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Understanding the effect of effective metal surface area of flow diverter stent's on the patient-specific intracranial aneurysm numerical model using lagrangian coherent structures

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Date

2020-10-01

Authors

Mutlu, Onur
Olcay, Ali Bahadır
Bilgin, Cem
Hakyemez, Bahattin

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Elsevier

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Abstract

The effective metal surface area (EMSA) of flow diversions plays an essential role in the occlusion mechanism inside the aneurysm since the value of EMSA determines the amount of blood flow into the aneurysm sac. In the present study, three different models of a flow diverter stent, namely FRED 4017, FRED 4038, and FRED 4539, were virtually placed at the aneurysm neck of a 52-years-old female patient to identify the effect of EMSA on stagnation region formation inside the aneurysm sac. Lagrangian coherent structures (LCSs), hyperbolic time, and particle tracking analysis were employed to the velocity vectors obtained from computational fluid dynamics (CFD). It is noticed that use of FRED 4017 stent with 0.42 EMSA value caused nearly 40% of the weightless blood flow particles (more than FRED 4038 and FRED 4539) to stay inside the aneurysm while only 0.35% of the blood flow was remaining inside the aneurysm sac when no stent was placed into the aneurysm site. Furthermore, hyperbolic time computations illustrated the formation of stagnation fluid flow zones that can be associated with the residence time of the blood flow particles. Lastly, the results of hyperbolic time analysis are in good agreement with digital subtraction angiography (DSA) images taken in the clinic a few minutes after a FRED 4017 implantation. (C) 2020 Elsevier Ltd. All rights reserved.

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Blood-flow, Arteries, Velocity, Effective metal surface area (emsa), Flow diversion, Computational fluid dynamics (cfd), Lagrangian coherent structures (lcss), Hyperbolic time, Particle tracking, Science & technology, Life sciences & biomedicine, Clinical neurology, Neurosciences, Neurosciences & neurology

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