Macquarie University ResearchOnline

Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.14/169649

Title

Computational fluid dynamics (CFD) modelling of virtual flow diverters (FD) to determine risk of delayed rupture of aneurysms after stenting with flow diverters

Related

World Federation of Interventional and Therapeutic Neuroradiology (11th : 2011) (8 - 11 November 2011 : Cape Town)

Related

Interventional neuroradiology, Vol. 17, Suppl. 1,

Related

http://www.interventionalneuroradiology.it/index.aspx

Publisher

Centauro - Edizioni Scientifiche

Date

2011

Author/Creator

Chong, W

Author/Creator

Qian, Y

Author/Creator

Zhang, Y

Author/Creator

Mitchell, K

Author/Creator

Lai, L

Description

Purpose: To evaluate if CFD can determine the risk of delayed rupture of aneurysms treated with flow diverters. Materials and Methods: Two carotid aneurysms each treated by a single SILK were studied. One completely occluded within 6 months. CTAngiogram before stenting, at 2 days (40% thrombosed) and 6 months were analysed. The other ruptured at 3.5 months. The 3 months CTA (no aneurysm thrombosis) was studied. CFD performed using ANSYS. The Virtual FD was simulated using the porous media method. Results: For the occluded aneurysm, CFD of the first CTA after placement of a Virtual FD showed a reduction of energy loss across the aneurysm neck of 64%, reduction of flow into the aneurysm by 92.9%, disappearance of the high wall shear stress (WSS) region and change in the flow pattern from a circular jet coming from the inflow to a non-jet flow from the FD centre with stasis in large part of the aneurysm. This predicted the actual day 2 results showing further reduction to 16% and by 99.9% respectively, uniform low WSS and minimal central flow only. Actual energy loss at 6 months was only 3%. For the ruptured case, the Virtual FDs simulated the actually deployed Silk which was stretched at the inlet allowing a large jet to flow into the aneurysm and simulated an optimally deployed FD. The simulated stretched versus optimal FD studies showed energy loss of 63% versus 52%, flow reduction of 43.8% to 96.3%, continued jet flow to no jet flow, and high WSS to low WSS respectively. Conclusion: The CFD findings of high energy loss, low flow reduction, continued jet flow and high WSS are possible predictors of delayed rupture. Virtual FD can be used to predict outcome.

Description

1 page(s)

Resource Type

conference paper abstract

Organisation

Macquarie University. Australian School of Advanced Medicine

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Identifier

http://hdl.handle.net/1959.14/169649

Identifier

ISSN:1591-0199

Identifier

mq_res-20120417-104044

Language

eng

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Subject

"Interventional neuroradiology"

 

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