Estimation of stochastic behaviour in cardiac myocytes: I. Ca2+ movements inside the cytosol and sarcoplasmic reticulum on curvilinear domains.

IF 1.4 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS
Serife Arif, Choi-Hong Lai, Nadarajah I Ramesh
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引用次数: 1

Abstract

Since the discovery of Ca2+ sparks and their stochastic behaviour in cardiac myocytes, models have focused on the inclusion of stochasticity in their studies. While most models pay much attention to the stochastic modelling of cytosolic Ca2+ concentration the coupling of Ca2+ sparks and blinks in a stochastic model has not been explored fully. The cell morphology in in silico studies in the past is assumed to be Cartesian, spherical or cylindrical. The application on curvilinear grids can easily address certain restrictions posed by such grid set up and provide more realistic cell morphology. In this paper, we present a stochastic reaction-diffusion model that couples Ca2+ sparks and blinks in realistic shapes of cells in curvilinear domains. Methodology: Transformation of the model was performed to the curvilinear coordinate system. The set of equations is used to produce Ca2+ waves initiated from sparks and blinks. A non-buffered and non-dyed version as well as a buffered and dyed version of these equations were studied in light of observing the dynamics on the two different systems. For comparison, results for both the Cartesian and curvilinear grids are provided. Results and conclusions: A successful demonstration of the application of curvilinear grids serving as basis for future developments.

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心肌细胞随机行为的估计:I.胞质溶胶和肌浆网内曲线结构域上的Ca2+运动。
自从在心肌细胞中发现Ca2+火花及其随机行为以来,模型的研究重点是将随机性纳入其中。虽然大多数模型都非常关注胞浆Ca2+浓度的随机建模,但尚未充分探索随机模型中Ca2+激发和闪烁的耦合。在过去的计算机研究中,细胞形态被假设为笛卡尔、球形或圆柱形。在曲线网格上的应用可以很容易地解决这种网格设置带来的某些限制,并提供更真实的细胞形态。在本文中,我们提出了一个随机反应-扩散模型,该模型在曲线域中的真实形状的细胞中耦合Ca2+火花和闪烁。方法:将模型转换为曲线坐标系。该方程组用于产生由火花和闪烁引发的Ca2+波。根据观察两个不同系统的动力学,研究了这些方程的非缓冲和非染色版本以及缓冲和染色版本。为了进行比较,提供了笛卡尔网格和曲线网格的结果。结果和结论:曲线网格应用的成功演示为未来的发展奠定了基础。
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来源期刊
JRSM Cardiovascular Disease
JRSM Cardiovascular Disease CARDIAC & CARDIOVASCULAR SYSTEMS-
自引率
6.20%
发文量
12
审稿时长
12 weeks
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