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Hemodynamic extended reading
1. Wootton diabetes, Ku, diabetic nephropathy, vascular system of fluid mechanics, diseases and thrombosis. Rev. biomedicine. English 1999, 0 1: 299-329

2. He, Xie Yun, DN, Pulsating flow at bifurcation of human left coronary artery: average condition, Journal of Bioengineering. English 1996, vol. 1 18: 74-82.

3. Liu Zurui, Xu Gang, Chen, Yang, Teng Zhongze, Qin, Analysis model and application of pulsatile blood flow in arteries. mathmatics & mecha. , 2003, Volume 24 (2): 230-240.

4. Liu, Teng, Qin Kairong, Stress Distribution of Vascular Wall under Pulsating Condition, Acta Mechanics, Vol.34 (5):696-704.

5. Qin Kairong, Jiang Zonglai, Nonlinear Method for Determining Shear Stress of Uniform Arterial Wall, Journal of Mechanics, 2005, Vol.37 (2):225-23 1.

6. Liu, Teng, Qin Kairong, Determination of circumferential stress of vascular wall by p-V exponential relation, Acta Mechanics, 2002, Vol. 34 (1):87-95.

7. Liu, Li Xixi, Jiang Weiyuan, Qin Kairong, Influence of Boundary Conditions on Shear Stress at the Bottom of Parallel Plate Flow Cavity, Chinese Journal of Biomedical Engineering, 200 1, VO.20 (2): 187- 192.

8. Ji Chuan N, Zuli T, Oshima M, Suzuki K, Yamaguchi T, Research Trends of Biomechanical Simulation Based on Images, Translation. Sir JSME. Los Angeles, 2004, Vo. 70(697): 1 157- 1 162

9. Wang Xiaoming, Wang Xiaoming, et al. Computer simulation of cerebral blood perfusion [J]. China Journal of Neurosurgery, 2002. Medical Engineering and Medicine. Physics, 2008 (30):1227-1245.

10. Wang Zhiping, Wang Zhijun, et al. Automatic regulation model of cerebrovascular diseases [J]. Journal of Engineering Mathematics, 2009(64): 403-4 15.

1 1.[ 10] Fu Hongmei, Wang Hongmei, et al. Multiscale simulation of circulatory system: preliminary analysis [J]. Calculation and visualization in science, 1999(2):75-83.

12.6. numerical simulation of arterial vascular network and description of cardiac lumped parameters [J]. computer methods in biomechanics and biomedical engineering, 2006(9):273-288.

13. He Yan, Liu Hong, Xu Mingnuo. One-dimensional thermal fluid model of human upper limb blood circulation [J]. China Medicine, 2002. International Journal of Heat and Mass Transfer, 2004(47): 2735-2745.

14. candy leung, Gao Musheng, Ji Mingnuo. Biomechanical characteristics of central ventricular-arterial coupling in aging process: multi-scale model study [J]. Journal of Biomechanics, 2009a(42): 692-704.

15. candy leung, Gao Musheng, et al. Multi-scale model of human cardiovascular system and its application in aortic valve and arterial stenosis [J]. Medical care and health care. Bioengineering and bioengineering. Calculation, 2009b(47):743-755.

16. candy leung, Shen Zuoguang, Liu Hong, et al. Study on the computational model of the effect of willis ring anatomical structure on cerebral hyperperfusion after carotid artery surgery [J]. Biomedical Engineering Online, 201(10):1-22.

17. The arterial blood flow model including ventricular pressure, aortic valve and local coronary blood flow was established by local conservative Galerkin (LCG) method [J]. Communication of Engineering Numerical Methods, 2008(24): 367-4 17.

18. Olufsen ms. Outflow conditions of structural tree of arterial blood flow [J]. American Journal of Physiology-Heart and Circulation Physiology, 1999(276):H257-H268.

19.[ 10] Liu Jianhua, Wang Xiaoyun, et al. Numerical simulation and experimental verification of structural tree blood flow in arteries [J]. Beijing: Journal of University, 2002( 1). Yearbook of Biomedical Engineering, 2000 (28):/kloc-0.

20. liberal arts, m, Filipovic, n, stojanovic, b, and liberal arts, n, computer modeling in bioengineering, 2008, John Wiley & amp son co., ltd.

2 1. Liu, Li Xixi, Principles and Methods of Hemodynamics, Fudan University Press, 1997

22. Tian Xin, Bi Ping, Fundamentals of Biomechanics, 2007, Science Press.

23. Joe, Application of Hemodynamic Simulation in Medicine (Ⅰ): Blood Flow in Arteries, Journal of Beijing University of Technology, 2008, Volume 34 (2): 189- 196.

24. Qiao, Guan Jianchun, Application of Hemodynamic Simulation in Medicine (Ⅱ): Prospect, Journal of Beijing University of Technology, 2008, Vol.34, No.5: 544-550.

25. Xie Xiang, Mechanism of Hemodynamics on Atherosclerosis and Vascular Development [D], Ph.D. Thesis of Chongqing University, 20 13.

26. Joe, Zhu, et al., Numerical Simulation of Carotid Artery Hemodynamics, Journal of Computational Mechanics, 2004,21(4): 475-480.

27. Jiang, Fan Yubo, Zou, Chen Junkai, Numerical study on the influence of symmetrical sinus stenosis on the flow field in carotid artery, Acta Mechanics, 2006, vol. 38 (2):270-275.

28. Jiang, Fan Yubo, Zou, Jinchuan Li, Chen Junkai, Numerical simulation of intimal hyperplasia of bifurcated arteries, Journal of Computational Mechanics, 2007, Vol.24 (5):597-60 1.

29. Zhang, Fan Yongbin, Deng Xiaoyan, Oxygen transfer at the bifurcation of human carotid artery, Journal of Mechanical Engineering, 2007, vol. 23: 305-309.

