Bonow, R. O., B. A. Carabello, C. Kanu, A. C. de Leon, Jr., D. P. Faxon, M. D. Freed, W. H. Gaasch, B. W. Lytle, R. A. Nishimura, P. T. O’Gara, R. A. O’Rourke, C. M. Otto, P. M. Shah, J. S. Shanewise, S. C. Smith, Jr., A. K. Jacobs, C. D. Adams, J. L. Anderson, E. M. Antman, V. Fuster, J. L. Halperin, L. F. Hiratzka, S. A. Hunt, R. Nishimura, R. L. Page, and B. Riegel. ACC/AHA 2006 guidelines for the management of patients with valvular heart disease: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (writing committee to revise the 1998 Guidelines for the Management of Patients With Valvular Heart Disease): developed in collaboration with the Society of Cardiovascular Anesthesiologists: endorsed by the Society for Cardiovascular Angiography and Interventions and the Society of Thoracic Surgeons. Circulation 114(5):e84–231, 2006.
Bortolotti, U., A. D. Milano, and R. W. Frater. Mitral valve repair with artificial chordae: a review of its history, technical details, long-term results, and pathology. Ann. Thorac. Surg. 93(2):684–691, 2012.
Butany, J., M. J. Collins, and T. E. David. Ruptured synthetic expanded polytetrafluoroethylene chordae tendinae. Cardiovasc. Pathol. 13(3):182–184, 2004.
Calafiore, A. M. Choice of artificial chordae length according to echocardiographic criteria. Ann. Thorac. Surg. 81(1):375–377, 2006.
David, T. E., A. Omran, S. Armstrong, Z. Sun, and J. Ivanov. Long-term results of mitral valve repair for myxomatous disease with and without chordal replacement with expanded polytetrafluoroethylene sutures. J. Thorac. Cardiovasc. Surg. 115(6):1279–1285, 1998; discussion 1285–1286.
Gabbay, U., and C. Yosefy. The underlying causes of chordae tendinae rupture: a systematic review. Int. J. Cardiol. 143(2):113–118, 2010.
Grande-Allen, K. J., J. E. Barber, K. M. Klatka, P. L. Houghtaling, I. Vesely, C. S. Moravec, and P. M. McCarthy. Mitral valve stiffening in end-stage heart failure: evidence of an organic contribution to functional mitral regurgitation. J. Thorac. Cardiovasc. Surg. 130(3):783–790, 2005.
Hung, J., R. Lang, F. Flachskampf, S. K. Shernan, M. L. McCulloch, D. B. Adams, J. Thomas, M. Vannan, T. Ryan, and ASE. 3D echocardiography: a review of the current status and future directions. J. Am. Soc. Echocardiogr. 20(3):213–233, 2007.
Jensen, M. O., A. A. Fontaine, and A. P. Yoganathan. Improved in vitro quantification of the force exerted by the papillary muscle on the left ventricular wall: three-dimensional force vector measurement system. Ann. Biomed. Eng. 29(5):406–413, 2001.
Kim, H., J. Lu, M. S. Sacks, and K. B. Chandran. Dynamic simulation of bioprosthetic heart valves using a stress resultant shell model. Ann. Biomed. Eng. 36(2):262–275, 2008.
Kunzelman, K., M. S. Reimink, E. D. Verrier, and R. P. Cochran. Replacement of mitral valve posterior chordae tendineae with expanded polytetrafluoroethylene suture: a finite element study. J. Card. Surg. 11(2):136–145, 1996; discussion 146.
Kvitting, J. P., W. Bothe, S. Goktepe, M. K. Rausch, J. C. Swanson, E. Kuhl, N. B. Ingels, Jr., and D. C. Miller. Anterior mitral leaflet curvature during the cardiac cycle in the normal ovine heart. Circulation 122(17):1683–1689, 2010.
Mansi, T., I. Voigt, B. Georgescu, X. Zheng, E. A. Mengue, M. Hackl, R. I. Ionasec, T. Noack, J. Seeburger, and D. Comaniciu. An integrated framework for finite-element modeling of mitral valve biomechanics from medical images: application to MitralClip intervention planning. Med. Image Anal. 16(7):1330–1346, 2012.
May-Newman, K., and F. C. Yin. Biaxial mechanical behavior of excised porcine mitral valve leaflets. Am. J. Physiol. 269(4 Pt 2):H1319–H1327, 1995.
