Literature DB >> 29193358

Cardiovascular magnetic resonance elastography: A review.

Saad Khan1, Faisal Fakhouri1,2, Waqas Majeed1, Arunark Kolipaka1,2,3.   

Abstract

Cardiovascular diseases are the leading cause of death worldwide. These cardiovascular diseases are associated with mechanical changes in the myocardium and aorta. It is known that stiffness is altered in many diseases, including the spectrum of ischemia, diastolic dysfunction, hypertension and hypertrophic cardiomyopathy. In addition, the stiffness of the aortic wall is altered in multiple diseases, including hypertension, coronary artery disease and aortic aneurysm formation. For example, in diastolic dysfunction in which the ejection fraction is preserved, stiffness can potentially be an important biomarker. Similarly, in aortic aneurysms, stiffness can provide valuable information with regard to rupture potential. A number of studies have addressed invasive and non-invasive approaches to test and measure the mechanical properties of the myocardium and aorta. One of the non-invasive approaches is magnetic resonance elastography (MRE). MRE is a phase-contrast magnetic resonance imaging technique that measures tissue stiffness non-invasively. This review article highlights the technical details and application of MRE in the quantification of myocardial and aortic stiffness in different disease states.
Copyright © 2017 John Wiley & Sons, Ltd.

Entities:  

Keywords:  aortic MRE; aortic stiffness; cardiac MRE; heart failure; magnetic resonance elastography (MRE); myocardial stiffness; shear stiffness

Mesh:

Year:  2017        PMID: 29193358      PMCID: PMC5975119          DOI: 10.1002/nbm.3853

Source DB:  PubMed          Journal:  NMR Biomed        ISSN: 0952-3480            Impact factor:   4.044


  78 in total

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2.  Noninvasive method for estimation of complex elastic modulus of arterial vessels.

Authors:  Xiaoming Zhang; Randall R Kinnick; Mostafa Fatemi; James F Greenleaf
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3.  Shear-wave amplitudes measured with cardiac MR elastography for diagnosis of diastolic dysfunction.

Authors:  Thomas Elgeti; Fabian Knebel; Robert Hättasch; Bernd Hamm; Jürgen Braun; Ingolf Sack
Journal:  Radiology       Date:  2014-01-19       Impact factor: 11.105

4.  MR elastography of the in vivo abdominal aorta: a feasibility study for comparing aortic stiffness between hypertensives and normotensives.

Authors:  Arunark Kolipaka; David Woodrum; Philip A Araoz; Richard L Ehman
Journal:  J Magn Reson Imaging       Date:  2011-11-01       Impact factor: 4.813

5.  Magnetic resonance elastography as a method to estimate myocardial contractility.

Authors:  Arunark Kolipaka; Shivani R Aggarwal; Kiaran P McGee; Nandan Anavekar; Armando Manduca; Richard L Ehman; Philip A Araoz
Journal:  J Magn Reson Imaging       Date:  2012-02-14       Impact factor: 4.813

Review 6.  Treatment of heart failure with normal ejection fraction: an inconvenient truth!

Authors:  Walter J Paulus; Joris J M van Ballegoij
Journal:  J Am Coll Cardiol       Date:  2010-02-09       Impact factor: 24.094

7.  In vivo quantification of myocardial stiffness in hypertensive porcine hearts using MR elastography.

Authors:  Ria Mazumder; Samuel Schroeder; Xiaokui Mo; Bradley D Clymer; Richard D White; Arunark Kolipaka
Journal:  J Magn Reson Imaging       Date:  2016-08-26       Impact factor: 4.813

8.  MR elastography as a method for the assessment of myocardial stiffness: comparison with an established pressure-volume model in a left ventricular model of the heart.

Authors:  Arunark Kolipaka; Kiaran P McGee; Philip A Araoz; Kevin J Glaser; Armando Manduca; Anthony J Romano; Richard L Ehman
Journal:  Magn Reson Med       Date:  2009-07       Impact factor: 4.668

9.  MR elastography of the human abdominal aorta: a preliminary study.

Authors:  Lei Xu; Jun Chen; Kevin J Glaser; Meng Yin; Phillip J Rossman; Richard L Ehman
Journal:  J Magn Reson Imaging       Date:  2013-01-31       Impact factor: 4.813

Review 10.  An analysis of the relationship between central aortic and peripheral upper limb pressure waves in man.

Authors:  M Karamanoglu; M F O'Rourke; A P Avolio; R P Kelly
Journal:  Eur Heart J       Date:  1993-02       Impact factor: 29.983
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2.  Free-breathing MR elastography of the lungs: An in vivo study.

Authors:  Faisal Fakhouri; Stephan Kannengiesser; Josef Pfeuffer; Yevgeniya Gokun; Arunark Kolipaka
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Review 3.  Biomedical Imaging in Experimental Models of Cardiovascular Disease.

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Review 4.  Advances and Future Direction of Magnetic Resonance Elastography.

Authors:  Huiming Dong; Richard D White; Arunark Kolipaka
Journal:  Top Magn Reson Imaging       Date:  2018-10

5.  MR elastography at 1 Hz of gelatin phantoms using 3D or 4D acquisition.

Authors:  Scott W Gordon-Wylie; Ligin M Solamen; Matthew D J McGarry; Wei Zeng; Elijah VanHouten; Guillaume Gilbert; John B Weaver; Keith D Paulsen
Journal:  J Magn Reson       Date:  2018-08-31       Impact factor: 2.229

Review 6.  Multimodality Imaging in Cardiomyopathies with Hypertrophic Phenotypes.

Authors:  Emanuele Monda; Giuseppe Palmiero; Michele Lioncino; Marta Rubino; Annapaola Cirillo; Adelaide Fusco; Martina Caiazza; Federica Verrillo; Gaetano Diana; Alfredo Mauriello; Michele Iavarone; Maria Angela Losi; Maria Luisa De Rimini; Santo Dellegrottaglie; Antonello D'Andrea; Eduardo Bossone; Giuseppe Pacileo; Giuseppe Limongelli
Journal:  J Clin Med       Date:  2022-02-07       Impact factor: 4.964

7.  Preliminary Findings on the Potential Use of Magnetic Resonance Elastography to Diagnose Lacunar Infarction.

Authors:  Lingjie Wang; Jun Ke; Xiaoyin Hu; Mo Zhu; Yixing Yu
Journal:  Neuropsychiatr Dis Treat       Date:  2022-08-01       Impact factor: 2.989

Review 8.  Current Understanding of the Biomechanics of Ventricular Tissues in Heart Failure.

Authors:  Wenqiang Liu; Zhijie Wang
Journal:  Bioengineering (Basel)       Date:  2019-12-20

9.  Standard-space atlas of the viscoelastic properties of the human brain.

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Journal:  Hum Brain Mapp       Date:  2020-09-15       Impact factor: 5.038
  9 in total

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