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Computational Modeling and Simulation Examples in Bioengineering


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      112 112 Figueroa, C.A., Taylor, C.A., Chiou, A.J. et al. (2009). Magnitude and direction of pulsatile displacement forces acting on thoracic aortic endografts. J. Endovasc. Ther. 16: 350–358.

      113 113 Filipovic, N., Rosic, M., Tanaskovic, I. et al. (2012). ARTreat project: Three‐dimensional numerical simulation of plaque formation and development in the arteries. IEEE Trans. Inf. Technol. Biomed. 16 (2): 272–278.

      114 114 Filipovic, N. and Schima, H. (2011). Numerical simulation of the flow field within the aortic arch during cardiac assist. Artif. Organs 35 (4): 73–83.

      115 115 Veljkovic, D., Filipovic, N., and Kojic, M. (2012). The effect of asymmetry and axial prestraining on the amplitude of mechanical stresses in abdominal aortic aneurysm. J. Mech. Med. Biol. 12 (5): 1250089.

      116 116 Krsmanovic, D., Koncar, I., Petrovic, D. et al. (2012). Computer modelling of maximal displacement forces in endoluminal thoracic aortic stent graft. Comput. Methods Biomech. Biomed. Eng. 17 (9): 1012–1020.

      117 117 Hastie, T., Tibshirani, R., and Friedman, J. (2008). The Elements of Statistical Learning: Data Mining, Inference, and Prediction, Springer Series in Statistics, 2e. New York, NY, USA: Springer.

      118 118 Kolachalama, V.B., Bressloff, N.W., and Nair, P.B. (2007). Mining data from hemodynamic simulations via Bayesian emulation. Biomed. Eng. Online 6: 47.

      119 119 Martufi, G., DiMartino, E.S., Amon, C.H. et al. (2009). Three‐dimensional geometrical characterization of abdominal aortic aneurysms: image‐based wall thickness distribution. J. Biomech. Eng. 131 (6): 061015.

      120 120 Shum, J., Martufi, G., di Martino, E. et al. (2011). Quantitative assessment of abdominal aortic aneurysm geometry. Ann. Biomed. Eng. 39 (1): 277–286.

      121 121 Filipovic, N., Ivanovic, M., Krstajic, D., and Kojic, M. (2011). Hemodynamic flow modeling through an abdominal aorta aneurysm using data mining tools. IEEE Trans. Inf. Technol. Biomed. 15 (2): 189–194.

      122 122 Pannu, H., Fadulu, V.T., Chang, J. et al. (2005). Mutations in transforming growth factor‐beta receptor type II cause familial thoracic aortic aneurysms and dissections. Circulation 112: 513–520.

      123 123 Zhu, L., Vranckx, R., Van Kien, P.K. et al. (2006). Mutations in myosin heavy chain 11 cause a syndrome associating thoracic aortic aneurysm/aortic dissection and patent ductus arteriosus. Nat. Genet. 38: 343–349.

      124 124 Renard, M., Callewaert, B., Baetens, M. et al. (2013). Novel MYH11 and ACTA2 mutations reveal a role for enhanced TGFß signaling in FTAAD. Int. J. Cardiol. 165 (2): 314–321.

      125 125 Guo, D.C., Pannu, H., Tran‐Fadulu, V. et al. (2007). Mutations in smooth muscle alpha‐actin (ACTA2) lead to thoracic aortic aneurysms and dissections. Nat. Genet. 39: 1488–1493.

      126 126 van de Laar, I.M.B.H., Oldenburg, R.A., Pals, G. et al. (2011). Mutations in SMAD3 cause a syndrome form of aortic aneurysms and dissections with early‐onset osteoarthritis. Nat. Genet. 43: 121–126.

      127 127 Ku, D.N. (1997). Blood flow in arteries. Annu. Rev. Fluid Mech. 29: 399–434.

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