Literature DB >> 21763714

Patient-specific modeling of dyssynchronous heart failure: a case study.

Jazmin Aguado-Sierra1, Adarsh Krishnamurthy, Christopher Villongco, Joyce Chuang, Elliot Howard, Matthew J Gonzales, Jeff Omens, David E Krummen, Sanjiv Narayan, Roy C P Kerckhoffs, Andrew D McCulloch.   

Abstract

The development and clinical use of patient-specific models of the heart is now a feasible goal. Models have the potential to aid in diagnosis and support decision-making in clinical cardiology. Several groups are now working on developing multi-scale models of the heart for understanding therapeutic mechanisms and better predicting clinical outcomes of interventions such as cardiac resynchronization therapy. Here we describe the methodology for generating a patient-specific model of the failing heart with a myocardial infarct and left ventricular bundle branch block. We discuss some of the remaining challenges in developing reliable patient-specific models of cardiac electromechanical activity, and identify some of the main areas for focusing future research efforts. Key challenges include: efficiently generating accurate patient-specific geometric meshes and mapping regional myofiber architecture to them; modeling electrical activation patterns based on cellular alterations in human heart failure, and estimating regional tissue conductivities based on clinically available electrocardiographic recordings; estimating unloaded ventricular reference geometry and material properties for biomechanical simulations; and parameterizing systemic models of circulatory dynamics from available hemodynamic measurements.
Copyright © 2011 Elsevier Ltd. All rights reserved.

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Year:  2011        PMID: 21763714      PMCID: PMC3190065          DOI: 10.1016/j.pbiomolbio.2011.06.014

Source DB:  PubMed          Journal:  Prog Biophys Mol Biol        ISSN: 0079-6107            Impact factor:   3.667


  54 in total

1.  Diffusion tensor MRI of myocardial fibers and sheets: correspondence with visible cut-face texture.

Authors:  Wen-Yih I Tseng; Van J Wedeen; Timothy G Reese; R Neal Smith; Elkan F Halpern
Journal:  J Magn Reson Imaging       Date:  2003-01       Impact factor: 4.813

2.  Determination of a constitutive relation for passive myocardium: I. A new functional form.

Authors:  J D Humphrey; R K Strumpf; F C Yin
Journal:  J Biomech Eng       Date:  1990-08       Impact factor: 2.097

Review 3.  Current progress in patient-specific modeling.

Authors:  Maxwell Lewis Neal; Roy Kerckhoffs
Journal:  Brief Bioinform       Date:  2009-12-02       Impact factor: 11.622

4.  Laminar structure of the heart: a mathematical model.

Authors:  I J Legrice; P J Hunter; B H Smaill
Journal:  Am J Physiol       Date:  1997-05

5.  A three-dimensional finite element method for large elastic deformations of ventricular myocardium: I--Cylindrical and spherical polar coordinates.

Authors:  K D Costa; P J Hunter; J M Rogers; J M Guccione; L K Waldman; A D McCulloch
Journal:  J Biomech Eng       Date:  1996-11       Impact factor: 2.097

6.  Stress-dependent finite growth in soft elastic tissues.

Authors:  E K Rodriguez; A Hoger; A D McCulloch
Journal:  J Biomech       Date:  1994-04       Impact factor: 2.712

7.  Evidence of structural remodeling in the dyssynchronous failing heart.

Authors:  Patrick A Helm; Laurent Younes; Mirza F Beg; Daniel B Ennis; Christophe Leclercq; Owen P Faris; Elliot McVeigh; David Kass; Michael I Miller; Raimond L Winslow
Journal:  Circ Res       Date:  2005-12-08       Impact factor: 17.367

Review 8.  Whole-heart modeling: applications to cardiac electrophysiology and electromechanics.

Authors:  Natalia A Trayanova
Journal:  Circ Res       Date:  2011-01-07       Impact factor: 17.367

9.  A model for human ventricular tissue.

Authors:  K H W J ten Tusscher; D Noble; P J Noble; A V Panfilov
Journal:  Am J Physiol Heart Circ Physiol       Date:  2003-12-04       Impact factor: 4.733

10.  Three-wall segment (TriSeg) model describing mechanics and hemodynamics of ventricular interaction.

Authors:  Joost Lumens; Tammo Delhaas; Borut Kirn; Theo Arts
Journal:  Ann Biomed Eng       Date:  2009-08-29       Impact factor: 3.934
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  58 in total

Review 1.  At the heart of computational modelling.

