心力衰竭中的电生理和结构重塑会调节心律失常的发生。一维模拟研究。

Electrophysiological and structural remodeling in heart failure modulate arrhythmogenesis. 1D simulation study.

作者信息

Gomez Juan F, Cardona Karen, Romero Lucia, Ferrero Jose M, Trenor Beatriz

机构信息

Instituto de Investigación en Ingeniería Biomédica, Universitat Politècnica de València, Valencia, Spain.

出版信息

PLoS One. 2014 Sep 5;9(9):e106602. doi: 10.1371/journal.pone.0106602. eCollection 2014.

DOI:10.1371/journal.pone.0106602

PMID:25191998

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4156355/

Abstract

BACKGROUND

Heart failure is a final common pathway or descriptor for various cardiac pathologies. It is associated with sudden cardiac death, which is frequently caused by ventricular arrhythmias. Electrophysiological remodeling, intercellular uncoupling, fibrosis and autonomic imbalance have been identified as major arrhythmogenic factors in heart failure etiology and progression.

OBJECTIVE

In this study we investigate in silico the role of electrophysiological and structural heart failure remodeling on the modulation of key elements of the arrhythmogenic substrate, i.e., electrophysiological gradients and abnormal impulse propagation.

METHODS

Two different mathematical models of the human ventricular action potential were used to formulate models of the failing ventricular myocyte. This provided the basis for simulations of the electrical activity within a transmural ventricular strand. Our main goal was to elucidate the roles of electrophysiological and structural remodeling in setting the stage for malignant life-threatening arrhythmias.

RESULTS

Simulation results illustrate how the presence of M cells and heterogeneous electrophysiological remodeling in the human failing ventricle modulate the dispersion of action potential duration and repolarization time. Specifically, selective heterogeneous remodeling of expression levels for the Na+/Ca2+ exchanger and SERCA pump decrease these heterogeneities. In contrast, fibroblast proliferation and cellular uncoupling both strongly increase repolarization heterogeneities. Conduction velocity and the safety factor for conduction are also reduced by the progressive structural remodeling during heart failure.

CONCLUSION

An extensive literature now establishes that in human ventricle, as heart failure progresses, gradients for repolarization are changed significantly by protein specific electrophysiological remodeling (either homogeneous or heterogeneous). Our simulations illustrate and provide new insights into this. Furthermore, enhanced fibrosis in failing hearts, as well as reduced intercellular coupling, combine to increase electrophysiological gradients and reduce electrical propagation. In combination these changes set the stage for arrhythmias.

摘要

背景

心力衰竭是各种心脏疾病的最终共同途径或描述。它与心源性猝死相关，而心源性猝死常由室性心律失常引起。电生理重塑、细胞间解偶联、纤维化和自主神经失衡已被确定为心力衰竭病因和进展中的主要致心律失常因素。

目的

在本研究中，我们通过计算机模拟研究电生理和结构心力衰竭重塑对致心律失常底物关键要素（即电生理梯度和异常冲动传导）调节的作用。

方法

使用两种不同的人类心室动作电位数学模型来构建衰竭心室肌细胞模型。这为模拟跨壁心室肌束内的电活动提供了基础。我们的主要目标是阐明电生理和结构重塑在引发危及生命的恶性心律失常中的作用。

结果

模拟结果说明了人类衰竭心室中M细胞的存在和异质性电生理重塑如何调节动作电位持续时间和复极化时间的离散度。具体而言，钠钙交换体和肌浆网钙ATP酶泵表达水平的选择性异质性重塑降低了这些异质性。相比之下，成纤维细胞增殖和细胞解偶联均强烈增加复极化异质性。心力衰竭期间进行性的结构重塑也会降低传导速度和传导安全因子。

结论

现在大量文献表明，在人类心室中，随着心力衰竭的进展，蛋白质特异性电生理重塑（无论是均匀的还是异质的）会显著改变复极化梯度。我们的模拟对此进行了说明并提供了新的见解。此外，衰竭心脏中纤维化的增强以及细胞间偶联的减少共同作用，增加了电生理梯度并降低了电传导。这些变化共同为心律失常的发生奠定了基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/043f/4156355/5dbfccecdef5/pone.0106602.g001.jpg

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心力衰竭中的电生理和结构重塑会调节心律失常的发生。一维模拟研究。

Electrophysiological and structural remodeling in heart failure modulate arrhythmogenesis. 1D simulation study.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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