BACKGROUND: In asymptomatic carotid stenosis (ACS), different plaque types, i.e. lipidic (LP), fibrous (FP), and calcific (CP), could have different hemodynamic and structural behaviors.METHODS: Different carotid plaques, reconstructed from medical imaging of ACS >70%, were analyzed by computing fluid structure interac-tion (FSI), modeling the spatial distribution of wall shear stresses (WSS), plaque displacements (D), von Mises stresses (VMS), and absorbed elastic energy (AEE) together with their maximum-in-space values at the systole (WSSsyst , Dsyst , VMSsyst andAEEsyst). RESULTS: WSS resulted significantly higher in CP, whereas D and VMS showed the highest values for LP. Regarding AEEsyst stored by the plaques, LP absorbed in average 2320 J/m3 , FP 408 J/m3 (470%) and CP 99 J/m3 (2240%), (P<0.01, P<0.01, and P<0.01, respectively). CONCLUSIONS: Depending upon their nature, plaques store different deformations and inner distributions of forces, thus potentially influenc-ing their vulnerability.
Fluid structure interaction analysis to stratify the behavior of different atheromatous carotid plaques / M. Domanin, L. Bennati, C. Vergara, D. Bissacco, C. Malloggi, V. Silani, G. Parati, S. Trimarchi, R. Casana. - In: JOURNAL OF CARDIOVASCULAR SURGERY. - ISSN 0021-9509. - 64:1(2023 Feb), pp. 58-66. [10.23736/S0021-9509.22.12170-1]
Fluid structure interaction analysis to stratify the behavior of different atheromatous carotid plaques
M. Domanin
Primo
;D. Bissacco;V. Silani;S. TrimarchiPenultimo
;
2023
Abstract
BACKGROUND: In asymptomatic carotid stenosis (ACS), different plaque types, i.e. lipidic (LP), fibrous (FP), and calcific (CP), could have different hemodynamic and structural behaviors.METHODS: Different carotid plaques, reconstructed from medical imaging of ACS >70%, were analyzed by computing fluid structure interac-tion (FSI), modeling the spatial distribution of wall shear stresses (WSS), plaque displacements (D), von Mises stresses (VMS), and absorbed elastic energy (AEE) together with their maximum-in-space values at the systole (WSSsyst , Dsyst , VMSsyst andAEEsyst). RESULTS: WSS resulted significantly higher in CP, whereas D and VMS showed the highest values for LP. Regarding AEEsyst stored by the plaques, LP absorbed in average 2320 J/m3 , FP 408 J/m3 (470%) and CP 99 J/m3 (2240%), (P<0.01, P<0.01, and P<0.01, respectively). CONCLUSIONS: Depending upon their nature, plaques store different deformations and inner distributions of forces, thus potentially influenc-ing their vulnerability.
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