Authors:  S A Niederer; N P Smith
Journal:  J Physiol       Date:  2012-01-23       Impact factor: 5.182

2.  Left Ventricular Diastolic and Systolic Material Property Estimation from Image Data: LV Mechanics Challenge.

Authors:  Adarsh Krishnamurthy; Christopher Villongco; Amanda Beck; Jeffrey Omens; Andrew McCulloch
Journal:  Stat Atlases Comput Models Heart       Date:  2015-01

3.  A multiscale model for the study of cardiac biomechanics in single-ventricle surgeries: a clinical case.

Authors:  Alessio Meoli; Elena Cutrì; Adarsh Krishnamurthy; Gabriele Dubini; Francesco Migliavacca; Tain-Yen Hsia; Giancarlo Pennati; Andrew Taylor; Alessandro Giardini; Sachin Khambadkone; Silvia Schievano; Marc de Leval; T-Y Hsia; Edward Bove; Adam Dorfman; G Hamilton Baker; Anthony Hlavacek; Francesco Migliavacca; Giancarlo Pennati; Gabriele Dubini; Alison Marsden; Jeffrey Feinstein; Irene Vignon-Clementel; Richard Figliola; John McGregor
Journal:  Interface Focus       Date:  2015-04-06       Impact factor: 3.906

Review 4.  Generating anatomical models of the heart and the aorta from medical images for personalized physiological simulations.

Authors:  J Weese; A Groth; H Nickisch; H Barschdorf; F M Weber; J Velut; M Castro; C Toumoulin; J L Coatrieux; M De Craene; G Piella; C Tobón-Gomez; A F Frangi; D C Barber; I Valverde; Y Shi; C Staicu; A Brown; P Beerbaum; D R Hose
Journal:  Med Biol Eng Comput       Date:  2013-01-30       Impact factor: 2.602

5.  A framework for biomechanics simulations using four-chamber cardiac models.

Authors:  Arian Jafari; Edward Pszczolkowski; Adarsh Krishnamurthy
Journal:  J Biomech       Date:  2019-05-21       Impact factor: 2.712

6.  Optimization Framework for Patient-Specific Cardiac Modeling.

Authors:  Joshua Mineroff; Andrew D McCulloch; David Krummen; Baskar Ganapathysubramanian; Adarsh Krishnamurthy
Journal:  Cardiovasc Eng Technol       Date:  2019-09-17       Impact factor: 2.495

7.  Sensitivity analysis of ventricular activation and electrocardiogram in tailored models of heart-failure patients.

Authors:  C Sánchez; G D'Ambrosio; F Maffessanti; E G Caiani; F W Prinzen; R Krause; A Auricchio; M Potse
Journal:  Med Biol Eng Comput       Date:  2017-08-19       Impact factor: 2.602

8.  Efficient Computational Modeling of Human Ventricular Activation and Its Electrocardiographic Representation: A Sensitivity Study.

Authors:  Jonathan P Cranford; Thomas J O'Hara; Christopher T Villongco; Omar M Hafez; Robert C Blake; Joseph Loscalzo; Jean-Luc Fattebert; David F Richards; Xiaohua Zhang; James N Glosli; Andrew D McCulloch; David E Krummen; Felice C Lightstone; Sergio E Wong
Journal:  Cardiovasc Eng Technol       Date:  2018-03-16       Impact factor: 2.495

Review 9.  Computational approaches to understand cardiac electrophysiology and arrhythmias.

Authors:  Byron N Roberts; Pei-Chi Yang; Steven B Behrens; Jonathan D Moreno; Colleen E Clancy
Journal:  Am J Physiol Heart Circ Physiol       Date:  2012-08-10       Impact factor: 4.733

10.  Biomechanics Simulations Using Cubic Hermite Meshes with Extraordinary Nodes for Isogeometric Cardiac Modeling.

Authors:  Adarsh Krishnamurthy; Matthew J Gonzales; Gregory Sturgeon; W Paul Segars; Andrew D McCulloch
Journal:  Comput Aided Geom Des       Date:  2016-03       Impact factor: 1.382
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