Numerical modeling of residual type B aortic dissection: longitudinal analysis of favorable and unfavorable evolution-Reference-Cited by-同舟云学术

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Numerical modeling of residual type B aortic dissection: longitudinal analysis of favorable and unfavorable evolution

Published:2022-01-25 Issue:3 Volume:60 Page:769-783
ISSN:0140-0118
Container-title:Medical & Biological Engineering & Computing
language:en
Short-container-title:Med Biol Eng Comput

Author:

Fatma Khannous,Carine Guivier-Curien,Marine Gaudry,Philippe Piquet,Valérie Deplano^ORCID

Funder

Labex MEC

Publisher

Springer Science and Business Media LLC

Subject

Computer Science Applications,Biomedical Engineering

Link

https://link.springer.com/content/pdf/10.1007/s11517-021-02480-1.pdf

Reference45 articles.

1. Ab Naim WN, Ganesan PB, Sun Z, Chee KH, Hashim SA, Lim E (2014) A perspective review on numerical simulations of hemodynamics in aortic dissection. The Scientific World Journal, 652520–12

2. Ab Naim WN, Ganesan PB, Sun Z, Osman K, Lim E (2014) The impact of the number of tears in patient-specific stanford type B aortic dissecting anurysm: CFD simulation. J Mech Med Biol 14 (2):1450017

3. Ab Naim WN, Ganesan PB, Sun Z, Liew YM, Qian Y, Lee C -J, Jansen S, Hashim SA, Lim E (2016) Prediction of thrombus formation using vortical structures presentation in stanford type b dissectio: a preliminary study using CFD approach. Appl Math Model 40:3115–3127

4. Alimohammadi M, Agu O, Balabani S, Diaz-Zuccarini V (2014) Development of a patient-specific simulation tool to analyse aortic dissections: assessment of mixed patient-specific flow and pressure boundary conditions. Med Eng Phys 36:275–284

5. Alimohammadi M, Pichardo-Almarza C, Agu O, Diaz-Zuccarini V (2016) Development of a patient-specific multi-scale model to understand atherosclerosis and calcification locations: comparison with in vivo data in aortic dissection. Front Physio 7:238

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