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Modeling stent deployment in realistic arterial segment geometries: The effect of the plaque composition

Zervakis Michalis, A.I. Sakellarios , G.S. Karanasiou , E.E. Tripoliti

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URI: http://purl.tuc.gr/dl/dias/381A01AC-D0F8-4682-9FDC-E332F209AD9F
Year 2013
Type of Item Conference Poster
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Bibliographic Citation G.S. Karanasiou, A. Sakellarios, E.E. Tripoliti, E.G.M. Petrakis, M.E. Zervakis, "Modeling stent deployment in realistic arterial segment geometries: the effect of the plaque composition ," in 2013 13th Intern. Conf. on Bioinformatics and Bioeng. (BIBE) ,pp.1-4.doi:10.1109/BIBE.2013.6701537 https://doi.org/10.1109/BIBE.2013.6701537
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Summary

Stents are medical devices used in cardiovascular intervention for unblocking the diseased arteries and restoring blood flow. During stent implantation the deformation of the arterial wall as well as the resulted stresses caused in the arterial morphology are studied. In this paper we study the effect of the composition of the atherosclerotic plaque during the stent deployment procedure, using Finite Element modeling. The stenting procedure is simulated for two different cases; in the first the presence of the plaque is ignored whereas in the second a three dimensional (3D) stiff calcified plaque is located in the stenotic area of the artery. Results indicate that in the second case the von Mises stresses in the arterial wall are higher than the stresses occurred in the first case. In addition, the distribution of the arterial von Mises stress depends on the plaque composition.

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