Experimental evaluation of the patient-specific haemodynamics of an aortic dissection model using particle image velocimetry
Author:
Funder
University College London
Publisher
Elsevier BV
Subject
Rehabilitation,Biomedical Engineering,Orthopedics and Sports Medicine,Biophysics
Reference33 articles.
1. Principal stress analysis in LDA measurements of the flow field downstream of 19-mm Sorin Bicarbon heart valve;Barbaro;Technol. Health Care,1998
2. Endograft exclusion of the false lumen restores local hemodynamics in a model of type B aortic dissection;Birjiniuk;J. Vasc. Surg.,2020
3. Pulsatile flow leads to intimal flap motion and flow reversal in an in vitro model of type b aortic dissection;Birjiniuk;Cardiovasc. Eng. Technol.,2017
4. A simplified method to account for wall motion in patient-specific blood flow simulations of aortic dissection : Comparison with fluid-structure interaction;Bonfanti;Med. Eng. Phys.,2018
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
Cited by 10 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
1. Computational fluid dynamics: Applications in pharmaceutical technology;Computer-Aided Applications in Pharmaceutical Technology;2024
2. Towards Reduced Order Models via Robust Proper Orthogonal Decomposition to capture personalised aortic haemodynamics;Journal of Biomechanics;2023-09
3. Computational fluid dynamics validated by micro particle image velocimetry to estimate the risk of hemolysis in arteries with atherosclerotic lesions;Chemical Engineering Research and Design;2023-08
4. An integrated in-vitro and in-silico workflow to study the pulmonary bifurcation hemodynamics;Computers & Fluids;2023-06
5. 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
1.学者识别学者识别
2.学术分析学术分析
3.人才评估人才评估
"同舟云学术"是以全球学者为主线,采集、加工和组织学术论文而形成的新型学术文献查询和分析系统,可以对全球学者进行文献检索和人才价值评估。用户可以通过关注某些学科领域的顶尖人物而持续追踪该领域的学科进展和研究前沿。经过近期的数据扩容,当前同舟云学术共收录了国内外主流学术期刊6万余种,收集的期刊论文及会议论文总量共计约1.5亿篇,并以每天添加12000余篇中外论文的速度递增。我们也可以为用户提供个性化、定制化的学者数据。欢迎来电咨询!咨询电话:010-8811{复制后删除}0370
www.globalauthorid.com
TOP
Copyright © 2019-2024 北京同舟云网络信息技术有限公司 京公网安备11010802033243号 京ICP备18003416号-3