Literature DB >> 20232151

Carotid atheroma rupture observed in vivo and FSI-predicted stress distribution based on pre-rupture imaging.

Joseph R Leach1, Vitaliy L Rayz, Bruno Soares, Max Wintermark, Mohammad R K Mofrad, David Saloner.   

Abstract

Atherosclerosis at the carotid bifurcation is a major risk factor for stroke. As mechanical forces may impact lesion stability, finite element studies have been conducted on models of diseased vessels to elucidate the effects of lesion characteristics on the stresses within plaque materials. It is hoped that patient-specific biomechanical analyses may serve clinically to assess the rupture potential for any particular lesion, allowing better stratification of patients into the most appropriate treatments. Due to a sparsity of in vivo plaque rupture data, the relationship between various mechanical descriptors such as stresses or strains and rupture vulnerability is incompletely known, and the patient-specific utility of biomechanical analyses is unclear. In this article, we present a comparison between carotid atheroma rupture observed in vivo and the plaque stress distribution from fluid-structure interaction analysis based on pre-rupture medical imaging. The effects of image resolution are explored and the calculated stress fields are shown to vary by as much as 50% with sub-pixel geometric uncertainty. Within these bounds, we find a region of pronounced elevation in stress within the fibrous plaque layer of the lesion with a location and extent corresponding to that of the observed site of plaque rupture.

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Year:  2010        PMID: 20232151      PMCID: PMC2900591          DOI: 10.1007/s10439-010-0004-8

Source DB:  PubMed          Journal:  Ann Biomed Eng        ISSN: 0090-6964            Impact factor:   3.934


  44 in total

Review 1.  Carotid atherosclerotic plaque: noninvasive MR characterization and identification of vulnerable lesions.

Authors:  C Yuan; L M Mitsumori; K W Beach; K R Maravilla
Journal:  Radiology       Date:  2001-11       Impact factor: 11.105

2.  Influence of lumen shape and vessel geometry on plaque stresses: possible role in the increased vulnerability of a remodelled vessel and the "shoulder" of a plaque.

Authors:  R Krishna Kumar; K R Balakrishnan
Journal:  Heart       Date:  2005-03-17       Impact factor: 5.994

3.  A combined FEM/genetic algorithm for vascular soft tissue elasticity estimation.

Authors:  Ahmad S Khalil; Brett E Bouma; Mohammad R Kaazempur Mofrad
Journal:  Cardiovasc Eng       Date:  2006-09

4.  Structural analysis and magnetic resonance imaging predict plaque vulnerability: a study comparing symptomatic and asymptomatic individuals.

Authors:  Zhi-Yong Li; Simon P S Howarth; Tjun Tang; Martin J Graves; Jean U-King-Im; Rikin A Trivedi; Peter J Kirkpatrick; Jonathan H Gillard
Journal:  J Vasc Surg       Date:  2007-03-08       Impact factor: 4.268

5.  Localized elevation of shear stress is related to coronary plaque rupture: a 3-dimensional intravascular ultrasound study with in-vivo color mapping of shear stress distribution.

Authors:  Yusaku Fukumoto; Takafumi Hiro; Takashi Fujii; Genta Hashimoto; Tatsuhiro Fujimura; Jutaro Yamada; Takayuki Okamura; Masunori Matsuzaki
Journal:  J Am Coll Cardiol       Date:  2008-02-12       Impact factor: 24.094

6.  Stress analysis of carotid plaque rupture based on in vivo high resolution MRI.

Authors:  Zhi-Yong Li; Simon Howarth; Rikin A Trivedi; Jean M U-King-Im; Martin J Graves; Andrew Brown; Liqun Wang; Jonathan H Gillard
Journal:  J Biomech       Date:  2005-10-26       Impact factor: 2.712

7.  In vivo characterization and quantification of atherosclerotic carotid plaque components with multidetector computed tomography and histopathological correlation.

Authors:  Thomas T de Weert; Mohamed Ouhlous; Erik Meijering; Pieter E Zondervan; Johanna M Hendriks; Marc R H M van Sambeek; Diederik W J Dippel; Aad van der Lugt
Journal:  Arterioscler Thromb Vasc Biol       Date:  2006-08-10       Impact factor: 8.311

8.  Effect of stenosis on wall motion. A possible mechanism of stroke and transient ischemic attack.

Authors:  R L Binns; D N Ku
Journal:  Arteriosclerosis       Date:  1989 Nov-Dec

9.  Patient-specific artery shrinkage and 3D zero-stress state in multi-component 3D FSI models for carotid atherosclerotic plaques based on in vivo MRI data.

