Effect of sinus diameter on the opening and closing performance of aortic valve under the expansion of aortic root_Journal of Biomedical Engineering

Authors：

HOU Qianwen , LIU Guimei , LIU Ning , PAN Youlian ,  QIAO Aike

College of Life Science and Bioengineering, Beijing University of Technology, Beijing 100124, P.R.China;

Corresponding author：

QIAO Aike, Email: qak@bjut.edu.cn

Keywords：

aortic root dilatation; sinus diameter; root diameter; aortic valve; finite element analysis

DOI：

10.7507/1001-5515.201811018

Video：

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This study aims to explore the effect of aortic sinus diameter on aortic valve opening and closing performance in the case of no obvious disease of aortic valve and annulus and continuous dilation of aortic root. A total of 25 three-dimensional aortic root models with different aortic sinus and root diameters were constructed according to the size of clinical surgical guidance. The valve sinus diameter DS is set to 32, 36, 40, 44 and 48 mm, respectively, and the aortic root diameter DA is set to 26, 27, 28, 29 and 30 mm, respectively. Through the structural mechanics calculation with the finite element software, the maximum stress, valve orifice area, contact force and other parameters of the model are analyzed to evaluate the valve opening and closing performance under the dilated state. The study found that aortic valve stenosis occurs when the DS = 32 mm, DA = 26, 27 mm and DS = 36 mm, DA = 26 mm. Aortic regurgitation occurs when the DS = 32, 36 and 40 mm, DA = 30 mm and DS = 44, 48 mm, DA = 29, 30 mm. The other 15 models had normal valve movement. The results showed that the size of the aortic sinus affected the opening and closing performance of the aortic valve. The smaller sinus diameter adapted with the larger root diameter and the larger sinus diameter adapted with the smaller root diameter. When the sinus diameter is 40 mm, the mechanical performance of the valve are good and it can well adapt with the relatively large range of aortic root dilation.

Citation： HOU Qianwen, LIU Guimei, LIU Ning, PAN Youlian, QIAO Aike. Effect of sinus diameter on the opening and closing performance of aortic valve under the expansion of aortic root. Journal of Biomedical Engineering, 2019, 36(5): 737-744. doi: 10.7507/1001-5515.201811018 Copy

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17.	潘友联. 升主动脉根部几何构型对主动脉瓣关闭不全影响的生物力学机理和手术规划研究. 北京: 北京工业大学, 2016.
18.	王志超. 基于超弹模型的主动脉瓣流固耦合分析. 济南: 山东大学, 2018.
19.	贾荣玺, 马云菲, 顾兆勇, 等. 窦管交界锥度对生物瓣影响的脉动流实验研究. 生物医学工程学杂志, 2017, 34(3): 365-370.
20.	Pan Youlian, Qiao Aike, Dong Nianguo. Effect of the position of the coronary sinus orifice on aortic leaflet coaptation. Journal of Mechanics in Medicine & Biology, 2014, 14(6): 1440009-1-1440009-8.
21.	Marom G, Halevi R, Haj-Ali R, et al. Numerical model of the aortic root and valve: optimization of graft size and sinotubular junction to annulus ratio. J Thorac Cardiovasc Surg, 2013, 146(5): 1227-1231.
22.	闫亭亭, 刘芳芳, 陈雪, 等. 三角形截面丝裸支架治疗梭形颅内动脉瘤的流固耦合数值模拟研究. 生物医学工程学杂志, 2012, 29(5): 867-871.
23.	Dominik J, Zacek P. 心脏瓣膜手术图解. 邓志勇, 陈家军, 译. 上海: 上海科学技术出版社, 2011.

