Michael S. Sacks
Affiliations: | University of Pittsburgh, Pittsburgh, PA, United States |
Area:
Biomedical Engineering, Mechanical Engineering, Biomechanics BiophysicsWebsite:
https://sites.pitt.edu/~msrc/personnel/faculty/sacks.htmlGoogle:
"Michael Steven Sacks" OR "Michael S Sacks"Bio:
https://www.proquest.com/openview/8e7b8f1250ad95ed607fdfe4b84e9102/1
Parents
Sign in to add mentor| Cheng-Jen Chuong | grad student | 1992 | UT Arlington (BME Tree) | |
| (Active wall tension and passive constitutive relation of the right ventricular free wall) | ||||
Children
Sign in to add trainee| Rachel M. Buchanan | grad student | UT Austin (E-Tree) | |
| W. David Merryman | grad student | ||
| Dorothy C. Gloeckner | grad student | 2003 | University of Pittsburgh |
| Hsiao-Ying S. Huang | grad student | 2004 | University of Pittsburgh |
| George C. Engelmayr | grad student | 2005 | University of Pittsburgh |
| Rebecca L. Heise | grad student | 2003-2008 | University of Pittsburgh (E-Tree) |
| Erinn M. Joyce | grad student | 2009 | University of Pittsburgh |
| Silvia Wognum | grad student | 2010 | University of Pittsburgh |
| Chad E. Eckert | grad student | 2011 | University of Pittsburgh |
| John A. Stella | grad student | 2011 | University of Pittsburgh |
| Bahar Fata | grad student | 2012 | University of Pittsburgh |
| Daniel Howsmon | post-doc | UT Austin (MathTree) |
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Publications
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| Robinson A, Nkansah A, Bhat S, et al. (2023) Hydrogel-polyurethane fiber composites with enhanced microarchitectural control for heart valve replacement. Journal of Biomedical Materials Research. Part A |
| Feng X, Liu Y, Kamensky D, et al. (2023) Functional mechanical behavior of the murine pulmonary heart valve. Scientific Reports. 13: 12852 |
| Li DS, Mendiola EA, Avazmohammadi R, et al. (2023) A multi-scale computational model for the passive mechanical behavior of right ventricular myocardium. Journal of the Mechanical Behavior of Biomedical Materials. 142: 105788 |
| West TM, Howsmon DP, Massidda MW, et al. (2023) The effects of strain history on aortic valve interstitial cell activation in a 3D hydrogel environment. Apl Bioengineering. 7: 026101 |
| Khang A, Steinman J, Tuscher R, et al. (2023) Estimation of aortic valve interstitial cell-induced 3D remodeling of poly(ethylene glycol) hydrogel environments using an inverse finite element approach. Acta Biomaterialia |
| Khang A, Nguyen Q, Feng X, et al. (2022) Three-dimensional analysis of hydrogel-imbedded aortic valve interstitial cell shape and its relation to contractile behavior. Acta Biomaterialia |
| Motiwale S, Russell MD, Conroy O, et al. (2021) Anisotropic elastic behavior of a hydrogel-coated electrospun polyurethane: Suitability for heart valve leaflets. Journal of the Mechanical Behavior of Biomedical Materials. 125: 104877 |
| Zhang W, Motiwale S, Hsu MC, et al. (2021) Simulating the time evolving geometry, mechanical properties, and fibrous structure of bioprosthetic heart valve leaflets under cyclic loading. Journal of the Mechanical Behavior of Biomedical Materials. 123: 104745 |
| Li DS, Mendiola EA, Avazmohammadi R, et al. (2021) A High-Fidelity 3D Micromechanical Model of Ventricular Myocardium. Functional Imaging and Modeling of the Heart : ... International Workshop, Fimh ..., Proceedings. Fimh. 12738: 168-177 |
| Khang A, Lejeune E, Abbaspour A, et al. (2021) On the 3D Correlation between Myofibroblast Shape and Contraction. Journal of Biomechanical Engineering |