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Ouared, R.; Chopard, B.; Stahl, B.; Rüfenacht, D.A.; Yilmaz, H.; Courbebaisse, G.
Computer physics communications, 07/2008, Letnik: 179, Številka: 1Journal Article
The lattice Boltzmann numerical method is applied to model blood flow (plasma and platelets) and clotting in intracranial aneurysms at a mesoscopic level. The dynamics of blood clotting (thrombosis) is governed by mechanical variations of shear stress near wall that influence platelets–wall interactions. Thrombosis starts and grows below a shear rate threshold, and stops above it. Within this assumption, it is possible to account qualitatively well for partial, full or no occlusion of the aneurysm, and to explain why spontaneous thrombosis is more likely to occur in giant aneurysms than in small or medium sized aneurysms.
