Finite Element Analysis of Patient-Specific Mitral Valve with Mitral Regurgitation
Tóm tắt
Từ khóa
Tài liệu tham khảo
Acker, M. A., M. K. Parides, L. P. Perrault, et al. Mitral-valve repair versus replacement for severe ischemic mitral regurgitation. N. Engl. J. Med. 370:23–32, 2014.
Bothe, W., J. P. Kvitting, J. C. Swanson, et al. How do annuloplasty rings affect mitral leaflet dynamic motion? Eur. J. Cardiothorac. Surg. 38:340–349, 2010.
Choi, A., Y. Rim, J. S. Mun, and H. Kim. A novel finite element-based patient-specific mitral valve repair: virtual ring annuloplasty. Biomed. Mater. Eng. 24:341–347, 2014.
Ciarka, A., J. Braun, V. Delgado, et al. Predictors of mitral regurgitation recurrence in patients with heart failure undergoing mitral valve annuloplasty. Am. J. Cardiol. 106:395–401, 2010.
de Oliveira, J., and M. J. Antunes. Mitral valve repair: better than replacement. Heart 92:275–281, 2006.
Dudzinski, D. M., and J. Hung. Echocardiographic assessment of ischemic mitral regurgitation. Cardiovasc. Ultrasound. 12:46, 2014.
Gasser, T. C., R. W. Ogden, and G. A. Holzapfel. Hyperelastic modelling of arterial layers with distributed collagen fibre orientations. J. R. Soc. Interface 3:15–35, 2006.
Glower, D. D. Surgical approaches to mitral regurgitation. J. Am. Coll. Cardiol. 60:1315–1322, 2012.
Gogoladze, G., S. L. Dellis, R. Donnino, et al. Analysis of the mitral coaptation zone in normal and functional regurgitant valves. Ann. Thorac. Surg. 89:1158–1161, 2010.
Goldstein, D., A. J. Moskowitz, A. C. Gelijns, et al. Two-year outcomes of surgical treatment of severe ischemic mitral regurgitation. N. Engl. J. Med. 374:344–353, 2016.
Holzapfel, G. A., T. C. Gasser, and R. W. Ogden. A new constitutive framework for arterial wall mechanics and a comparative study of material models. J. Elast. Phys. Sci. Solids. 61:1–48, 2000.
Jensen, M. O., H. Jensen, M. Smerup, et al. Saddle-shaped mitral valve annuloplasty rings experience lower forces compared with flat rings. Circulation 118:S250–255, 2008.
Jimenez, J. H., D. D. Soerensen, Z. He, S. He, and A. P. Yoganathan. Effects of a saddle shaped annulus on mitral valve function and chordal force distribution: an in vitro study. Ann. Biomed. Eng. 31:1171–1181, 2003.
Jimenez, J. H., D. D. Soerensen, Z. He, J. Ritchie, and A. P. Yoganathan. Mitral valve function and chordal force distribution using a flexible annulus model: an in vitro study. Ann. Biomed. Eng. 33:557–566, 2005.
Kunzelman, K. S., R. P. Cochran, E. D. Verrier, and R. C. Eberhart. Anatomic basis for mitral valve modelling. J. Heart Valve Dis. 3:491–496, 1994.
Kunzelman, K. S., M. S. Reimink, and R. P. Cochran. Flexible versus rigid ring annuloplasty for mitral valve annular dilatation: a finite element model. J. Heart Valve Dis. 7:108–116, 1998.
Laing, G., and P. E. Dupont. Beating-heart mitral valve chordal replacement. Conf. Proc. 2476–2479:2011, 2011.
Lam, J. H., N. Ranganathan, E. D. Wigle, and M. D. Silver. Morphology of the human mitral valve. I. Chordae tendineae: a new classification. Circulation 41:449–458, 1970.
Lee, C.-H., P. J. A. Oomen, J. P. Rabbah et al. In: Functional Imaging and Modeling of the Heart. Proceedings of the 7th International Conference, FIMH 2013, London, UK, June 20–22, 2013, edited by O. Sébastien, D. Rueckert, and N. Smith. Springer, Heidelberg, 2013, pp. 416–424.
Liang, L., Kong, F., Martin, C. et al. Machine learning-based 3-D geometry reconstruction and modeling of aortic valve deformation using 3-D computed tomography images. Int. J. Numer. Methods Biomed. Eng. 2016. doi: 10.1002/cnm.2827 .
Magne, J., P. Pibarot, F. Dagenais, et al. Preoperative posterior leaflet angle accurately predicts outcome after restrictive mitral valve annuloplasty for ischemic mitral regurgitation. Circulation 115:782–791, 2007.
