Finite Element Model of the Patched Human Carotid-Reference-Cited by-同舟云学术

Finite Element Model of the Patched Human Carotid

Published:2009-10-14 Issue:6 Volume:43 Page:533-541
ISSN:1538-5744
Container-title:Vascular and Endovascular Surgery
language:en
Short-container-title:Vasc Endovascular Surg

Author:

Kamenskiy Alexey V.¹,Pipinos Iraklis I.¹,Desyatova Anastasia S.¹,Salkovskiy Yuriy E.¹,Yu Kossovich Leonid²,Kirillova Irina V.²,Bockeria Leo A.³,Morozov Konstantin M.³,Polyaev Vasiliy O.⁴,Lynch Thomas G.¹,Dzenis Yuris A.⁵

Affiliation:

1. Department of Engineering Mechanics, University of Nebraska-Lincoln, Lincoln, Nebraska, Department of Surgery, University of Nebraska Medical Center, Omaha, Nebraska, VA Nebraska-Western Iowa, Omaha, Nebraska

2. Department of Mathematical Theory of Elasticity and Biomechanics, Saratov State University, Saratov, Russia

3. Bakulev Scientific Center for Cardiovascular Surgery RAMS, Moscow, Russia

4. Department of Surgery and Pathology, Saratov State Medical University, Saratov, Russia

5. Department of Engineering Mechanics, University of Nebraska-Lincoln, Lincoln, Nebraska, , Department of Surgery, University of Nebraska Medical Center, Omaha, Nebraska, VA Nebraska-Western Iowa, Omaha, Nebraska

Abstract

Introduction: The hemodynamic effects of carotid artery patching are not well known. Our objective was to develop a fluid-solid finite element model of the endarterectomized and patched carotid artery. Methods: Hyperelastic materials parameters were determined from studies of 8 cadaveric carotids. Blood flow characteristics were based on intraoperative data from a patient undergoing endarterectomy. Wall shear stress, cyclic strain and effective stress were computed as hemodynamic parameters with known association with endothelial injury, neointimal hyperplasia abd atherogenesis. Results: Low wall shear stress, high cyclic strain and high effective stress were identified diffusely in the carotid bulb, at the margins around the patch and in the flow divider. Conclusion: Endarterectomy and Polytetrafluoroethylene patching produce considerable abnormalities in the hemodynamics of the repaired carotid. Advanced mechanical modeling can be used to evaluate different carotid revascularization approaches to obtain optimized biomechanical and hemodynamic results for the care of patients with carotid bifurcation disease.

Publisher

SAGE Publications

Subject

Cardiology and Cardiovascular Medicine,General Medicine,Surgery

Link

http://journals.sagepub.com/doi/pdf/10.1177/1538574409345030

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