How to cite this paper
Nemavhola, F. (2017). Biaxial quantification of passive porcine myocardium elastic properties by region.Engineering Solid Mechanics, 5(3), 155-166.
Refrences
Abbasi, M., & Azadani, A. N. (2015). Leaflet stress and strain distributions following incomplete transcatheter aortic valve expansion. Journal of biomechanics, 48(13), 3663-3671.
Buckberg, G., & Nanda, N. C. (2015). Right Ventricular Changes after Left‐Sided Lesions: Underlying Cardiac Mechanics. Echocardiography, 32(5), 727-730.
Delgadillo, J. O. V., Delorme, S., Thibault, F., DiRaddo, R., & Hatzikiriakos, S. G. (2015). Large deformation characterization of porcine thoracic aortas: inverse modeling fitting of uniaxial and biaxial tests. Journal of Biomedical Science and Engineering, 8(10), 717.
Grashow, J. S., Yoganathan, A. P., & Sacks, M. S. (2006). Biaixal stress–stretch behavior of the mitral valve anterior leaflet at physiologic strain rates. Annals of biomedical engineering, 34(2), 315-325.
Hu, J. J., Chen, G. W., Liu, Y. C., & Hsu, S. S. (2014). Influence of specimen geometry on the estimation of the planar biaxial mechanical properties of cruciform specimens. Experimental Mechanics, 54(4), 615-631.
Kichula, E. T., Wang, H., Dorsey, S. M., Szczesny, S. E., Elliott, D. M., Burdick, J. A., & Wenk, J. F. (2014). Experimental and computational investigation of altered mechanical properties in myocardium after hydrogel injection. Annals of biomedical engineering, 42(7), 1546-1556.
Kortsmit, J., Davies, N. H., Miller, R., Macadangdang, J. R., Zilla, P., & Franz, T. (2013). The effect of hydrogel injection on cardiac function and myocardial mechanics in a computational post-infarction model. Computer Methods in Biomechanics and Biomedical Engineering, 16(11), 1185-1195.
Løgstrup, S., & O’Kelly, S. European Cardiovascular Disease Statistics 2012 edition. Belgium: European Heart Network and European Society of Cardiology 2012. ISBN 978-2-9537898-1-2.
Masithulela, F. (2015, November). The Effect of Over-Loaded Right Ventricle During Passive Filling in Rat Heart: A Biventricular Finite Element Model. In ASME 2015 International Mechanical Engineering Congress and Exposition (pp. V003T03A005-V003T03A005). American Society of Mechanical Engineers.
Masithulela, F. (2016a). Bi-ventricular finite element model of right ventricle overload in the healthy rat heart. Bio-Medical Materials and Engineering, 27(5), 507-525.
Masithulela, F. J. (2016b). Computational biomechanics in the remodelling rat heart post myocardial infarction (Doctoral dissertation, University of Cape Town).
Miller, R., Davies, N. H., Kortsmit, J., Zilla, P., & Franz, T. (2013). Outcomes of myocardial infarction hydrogel injection therapy in the human left ventricle dependent on injectate distribution. International journal for numerical methods in biomedical engineering, 29(8), 870-884.
Nikou, A., Dorsey, S. M., McGarvey, J. R., Gorman III, J. H., Burdick, J. A., Pilla, J. J., ... & Wenk, J. F. (2016). Computational modeling of healthy myocardium in diastole. Annals of biomedical engineering, 44(4), 980-992.
Nolan, D. R., & McGarry, J. P. (2016). On the correct interpretation of measured force and calculation of material stress in biaxial tests. Journal of the mechanical behavior of biomedical materials, 53, 187-199.
Perez, B. C., Tang, J., Morris, H. J., Palko, J. R., Pan, X., Hart, R. T., & Liu, J. (2014). Biaxial mechanical testing of posterior sclera using high-resolution ultrasound speckle tracking for strain measurements. Journal of biomechanics, 47(5), 1151-1156.
Sirry, M. S., Butler, J. R., Patnaik, S. S., Brazile, B., Bertucci, R., Claude, A., ... & Franz, T. (2016). Characterisation of the mechanical properties of infarcted myocardium in the rat under biaxial tension and uniaxial compression. Journal of the Mechanical Behavior of Biomedical Materials, 63, 252-264.
Sommer, G., Schriefl, A. J., Andrä, M., Sacherer, M., Viertler, C., Wolinski, H., & Holzapfel, G. A. (2015). Biomechanical properties and microstructure of human ventricular myocardium. Acta biomaterialia, 24, 172-192.
Tian, L., Henningsen, J., Salick, M. R., Crone, W. C., Gunderson, M., Dailey, S. H., & Chesler, N. C. (2015). Stretch calculated from grip distance accurately approximates mid-specimen stretch in large elastic arteries in uniaxial tensile tests. Journal of the mechanical behavior of biomedical materials, 47, 107-113.
Wise, P., Davies, N. H., Sirry, M. S., Kortsmit, J., Dubuis, L., Chai, C. K., ... & Franz, T. (2016). Excessive volume of hydrogel injectates may compromise the efficacy for the treatment of acute myocardial infarction. International journal for numerical methods in biomedical engineering, 32(12).