1. Otto C M, Bonow R O. 瓣膜性心脏病. 李虹伟, 译. 北京: 北京大学医学出版社, 2012: 5.
2. Yoganathan A P, He Zhaoming, Casey Jones S. Fluid mechanics of heart valves. Annu Rev Biomed Engineering, 2004, 6(1): 331-362.
3. Lansac E, Di Centa I, Raoux F, et al. A lesional classification to standardize surgical management of aortic insufficiency towards valve repair. Eur J Cardiothorac Surg, 2008, 33(5): 872-878.
4. 孙立忠, 田良鑫, 常谦, 等. 保留主动脉瓣的主动脉根部替换术(David手术). 中华医学杂志, 2003, 83(9): 803-804.
5. Katayama S, Umetani N, Sugiura S, et al. The sinus of Valsalva relieves abnormal stress on aortic valve leaflets by facilitating smooth closure. J Thorac Cardiovasc Surg, 2008, 136(6): 1528-1535.
6. Yacoub M, Fagan A, Stassano P, et al. Results of valve conserving operations for aortic regurgitation. Circulation, 1983, 68(4): 321.
7. David T E. Aortic root aneurysms: remodeling or composite replacement. Ann Thorac Surg, 1997, 64(5): 1564-1568.
8. Urbanski P P. Valve-sparing aortic root repair with patch technique. Ann Thorac Surg, 2005, 80(3): 839-843.
9. 李巅远, 孙立忠, 田良鑫, 等. David手术治疗主动脉根部疾患. 中华医学杂志, 2005, 85(42): 2985-2987.
10. 吴伟雄. 保留主动脉瓣膜的主动脉窦部成形在治疗主动脉夹层Stanford A型患者中的近期疗效研究. 福州: 福建医科大学, 2016.
11. Conti C A, Votta E, Della Corte A, et al. Dynamic finite element analysis of the aortic root from MRI-derived parameters. Med Eng Phys, 2010, 32(2): 212-221.
12. Weltert L, De Tullio M D, Afferante L, et al. Annular dilatation and loss of sino-tubular junction in aneurysmatic aorta: Implications on leaflet quality at the time of surgery. A finite element study. Interact Cardiovasc Thorac Surg, 2013, 17(1): 8-12.
13. 乔爱科, 潘友联, 董念国. 窦管交界和窦部直径对主动脉瓣关闭功能影响. 北京工业大学学报, 2014, 40(5): 776-780.
14. Marom G, Haj-Ali R, Rosenfeld M, et al. Aortic root numeric model: Annulus diameter prediction of effective height and coaptation in post-aortic valve repair. J Thorac Cardiovasc Surg, 2013, 145(2): 406-411.
15. Labrosse M R, Beller C J, Robicsek F A. Geometric modeling of functional trileaflet aortic valves: development and clinical applications. J Biomech, 2006, 39(14): 2665-2672.
16. 李慧, 潘友联, 乔爱科, 等. 瓣膜高度对移植主动脉瓣开闭性能的影响. 生物医学工程学杂志, 2019, 36(2): 199-205.
17. 潘友联. 升主动脉根部几何构型对主动脉瓣关闭不全影响的生物力学机理和手术规划研究. 北京: 北京工业大学, 2016.
18. 王志超. 基于超弹模型的主动脉瓣流固耦合分析. 济南: 山东大学, 2018.
19. 贾荣玺, 马云菲, 顾兆勇, 等. 窦管交界锥度对生物瓣影响的脉动流实验研究. 生物医学工程学杂志, 2017, 34(3): 365-370.
20. Pan Youlian, Qiao Aike, Dong Nianguo. Effect of the position of the coronary sinus orifice on aortic leaflet coaptation. Journal of Mechanics in Medicine & Biology, 2014, 14(6): 1440009-1-1440009-8.
21. Marom G, Halevi R, Haj-Ali R, et al. Numerical model of the aortic root and valve: optimization of graft size and sinotubular junction to annulus ratio. J Thorac Cardiovasc Surg, 2013, 146(5): 1227-1231.
22. 闫亭亭, 刘芳芳, 陈雪, 等. 三角形截面丝裸支架治疗梭形颅内动脉瘤的流固耦合数值模拟研究. 生物医学工程学杂志, 2012, 29(5): 867-871.
23. Dominik J, Zacek P. 心脏瓣膜手术图解. 邓志勇, 陈家军, 译. 上海: 上海科学技术出版社, 2011.

Journal of Biomedical Engineering

Effect of sinus diameter on the opening and closing performance of aortic valve under the expansion of aortic root

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