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Hemodynamic Analysis Shows High Wall Shear Stress Is Associated with Intraoperatively Observed Thin Wall Regions of Intracranial Aneurysms

Sricharan S. Veeturi, Tatsat R. Patel, Ammad A. Baig, Aichi Chien, André Monteiro, Muhammad Waqas, Kenneth V. Snyder, Adnan H. Siddiqui, Vincent M. Tutino

2022Journal of Cardiovascular Development and Disease18 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Studying the relationship between hemodynamics and local intracranial aneurysm (IA) pathobiology can help us understand the natural history of IA. We characterized the relationship between the IA wall appearance, using intraoperative imaging, and the hemodynamics from CFD simulations. METHODS: Three-dimensional geometries of 15 IAs were constructed and used for CFD. Two-dimensional intraoperative images were subjected to wall classification using a machine learning approach, after which the wall type was mapped onto the 3D surface. IA wall regions included thick (white), normal (purple-crimson), and thin/translucent (red) regions. IA-wide and local statistical analyses were performed to assess the relationship between hemodynamics and wall type. RESULTS: Thin regions of the IA sac had significantly higher WSS, Normalized WSS, WSS Divergence and Transverse WSS, compared to both normal and thick regions. Thicker regions tended to co-locate with significantly higher RRT than thin regions. These trends were observed on a local scale as well. Regression analysis showed a significant positive correlation between WSS and thin regions and a significant negative correlation between WSSD and thick regions. CONCLUSION: were associated with thin regions of the IA wall rather than thick and normal regions.

Topics & Concepts

HemodynamicsShear stressMedicineInternal medicineCardiologyMechanicsPhysicsIntracranial Aneurysms: Treatment and ComplicationsMeningioma and schwannoma managementCerebrospinal fluid and hydrocephalus