Skip to main content

Publications

You are here

Found 61 results
Author Title Type [ Year(Desc)]
Filters: First Letter Of Last Name is G  [Clear All Filters]
2012
J. F. Wenk, Klepach, D., Lee, L. C., Zhang, Z., Ge, L., Tseng, E. E., Martin, A., Kozerke, S., Gorman, J. H., Gorman, R. C., and , First evidence of depressed contractility in the border zone of a human myocardial infarction, The Annals of thoracic surgery, vol. 93, pp. 1188–1193, 2012.
J. F. Wenk, Klepach, D., Lee, L. C., Zhang, Z., Ge, L., Tseng, E. E., Martin, A., Kozerke, S., Gorman, J. H., Gorman, R. C., and , First evidence of depressed contractility in the border zone of a human myocardial infarction, The Annals of thoracic surgery, vol. 93, pp. 1188–1193, 2012.
J. F. Wenk, Klepach, D., Lee, L. C., Zhang, Z., Ge, L., Tseng, E. E., Martin, A., Kozerke, S., Gorman, J. H., Gorman, R. C., and , First evidence of depressed contractility in the border zone of a human myocardial infarction, The Annals of thoracic surgery, vol. 93, pp. 1188–1193, 2012.
D. Klepach, Lee, L. C., Wenk, J. F., Ratcliffe, M. B., Zohdi, T. I., Navia, J. L., Kassab, G. S., Kuhl, E., and Guccione, J. M., Growth and remodeling of the left ventricle: a case study of myocardial infarction and surgical ventricular restoration, Mechanics research communications, vol. 42, pp. 134–141, 2012.
R. Carrick, Ge, L., Lee, L. C., Zhang, Z., Mishra, R., Axel, L., Guccione, J. M., Grossi, E. A., and Ratcliffe, M. B., Patient-Specific Finite Element–Based Analysis of Ventricular Myofiber Stress After Coapsys: Importance of Residual Stress, The Annals of thoracic surgery, vol. 93, pp. 1964–1971, 2012.
R. Carrick, Ge, L., Lee, L. C., Zhang, Z., Mishra, R., Axel, L., Guccione, J. M., Grossi, E. A., and Ratcliffe, M. B., Patient-Specific Finite Element–Based Analysis of Ventricular Myofiber Stress After Coapsys: Importance of Residual Stress, The Annals of thoracic surgery, vol. 93, pp. 1964–1971, 2012.
R. Carrick, Ge, L., Lee, L. C., Zhang, Z., Mishra, R., Axel, L., Guccione, J. M., Grossi, E. A., and Ratcliffe, M. B., Patient-Specific Finite Element–Based Analysis of Ventricular Myofiber Stress After Coapsys: Importance of Residual Stress, The Annals of thoracic surgery, vol. 93, pp. 1964–1971, 2012.
2013
L. C. Lee, Wall, S. T., Klepach, D., Ge, L., Zhang, Z., Lee, R. J., Hinson, A., Gorman, J. H., Gorman, R. C., and Guccione, J. M., Algisyl-LVR™ with coronary artery bypass grafting reduces left ventricular wall stress and improves function in the failing human heart, International journal of cardiology, vol. 168, pp. 2022–2028, 2013.
L. C. Lee, Wall, S. T., Klepach, D., Ge, L., Zhang, Z., Lee, R. J., Hinson, A., Gorman, J. H., Gorman, R. C., and Guccione, J. M., Algisyl-LVR™ with coronary artery bypass grafting reduces left ventricular wall stress and improves function in the failing human heart, International journal of cardiology, vol. 168, pp. 2022–2028, 2013.
L. C. Lee, Wall, S. T., Klepach, D., Ge, L., Zhang, Z., Lee, R. J., Hinson, A., Gorman, J. H., Gorman, R. C., and Guccione, J. M., Algisyl-LVR™ with coronary artery bypass grafting reduces left ventricular wall stress and improves function in the failing human heart, International journal of cardiology, vol. 168, pp. 2022–2028, 2013.
L. C. Lee, Wall, S. T., Klepach, D., Ge, L., Zhang, Z., Lee, R. J., Hinson, A., Gorman, J. H., Gorman, R. C., and Guccione, J. M., Algisyl-LVR™ with coronary artery bypass grafting reduces left ventricular wall stress and improves function in the failing human heart, International journal of cardiology, vol. 168, pp. 2022–2028, 2013.
L. C. Lee, Wenk, J. F., Zhong, L., Klepach, D., Zhang, Z., Ge, L., Ratcliffe, M. B., Zohdi, T. I., Hsu, E., Navia, J. L., and , Analysis of patient-specific surgical ventricular restoration: importance of an ellipsoidal left ventricular geometry for diastolic and systolic function, Journal of Applied Physiology, vol. 115, pp. 136–144, 2013.
