Biomedical Engineering Reference
In-Depth Information
18. Quarteroni, A.M., Valli, A.:
Numerical Approximation of Partial Differential Equations.
Springer, Berlin (2008)
19. Ramalho, S., Moura, A., Gambaruto, A.M., Sequeira, A.: Sensitivity to outflow boundary
conditions and level of geometry description for a cerebral aneurysm.
Int. J. Numer. Meth.
Biomed. Eng.
28
(6-7), 697-713 (2012)
20. Rinkel, G.J.E., Djibuti, M., Algra, A., Van Gijn, J.: Prevalence and risk of rupture of intracranial
aneurysms: A systematic review. Stroke
29
(1), 251 (1998)
21. Robertson, A.M.: Review of Relevant Continuum Mechanics. In: Galdi, G.P., Rannacher, R.,
Robertson, A.M., Turek, S. (eds.) Hemodynamical Flows: Modeling, Analysis and Simulation,
pp. 1-62. Birkhauser, Boston (2008)
22. Robertson, A.M., Sequeira, A., Kameneva, M.V.: Hemorheology. In Galdi, G.P., Rannacher,
R., Robertson, A.M., Turek, S., editors, Hemodynamical Flows: Modeling, Analysis and
Simulation, pages 63-120. Birkhauser, Boston (2008)
23. Sazonov, I., Yeo, S.Y., Bevan, R.L.T., Xie, X., van Loon, R., Nithiarasu, P.: Modelling pipeline
for subject-specific arterial blood flow - a review. Int. J. Numer. Meth. Biomed. Eng. (2011)
DOI: 10.1002/cnm.1446.
24. Sequeira, A., Janela, J.: An overview of some mathematical models of blood rheology. In:
Pereira, M.S. (ed.) A Portrait of Research at the Technical University of Lisbon, pp. 65-87.
Springer, Berlin (2007)
25. Sequeira, A., Moura, A., Janela, J.: Towards a geometrical multiscale approach to non-
Newtonian blood flow simulations. In: Sequeira, A., Rannacher, R. (eds.) Advances in
Mathematical Fluid Mechanics - dedicated to G.P. Galdi on his 60th birthday, chapter 295-
309. Springer, Berlin (2009)
26. Sezgin, M., Sankur, B.: Survey over image thresholding techniques and quantitative perfor-
mance evaluation. J. Electron. Imag.
13
(1), 146-165 (2004)
27. Tu, C., Deville, M.:
Pulsatile flow of non-Newtonian fluids through arterial stenosis.
J.
Biomech.
29
(7), 899-908 (1996)
28. Wulandana, R., Robertson, A.M.: An inelastic multi-mechanism constitutive equation for
cerebral arterial tissue. Biomech. Model. Mechanobiol.
4
(4), 235-248 (2005)
Search WWH ::
Custom Search