Maisano, F., A. Redaelli, M. Soncini, et al. An annular prosthesis for the treatment of functional mitral regurgitation: finite element model analysis of a dog bone-shaped ring prosthesis. Ann. Thorac. Surg. 79:1268–1275, 2005.
Mansi, T., I. Voigt, E. Assoumou Mengue, et al. Towards patient-specific finite-element simulation of MitralClip procedure. Med. Image Comput. Comput. Assist. Interv. 14:452–459, 2011.
Mansi, T., I. Voigt, B. Georgescu, et al. An integrated framework for finite-element modeling of mitral valve biomechanics from medical images: application to MitralClip intervention planning. Med. Image Anal. 16:1330–1346, 2012.
McGee, Jr, E. C., A. M. Gillinov, E. H. Blackstone, et al. Recurrent mitral regurgitation after annuloplasty for functional ischemic mitral regurgitation. J. Thorac. Cardiovas. Surg. 128:916–924, 2004.
Nicolini, F., A. Agostinelli, A. Vezzani, et al. Surgical treatment for functional ischemic mitral regurgitation: current options and future trends. Acta Biomed. 86:17–26, 2015.
Nielsen, S. L., H. Nygaard, A. A. Fontaine, et al. Chordal force distribution determines systolic mitral leaflet configuration and severity of functional mitral regurgitation. J. Am. Coll. Cardiol. 33:843–853, 1999.
Pham, T. M., M. DeHerrera and W. Sun In: mechanics of biological systems and materials, volume 2. Proceedings of the 2011 Annual Conference on Experimental and Applied Mechanics, edited by Tom Proulx. Springer, New York, 2011, pp. 1–10.
Pham, T., and W. Sun. Material properties of aged human mitral valve leaflets. J. Biomed. Mater. Res. A. 102:2692–2703, 2014.
Piérard, L. A., and B. A. Carabello. Ischaemic mitral regurgitation: pathophysiology, outcomes and the conundrum of treatment. Eur. Heart J. 31:2996–3005, 2010.
Rushmer, R. F., B. L. Finlayson, and A. A. Nash. Movements of the mitral valve. Circ. Res. 4:337–342, 1956.
Sakai, T., Y. Okita, Y. Ueda, et al. Distance between mitral anulus and papillary muscles: anatomic study in normal human hearts. J. Thorac. Cardiovasc. Surg. 118:636–641, 1999.
Skallerud, B., V. Prot, and I. S. Nordrum. Modeling active muscle contraction in mitral valve leaflets during systole: a first approach. Biomech. Model. Mechanobiol. 10:11–26, 2011.
Stevanella, M., F. Maffessanti, C. Conti, et al. Mitral valve patient-specific finite element modeling from cardiac MRI: application to an annuloplasty procedure. Cardiovasc. Eng. Technol. 2:66–76, 2011.
Sun, W., and M. S. Sacks. Finite element implementation of a generalized Fung-elastic constitutive model for planar soft tissues. Biomech. Model. Mechanobiol. 4:190–199, 2005.
Tahta, S. A., J. H. Oury, J. M. Maxwell, S. P. Hiro, and C. M. Duran. Outcome after mitral valve repair for functional ischemic mitral regurgitation. J. Heart Valve Dis. 11:11–18, 2002; (discussion 18–19).
Taramasso, M., and F. Maisano. Valvular disease: functional mitral regurgitation: should all valves be replaced? Nat. Rev. Cardiol. 13:65–66, 2016.
Trichon, B. H., G. M. Felker, L. K. Shaw, C. H. Cabell, and C. M. O’Connor. Relation of frequency and severity of mitral regurgitation to survival among patients with left ventricular systolic dysfunction and heart failure. Am. J. Cardiol. 91:538–543, 2003.
Votta, E., F. Maisano, S. F. Bolling, et al. The geoform disease-specific annuloplasty system: a finite element study. Ann. Thorac. Surg. 84:92–101, 2007.
Wang, Q., C. Primiano, and W. Sun. Can isolated annular dilatation cause significant ischemic mitral regurgitation? Another look at the causative mechanisms. J. Biomech. 47:1792–1799, 2014.
Wang, Q., and W. Sun. Finite element modeling of mitral valve dynamic deformation using patient-specific multi-slices computed tomography scans. Ann. Biomed. Eng. 41:142–153, 2013.
Wong, V. M., J. F. Wenk, Z. Zhang, et al. The effect of mitral annuloplasty shape in ischemic mitral regurgitation: a finite element simulation. Ann. Thorac. Surg. 93:776–782, 2012.
Yellin, E. L., C. Peskin, C. Yoran, et al. Mechanisms of mitral valve motion during diastole. Am. J. Physiol. Heart Circ. Physiol. 241:H389, 1981.