L. C. Lee, Zhihong, Z., Hinson, A., and Guccione, J. M., Reduction in left ventricular wall stress and improvement in function in failing hearts using Algisyl-LVR, JoVE (Journal of Visualized Experiments), pp. e50096–e50096, 2013.
2014
L. C. Lee, Genet, M., Dang, A. B., Ge, L., Guccione, J. M., and Ratcliffe, M. B., Applications of computational modeling in cardiac surgery, Journal of cardiac surgery, vol. 29, pp. 293–302, 2014.
L. C. Lee, Genet, M., Dang, A. B., Ge, L., Guccione, J. M., and Ratcliffe, M. B., Applications of computational modeling in cardiac surgery, Journal of cardiac surgery, vol. 29, pp. 293–302, 2014.
L. C. Lee, Genet, M., Dang, A. B., Ge, L., Guccione, J. M., and Ratcliffe, M. B., Applications of computational modeling in cardiac surgery, Journal of cardiac surgery, vol. 29, pp. 293–302, 2014.
L. C. Lee, Wall, S. T., Genet, M., Hinson, A., and Guccione, J. M., Bioinjection treatment: effects of post-injection residual stress on left ventricular wall stress, Journal of biomechanics, vol. 47, pp. 3115–3119, 2014.
L. C. Lee, Wall, S. T., Genet, M., Hinson, A., and Guccione, J. M., Bioinjection treatment: effects of post-injection residual stress on left ventricular wall stress, Journal of biomechanics, vol. 47, pp. 3115–3119, 2014.
M. Genet, Lee, L. C., Nguyen, R., Haraldsson, H., Acevedo-Bolton, G., Zhang, Z., Ge, L., Ordovas, K., Kozerke, S., and Guccione, J. M., Distribution of normal human left ventricular myofiber stress at end diastole and end systole: a target for in silico design of heart failure treatments, Journal of Applied Physiology, vol. 117, pp. 142–152, 2014.
M. Genet, Lee, L. C., Nguyen, R., Haraldsson, H., Acevedo-Bolton, G., Zhang, Z., Ge, L., Ordovas, K., Kozerke, S., and Guccione, J. M., Distribution of normal human left ventricular myofiber stress at end diastole and end systole: a target for in silico design of heart failure treatments, Journal of Applied Physiology, vol. 117, pp. 142–152, 2014.
M. Genet, Lee, L. C., Nguyen, R., Haraldsson, H., Acevedo-Bolton, G., Zhang, Z., Ge, L., Ordovas, K., Kozerke, S., and Guccione, J. M., Distribution of normal human left ventricular myofiber stress at end diastole and end systole: a target for in silico design of heart failure treatments, Journal of Applied Physiology, vol. 117, pp. 142–152, 2014.
L. C. Lee, Ge, L., Zhang, Z., Pease, M., Nikolic, S. D., Mishra, R., Ratcliffe, M. B., and Guccione, J. M., Patient-specific finite element modeling of the Cardiokinetix Parachute® device: Effects on left ventricular wall stress and function, Medical & biological engineering & computing, vol. 52, pp. 557–566, 2014.
L. C. Lee, Ge, L., Zhang, Z., Pease, M., Nikolic, S. D., Mishra, R., Ratcliffe, M. B., and Guccione, J. M., Patient-specific finite element modeling of the Cardiokinetix Parachute® device: Effects on left ventricular wall stress and function, Medical & biological engineering & computing, vol. 52, pp. 557–566, 2014.
2015
L. C. Lee, Genet, M., Acevedo-Bolton, G., Ordovas, K., Guccione, J. M., and Kuhl, E., A computational model that predicts reverse growth in response to mechanical unloading, Biomechanics and modeling in mechanobiology, vol. 14, pp. 217–229, 2015.
L. C. Lee, Genet, M., Acevedo-Bolton, G., Ordovas, K., Guccione, J. M., and Kuhl, E., A computational model that predicts reverse growth in response to mechanical unloading, Biomechanics and modeling in mechanobiology, vol. 14, pp. 217–229, 2015.
M. Genet, Rausch, M. K., Lee, L. C., Choy, S., Zhao, X., Kassab, G. S., Kozerke, S., Guccione, J. M., and Kuhl, E., Heterogeneous growth-induced prestrain in the heart, Journal of biomechanics, vol. 48, pp. 2080–2089, 2015.
