An analysis of deformation-dependent electromechanical coupling in the mouse heart.
about
Modeling and Simulation Approaches for Cardiovascular Function and Their Role in Safety AssessmentA computational pipeline for quantification of mouse myocardial stiffness parametersIntegrating multi-scale data to create a virtual physiological mouse heart.Cardiac kinematic parameters computed from video of in situ beating heartImproved identifiability of myocardial material parameters by an energy-based cost function.Insight into model mechanisms through automatic parameter fitting: a new methodological framework for model development.Computational modeling of Takotsubo cardiomyopathy: effect of spatially varying β-adrenergic stimulation in the rat left ventricleKinetics of cardiac myosin isoforms in mouse myocardium are affected differently by presence of myosin binding protein-CA mathematical model of the mouse ventricular myocyte contraction.A Spatially Detailed Model of Isometric Contraction Based on Competitive Binding of Troponin I Explains Cooperative Interactions between Tropomyosin and Crossbridges.A New MRI-Based Model of Heart Function with Coupled Hemodynamics and Application to Normal and Diseased Canine Left Ventricles.Biomechanics of Cardiac FunctionInterpreting genetic effects through models of cardiac electromechanics.Image-Based Personalization of Cardiac Anatomy for Coupled Electromechanical Modeling.Modeling calcium regulation of contraction, energetics, signaling, and transcription in the cardiac myocyte.Noninvasive stratification of postinfarction rats based on the degree of cardiac dysfunction using magnetic resonance imaging and echocardiography.A high-resolution computational model of the deforming human heart.Ryanodine receptor sensitivity governs the stability and synchrony of local calcium release during cardiac excitation-contraction coupling.Beta-adrenergic stimulation maintains cardiac function in Serca2 knockout mice.Anatomically accurate high resolution modeling of human whole heart electromechanics: A strongly scalable algebraic multigrid solver method for nonlinear deformation.Quantifying inter-species differences in contractile function through biophysical modelling.Effects of mechanical feedback on the stability of cardiac scroll waves: A bidomain electro-mechanical simulation study.Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour.Decreasing Compensatory Ability of Concentric Ventricular Hypertrophy in Aortic-Banded Rat Hearts.Evaluation of a Novel Finite Element Model of Active Contraction in the Heart.A Numerical Study of Scalable Cardiac Electro-Mechanical Solvers on HPC Architectures.The cardiovascular system: Mathematical modelling, numerical algorithms and clinical applications
P2860
Q26801610-4EE45A87-40E8-44C8-808E-14A7B61739E8Q30671085-EF8F32C5-CAC7-4D12-8CFC-E87724BF81E4Q30734214-4D4D142C-F9BC-4794-B464-7EDAFEAD9431Q30844933-E64AFB4D-70C3-4183-A03E-D4771658AB87Q33823305-C331C16F-A92F-45A0-BAFB-4DAB27C99B48Q33833167-AE1EB9B2-C87E-43BB-B2D6-12993ACA8581Q34519451-70CFADEF-E2A5-41FE-80C7-BCE5671EC58DQ34642017-B1D44674-93D5-4535-A9F8-1F669758E8B9Q34721028-3A31531E-1035-42D4-B450-6856ADB0E443Q35742414-304CAB1A-5548-4D69-B05B-529DEB9C0C23Q36097754-84DA64C3-B0FA-4F62-98BC-63949E9E6242Q36343041-A092539C-66FB-4AAD-B65E-668793156651Q38050130-D8A9F0C3-6646-4348-AEDB-E5602E67AB32Q38596284-D22FC593-2E5F-4694-BFA1-5066F2ED7274Q38631812-25572200-23CA-4E1D-AAB7-48E418E67FE6Q38966607-C401F54D-7658-42DC-BA59-7B7C88487FBAQ39063014-27D98531-E0F8-43A1-A0E8-31B3ABB83DE0Q39496073-DBC0219A-90A8-47A2-8736-D6D4464305B9Q41841957-C79421D9-F1EC-4867-B5CE-8A3A41873E1EQ42692429-010F904C-D284-4FB3-B552-7BD9CBA2D1CAQ46802128-F6EFC99A-706D-4FFE-93BD-93B8AE323337Q48264602-B9760F47-0D43-43F7-A9A0-4D389F886DFFQ51022792-E096F2CD-CE9B-4EE1-AC1D-6D4F973D7715Q52661743-A9B0E859-8394-46CF-8D0E-18FDBB391FC2Q55103322-8A2DE071-C6A0-4422-9756-9AB3B429E036Q55285263-5A77715F-9E01-4706-99EA-9F58CD8D8812Q56995733-53ECB749-DDA4-457B-B6F3-DD8C3E41165B
P2860
An analysis of deformation-dependent electromechanical coupling in the mouse heart.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh-hant
name
An analysis of deformation-dependent electromechanical coupling in the mouse heart.
@en
An analysis of deformation-dependent electromechanical coupling in the mouse heart.
@nl
type
label
An analysis of deformation-dependent electromechanical coupling in the mouse heart.
@en
An analysis of deformation-dependent electromechanical coupling in the mouse heart.
@nl
prefLabel
An analysis of deformation-dependent electromechanical coupling in the mouse heart.
@en
An analysis of deformation-dependent electromechanical coupling in the mouse heart.
@nl
P2093
P2860
P50
P1476
An analysis of deformation-dependent electromechanical coupling in the mouse heart.
@en
P2093
Emil K S Espe
Lili Zhang
Nicolas P Smith
Steven A Niederer
William E Louch
P2860
P304
P356
10.1113/JPHYSIOL.2012.231928
P407
P577
2012-05-21T00:00:00Z