Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/34439
Title: Evaluating the effectiveness of 2 different flow diverter stents based on the stagnation region formation in an aneurysm sac using lagrangian coherent structure
Authors: Mutlu, Onur
Olcay, Ali Bahadır
Uludağ Üniversitesi/Tıp Fakültesi/Radyoloji Anabilim Dalı.
0000-0002-3425-0740
Hakyemez, Bahattin
Bilgin, Cem
AAI-2318-2021
HHS-7433-2022
57200617643
6602527239
Keywords: Lagrangian coherent structure
Computational fluid dynamics
Flow diverter stent effectiveness
Stagnated fluid flow zones
Internal carotid-artery
Newtonian blood-flow
Intracranial aneurysms
Endovascular treatment
Cerebral aneurysm
Follow-up
Diversion
Reconstruction
Simulation
Occlusion
Clinical neurology
Surgery
Issue Date: Jul-2019
Publisher: Elsevier Science Inc
Citation: Mutlu, O. vd. (2019). "Evaluating the effectiveness of 2 different flow diverter stents based on the stagnation region formation in an aneurysm sac using lagrangian coherent structure". World Neurosurgery, 127, E727-E737.
Abstract: BACKGROUND: Flow diverter stents are often used in the treatment of giant aneurysms at carotid arteries. Although these stents promise to decrease blood flow into the aneurysm sac, little is known about hemodynamics inside the aneurysm once the stent is planted into the aneurysm neck. To further explore this, computational fluid dynamics and Lagrangian coherent structure (LCS) techniques were used to evaluate the time evolution mechanism of stagnation regions inside an aneurysm. The purpose of this work is to provide a quantitative effectiveness comparison of 2 different flow diverter stents placed into the aneurysm neck based on their stagnation zone formations in the sac.METHODS: In numerical modeling, Womersley function, and fluidsolid interaction were defined as the 3 cardiac cycles for blood velocity and the aneurysm wall, respectively. Moreover, blood was accepted as a non-Newtonian fluid, and mean arterial blood pressure of the patient was entered into the computational domain to accurately mimic the hemodynamics inside the aneurysm sac accurately.RESULTS: The numerical analyses revealed that the use of a Fred-type stent in the aneurysm neck causes fluid flow zone formations yielding to sequenced stagnated regions. Time evolution of stagnation regions in an aneurysm sac was shown just after a flow diverter stent was employed at a patient's aneurysm neck. Furthermore, the stagnation field in the Fred stent-fitted aneurysm was nearly 4.8 times the stagnation area of the Surpass brand stent-attached aneurysm.CONCLUSIONS: Finite time Lyapunov exponent fields obtained from the LCS techniques demonstrated a good agreement with the patient's digital subtraction angiography images obtained just after treatment.
URI: https://doi.org/10.1016/j.wneu.2019.03.255
https://www.sciencedirect.com/science/article/pii/S1878875019309350
http://hdl.handle.net/11452/34439
ISSN: 1878-8750
1878-8769
Appears in Collections:PubMed
Scopus
Web of Science

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