M. Genet, Rausch, M. K., Lee, L. C., Choy, S., Zhao, X., Kassab, G. S., Kozerke, S., Guccione, J. M., and Kuhl, E., Heterogeneous growth-induced prestrain in the heart, Journal of biomechanics, vol. 48, pp. 2080–2089, 2015.
B. Baillargeon, Costa, I., Leach, J. R., Lee, L. C., Genet, M., Toutain, A., Wenk, J. F., Rausch, M. K., Rebelo, N., Acevedo-Bolton, G., and , 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, vol. 6, pp. 105–116, 2015.
M. Genet, Lee, L. C., Ge, L., Acevedo-Bolton, G., Jeung, N., Martin, A., Cambronero, N., Boyle, A., Yeghiazarians, Y., Kozerke, S., and , A novel method for quantifying smooth regional variations in myocardial contractility within an infarcted human left ventricle based on delay-enhanced magnetic resonance imaging, Journal of biomechanical engineering, vol. 137, p. 081009, 2015.
M. Genet, Lee, L. C., Ge, L., Acevedo-Bolton, G., Jeung, N., Martin, A., Cambronero, N., Boyle, A., Yeghiazarians, Y., Kozerke, S., and , A novel method for quantifying smooth regional variations in myocardial contractility within an infarcted human left ventricle based on delay-enhanced magnetic resonance imaging, Journal of biomechanical engineering, vol. 137, p. 081009, 2015.
Y. Tanaka, Genet, M., Lee, L. C., Martin, A. J., Sievers, R., and Gerstenfeld, E. P., Utility of high-resolution electroanatomic mapping of the left ventricle using a multispline basket catheter in a swine model of chronic myocardial infarction, Heart Rhythm, vol. 12, pp. 144–154, 2015.
Y. Tanaka, Genet, M., Lee, L. C., Martin, A. J., Sievers, R., and Gerstenfeld, E. P., Utility of high-resolution electroanatomic mapping of the left ventricle using a multispline basket catheter in a swine model of chronic myocardial infarction, Heart Rhythm, vol. 12, pp. 144–154, 2015.
2016
M. Genet, Lee, L. C., Kuhl, E., and Guccione, J. M., Abaqus/Standard-based quantification of human cardiac mechanical properties, arXiv preprint arXiv:1602.06161, 2016.
M. Genet, Lee, L. C., Kuhl, E., and Guccione, J. M., Abaqus/Standard-based quantification of human cardiac mechanical properties, arXiv preprint arXiv:1602.06161, 2016.
H. Zou, Zhao, X., Ce, X., Lee, L. C., Genet, M., Su, Y., Tan, R. S., and Zhong, L., Characterization of patient-specific biventricular mechanics in heart failure with preserved ejection fraction: Hyperelastic warping, in Engineering in Medicine and Biology Society (EMBC), 2016 IEEE 38th Annual International Conference of the, 2016.
L. C. Lee, Sundnes, J., Genet, M., Wenk, J. F., and Wall, S. T., An integrated electromechanical-growth heart model for simulating cardiac therapies, Biomechanics and Modeling in Mechanobiology, vol. 15, pp. 791–803, 2016.
L. C. Lee, Kassab, G. S., and Guccione, J. M., Mathematical modeling of cardiac growth and remodeling, Wiley Interdisciplinary Reviews: Systems Biology and Medicine, vol. 8, pp. 211–226, 2016.
M. Genet, Lee, L. C., Baillargeon, B., Guccione, J. M., and Kuhl, E., Modeling pathologies of diastolic and systolic heart failure, Annals of biomedical engineering, vol. 44, pp. 112–127, 2016.
M. Genet, Lee, L. C., Baillargeon, B., Guccione, J. M., and Kuhl, E., Modeling pathologies of diastolic and systolic heart failure, Annals of biomedical engineering, vol. 44, pp. 112–127, 2016.
C. Xi, Latnie, C., Zhao, X., Le Tan, J., Wall, S. T., Genet, M., Zhong, L., and Lee, L. C., Patient-specific Computational Analysis of Ventricular Mechanics in Pulmonary Arterial Hypertension, ASME J. Biomech. Eng., vol. 138, p. 111001, 2016.
L. C. Lee, Sundnes, J., Genet, M., and Wall, S. T., Physics-based computer simulation of the long-term effects of cardiac regenerative therapies, Technology, vol. 4, pp. 23–29, 2016.
L. C. Lee, Wenk, J. F., Klepach, D., Kassab, G. S., and Guccione, J. M., Structural-Based Models of Ventricular Myocardium, in Structure-Based Mechanics of Tissues and Organs, Springer US, 2016, pp. 249–263.

Pages