Title Efficient computation of blood velocity in the left atrial appendage: A practical perspective
Authors Aidietis, Audrius ; Aidietienė, Sigita ; Ardatov, Oleg ; Borodinas, Sergejus ; Katkus, Rimgaudas ; Kaulakytė, Kristina ; Kozulinas, Nikolajus ; Panasenko, Grigory ; Pileckas, Konstantinas ; Račkauskas, Gediminas
DOI 10.15388/namc.2025.30.43740
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Is Part of Nonlinear analysis: modelling and control.. Vilnius : Vilnius University Press. 2025, vol. 00, no. 00, p. 1-20.. ISSN 1392-5113. eISSN 2335-8963
Keywords [eng] Navier–Stokes equations ; fluid structure interaction ; mathematical modeling ; computer simulations
Abstract [eng] The goal of the paper is to present the FSI (fluid-structure interaction) CFD (computational fluid dynamics) simulations of the blood flow in the LA (left atrium) for patient-specific geometry of the left atrium appendage (LAA). These simulations are important for the decision making in cardiology and cardiac surgery of the patients with atrial fibrillation. Nowadays according current atrial fibrillation treatment guidelines, initiation of oral anticoagulant therapy is recommended for patients with a CHA2DS2–VASc score greater or equal to 2 for males, and greater or equal to 3 for females, for lowering stroke risk. This therapy although has undesirable effects and provokes bleeding in a part of cases. That is why it is important to detect the stagnation zones of the blood flow in LAA. The presence of such zones justifies the necessity of the anticoagulant therapy. The FSI CFD simulations in the heart is a challenging problem: the existing softwares are not too robust for real life Reynolds numbers and often do not converge to the solution of the Navier–Stokes equations for the blood coupled with the elasticity equations of the wall. That is why we first provide the CFD computations with the rigid wall when the codes are more stable. Using this solution as a source of parameters for the implicit numerical scheme solver, we then provide the FSI computations, which become much more robust.
Published Vilnius : Vilnius University Press
Type Journal article
Language English
Publication date 2025
CC license CC license description