Zhang, W., Feng, Y., Lee, C. H., Billiar, K. L., & Sacks, M. S. (2015). A generalized method for the analysis of planar biaxial mechanical data using tethered testing configurations. Journal of biomechanical engineering, 137(6), 064501.
Buckberg, G., & Nanda, N. C. (2015). Right Ventricular Changes after Left‐Sided Lesions: Underlying Cardiac Mechanics. Echocardiography, 32(5), 727-730.
Delgadillo, J. O. V., Delorme, S., Thibault, F., DiRaddo, R., & Hatzikiriakos, S. G. (2015). Large deformation characterization of porcine thoracic aortas: inverse modeling fitting of uniaxial and biaxial tests. Journal of Biomedical Science and Engineering, 8(10), 717.
Grashow, J. S., Yoganathan, A. P., & Sacks, M. S. (2006). Biaixal stress–stretch behavior of the mitral valve anterior leaflet at physiologic strain rates. Annals of biomedical engineering, 34(2), 315-325.
Hu, J. J., Chen, G. W., Liu, Y. C., & Hsu, S. S. (2014). Influence of specimen geometry on the estimation of the planar biaxial mechanical properties of cruciform specimens. Experimental Mechanics, 54(4), 615-631.
Kichula, E. T., Wang, H., Dorsey, S. M., Szczesny, S. E., Elliott, D. M., Burdick, J. A., & Wenk, J. F. (2014). Experimental and computational investigation of altered mechanical properties in myocardium after hydrogel injection. Annals of biomedical engineering, 42(7), 1546-1556.
Kortsmit, J., Davies, N. H., Miller, R., Macadangdang, J. R., Zilla, P., & Franz, T. (2013). The effect of hydrogel injection on cardiac function and myocardial mechanics in a computational post-infarction model. Computer Methods in Biomechanics and Biomedical Engineering, 16(11), 1185-1195.
Løgstrup, S., & O’Kelly, S. European Cardiovascular Disease Statistics 2012 edition. Belgium: European Heart Network and European Society of Cardiology 2012. ISBN 978-2-9537898-1-2.
Masithulela, F. (2015, November). The Effect of Over-Loaded Right Ventricle During Passive Filling in Rat Heart: A Biventricular Finite Element Model. In ASME 2015 International Mechanical Engineering Congress and Exposition (pp. V003T03A005-V003T03A005). American Society of Mechanical Engineers.
Masithulela, F. (2016a). Bi-ventricular finite element model of right ventricle overload in the healthy rat heart. Bio-Medical Materials and Engineering, 27(5), 507-525.
Masithulela, F. J. (2016b). Computational biomechanics in the remodelling rat heart post myocardial infarction (Doctoral dissertation, University of Cape Town).
Miller, R., Davies, N. H., Kortsmit, J., Zilla, P., & Franz, T. (2013). Outcomes of myocardial infarction hydrogel injection therapy in the human left ventricle dependent on injectate distribution. International journal for numerical methods in biomedical engineering, 29(8), 870-884.
Nikou, A., Dorsey, S. M., McGarvey, J. R., Gorman III, J. H., Burdick, J. A., Pilla, J. J., ... & Wenk, J. F. (2016). Computational modeling of healthy myocardium in diastole. Annals of biomedical engineering, 44(4), 980-992.
Nolan, D. R., & McGarry, J. P. (2016). On the correct interpretation of measured force and calculation of material stress in biaxial tests. Journal of the mechanical behavior of biomedical materials, 53, 187-199.
Perez, B. C., Tang, J., Morris, H. J., Palko, J. R., Pan, X., Hart, R. T., & Liu, J. (2014). Biaxial mechanical testing of posterior sclera using high-resolution ultrasound speckle tracking for strain measurements. Journal of biomechanics, 47(5), 1151-1156.
Sirry, M. S., Butler, J. R., Patnaik, S. S., Brazile, B., Bertucci, R., Claude, A., ... & Franz, T. (2016). Characterisation of the mechanical properties of infarcted myocardium in the rat under biaxial tension and uniaxial compression. Journal of the Mechanical Behavior of Biomedical Materials, 63, 252-264.
Sommer, G., Schriefl, A. J., Andrä, M., Sacherer, M., Viertler, C., Wolinski, H., & Holzapfel, G. A. (2015). Biomechanical properties and microstructure of human ventricular myocardium. Acta biomaterialia, 24, 172-192.
Tian, L., Henningsen, J., Salick, M. R., Crone, W. C., Gunderson, M., Dailey, S. H., & Chesler, N. C. (2015). Stretch calculated from grip distance accurately approximates mid-specimen stretch in large elastic arteries in uniaxial tensile tests. Journal of the mechanical behavior of biomedical materials, 47, 107-113.
Wise, P., Davies, N. H., Sirry, M. S., Kortsmit, J., Dubuis, L., Chai, C. K., ... & Franz, T. (2016). Excessive volume of hydrogel injectates may compromise the efficacy for the treatment of acute myocardial infarction. International journal for numerical methods in biomedical engineering, 32(12).
Zhang, W., Feng, Y., Lee, C. H., Billiar, K. L., & Sacks, M. S. (2015). A generalized method for the analysis of planar biaxial mechanical data using tethered testing configurations. Journal of biomechanical engineering, 137(6), 064501.