Literature DB >> 21428685

Regional left ventricular myocardial contractility and stress in a finite element model of posterobasal myocardial infarction.

Jonathan F Wenk1, Kay Sun, Zhihong Zhang, Mehrdad Soleimani, Liang Ge, David Saloner, Arthur W Wallace, Mark B Ratcliffe, Julius M Guccione.   

Abstract

Recently, a noninvasive method for determining regional myocardial contractility, using an animal-specific finite element (FE) model-based optimization, was developed to study a sheep with anteroapical infarction (Sun et al., 2009, "A Computationally Efficient Formal Optimization of Regional Myocardial Contractility in a Sheep With Left Ventricular Aneurysm," ASME J. Biomech. Eng., 131(11), p. 111001). Using the methodology developed in the previous study (Sun et al., 2009, "A Computationally Efficient Formal Optimization of Regional Myocardial Contractility in a Sheep With Left Ventricular Aneurysm," ASME J. Biomech. Eng., 131(11), p. 111001), which incorporates tagged magnetic resonance images, three-dimensional myocardial strains, left ventricular (LV) volumes, and LV cardiac catheterization pressures, the regional myocardial contractility and stress distribution of a sheep with posterobasal infarction were investigated. Active material parameters in the noninfarcted border zone (BZ) myocardium adjacent to the infarct (T(max_B)), in the myocardium remote from the infarct (T(max_R)), and in the infarct (T(max_I)) were estimated by minimizing the errors between FE model-predicted and experimentally measured systolic strains and LV volumes using the previously developed optimization scheme. The optimized T(max_B) was found to be significantly depressed relative to T(max_R), while T(max_I) was found to be zero. The myofiber stress in the BZ was found to be elevated, relative to the remote region. This could cause further damage to the contracting myocytes, leading to heart failure.

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Year:  2011        PMID: 21428685      PMCID: PMC3097530          DOI: 10.1115/1.4003438

Source DB:  PubMed          Journal:  J Biomech Eng        ISSN: 0148-0731            Impact factor:   2.097


  31 in total

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2.  Theoretical impact of the injection of material into the myocardium: a finite element model simulation.

Authors:  Samuel T Wall; Joseph C Walker; Kevin E Healy; Mark B Ratcliffe; Julius M Guccione
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3.  Analysis of Cardiac Function from MR Images.

Authors:  Michael A Guttman; Elias A Zerhouni; Elliot R McVeigh
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4.  Functional implications of myocardial scar structure.

Authors:  J W Holmes; J A Nuñez; J W Covell
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5.  Continuum rheology of muscle contraction and its application to cardiac contractility.

Authors:  A Tözeren
Journal:  Biophys J       Date:  1985-03       Impact factor: 4.033

6.  Mechanics of active contraction in cardiac muscle: Part II--Cylindrical models of the systolic left ventricle.

Authors:  J M Guccione; L K Waldman; A D McCulloch
Journal:  J Biomech Eng       Date:  1993-02       Impact factor: 2.097

7.  Transmural distribution of three-dimensional strain in the isolated arrested canine left ventricle.

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9.  Diffusion spectrum MRI tractography reveals the presence of a complex network of residual myofibers in infarcted myocardium.

Authors:  David E Sosnovik; Ruopeng Wang; Guangping Dai; Teresa Wang; Elena Aikawa; Mikhael Novikov; Anthony Rosenzweig; Richard J Gilbert; Van J Wedeen
Journal:  Circ Cardiovasc Imaging       Date:  2009-03-19       Impact factor: 7.792

10.  Sequential changes of myocardial microstructure in patients postmyocardial infarction by diffusion-tensor cardiac MR: correlation with left ventricular structure and function.

Authors:  Ming-Ting Wu; Mao-Yuan M Su; Yi-Luan Huang; Kuan-Rau Chiou; Pinchen Yang; Huay-Ben Pan; Timothy G Reese; Van J Wedeen; Wen-Yih I Tseng
Journal:  Circ Cardiovasc Imaging       Date:  2009-01       Impact factor: 7.792
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  31 in total

1.  A novel method for quantifying in-vivo regional left ventricular myocardial contractility in the border zone of a myocardial infarction.

Authors:  Lik Chuan Lee; Jonathan F Wenk; Doron Klepach; Zhihong Zhang; David Saloner; Arthur W Wallace; Liang Ge; Mark B Ratcliffe; Julius M Guccione
Journal:  J Biomech Eng       Date:  2011-09       Impact factor: 2.097

2.  Numerical evaluation of myofiber orientation and transmural contractile strength on left ventricular function.

Authors:  Xiaoyan Zhang; Premi Haynes; Kenneth S Campbell; Jonathan F Wenk
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3.  Right Ventricular Fiber Structure as a Compensatory Mechanism in Pressure Overload: A Computational Study.

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Journal:  J Biomech Eng       Date:  2017-08-01       Impact factor: 2.097

4.  A Novel Method for Quantifying Smooth Regional Variations in Myocardial Contractility Within an Infarcted Human Left Ventricle Based on Delay-Enhanced Magnetic Resonance Imaging.

Authors:  Martin Genet; Lik Chuan Lee; Liang Ge; Gabriel Acevedo-Bolton; Nick Jeung; Alastair Martin; Neil Cambronero; Andrew Boyle; Yerem Yeghiazarians; Sebastian Kozerke; Julius M Guccione
Journal:  J Biomech Eng       Date:  2015-06-16       Impact factor: 2.097

5.  Estimating passive mechanical properties in a myocardial infarction using MRI and finite element simulations.

Authors:  Dimitri Mojsejenko; Jeremy R McGarvey; Shauna M Dorsey; Joseph H Gorman; Jason A Burdick; James J Pilla; Robert C Gorman; Jonathan F Wenk
Journal:  Biomech Model Mechanobiol       Date:  2014-10-15

6.  Computational Investigation of Transmural Differences in Left Ventricular Contractility.

Authors:  Hua Wang; Xiaoyan Zhang; Shauna M Dorsey; Jeremy R McGarvey; Kenneth S Campbell; Jason A Burdick; Joseph H Gorman; James J Pilla; Robert C Gorman; Jonathan F Wenk
Journal:  J Biomech Eng       Date:  2016-11-01       Impact factor: 2.097

7.  MRI evaluation of injectable hyaluronic acid-based hydrogel therapy to limit ventricular remodeling after myocardial infarction.

Authors:  Shauna M Dorsey; Jeremy R McGarvey; Hua Wang; Amir Nikou; Leron Arama; Kevin J Koomalsingh; Norihiro Kondo; Joseph H Gorman; James J Pilla; Robert C Gorman; Jonathan F Wenk; Jason A Burdick
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8.  Left ventricular myocardial contractility is depressed in the borderzone after posterolateral myocardial infarction.

Authors:  Rafael Shimkunas; Zhihong Zhang; Jonathan F Wenk; Mehrdad Soleimani; Michael Khazalpour; Gabriel Acevedo-Bolton; Guanying Wang; David Saloner; Rakesh Mishra; Arthur W Wallace; Liang Ge; Anthony J Baker; Julius M Guccione; Mark B Ratcliffe
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9.  Quantifying Tensor Field Similarity With Global Distributions and Optimal Transport.

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Review 10.  A computational approach to understanding the cardiac electromechanical activation sequence in the normal and failing heart, with translation to the clinical practice of CRT.

Authors:  Jason Constantino; Yuxuan Hu; Natalia A Trayanova
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