Michael Sacks
Michael Sacks
W.A. Moncrief Chair and Professor of Biomedical Engineering, Unversity of Texas at Austin
Verified email at - Homepage
Cited by
Cited by
Preparation and characterization of highly porous, biodegradable polyurethane scaffolds for soft tissue applications
J Guan, KL Fujimoto, MS Sacks, WR Wagner
Biomaterials 26 (18), 3961-3971, 2005
Biaxial mechanical evaluation of planar biological materials
MS Sacks
Journal of elasticity and the physical science of solids 61, 199-246, 2000
Biaxial mechanical properties of the natural and glutaraldehyde treated aortic valve cusp—part I: experimental results
KL Billiar, MS Sacks
J. Biomech. Eng. 122 (1), 23-30, 2000
The effects of aneurysm on the biaxial mechanical behavior of human abdominal aorta
JPV Geest, MS Sacks, DA Vorp
Journal of biomechanics 39 (7), 1324-1334, 2006
Design and analysis of tissue engineering scaffolds that mimic soft tissue mechanical anisotropy
T Courtney, MS Sacks, J Stankus, J Guan, WR Wagner
Biomaterials 27 (19), 3631-3638, 2006
An immersogeometric variational framework for fluid–structure interaction: Application to bioprosthetic heart valves
D Kamensky, MC Hsu, D Schillinger, JA Evans, A Aggarwal, Y Bazilevs, ...
Computer methods in applied mechanics and engineering 284, 1005-1053, 2015
On the biomechanics of heart valve function
MS Sacks, WD Merryman, DE Schmidt
Journal of biomechanics 42 (12), 1804-1824, 2009
Heart valve function: a biomechanical perspective
MS Sacks, AP Yoganathan
Philosophical Transactions of the Royal Society B: Biological Sciences 362 …, 2007
Biaxial mechanical properties of the native and glutaraldehyde-treated aortic valve cusp: part II—a structural constitutive model
KL Billiar, MS Sacks
J. Biomech. Eng. 122 (4), 327-335, 2000
Incorporation of experimentally-derived fiber orientation into a structural constitutive model for planar collagenous tissues
MS Sacks
J. Biomech. Eng. 125 (2), 280-287, 2003
Synthesis, characterization, and cytocompatibility of elastomeric, biodegradable poly (ester‐urethane) ureas based on poly (caprolactone) and putrescine
J Guan, MS Sacks, EJ Beckman, WR Wagner
Journal of Biomedical Materials Research: An Official Journal of The Society …, 2002
A small angle light scattering device for planar connective tissue microstructural analysis
MS Sacks, DB Smith, ED Hiester
Annals of biomedical engineering 25, 678-689, 1997
From stem cells to viable autologous semilunar heart valve
FWH Sutherland, TE Perry, Y Yu, MC Sherwood, E Rabkin, Y Masuda, ...
Circulation 111 (21), 2783-2791, 2005
Effects of decellularization on the mechanical and structural properties of the porcine aortic valve leaflet
J Liao, EM Joyce, MS Sacks
Biomaterials 29 (8), 1065-1074, 2008
Multiaxial mechanical behavior of biological materials
MS Sacks, W Sun
Annual review of biomedical engineering 5 (1), 251-284, 2003
Fluid–structure interaction analysis of bioprosthetic heart valves: significance of arterial wall deformation
MC Hsu, D Kamensky, Y Bazilevs, MS Sacks, TJR Hughes
Computational mechanics 54, 1055-1071, 2014
Bioengineering challenges for heart valve tissue engineering
MS Sacks, FJ Schoen, JE Mayer Jr
Annual review of biomedical engineering 11 (1), 289-313, 2009
Biodegradable poly (ether ester urethane) urea elastomers based on poly (ether ester) triblock copolymers and putrescine: synthesis, characterization and cytocompatibility
J Guan, MS Sacks, EJ Beckman, WR Wagner
Biomaterials 25 (1), 85-96, 2004
Correlation between heart valve interstitial cell stiffness and transvalvular pressure: implications for collagen biosynthesis
WD Merryman, I Youn, HD Lukoff, PM Krueger, F Guilak, RA Hopkins, ...
American Journal of Physiology-Heart and Circulatory Physiology 290 (1 …, 2006
Dynamic and fluid–structure interaction simulations of bioprosthetic heart valves using parametric design with T-splines and Fung-type material models
MC Hsu, D Kamensky, F Xu, J Kiendl, C Wang, MCH Wu, J Mineroff, ...
Computational mechanics 55, 1211-1225, 2015
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