Estimating the hemodynamic impact of interventional treatments of aneurysms: Numerical simulation with experimental validation: Technical case report

Gabriel Acevedo-Bolton, Liang Der Jou, Bradley P. Dispensa, Michael T. Lawton, Randall T. Higashida, Alastair J. Martin, William L. Young, David Saloner

Research output: Contribution to journalArticlepeer-review

64 Scopus citations

Abstract

OBJECTIVE: The goal of this study was to use phase-contrast magnetic resonance imaging and computational fluid dynamics to estimate the hemodynamic outcome that might result from different interventional options for treating a patient with a giant fusiform aneurysm. METHODS: We followed a group of patients with giant intracranial aneurysms who have no clear surgical options. One patient demonstrated dramatic aneurysm growth and was selected for further analysis. The aneurysm geometry and input and output flow conditions were measured with contrast-enhanced magnetic resonance angiography and phase-contrast magnetic resonance imaging. The data was imported into a computational fluid dynamics program and the velocity fields and wall shear stress distributions were calculated for the presenting physiological condition and for cases in which the opposing vertebral arteries were either occluded or opened. These models were validated with in vitro flow experiments using a geometrically exact silicone flow phantom. RESULTS: Simulation indicated that altering the flow ratio in the two vertebrals would deflect the main blood jet into the aneurysm belly, and that this would likely reduce the extent of the region of low wall shear stress in the growth zone. CONCLUSIONS: Computational fluid dynamics flow simulations in a complex patient-specific aneurysm geometry were validated by in vivo and in vitro phase-contrast magnetic resonance imaging, and were shown to be useful in modeling the likely hemodynamic impact of interventional treatment of the aneurysm.

Original languageEnglish (US)
Pages (from-to)E429-E430.5
JournalNeurosurgery
Volume59
Issue number2
DOIs
StatePublished - Aug 2006

Keywords

  • Giant intracranial aneurysm
  • Hemodynamic phenomena
  • Magnetic resonance imaging

ASJC Scopus subject areas

  • Surgery
  • Clinical Neurology

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