Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques
Plaque rupture is the critical cause of cardiovascular thrombosis, but the detailed mechanisms are not fully understood. Recent studies have found abundant cholesterol crystals in ruptured plaques, and it has been proposed that the rapid expansion of cholesterol crystals in a limited space during cr...
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sg-ntu-dr.10356-831192022-02-16T16:26:32Z Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques Luo, Yuemei Cui, Dongyao Yu, Xiaojun Chen, Si Liu, Xinyu Tang, Hongying Wang, Xianghong Liu, Linbo Feng, Ying-Mei School of Chemical and Biomedical Engineering School of Electrical and Electronic Engineering Cholesterol Crystallization Atherosclerotic Plaques Plaque rupture is the critical cause of cardiovascular thrombosis, but the detailed mechanisms are not fully understood. Recent studies have found abundant cholesterol crystals in ruptured plaques, and it has been proposed that the rapid expansion of cholesterol crystals in a limited space during crystallization may contribute to plaque rupture. To evaluate the effect of cholesterol crystal growth on atherosclerotic plaques, we modeled the expansion of cholesterol crystals during the crystallization process in the necrotic core and estimated the stress on the thin cap with different arrangements of cholesterol crystals. We developed a two-dimensional finite element method model of atherosclerotic plaques containing expanding cholesterol crystals and investigated the effect of the magnitude and distribution of crystallization on the peak circumferential stress born by the cap. Using micro-optical coherence tomography (μOCT), we extracted the cross-sectional geometric information of cholesterol crystals in human atherosclerotic aorta tissue ex vivo and applied the information to the model. The results demonstrate that (1) the peak circumference stress is proportionally dependent on the cholesterol crystal growth; (2) cholesterol crystals at the cap shoulder impose the highest peak circumference stress; and (3) spatial distributions of cholesterol crystals have a significant impact on the peak circumference stress: evenly distributed cholesterol crystals exert less peak circumferential stress on the cap than concentrated crystals. NMRC (Natl Medical Research Council, S’pore) MOE (Min. of Education, S’pore) Published version 2017-05-15T05:09:48Z 2019-12-06T15:12:11Z 2017-05-15T05:09:48Z 2019-12-06T15:12:11Z 2016 Journal Article Luo, Y., Cui, D., Yu, X., Chen, S., Liu, X., Tang, H., et al. (2016). Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques. PLOS ONE, 11(5), e0155117-. 1932-6203 https://hdl.handle.net/10356/83119 http://hdl.handle.net/10220/42415 10.1371/journal.pone.0155117 27149381 en PLOS ONE © 2016 Luo et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 15 p. application/pdf |
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Cholesterol Crystallization Atherosclerotic Plaques |
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Cholesterol Crystallization Atherosclerotic Plaques Luo, Yuemei Cui, Dongyao Yu, Xiaojun Chen, Si Liu, Xinyu Tang, Hongying Wang, Xianghong Liu, Linbo Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques |
| description |
Plaque rupture is the critical cause of cardiovascular thrombosis, but the detailed mechanisms are not fully understood. Recent studies have found abundant cholesterol crystals in ruptured plaques, and it has been proposed that the rapid expansion of cholesterol crystals in a limited space during crystallization may contribute to plaque rupture. To evaluate the effect of cholesterol crystal growth on atherosclerotic plaques, we modeled the expansion of cholesterol crystals during the crystallization process in the necrotic core and estimated the stress on the thin cap with different arrangements of cholesterol crystals. We developed a two-dimensional finite element method model of atherosclerotic plaques containing expanding cholesterol crystals and investigated the effect of the magnitude and distribution of crystallization on the peak circumferential stress born by the cap. Using micro-optical coherence tomography (μOCT), we extracted the cross-sectional geometric information of cholesterol crystals in human atherosclerotic aorta tissue ex vivo and applied the information to the model. The results demonstrate that (1) the peak circumference stress is proportionally dependent on the cholesterol crystal growth; (2) cholesterol crystals at the cap shoulder impose the highest peak circumference stress; and (3) spatial distributions of cholesterol crystals have a significant impact on the peak circumference stress: evenly distributed cholesterol crystals exert less peak circumferential stress on the cap than concentrated crystals. |
| author2 |
Feng, Ying-Mei |
| author_facet |
Feng, Ying-Mei Luo, Yuemei Cui, Dongyao Yu, Xiaojun Chen, Si Liu, Xinyu Tang, Hongying Wang, Xianghong Liu, Linbo |
| format |
Article |
| author |
Luo, Yuemei Cui, Dongyao Yu, Xiaojun Chen, Si Liu, Xinyu Tang, Hongying Wang, Xianghong Liu, Linbo |
| author_sort |
Luo, Yuemei |
| title |
Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques |
| title_short |
Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques |
| title_full |
Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques |
| title_fullStr |
Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques |
| title_full_unstemmed |
Modeling of Mechanical Stress Exerted by Cholesterol Crystallization on Atherosclerotic Plaques |
| title_sort |
modeling of mechanical stress exerted by cholesterol crystallization on atherosclerotic plaques |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/83119 http://hdl.handle.net/10220/42415 |
| _version_ |
1725985771844796416 |