FSI Simulation of Common Carotid under Normal and High Blood Pressures-Reference-Cited by-同舟云学术

FSI Simulation of Common Carotid under Normal and High Blood Pressures

Published:2012-01 Issue: Volume:4 Page:140579
ISSN:1687-8140
Container-title:Advances in Mechanical Engineering
language:en
Short-container-title:Advances in Mechanical Engineering

Author:

Abdul Khader S. M.¹,Ayachit Anurag²,Pai B. Raghuvir¹,Rao V. R. K.²,Kamath S. Ganesh³

Affiliation:

1. Department of Mechanical Engineering, MIT, Manipal 576104, India

2. Department of Radiodiagnosis & Imaging, KMC, Manipal 576104, India

3. Department of Cardiovascular & Thoracic Surgery, KMC, Manipal 576104, India

Abstract

There has been a tremendous progress in most of the computational domains in recent times. One of the key areas is analyzing the complex interaction of blood flow through elastic artery. Such study will aid in predicting the progression and behaviour of diseases like atherosclerosis and hypertension. In the present investigation, a simple straight common carotid artery having an eccentric blockage is analyzed for normal as well as high blood pressure condition. The clinical data has been obtained from ultrasound measurements on a volunteer patient and a model is generated, ANSYS, a commercially available Finite Element Analysis software. The ANSYS Fluid-Structure Interaction (FSI) solver is used to perform the coupled field transient analysis for three pulse cycles and the obtained results demonstrate the pulsatile flow. The simulation shows that the influence of hypertension has high deformation than normal case, severely altering the flow dynamics in downstream of the stenosis. The results obtained agree very well with available clinical observation of normal blood pressure condition.

Publisher

SAGE Publications

Subject

Mechanical Engineering

Link

http://journals.sagepub.com/doi/pdf/10.1155/2012/140579

Reference14 articles.

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2. Numerical investigation of physiologically realistic pulsatile flow through arterial stenosis

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4. Effect of Stenosis Asymmetry on Blood Flow and Artery Compression: A Three-Dimensional Fluid-Structure Interaction Model

5. Wall stress and strain analysis using a three-dimensional thick-wall model with fluid–structure interactions for blood flow in carotid arteries with stenoses

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