May-Newman, K., and F. C. Yin. A constitutive law for mitral valve tissue. J. Biomech. Eng. 120(1):38–47, 1998.
Minatoya, K., J. Kobayashi, Y. Sasako, H. Ishibashi-Ueda, C. Yutani, and S. Kitamura. Long-term pathological changes of expanded polytetrafluoroethylene (ePTFE) suture in the human heart. J. Heart Valve Dis. 10(1):139–142, 2001.
Okamoto, Y., T. Tomino, H. Satoh, Y. Hohjo, M. Hamawaki, M. Nagashima, T. Suzuki, and K. Nakashima. The isolated congenital mitral regurgitation due to a partial defect of the anterior leaflet. Kyobu Geka 56(3):231–234, 2003.
Padala, M., B. Cardinau, L. I. Gyoneva, V. H. Thourani, and A. P. Yoganathan. Comparison of artificial neochordae and native chordal transfer in the repair of a flail posterior mitral leaflet: an experimental study. Ann. Thorac. Surg. 95(2):629–633, 2013.
Padala, M., S. N. Powell, L. R. Croft, V. H. Thourani, A. P. Yoganathan, and D. H. Adams. Mitral valve hemodynamics after repair of acute posterior leaflet prolapse: quadrangular resection versus triangular resection versus neochordoplasty. J. Thorac. Cardiovasc. Surg. 138(2):309–315, 2009.
Pouch, A. M., C. Xu, P. A. Yushkevich, A. S. Jassar, M. Vergnat, J. H. Gorman, 3rd, R. C. Gorman, C. M. Sehgal, and B. M. Jackson. Semi-automated mitral valve morphometry and computational stress analysis using 3D ultrasound. J. Biomech. 45(5):903–907, 2012.
Prot, V., B. Skallerud, G. Sommer, and G. A. Holzapfel. On modelling and analysis of healthy and pathological human mitral valves: two case studies. J. Mech. Behav. Biomed. Mater. 3(2):167–177, 2010.
Reimink, M. S., K. S. Kunzelman, E. D. Verrier, and R. P. Cochran. The effect of anterior chordal replacement on mitral valve function and stresses. A finite element study. ASAIO J. 41(3):M754–M762, 1995.
Rim, Y., S. T. Laing, P. Kee, D. D. McPherson, and H. Kim. Evaluation of mitral valve dynamics. J. Am. Coll. Cardiol. Cardiovasc. Imaging 6(2):263–268, 2013.
Rim, Y., D. D. McPherson, K. B. Chandran, and H. Kim. The effect of patient-specific annular motion on dynamic simulation of mitral valve function. J. Biomech. 466(6):1104–1112, 2013.
Sedransk, K. L., K. J. Grande-Allen, and I. Vesely. Failure mechanics of mitral valve chordae tendineae. J. Heart Valve Dis. 11(5):644–650, 2002.
Stevanella, M., E. Votta, and A. Redaelli. Mitral valve finite element modeling: implications of tissues’ nonlinear response and annular motion. J. Biomech. Eng. 131(12):121010, 2009.
Votta, E., E. Caiani, F. Veronesi, M. Soncini, F. M. Montevecchi, and A. Redaelli. Mitral valve finite-element modelling from ultrasound data: a pilot study for a new approach to understand mitral function and clinical scenarios. Philos. Trans. A 366(1879):3411–3434, 2008.
Votta, E., T. B. Le, M. Stevanella, L. Fusini, E. G. Caiani, A. Redaelli, and F. Sotiropoulos. Toward patient-specific simulations of cardiac valves: state-of-the-art and future directions. J. Biomech. 46(2):217–228, 2013.
Votta, E., F. Maisano, S. F. Bolling, O. Alfieri, F. M. Montevecchi, and A. Redaelli. The Geoform disease-specific annuloplasty system: a finite element study. Ann. Thorac. Surg. 84(1):92–101, 2007.
Xu, C., C. J. Brinster, A. S. Jassar, M. Vergnat, T. J. Eperjesi, R. C. Gorman, J. H. Gorman, 3rd, and B. M. Jackson. A novel approach to in vivo mitral valve stress analysis. Am. J. Physiol. Heart Circ. Physiol. 299(6):H1790–H1794, 2010.
RetroSearch is an open source project built by @garambo | Open a GitHub Issue
Search and Browse the WWW like it's 1997 | Search results from DuckDuckGo
HTML:
3.2
| Encoding:
UTF-8
| Version:
0.7.4