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3-D fluid-structure interaction in aorta

FROM:
R. Jayendiran (1), B.M. Nour (2) and A. Ruimi (1)
(1) Mechanical Engineering Program, Texas A&M University at Qatar, Doha, Qatar
(2) Weill Cornell Medical College at Qatar, Doha, Qatar

“Dacron graft as replacement to dissected aorta: A three-dimensional fluid-structure-interaction analysis”, Journal of the Mechanical Behavior of Biomedical Materials, Vol. 78, pp 329-341, February 2018, https://doi.org/10.1016/j.jmbbm.2017.11.029

ABSTRACT: Aortic dissection (AD) is a serious medical condition characterized by a tear in the intima, the inner layer of the aortic walls. In such occurrence, blood is being diverted to the media (middle) layer and may result in patient death if not quickly attended. In the case where the diseased portion of the aorta needs to be replaced, one common surgical technique is to use a graft made of Dacron, a synthetic fabric. We investigate the response of a composite human aortic segment-Dacron graft structure subjected to blood flow using the three-dimensional fluid-structure-interaction (FSI) capability in Abaqus. We obtain stress and strain profiles in each of the three layers of the aortic walls as well as in the Dacron graft. Results are compared when elastic and hyperelastic models are used and when isotropy vs. anisotropy is assumed. The more complex case (hyperelastic-anisotropy) is represented by the Holzapfel-Gasser-Ogden (HGO) model which also accounts for the orientation of the fibers present in the tissues. The fluid flow is taken as Newtonian, incompressible, pulsatile and turbulent. The simulation show that for all the cases, the von Mises stress distribution at aorta-Dacron interface is well below the ultimate strength of the aorta. No significant change in radial displacement at the interface of the two materials due to blood flow is observed. Computation cost is also addressed and results show that the hyperelastic-anisotropic model takes about three times longer to run than the elastic isotropic case. Trade-off between accuracy and computational cost has to be weighted.

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