Alvaro Valencia, Hernan Figueroa, Rodrigo Rivera, Eduardo Bravo
[1] Schievink, W.I., 1997. Intracranial aneurysms. TheNew England Journal of Medicine, 336, 28-40. [2] MacDonald, D., Finlay, H., and Canham, P., 2000.Directional wall strength in saccular brain aneurysmsfrom polarized light microscopy. Annals of BiomedicalEngineering, 28, 533-542. [3] Frösen, J., Piippo, A., Paetau, A., Kangasniemi, M.,Niemelä, M., Hernesniemi, J., Jääskeläinen, J., 2004.Remodeling of sccular cerebral artery aneurysm wall isassociated with rupture-Histological analysis of 24unruptured and 42 ruptured cases. Stroke, 35, 2287-2293. [4] Seshaiyer, P., Hsu, F., Shah, A., Kyriacou, S.,Humphrey, J., 2001. Multiaxial mechanical behavior ofhuman saccular aneurysms. Computer Methods inBiomechanics and Biomedical Engineering, 4, 281-289. [5] Scott, S., Ferguson, G, Roach, M., 1972.Comparison of the elastic properties of humanintracranial arteries and aneurysms. Canadian Journal ofPhysiology and Pharmacology, 50, 328-332. [6] Tóth, B., Raffai, G., Bojtár, I., 2005. Analysis of themechanical parameters of human brain aneurysm. Actaof Bioengineering and Biomechanics, 7, 3-23. [7] Monson, K., Goldsmith, W., Barbaro, N., Manley,G., 2003. Axial mechanical properties of fresh humancerebral blood vessels. Journal of BiomechanicalEngineering, 125, 288-294. [8] Hsiai T., Cho S., Honda H., Hama S., Navab M.,Demer L., and Ho C., 2002. Endothelial cell dynamicsunder pulsating flows: significance of high versus lowshear stress slew rates (∂τ/∂t). Annals of BiomedicalEngineering, 30, 646-656. [9] Ujiie, H., Tachibana, H., Hiramatsu, O., Hazel, A.,Matsumoto, T., Ogasawara, Y., Nakajima, H., Hori, T.,Takakura, K., and Kajiya, F., 1999. Effects of size and624shape (aspect ratio) on the hemodynamics of saccularaneurysms: a possible index for surgical treatment ofintracranial aneurysms. Neurosurgery, 45, pp.119-130. [10] Chatziprodromou, I., Tricoli, A., Poulikakos, D.,Ventikos, Y., 2007. Haemodynamics and wallremodelling of a growing cerebral aneurysm: Acomputational model. Journal of Biomechanics, 40,412-426. [11] Pentimalli, L., Modesti, A., Vignati, A., Marchese,E., Albanese, A., Di Rocco, F., Coletti, A., Di Nardo, P.,Fantini, C., Tirpakova, B., Maira, G., 2004. Role ofapoptosis in intracranial aneurysm rupture, Journal ofNeurosurgery, 101, 1018-1025. [12] Torii, R., Oshima, M., Kobayashi, T., Takagi, K.,2007. Numerical investigation of the effect ofhypertensive blood pressure on cerebral aneurysm-Dependence of the effect on aneurysm shape.International Journal for Numerical Methods in Fluids,54, 995-1009. [13] Torii, R., Oshima, M., Kobayashi, T., Takagi, K.Tezduyar, T. 2010. Influence of wall thickness on fluid-structure interaction computations of cerebralaneurysms. International Journal for NumericalMethods in Biomedical Engineering, 26, 336-347. [14] Valencia A., Ledermann D., Rivera R., Bravo E.,Galvez M., 2008. Blood flow dynamics and fluid-structure interaction in patient-specific bifurcatingcerebral aneurysms. International Journal for NumericalMethods in Fluids, 58, 1081-1100. [15] Oshima, M., Torii, R., 2006. Numerical evaluationof elastic models in blood flow-arterial wall interaction.International Journal of Computational Fluid Dynamics,20, 223-228. [16] Valencia, A., Muñoz, F., Araya, S., Rivera, R.,Bravo, E. 2009. Comparison between computationalfluid dynamics, fluid-structure interaction andcomputational structural dynamics predictions of flow-induced wall mechanics in an anatomically realisticcerebral aneurysm model. International Journal ofComputational Fluid Dynamics, 23, 649-666. [17] ADINA, Theory and Modeling Guide. Volume I,III. ADINA R & D, Inc. Watertown, MA, USA, 2004. [18] Johnston B., Johnston P., Corney S., Kilpatrick D.,2004. Non-Newtonian blood flow in human rightcoronary arteries: steady state simulations. Journal ofBiomechanics, 37, pp. 709-720. [19] Humphrey, J., Canham, P., 2000. Structure,mechanical properties, and mechanics of intracranialsaccular aneurysms. Journal of Elasticity, 61, 49-81. [20] Delfino, A., Stergiopulos, N., Moore, J., Meister, Jrand J., 1997. Residual strain effects on the stress field ina thick wall finite element model of the human carotidbifurcation, Journal of Biomechanics, 30, 777-786. [21] Zamir, M., 2000. The physics of pulsatile flow,Springer-Verlag, New York.
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