Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach
The mechanisms underlying the growth and rupture of aneurysms are poorly understood. Although the wall shear stress (WSS) in elastic aneurysm models is examined using fluid-structure interaction (FSI) simulations, it has not been sufficiently validated using experimental modalities, such as particle...
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my.utm.1028942023-09-26T06:15:24Z http://eprints.utm.my/id/eprint/102894/ Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach Yamaguchi, Ryuhei Tanaka, Gaku Shafii, Nadia Shaira Osman, Kahar Shimizu, Yasutomo Saqr, Khalid M. Ohta, Makoto QC Physics The mechanisms underlying the growth and rupture of aneurysms are poorly understood. Although the wall shear stress (WSS) in elastic aneurysm models is examined using fluid-structure interaction (FSI) simulations, it has not been sufficiently validated using experimental modalities, such as particle image velocimetry (PIV) or phase contrast magnetic resonance imaging (PC-MRI). In this study, we investigated pulsatile flow in an elastic, image-based, patient-specific cerebral aneurysm model using PIV. The phantom model was carefully fabricated using a specialized technique by silicone elastomer. We explored the hemodynamics of the WSS and the kinetic energy cascade (KEC) in the elastic model compared with a rigid model, at the apex of the bifurcation of the middle cerebral artery (MCA) in vitro. The effects of elasticity on the WSS, WSS gradient (WSSG), and tensile strength of the aneurysm wall were also investigated, in addition to the effect of wall elasticity on the KEC compared to a rigid wall. Although the WSSG around the stagnation point had a large positive value, there was no difference between the two models. In particular, wall elasticity suppressed the WSS magnitude around the stagnation point and attenuated the KEC (i.e., the flow fluctuation). Future studies examining KEC frequency and WSS characteristics in a phantom model should consider assessing elasticity. AIP Publishing 2022 Article PeerReviewed Yamaguchi, Ryuhei and Tanaka, Gaku and Shafii, Nadia Shaira and Osman, Kahar and Shimizu, Yasutomo and Saqr, Khalid M. and Ohta, Makoto (2022) Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach. Journal of Applied Physics, 131 (18). n/a. ISSN 0021-8979 http://dx.doi.org/10.1063/5.0085417 DOI: 10.1063/5.0085417 |
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QC Physics Yamaguchi, Ryuhei Tanaka, Gaku Shafii, Nadia Shaira Osman, Kahar Shimizu, Yasutomo Saqr, Khalid M. Ohta, Makoto Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach |
| description |
The mechanisms underlying the growth and rupture of aneurysms are poorly understood. Although the wall shear stress (WSS) in elastic aneurysm models is examined using fluid-structure interaction (FSI) simulations, it has not been sufficiently validated using experimental modalities, such as particle image velocimetry (PIV) or phase contrast magnetic resonance imaging (PC-MRI). In this study, we investigated pulsatile flow in an elastic, image-based, patient-specific cerebral aneurysm model using PIV. The phantom model was carefully fabricated using a specialized technique by silicone elastomer. We explored the hemodynamics of the WSS and the kinetic energy cascade (KEC) in the elastic model compared with a rigid model, at the apex of the bifurcation of the middle cerebral artery (MCA) in vitro. The effects of elasticity on the WSS, WSS gradient (WSSG), and tensile strength of the aneurysm wall were also investigated, in addition to the effect of wall elasticity on the KEC compared to a rigid wall. Although the WSSG around the stagnation point had a large positive value, there was no difference between the two models. In particular, wall elasticity suppressed the WSS magnitude around the stagnation point and attenuated the KEC (i.e., the flow fluctuation). Future studies examining KEC frequency and WSS characteristics in a phantom model should consider assessing elasticity. |
| format |
Article |
| author |
Yamaguchi, Ryuhei Tanaka, Gaku Shafii, Nadia Shaira Osman, Kahar Shimizu, Yasutomo Saqr, Khalid M. Ohta, Makoto |
| author_facet |
Yamaguchi, Ryuhei Tanaka, Gaku Shafii, Nadia Shaira Osman, Kahar Shimizu, Yasutomo Saqr, Khalid M. Ohta, Makoto |
| author_sort |
Yamaguchi, Ryuhei |
| title |
Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach |
| title_short |
Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach |
| title_full |
Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach |
| title_fullStr |
Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach |
| title_full_unstemmed |
Characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: An experimental approach |
| title_sort |
characteristic effect of wall elasticity on flow instability and wall shear stress of a full-scale, patient-specific aneurysm model in the middle cerebral artery: an experimental approach |
| publisher |
AIP Publishing |
| publishDate |
2022 |
| url |
http://eprints.utm.my/id/eprint/102894/ http://dx.doi.org/10.1063/5.0085417 |
| _version_ |
1778160798170873856 |
| score |
13.209306 |