Page 147 - Computational Modeling in Biomedical Engineering and Medical Physics
P. 147
136 Computational Modeling in Biomedical Engineering and Medical Physics
Aranson, I.S., Kramer, L., 2002. The world of the complex Ginzburg-Landau equation. Rev. Mod.
Phys. 74, 99 143.
Arts, T., Kruger, R.T., van Gerven, W., Lambregts, J.A., Reneman, R.S., 1979. Propagation velocity
and reflection of pressure waves in the canine coronary Artery. Am. J. Physiol. Heart Circ. Physiol.
237 (4), 469 474.
Ashraf, T., Panhwar, Z., Habib, S., Memon, M.A., Shamsi, F., Arif, J., 2010. Size of radial and ulnar
artery in local population. J. Pak. Med. Assoc. 60 (10), 817 819.
Bangash, M.Y.H., Bangash, F.N., Bangash, T., 2007. Trauma. An Engineering Analysis with Medical
Case Studies Investigation. Springer, ISBN 3-540-36305-X.
Bär, M., Gottschalk, N., Eiswirth, M., Ertl, G., 1994. Spiral waves in a surface reaction: model calcula-
tions. J. Chem. Phys. 100 (2), 1202 1214.
Baran, I.M., Savastru, C., 2017. Procedure for assessing normality in small size samples of physiological
data. U.P.B. Sci. Bull., Ser. C. 79 (1), 161 172.
Beeler, G.W., Reuter, H., 1977. Reconstruction of the action potential of ventricular myocardial fibres.
J. Physiol. 268 (1), 177 210.
Benetos, A., Gautier, S., Labat, C., Salvi, P., Valbusa, F., Marino, F., et al., 2012. Mortality and cardio-
vascular events are best predicted by low central/peripheral pulse pressure amplification but not by
high blood pressure levels in elderly nursing home subjects. J. Am. Coll. Cardiol 60 (16),
1503 1511.
Bergé, P., Pomeau, Y., 1984. Vidal Ch., Order out of Chaos. Towards a Deterministic Approach to
Turbulence. John Wiley & Sons, New York, Hermann, Paris.
Berne, R.M., Levy, M.N., Koeppen, B.M., Stanton, B.A. (Eds.), 1998. Physiology. fourth ed. Mosby Inc.
Boulakia, M., Fernandez, M.A., Gerbeau, J.F., Zemzemi, N., 2008. Direct and inverse problems in
electrocardiography. AIP Conf. Proc. 1048, 113. Available from: https://doi.org/10.1063/
1.2990868.
Boulakia, M., Genadot, A., Thieullen, M., 2015. Simulation of SPDEs for excitable media using finite
elements. J. Sci. Comput. 65, 171 195.
Bronzino, J.D., 2004. The Biomedical Engineering Handbook second ed., vol. 1. CRC Press LLC,
pp. 1174 1213.
Burnes, J.E., Taccardi, B., Rudy, Y., 2000. A noninvasive imaging modality for cardiac arrhythmias.
Circulation 102, 2152 2158.
Bürger, R., Ruiz-Baier, R., Schneider, K., 2010. Adaptive multiresolution methods for the simulation of
waves in excitable media. J. Sci. Comput. 43, 261 290.
Capasso, J.M., Malhotra, A., Remily, R.M., Scheuer, J., Sonnenblick, E.H., 1983. Effects of age on
mechanical and electrical performance of rat myocardium. Am. J. Physiol. Heart Circ. Physiol. 245
(1), H72 H81.
Carvalhaes, C., de Barros, J.A., 2014. The surface laplacian technique in EEG: theory and methods.
I. J. Psychophysiol. Available from: https://arxivorg/abs/1406.0458.
Chami, H.A., Keyes, M.J., Vita, J.A., Mitchell, G.F., Larson, M.G., Fan, S., et al., 2009. Brachial artery
diameter, blood flow and flow-mediated dilation in sleep-disordered breathing. Vasc. Med. 14,
351 360.
Chantarangsi, W., Liu, W., Bretz, F., Kiatsupaibul, S., Hayter, A., Wan, F., 2015. Normal probability
plots with confidence. Biometrical J. 57, 52 63.
Chen, C.-H., Nevo, E., Fetics, B., Pak, P.H., Yin, F.C.P., Lowell Maughan, W., et al., 1997. Estimation
of central aortic pressure waveform by mathematical transformation of radial tonometry pressure.
Validation of generalized transfer function. Circulation 95 (7), 1827 1836.
Chen, J.-X., Xiao, J., Qiao, L.-Y., Xu, J.-R., 2018. Dynamics of scroll waves with time-delay propaga-
tion in excitable media. Commun. Nonlinear Sci. Numer. Simulat. 59, 331 337.
Cheng, H.-M., Lang, D., Tufanarau, C., Pearson, A., 2013. Measurement accuracy of non-invasively
obtained central blood pressure by applanation tonometry: a systematic review and meta-analysis. Int.
J. Cardiol. 167, 1867 1876.
Chialvo, D.R., Gilmour, R.F., Jalife, J., 1990. Low dimensional chaos in cardiac tissue. Nature 343,
653 657.