Authors:  Xueying Huang; Chun Yang; Chun Yuan; Fei Liu; Gador Canton; Jie Zheng; Pamela K Woodard; Gregorio A Sicard; Dalin Tang
Journal:  Mol Cell Biomech       Date:  2009-06

10.  3D MRI-based multicomponent FSI models for atherosclerotic plaques.

Authors:  Dalin Tang; Chun Yang; Jie Zheng; Pamela K Woodard; Gregorio A Sicard; Jeffrey E Saffitz; Chun Yuan
Journal:  Ann Biomed Eng       Date:  2004-07       Impact factor: 3.934
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  19 in total

1.  A mechanistic analysis of the role of microcalcifications in atherosclerotic plaque stability: potential implications for plaque rupture.

Authors:  Natalia Maldonado; Adreanne Kelly-Arnold; Yuliya Vengrenyuk; Damien Laudier; John T Fallon; Renu Virmani; Luis Cardoso; Sheldon Weinbaum
Journal:  Am J Physiol Heart Circ Physiol       Date:  2012-07-09       Impact factor: 4.733

2.  Combining morphological and biomechanical factors for optimal carotid plaque progression prediction: An MRI-based follow-up study using 3D thin-layer models.

Authors:  Qingyu Wang; Dalin Tang; Liang Wang; Gador Canton; Zheyang Wu; Thomas S Hatsukami; Kristen L Billiar; Chun Yuan
Journal:  Int J Cardiol       Date:  2019-07-04       Impact factor: 4.164

Review 3.  High wall shear stress and spatial gradients in vascular pathology: a review.

Authors:  Jennifer M Dolan; John Kolega; Hui Meng
Journal:  Ann Biomed Eng       Date:  2012-12-11       Impact factor: 3.934

4.  Stress analysis of fracture of atherosclerotic plaques: crack propagation modeling.

Authors:  Alireza Rezvani-Sharif; Mohammad Tafazzoli-Shadpour; Davood Kazemi-Saleh; Maryam Sotoudeh-Anvari
Journal:  Med Biol Eng Comput       Date:  2016-12-09       Impact factor: 2.602

5.  3D MRI-based multicomponent thin layer structure only plaque models for atherosclerotic plaques.

Authors:  Xueying Huang; Chun Yang; Jie Zheng; Richard Bach; David Muccigrosso; Pamela K Woodard; Dalin Tang
Journal:  J Biomech       Date:  2016-06-08       Impact factor: 2.712

6.  Higher critical plaque wall stress in patients who died of coronary artery disease compared with those who died of other causes: a 3D FSI study based on ex vivo MRI of coronary plaques.

Authors:  Xueying Huang; Chun Yang; Jie Zheng; Richard Bach; David Muccigrosso; Pamela K Woodard; Dalin Tang
Journal:  J Biomech       Date:  2013-12-06       Impact factor: 2.712

7.  Quantifying effect of intraplaque hemorrhage on critical plaque wall stress in human atherosclerotic plaques using three-dimensional fluid-structure interaction models.

Authors:  Xueying Huang; Chun Yang; Gador Canton; Marina Ferguson; Chun Yuan; Dalin Tang
Journal:  J Biomech Eng       Date:  2012-12       Impact factor: 2.097

8.  Analysis of carotid artery plaque and wall boundaries on CT images by using a semi-automatic method based on level set model.

Authors:  Luca Saba; Hao Gao; U Rajendra Acharya; Stefano Sannia; Giuseppe Ledda; Jasjit S Suri
Journal:  Neuroradiology       Date:  2012-05-06       Impact factor: 2.804

9.  Progressive changes of elastic moduli of arterial wall and atherosclerotic plaque components during plaque development in human coronary arteries.

Authors:  Alireza Rezvani-Sharif; Mohammad Tafazzoli-Shadpour; Alberto Avolio
Journal:  Med Biol Eng Comput       Date:  2018-10-29       Impact factor: 2.602

Review 10.  Changing views of the biomechanics of vulnerable plaque rupture: a review.

Authors:  Luis Cardoso; Sheldon Weinbaum
Journal:  Ann Biomed Eng       Date:  2013-07-11       Impact factor: 3.934
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