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>CHARACTERIZING FLOW IN THE VERTEBRO-BASILAR SYSTEM USING MR IN CONJUNCTION WITH SUBJECT-SPECIFIC COMPUTATIONAL MODELS
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CHARACTERIZING FLOW IN THE VERTEBRO-BASILAR SYSTEM USING MR IN CONJUNCTION WITH SUBJECT-SPECIFIC COMPUTATIONAL MODELS
Coronary artery bypass graft failure is often a consequence of intimal hyperplasia (IH), which correlates with hemodynamic factors (e.g., wall shear stress); this relationship has been used to evaluate arterial graft design [e.g., 1-4]. The vertebro-basilar system is a native arterial merge (i.e., two arteries, the vertebrals, converge into a single artery, the basilar artery); thus, characterizing the flow field of this system in healthy subjects could be useful for early detection of anomalies (e.g., aneurysms) or for vascular graft design improvements to ensure graft/vessel patency. This study uses high field MR and phase contrast MR (PCMR) to investigate the hemodynamics of the vertebro-basilar system in a healthy, adult subject for predicting pathophysiologically-relevant flow patterns (e.g., low wall shear stress) that are related to IH and subsequent graft failure.
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