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A Novel Rule-Based Algorithm for Assigning Myocardial Fiber Orientation to Computational Heart Models

机译：一种基于规则的基于规则的计算心脏模型的基于规则的算法

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摘要

Electrical waves traveling throughout the myocardium elicit muscle contractions responsible for pumping blood throughout the body. The shape and direction of these waves depend on the spatial arrangement of ventricular myocytes, termed fiber orientation. In computational studies simulating electrical wave propagation or mechanical contraction in the heart, accurately representing fiber orientation is critical so that model predictions corroborate with experimental data. Typically, fiber orientation is assigned to heart models based on Diffusion Tensor Imaging (DTI) data, yet few alternative methodologies exist if DTI data is noisy or absent. Here we present a novel Laplace–Dirichlet Rule-Based (LDRB) algorithm to perform this task with speed, precision, and high usability. We demonstrate the application of the LDRB algorithm in an image-based computational model of the canine ventricles. Simulations of electrical activation in this model are compared to those in the same geometrical model but with DTI-derived fiber orientation. The results demonstrate that activation patterns from simulations with LDRB and DTI-derived fiber orientations are nearly indistinguishable, with relative differences ≤6%, absolute mean differences in activation times ≤3.15 ms, and positive correlations ≥0.99. These results convincingly show that the LDRB algorithm is a robust alternative to DTI for assigning fiber orientation to computational heart models.

机译：在整个心肌中的电波引发肌肉收缩，负责整个身体泵送血液。这些波的形状和方向取决于心室肌细胞的空间排列，称为纤维取向。在计算研究中模拟心脏中的电波传播或机械收缩，准确表示纤维取向是至关重要的，使模型预测用实验数据进行证实。通常，纤维方向被分配给基于扩散张量成像（DTI）数据的心脏模型，如果DTI数据嘈杂或不存在，则存在很少的替代方法。在这里，我们提出了一种新颖的LAPLACE-Dirichlet规则的（LDRB）算法，以速度，精度和高可用性执行此任务。我们展示了LDRB算法在犬内风仪的基于图像的计算模型中的应用。将该模型中的电激活模拟与相同几何模型中的电激活，但具有DTI衍生的纤维取向。结果表明，具有LDRB和DTI衍生的纤维取向的模拟的激活模式几乎难以区分，相对差异≤6％，激活时间≤3.15ms的绝对平均差异，≥0.99的正相关性。这些结果令人信服地表明，LDRB算法是DTI的强大替代方案，用于将光纤取向分配给计算心脏模型。

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期刊名称 other
作者
J. D. Bayer; R. C. Blake; G. Plank; N. A. Trayanova;
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作者单位

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年(卷),期 -1(40),10
年度 -1
页码 2243–2254
总页数 21
原文格式 PDF
正文语种
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关键词
Diffusion tensor Magnetic resonance Imaging Finite element Mesh Laplace–Dirichlet;

机译：扩散张量;磁共振;成像;有限元;网格;Laplace–Dirichlet;
入库时间 2022-08-21 11:24:23

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专利

1. A novel rule-based algorithm for assigning myocardial fiber orientation to computational heart models [J] . BayerJ.D., BlakeR.C., PlankG., Annals of Biomedical Engineering: The Journal of the Biomedical Engineering Society . 2012,第10期

机译：一种新颖的基于规则的算法，可将心肌纤维方向分配给计算心脏模型
2. A Novel Rule-Based Algorithm for Assigning Myocardial Fiber Orientation to Computational Heart Models [J] . J. D. Bayer, R. C. Blake, G. Plank, Annals of Biomedical Engineering . 2012,第10期

机译：一种基于规则的新颖算法，可将心肌纤维方向分配给计算性心脏模型
3. A rule-based method to modelmyocardial fiber orientation in cardiac biventricular geometries with outflow tracts [J] . Doste Ruben, Soto-Iglesias David, Bernardino Gabriel, Communications in Numerical Methods in Engineering . 2019,第4期

机译：基于规则的方法对带有流出道的心脏双心室几何结构中的心肌纤维方向进行建模
4. Assigning Myocardial Fibre Orientation to a Computational Biventricular Human Heart Model [C] . A. Palit, GA. Turley, S.K. Bhudia International Conference on Biomedical Engineering . 2014

机译：将心肌纤维方向分配给计算生物的人体心脏模型
5. Myocardial Energetic Alterations in Post Myocardial Infarction Left Ventricular Remodeling, Hibernating Myocardium and Pacing Induced Congestive Heart Failure and Amelioration with Stem Cell Transplantation [D] . Jameel, Mohammad Nurulqadr. 2011

机译：心肌梗死后左心室重构，冬眠和起搏引起的充血性心力衰竭和干细胞移植改善心肌的能量变化
6. A Computational Model of In Vitro Angiogenesis based on Extracellular Matrix Fiber Orientation [O] . Lowell T. Edgar, Scott C. Sibole, Clayton J. Underwood, -1

机译：基于细胞外基质纤维取向的体外血管生成的计算模型
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机译：模糊逻辑算法为心率和呼吸频率时间序列分配置信水平

A Novel Rule-Based Algorithm for Assigning Myocardial Fiber Orientation to Computational Heart Models

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