Apprehending the effects of mechanical deformations in cardiac electrophysiology: A homogenization approach

Collin Annabelle; Imperiale Sebastien; Moireau Philippe; Gerbeau Jean-Frederic; Chapelle Dominique

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Apprehending the effects of mechanical deformations in cardiac electrophysiology: A homogenization approach

机译：逮捕机械变形在心脏电生理中的影响：均质化方法

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We follow a formal homogenization approach to investigate the effects of mechanical deformations in electrophysiology models relying on a bidomain description of ionic motion at the microscopic level. To that purpose, we extend these microscopic equations to take into account the mechanical deformations, and proceed by recasting the problem in the framework of classical two-scale homogenization in periodic media, and identifying the equations satisfied by the first coefficients in the formal expansions. The homogenized equations reveal some interesting effects related to the microstructure - and associated with a specific cell problem to be solved to obtain the macroscopic conductivity tensors - in which mechanical deformations play a nontrivial role, i.e. they do not simply lead to a standard bidomain problem posed in the deformed configuration. We then present detailed numerical illustrations of the homogenized model with coupled cardiac electrical - mechanical simulations - all the way to ECG simulations - albeit without taking into account the abundantly-investigated effect of mechanical deformations in ionic models, in order to focus here on other effects. And in fact our numerical results indicate that these other effects are numerically of a comparable order, and therefore cannot be disregarded.

机译：我们遵循正式的均匀化方法来探讨依赖于微观级别的离子运动描述的电生理学模型中机械变形的影响。为此目的，我们扩展了这些微观方程来考虑机械变形，并通过在周期性介质中重新重用了经典双级均匀化框架中的问题，并识别正式扩展中的第一个系数满足的方程。均匀化方程揭示了与微观结构相关的一些有趣的效果 - 与待解决的特定细胞问题相关，以获得宏观导电性张量 - 其中机械变形起到非活动作用，即它们不仅仅导致标准的竞争问题在变形配置中。然后，我们将耦合心电图模拟的均质模型的详细数值说明 - 一直到ECG仿真 - 尽管不考虑离子模型中机械变形的丰富效果，以便专注于其他影响。事实上，我们的数值结果表明，这些其他效果在数值上是可比的顺序，因此不能被忽视。

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《Mathematical models and methods in applied sciences》 |2019年第13期|共41页
作者
Collin Annabelle; Imperiale Sebastien; Moireau Philippe; Gerbeau Jean-Frederic; Chapelle Dominique;
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作者单位

Univ Bordeaux CNRS IMB 351 Cours Liberat F-33405 Talence France;

INRIA BP 105 F-78153 Le Chesnay France;

INRIA BP 105 F-78153 Le Chesnay France;

INRIA BP 105 F-78153 Le Chesnay France;

INRIA BP 105 F-78153 Le Chesnay France;

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原文格式 PDF
正文语种 eng
中图分类应用数学;
关键词
Bidomain equations; homogenization; multiphysics; electrophysiology; cardiology;

机译：均匀化;均质化;多体学;电生理学;心脏病学;

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1. Apprehending the effects of mechanical deformations in cardiac electrophysiology: A homogenization approach [J] . Collin Annabelle, Imperiale Sebastien, Moireau Philippe, Mathematical models and methods in applied sciences . 2019,第13期

机译：逮捕机械变形在心脏电生理中的影响：均质化方法
2. Hygrothermal Effects on the Free Vibration Behavior of Composite Plate Using nth-Order Shear Deformation Theory: a Micromechanical Approach [J] . Abdelmalek Abdelmalek, Bouazza Mokhtar, Zidour Mohamed, Iranian Journal of Science and Technology, Transactions of Mechanical Engineering . 2019,第JULaSUPPLa1期

机译：湿热效应对复合板自由振动行为的n阶剪切变形理论：一种微机械方法
3. Hygrothermal Effects on the Free Vibration Behavior of Composite Plate Using nth-Order Shear Deformation Theory: a Micromechanical Approach [J] . Abdelmalek Abdelmalek, Bouazza Mokhtar, Zidour Mohamed, Iranian Journal of Science and Technology, Transactions of Mechanical Engineering . 2019,第JulSuppla1期

机译：利用N阶剪切变形理论对复合板自由振动特性的湿热效应：微机械方法
4. A Comparative Study of Physiological Models on Cardiac Deformation Recovery: Effects of Biomechanical Constraints [C] . Ken C.L. Wong, Linwei Wang, Huafeng Liu, MICCAI 2011;International conference on medical image computing and computer-assisted intervention . 2011

机译：心脏畸形恢复的生理模型的比较研究：生物力学约束的影响。
5. Homogenization in cardiac electrophysiology and blow-up in bacterial chemotaxis. [D] . Hand, Paul Earl. 2009

机译：心脏电生理的均质化和细菌趋化性的爆发。
6. Biomechanical Model for Computing Deformations for Whole-Body Image Registration: A Meshless Approach [O] . Mao Li, Karol Miller, Grand Roman Joldes, -1

机译：用于计算全身图像配准的变形的生物力学模型：无网格方法
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Apprehending the effects of mechanical deformations in cardiac electrophysiology: A homogenization approach

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