IN SILICO MODELLING OF FLOW-INDUCED COLLAPSE OF BLOOD VESSELS: A COMPARATIVE STUDY OF VOLUME STATUSES
File Type:
PDFItem Type:
Conference PaperDate:
2024Author:
Access:
openAccessCitation:
Aristokleous N, Collopy D, Wetterling F., Sweeney F., O'Cearbhaill E., O'Rourke M., IN SILICO MODELLING OF FLOW-INDUCED COLLAPSE OF BLOOD VESSELS: A COMPARATIVE STUDY OF VOLUME STATUSES, 29th Annual Conference of the Section of Bioengineering of the Royal Academy of Medicine in Ireland (BinI 2024), Belfast, Northern Ireland, 26-27 January 2024, 2024Download Item:
Abstract:
Here, we present the initial steps towards developing a
robust computational framework for simulating IVC
vessel collapse using FSI. Our preliminary results,
qualitative and quantitative, are in good agreement with
previous studies [5,6]. Further investigation is needed to
understand the impact of BCs and IVC geometry on the
observed hemodynamic alterations and collapse. In our
ongoing research, we aim to improve the accuracy of the
collapsible IVC model by optimizing the ANSYS
coupling system and incorporating realistic flow and wall
material properties. By enhancing the reliability of our
framework, we anticipate gaining deeper insights into
this complex phenomenon, advancing medical
understanding, and potentially improving diagnostic and
therapeutic strategies.
Author's Homepage:
http://people.tcd.ie/wetterf
Author: Wetterling, Friedrich
Other Titles:
29th Annual Conference of the Section of Bioengineering of the Royal Academy of Medicine in Ireland (BinI 2024)Type of material:
Conference PaperAvailability:
Full text availableLicences: