References

This section lists texts and papers that are referenced in this guide.

  1. Abaqus Analysis Guide, Dassault Systèmes Simulia Corp.
  2. Abaqus Benchmarks Guide, Dassault Systèmes Simulia Corp.
  3. Abaqus Materials Guide, Dassault Systèmes Simulia Corp.
  4. Abaqus Verification Guide, Dassault Systèmes Simulia Corp.
  5. Baillargeon, B., I. Costa, J. R. Leach, L. C. Lee, M. Genet, A. Toutain, J. F. Wenk, M. K. Rausch, N. Rebelo, G. Acevedo-Bolton, E. Kuhl, J. L. Navia, and J. M. Guccione, “Human Cardiac Function Simulator for the Optimal Design of a Novel Annuloplasty Ring with a Sub-Valvular Element for Correction of Ischemic Mitral Regurgitation,” Cardiovascular Engineering and Technology, Submitted.
  6. Bordas, R. M., K. Gillow, D. Gavaghan, B. Rodríguez, and D. Kay. "A Bidomain Model of the Ventricular Specialized Conduction System of the Heart," SIAM Journal on Applied Mathematics 72 (5), pp. 1618–1643.
  7. Conduction System Tutorial: Gap Junctions (Cell-to-Cell Conduction), http://www.vhlab.umn.edu/atlas/conduction-system-tutorial/gap-junctions.shtml.
  8. euHeart, Final Project Report, 2007, http://www.euheart.eu/fileadmin/system/euheart/documents/euHeart_report.pdf.
  9. Genet, M., L. C. Lee, E. Kuhl, and J. Guccione, "Abaqus/Standard-Based Quantification of Human Cardiac Mechanical Properties," SIMULIA Community Conference, Providence, Rhode Island, May 2014.
  10. Holzapfel, G. A., and R. W. Ogden, “Constitutive Modelling of Passive Myocardium: A Structurally Based Framework for Material Characterization,” Philosophical Transactions of the Royal Society A (2009) 367, pp. 3445–3475.
  11. Hurtado, DE., and E. Kuhl, “Computational Modeling of Electrocardiograms: Repolarization and T-Wave Polarity in the Human Heart,” Computer Methods in Biomechanics and Biomedical Engineering (2012): 1–11.
  12. Klingensmith, M. E., L. E. Chen, S. C. Glasgow, T. A. Goers, and S. J. Melby, The Washington Manual of Surgery, 5th ed, Lippincott Williams & Wilkins, 2005.
  13. Kotikanyadanam, M., S. Gӧktepe, and E. Kuhl, “Computational Modeling of Electrocardiograms: A Finite Element Approach Toward Cardiac Excitation,” International Journal for Numerical Methods in Biomedical Engineering, 2010 (26), pp. 524–533.
  14. Kunzelman, K.S., and R. P. Cochran, "Mechanical Properties of Basal and Marginal Mitral Valve Chordae Tendineae," ASAIO Transactions, 1990 Jul-Sep;36(3), pp. M405-8.
  15. Marcelli, E., L. Cercenelli, M. Musaico, and P. Bagnoli, “Assessment of Cardiac Rotation by Means of Gyroscopic Sensors,” Computers in Cardiology, 2008 (35), pp. 389–392.
  16. May-Newman, K., and F. C. Yin, "Biaxial Mechanical Behavior of Excised Porcine Mitral Valve Leaflets," American Journal of Physiology, 1995 (269), pp. H1319–H1327.
  17. Mourad, P. D., and S. G. Kargl, "Acoustic Properties of Fluid-Saturated Blood Clots," Technical Report, University of Washington, APL-UW TR 2003 (2003), pp. 7.
  18. Mulroney, S., and A. K. Myers, Netter’s Essential Physiology, 2009, Elsevier.
  19. "Normal Hemodynamic Parameters and Laboratory Values," Edwards Lifesciences, http://ht.edwards.com/scin/edwards/fr/sitecollectionimages/edwards/products/presep/ar04313hemodynpocketcard.pdf.
  20. Phibbs, B., The Human Heart: A Basic Guide to Heart Disease, 2nd ed, Lippincott Williams & Wilkins. 2007.
  21. Pilla, J. J., J. H. Gorman, and R. C. Gorman, “Theoretic Impact of Infarct Compliance on Left Ventricle Function,” The Annals of Thoracic Surgergy, 2009, 87(3), pp. 803–810.
  22. Prot, V., R. Haaverstad, and B. Skallerud, “Finite Element Analysis of the Mitral Apparatus: Annulus Shape Effect and Chordal Force Distribution,” Biomech Model Mechanobiol (2009) 8, pp. 43–55.
  23. Rogers, W. J., E. P. Shapiro, J. L. Weiss, M. B. Buchalter, F. E. Rademakers, M. L. Weisfeldt, and E. A. Zerhouni, “Quantification of and Correction for Left Ventricular Systolic Long-Axis Shortening by Magnetic Resonance Tissue Tagging and Slice Isolation,” Circulation (1991) 84:2, pp. 721–731.
  24. Sahli Costabal, F,. DE Hurtado, and E. Kuhl, " Generating Purkinje Networks in the Human Heart," Journal of Biomechanics 2016 (49), pp. 2455–2465.
  25. Streeter, D. D., H. M. Spotnitz, D. P. Patel, J. Hoss, and E. H. Sonnenblick, “Fiber Orientation in the Canine Left Ventricle during Diastole and Systole,” Circulation Research, 1969 (24), pp. 339–347.
  26. Walker, J. C., M. B. Ratcliffe, P. Zhang, A. W. Wallace, B. Fata, E. Hsu, D. Saloner, and J. Guccione, “MRI-Based Finite-Element Analysis of Left Ventricular Aneurysm,” American Journal of Physiology, Heart and Circulatory Physiology (2005) 289, H692–H700.