| 心肌桥壁冠状动脉血液动力学数值模拟 |
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| 引用本文: | 周瑜,丁皓,吕杰,姚伟,许世雄.心肌桥壁冠状动脉血液动力学数值模拟[J].医用生物力学,2011,26(6):547-554. |
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| 作者姓名: | 周瑜 丁皓 吕杰 姚伟 许世雄 |
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| 作者单位: | 复旦大学 力学与工程科学系;上海理工大学 生物力学与康复工程研究所;复旦大学 力学与工程科学系;复旦大学 力学与工程科学系;复旦大学 力学与工程科学系 |
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| 基金项目: | 上海市重点学科建设项目(B112) |
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| 摘 要: | 目的数值模拟心肌桥壁冠状动脉血液动力学,探索心肌桥壁冠状动脉近心端易发生动脉粥样硬化的血液动力学机理。方法建立随心搏运动的局部狭窄直圆管模型模拟心肌桥壁冠状动脉形态学,管壁为薄壁线弹性体,血流遵循不可压缩牛顿流体的一维管流方程组,用Lax-Wendroff方法数值求解。结果心肌桥壁冠状动脉血液动力学与正常冠状动脉血液动力学相比有很大差异,血流量#壁切应力和壁切应力梯度均不同。在心肌桥壁冠状动脉中,近心端壁切应力及壁切应力梯度的变化要远大于远心端。对于有两段心肌桥的情况,它们的壁切应力和壁切应力梯度变化趋势基本一致,但距心室较远的心肌桥,其壁切应力和壁切应力梯度要大于靠近心室的那段心肌桥,且随时间的变化程度也更剧烈。结论数值模拟结果表明,心肌桥壁冠状动脉血液动力学不同于正常冠状动脉血液动力学,近心端壁切应力及壁切应力梯度的变化要远大于远心端,从而对动脉管内皮细胞产生重要影响,这可能是心肌桥壁冠状动脉近心端易发生动脉粥样硬化的血液动力学机理。
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| 关 键 词: | 心肌桥 壁冠状动脉 动脉粥样硬化 血液动力学 数值模拟 切应力 |
| 收稿时间: | 2011/3/28 0:00:00 |
| 修稿时间: | 2011/4/28 0:00:00 |
Numerical simulation for hemodynamics of the myocardial bridging parietal coronary artery |
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| ZHOU Yu,DING Hao,Lü Jie,YAO Wei,XU Shi-xiong.Numerical simulation for hemodynamics of the myocardial bridging parietal coronary artery[J].Journal of Medical Biomechanics,2011,26(6):547-554. |
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| Authors: | ZHOU Yu DING Hao Lü Jie YAO Wei XU Shi-xiong |
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| Institution: | Department of Mechanics and Engineering Science,Fudan University;Biomechanics and Rehabilitation Engineering institute,University of Shanghai for Science and Technology;Department of Mechanics and Engineering Science,Fudan University;Department of Mechanics and Engineering Science,Fudan University;Department of Mechanics and Engineering Science,Fudan University |
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| Abstract: | Objective To numerically simulate the blood flow in myocardial bridging parietal coronary artery and investigate the hemodynamics mechanism of the fact that atherosclerosis is more likely to occur in proximal segment of the parietal coronary artery.Methods The model,a straight tube with local stenosis which moved along with heart beating being used in order to simulate the morphology of myocardial bridging parietal coronary artery,was established.The wall of the tube was assumed as a thin wall linear elasto... |
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| Keywords: | Myocardial bridging Parietal coronary artery Atherosclerosis Hemodynamics Numerical simulation Shear stress |
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