30. Yan Fei, Jiang, Zheng Tinghui, Fan Yubo, Numerical analysis of the influence of drug eluting stent height on drug concentration and wall shear stress distribution, Medical Biomechanics, 20 12, Vol. 27 (4): 45 1-455.

3 1., Joe, Optimal design of the base length of trapezoidal cross-section stent for intracranial aneurysms, Medical Biomechanics, 20 12, Volume 27 (3): 294-298.

32. Gu,,, Ni Zhonghua, Numerical Simulation and Experimental Study on Hemodynamics of Vascular Stent Coupling System, 20 12, Volume 42 (6): 1089- 1093.

33. Theoretical prediction of low density lipoprotein concentration on the lumen surface of multi-curved artery. Biomedicine. English , 2002, 30(6): 778-79 1

34. Wang, Deng Xiaoyan, Gui Duoyin, Concentration polarization of canine carotid artery macromolecules and its localization significance in atherosclerosis, Journal of Bioengineering. , 2003, Volume 36 (1):45-5 1

35. Yagi's high extension, easy escape, high maintenance, Murayama's, Meijin Guangsheng, aneurysm rupture, medical engineering technology prediction, directional establishment, manual operation.

36. Liu, Lu Lan, Chen Yong, Effect of Local Vasodilation on Blood Flow, Research and Progress of Fluid Mechanics, 200 1, Series A, Vol. 16 (4):399-408.

37.Watanabe, H., Sugano T., Sugiura, S., Hisada T., Finite Element Analysis of Ventricular Wall Motion and Indoor Blood Flow in Patients with Myocardial Infarction, JSME International Journal, 2004, Vol. 47 (4):10/9-10.

38.Watanabe, H., Sugiura, S., Hisada T, Multiphysical Simulation of Left Ventricular Filling Dynamics by Finite Element Method of Fluid-Structure Interaction, biophysics. J., 2004, Volume 87: 2074-2085.

39. Ji Changjin, He Ying. Numerical study on one-dimensional hemodynamics and oxygen transport characteristics of brain Willis ring [J].Acta Mechanics, 20 12(3): 59 1-599.

40. Chen, Mu Lizhong, He Ying, Tang, Experimental study on regional hypothermia of cerebral artery based on individualized Willis ring in vitro model, Medical Biomechanics, 20 14, Vol.29 (4): 31317.

4 1.Alastuey, J, Parker, KH, Peiro J, Byrd, SM, Sherwin, SJ, Willis ring modeling to evaluate the effects of anatomical variation and occlusion on cerebral blood flow. , 2007, volume 40, page 1794- 1805.

42. Xu, Li Yan, Zhang Zhi, Wang Hong, Yu Yongqiang, A 1 Three-dimensional numerical study on the hemodynamic effects of hypoplasia or incompleteness on anterior communicating artery aneurysm, computer journal, 2002. Ass. Tomo. , 20 12, Volume 36, No.4, Page 42 1-426.

43. Yuan Qi, Cui, Zhao Yan, Three-dimensional Steady and Unsteady Hemodynamic Calculation of Intracranial Willis Ring, Journal of Xi Jiaotong University, 2008, Vol.42 (4):492-496.

44. Calculation and clinical application of dynamic parameters of brain Willis ring, D, L, F, L, Liu Hui, Chinese Journal of Biomedical Engineering, 2003, Vol.22 (2): 153- 157.

45. What is it, Yu Chuanxiang? 20 10, measurement principle and clinical application of cardiovascular dynamic parameters, Beijing: science press.

46. Simulation of left ventricular pressure-volume relationship, Medical Biomechanics, 2004, Vol. 19 (1): 10- 14.

47. Ceng Yi, Gu Kaiyun, Gao Bin, Liu Youjun, Chang Yu, Physiological Simulation of Cardiovascular System in Heart Failure Stage, Journal of Beijing University of Technology, 20 13, Volume 39 (12):191-655.

48. Wu, Sun Dongning, Feng Zhonggang, Physical Model and Dynamic Coupling of Ventricular-Vascular System, Chinese Journal of Biomedical Engineering, 200 1, Vol.20 (5):45 1-458.

49. Fan Yubo, Chen Junkai, et al., Systemic Circulation Simulation Experimental System with Arterial Branches, Experimental Mechanics, Vol. 10 (1995),No. 1 issue, p.1-kloc-0/0.

50. Shi Bin, Zhang, Xie, Liu Baoyu, Cao, Changes of portal vein mechanical characteristics during the formation of intrahepatic portal hypertension in rats, Medical Biomechanics, 2004, 19 (4):228-233.

5 1. Yan, low Reynolds number flow theory, Peking University Press, 2002. Stokes flow through an allowable tube, arch. Applied machinery. Volume 80 (20 10), pp. 323-333. Finite element analysis of fluid filtration in permeable curved capillary-tissue system. Journal of Medicine and Biomechanics, 20 12, Volume 12, No.4, 1250077- 1-20 Lei, Xu Xiaoxia, Wei Wenyuan, Wen, Guo, Chen jg Mass Transfer in Solid Drum (/kloc-0 65438 Wu Jie, Xu Shixiong, Zhao Gaiping, Collins, MW, Jiang Yuping, Wang Jian, Three-dimensional numerical simulation of solid tumor hemodynamics, Medical Biomechanics, 2006, Vol 13, page 8- 13 Wu Jie, Cai Yan, et al., Anti-angiogenesis therapy under the action of angiostatin and endostatin. 20 1 1, page 8 Numerical simulation of the effect of mechanical properties of extracellular matrix on angiogenesis of solid tumors, Progress in Biomedical Engineering, 2008, Volume 29 (3):1-135 Wu, J, Long.