Numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics
The superior performance of single-point attached commissures (SPAC) molded valve design has been validated by several numerical, in vitro and in vivo animal studies. However, the impacts of the SPAC molded valve design on aortic hemodynamic environments are yet to be investigated. In this study, mu...
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sg-ntu-dr.10356-1462542023-03-04T17:21:09Z Numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics Zhu, Guang-Yu Huang, Hai Su, Ya-Li Yeo, Joon-Hock Shen, Xiao-Qin Yang, Cheng-Fu School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Prosthetic Aortic Valve Single Point Attached Commissures The superior performance of single-point attached commissures (SPAC) molded valve design has been validated by several numerical, in vitro and in vivo animal studies. However, the impacts of the SPAC molded valve design on aortic hemodynamic environments are yet to be investigated. In this study, multiscale computational models were prepared by virtually implanting prosthetic aortic valves with SPAC tubular, SPAC molded and conventional designs into a patient-specific aorta, respectively. The impacts of the valve designs on efferent flow distribution, flow pattern and hemodynamic characteristics in the aorta were numerically investigated. The results showed that despite the overall flow phenomena being similar, the SPAC tubular valve exhibited a suboptimal performance in terms of higher spatially averaged wall shear stress (SAWSS) in ascending aorta (AAo), higher helix grade, stronger secondary flow mean secondary velocity in descending aorta, as well as more complex vortex distribution. The results from the current study extend the understanding of hemodynamic impacts of the valve designs, which would further benefit the optimization of the prosthetic aortic valve. Published version 2021-02-04T04:43:59Z 2021-02-04T04:43:59Z 2020 Journal Article Zhu, G.-Y., Huang, H., Su, Y.-L., Yeo, J.-H., Shen, X.-Q., & Yang, C.-F. (2020). Numerical Investigation of the Effects of Prosthetic Aortic Valve Design on Aortic Hemodynamic Characteristics. Applied Sciences, 10(4), 1396-. doi:10.3390/app10041396 2076-3417 0000-0003-1110-2566 https://hdl.handle.net/10356/146254 10.3390/app10041396 2-s2.0-85080919470 4 10 en Applied Sciences © 2020 The Authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution(CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Mechanical engineering Prosthetic Aortic Valve Single Point Attached Commissures Zhu, Guang-Yu Huang, Hai Su, Ya-Li Yeo, Joon-Hock Shen, Xiao-Qin Yang, Cheng-Fu Numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics |
| description |
The superior performance of single-point attached commissures (SPAC) molded valve design has been validated by several numerical, in vitro and in vivo animal studies. However, the impacts of the SPAC molded valve design on aortic hemodynamic environments are yet to be investigated. In this study, multiscale computational models were prepared by virtually implanting prosthetic aortic valves with SPAC tubular, SPAC molded and conventional designs into a patient-specific aorta, respectively. The impacts of the valve designs on efferent flow distribution, flow pattern and hemodynamic characteristics in the aorta were numerically investigated. The results showed that despite the overall flow phenomena being similar, the SPAC tubular valve exhibited a suboptimal performance in terms of higher spatially averaged wall shear stress (SAWSS) in ascending aorta (AAo), higher helix grade, stronger secondary flow mean secondary velocity in descending aorta, as well as more complex vortex distribution. The results from the current study extend the understanding of hemodynamic impacts of the valve designs, which would further benefit the optimization of the prosthetic aortic valve. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhu, Guang-Yu Huang, Hai Su, Ya-Li Yeo, Joon-Hock Shen, Xiao-Qin Yang, Cheng-Fu |
| format |
Article |
| author |
Zhu, Guang-Yu Huang, Hai Su, Ya-Li Yeo, Joon-Hock Shen, Xiao-Qin Yang, Cheng-Fu |
| author_sort |
Zhu, Guang-Yu |
| title |
Numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics |
| title_short |
Numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics |
| title_full |
Numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics |
| title_fullStr |
Numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics |
| title_full_unstemmed |
Numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics |
| title_sort |
numerical investigation of the effects of prosthetic aortic valve design on aortic hemodynamic characteristics |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146254 |
| _version_ |
1759855143499595776 |