Journal article
Computational Fluid Dynamics of Stent-Mounted Neural Interfaces in an Idealized Cerebral Venous Sinus
W Qi, A Ooi, DB Grayden, SE John
Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society EMBS | Published : 2023
Abstract
Hemodynamic changes in stented blood vessels play a critical role in stent-associated complications. The majority of work on the hemodynamics of stented blood vessels has focused on coronary arteries but not cerebral venous sinuses. With the emergence of endovascular electrophysiology, there is a growing interest in stenting cerebral blood vessels. We investigated the hemodynamic impact of a stent-mounted neural interface inside the cerebral venous sinus. The stent was virtually implanted into an idealized superior sagittal sinus (SSS) model. Local venous blood flow was simulated. Results showed that blood flow was altered by the stent, generating recirculation and low wall shear stress (WSS..
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Grants
Awarded by Congressionally Directed Medical Research Programs
Funding Acknowledgements
Research supported by USA Department of Defense Office of the Congressionally Directed Medical Research Programs (CDMRP), EP170058; National Health and Medical Research Council of Australia (NHMRC) 2000153.