Tetsuya Tanoue scite author profile

Hemodynamics is thought to be a fundamental factor in the formation, progression and rupture of cerebral aneurysms. Understanding these mechanisms is important to improve their rupture risk assessment and treatment. In this study we analyze the blood flow field in a growing cerebral aneurysm using experimental particle image velocimetry (PIV) and computational fluid dynamics (CFD) techniques. Patient-specific models were constructed from longitudinal 3D computed tomography angiography (CTA) images acquired at one-year intervals. Physical silicone models were constructed from the CTA images using rapid prototyping techniques and pulsatile flow fields were measured with PIV. Corresponding CFD models were created and run under matching flow conditions. Both flow fields were aligned, interpolated, and compared qualitatively by inspection and quantitatively by defining similarity measures between the PIV and CFD vector fields. Results showed that both flow fields were in good agreement. Specifically, both techniques provided consistent representations of the main intra-aneurysmal flow structures, and their change during the geometric evolution of the aneurysm. Despite differences observed mainly in the near wall region and the inherent limitations of each technique, the information derived is consistent and can be used to study the role of hemodynamics in the natural history of intracranial aneurysms.

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Wall Shear Stress Distribution Inside Growing Cerebral Aneurysm

Tanoue¹,

Tateshima

Villablanca

et al. 2011

AJNR Am J Neuroradiol

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Mechanical design of an intracranial stent for treating cerebral aneurysms

Shobayashi

Tanoue

Tateshima

et al. 2010

Medical Engineering & Physics

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Intra-aneurysmal blood flow based on patient-specific CT angiogram

et al. 2010

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Pharmacological Studies on Human Urinary Kallidinogenase (SK-827) : Cerebral Protective Effects

Nagano¹,

Suzuki²,

Nakamura³

et al. 1993

YAKUGAKU ZASSHI

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Tetsuya Tanoue

CFD and PIV analysis of hemodynamics in a growing intracranial aneurysm

Wall Shear Stress Distribution Inside Growing Cerebral Aneurysm

Mechanical design of an intracranial stent for treating cerebral aneurysms

Intra-aneurysmal blood flow based on patient-specific CT angiogram

Pharmacological Studies on Human Urinary Kallidinogenase (SK-827) : Cerebral Protective Effects

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