A combined experimental and computational study of the flow characteristics in a Type B aortic dissection: Effect of primary and secondary tear size-Reference-Cited by-同舟云学术

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A combined experimental and computational study of the flow characteristics in a Type B aortic dissection: Effect of primary and secondary tear size

Published:2020-08 Issue: Volume:160 Page:240-253
ISSN:0263-8762
Container-title:Chemical Engineering Research and Design
language:en
Short-container-title:Chemical Engineering Research and Design

Author:

Zadrazil Ivan,Corzo Crispin,Voulgaropoulos Victor,Markides Christos N.,Xu Xiao Yun

Funder

Research Councils UK

Publisher

Elsevier BV

Subject

General Chemical Engineering,General Chemistry

Reference47 articles.

1. Particle Image Velocimetry, No. 30;Adrian,2011

2. Development of a patient-specific simulation tool to analyse aortic dissections: assessment of mixed patient-specific flow and pressure boundary conditions;Alimohammadi;Med. Eng. Phys.,2014

3. Aortic dissection simulation models for clinical support: fluid–structure interaction vs. rigid wall models;Alimohammadi;Biomed. Eng. Online,2015

4. Aortic diameter, true lumen, and false lumen growth rates in chronic type b aortic dissection;Blount;Am. J. Roentgenol.,2009

5. Computational tools for clinical support: a multi-scale compliant model for haemodynamic simulations in an aortic dissection based on multi-modal imaging data;Bonfanti;J. R. Soc. Interface,2017

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1. Mechanisms of Aortic Dissection: From Pathological Changes to Experimental and In Silico Models;Progress in Materials Science;2024-09

2. Hemodynamic effects of entry and exit tear size in aortic dissection evaluated with in vitro magnetic resonance imaging and fluid–structure interaction simulation;Scientific Reports;2023-12-18

3. Three‐dimensional modelling and hemodynamic simulation of the closure of multiple entry tears in type B aortic dissection;Medical Physics;2023-12

4. The effect of terminal impedance on aortic morphology and hemodynamics: an in vitro phantom study using flow field visualization;Frontiers in Bioengineering and Biotechnology;2023-04-24

5. Morphological parameters affecting false lumen thrombosis following type B aortic dissection: a systematic study based on simulations of idealized models;Biomechanics and Modeling in Mechanobiology;2023-01-11

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