40567264
ENCS
4 Experimental Investigation of the Effect of a MitraClip on Left Ventricular Flow Dynamics Teimouri K; Darwish A; Saleh W; Ng HD; Kadem L; 40325266
ENCS
5 CACTUS: An open dataset and framework for automated Cardiac Assessment and Classification of Ultrasound images using deep transfer learning Elmekki H; Alagha A; Sami H; Spilkin A; Zanuttini AM; Zakeri E; Bentahar J; Kadem L; Xie WF; Pibarot P; Mizouni R; Otrok H; Singh S; Mourad A; 40107020
ENCS
6 Numerical investigation of the flow induced by a transcatheter intra-aortic entrainment pump Park Y; Aycan O; Kadem L; 40014031
ENCS
7 Design, manufacturing, and multi-modal imaging of stereolithography 3D printed flexible intracranial aneurysm phantoms Yalman A; Jafari A; Léger É; Mastroianni MA; Teimouri K; Savoji H; Collins DL; Kadem L; Xiao Y; 39546636
BIOLOGY
8 Design and validation of an In Vitro test bench for the investigation of cardiopulmonary resuscitation procedure El-Khoury A; Leroux L; Dupuis Desroches J; Di Labbio G; Kadem L; 39305857
ENCS
9 An Anatomically Shaped Mitral Valve for Hemodynamic Testing Darwish A; Papolla C; Rieu R; Kadem L; 38228812
ENCS
10 Spectral-Clustering of Lagrangian Trajectory Graphs: Application to Abdominal Aortic Aneurysms Darwish A; Norouzi S; Kadem L; 34845627
ENCS
11 On Left Ventricle Stroke Work Efficiency in Children with Moderate Aortic Valve Regurgitation or Moderate Aortic Valve Stenosis Asaadi M; Mawad W; Djebbari A; Keshavardz-Motamed Z; Dahdah N; Kadem L; 34357415
ENCS
12 Response to: "Color Doppler Splay: a New Tool for the Assessment of Valvular Regurgitations?" by Allievi et al Wiener PC; Friend EJ; Bhargav R; Radhakrishnan K; Kadem L; Pressman GS; 34062241
ENCS
13 Energy loss associated with in-vitro modeling of mitral annular calcification. Wiener PC, Darwish A, Friend E, Kadem L, Pressman GS 33591991
ENCS
14 Proper Orthogonal Decomposition Analysis of the Flow Downstream of a Dysfunctional Bileaflet Mechanical Aortic Valve. Darwish A, Di Labbio G, Saleh W, Kadem L 33469847
ENCS
15 Impact of Mitral Regurgitation on the Flow in a Model of a Left Ventricle. Papolla C, Darwish A, Kadem L, Rieu R 33000444
ENCS
16 Color Doppler Splay: A Clue to the Presence of Significant Mitral Regurgitation. Wiener PC, Friend EJ, Bhargav R, Radhakrishnan K, Kadem L, Pressman GS 32712051
ENCS
17 Effects of Hemodynamic Conditions and Valve Sizing on Leaflet Bending Stress in Self-Expanding Transcatheter Aortic Valve: An In-vitro Study. Stanová V, Zenses AS, Thollon L, Kadem L, Barragan P, Rieu R, Pibarot P 31995230
ENCS
18 Experimental Investigation of the Effect of Heart Rate On Flow in the Left Ventricle in Health and Disease -- Aortic Valve Regurgitation. Di Labbio G, Ben-Assa E, Kadem L 31701119
ENCS
19 Jet collisions and vortex reversal in the human left ventricle. Di Labbio G, Kadem L 30049450
ENCS
20 Response to letter to the editor: 'Left ventricular flow in the presence of aortic regurgitation'. Di Labbio G, Kadem L 30871721
ENCS
21 Experimental investigation of the flow downstream of a dysfunctional bileaflet mechanical aortic valve. Darwish A, Di Labbio G, Saleh W, Smadi O, Kadem L 31066923
ENCS

 

Title:Numerical investigation of the flow induced by a transcatheter intra-aortic entrainment pump
Authors:Park YAycan OKadem L
Link:https://pubmed.ncbi.nlm.nih.gov/40014031/
DOI:10.1080/10255842.2025.2471517
Publication:Computer methods in biomechanics and biomedical engineering
Keywords:Computational fluid dynamicsaxial blood pumphemolysis indexshear stressventricular assist device
PMID:40014031 Category: Date Added:2025-02-27
Dept Affiliation: ENCS
1 Laboratory of Cardiovascular Fluid Dynamics, Department of Mechanical Industrial and Aerospace Engineering, Concordia University, Montreal, QC, Canada.
2 Department of Mechanical Engineering, Faculty of Engineering, Zonguldak Bulent Ecevit University, Zonguldak, Türkiye.

Description:

This study evaluates the fluid dynamics inside and outside transcatheter blood pump positioned in the aorta. We focus on the pump's impact on blood component damage and arterial wall stress. CFD simulations were performed for rotational speeds ranging from 6000 to 15000 rpm, with a blood flow rate of 1.6 L/min. Results show that significant blood damage may occur at speeds as low as 12000 rpm, and the pump's outflow jet induces elevated wall shear stress, potentially leading to arterial aneurysms. These findings suggest the need for further design improvements to reduce risks when used in prolonged or transplant-related applications.





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