Biomedical Engineering Reference
In-Depth Information
References
1. Prestigiacomo, C.J.: Surgical endovascular neuroradiology in the 21st century: what lies
ahead? Neurosurgery 59, 48-55 (2006)
2. Parodi, J.C., Mura, R.L., Ferreira, L.M., Mendez, M.V., Cersosimo, H., Schonholz, C.: Initial
evaluation of carotid angioplasty and stenting with three different cerebral protection devices.
J. Vasc. Surg. 32(6), 1127-1136 (2000)
3. Steinman, D., Milner, J., Norley, C.J., Lownie, S.P., Holdsworth, D.W.: Image-based compu-
tational simulation of flow dynamics in a giant intracranial aneurysm. Am. J. Neuroradiol. 24,
559-566 (2003)
4. Blanco, P.J., Pivello, M., Feijoo, R., Urquiza, S.: Sensitivity of blood flow at the carotid artery
to the heart inflow boundary condition. Comput. Methods Appl. Mech. Eng. 196, 4391-4410
(2007)
5. Duraiswamy, N., Schoephoerster, R.T., Moreno, M.R., Moore, J.E.: Stented artery flow
patterns and their effects on the artery wall. Annu. Rev. Fluid Mech. 39, 357-382 (2007)
6. Ho, H., Mithraratne, K., Schmid, H., Sands, G., Hunter, P.: Computer simulation of vertebral
artery occlusion in endovascular procedures. Int. J. Comput. Assist. Radiol. Surg. 5(1), 29-37
(2010)
7. Alastruey, J., Parker, K., Peiro, J., Byrd, S., Sherwin, S.: Modelling the circle of Willis to
assess the effects of anatomical variations and occlusions on cerebral flows. J. Biomech. 40,
1794-1805 (2007)
8. Smith, N.P., Pullan, A.J., Hunter, P.J.: An anatomically based model of transient coronary
blood flow in the heart. SIAM J. Appl. Math. 62(3), 990-1018 (2001)
9. Xie, W., Thompson, R.P., Perucchio, R.: A topology-preserving parallel 3D thinning algo-
rithm for extracting the curve skeleton. Pattern Recogn. 36(7), 1529-1544 (July 2003)
10. Anderson, J.D.: Computational fluid dynamics: the basics with applications. McGraw-Hill,
Inc., USA (1995)
11. Ho, H., Mithraratne, K., Mabotuwana, T., Hunter, P.: A software tool for hemodynamics
modeling in large vasculatures. In: World congress on medical physics and biomedical
engineering, IFMBE Proceedings 25/IV. pp. 97-100 (2009)
12. Schierling, W., Troidl, K., Mueller, C., Troidl, C., Wustrack, H., Bachmann, G., Kasprzak, P.
M., Schaper, W., Schmitz-Rixen, T.: Increased intravascular flow rate triggers cerebral
arteriogenesis. J. Cereb. Blood Flow Metab. 29(4), 726-737 (2009)
13. Wu, X., Allard, J., Cotin, S.: Real-time modeling of vascular flow for angiography simulation.
In: Proceedings of the 10th international conference on medical image computing and com-
puter-assisted intervention—Volume Part I. Springer, Brisbane, pp. 557-565 (2007)
