2005 |
Iwamoto M, Miki K, Tanaka E. Ankle skeletal injury predictions using anisotropic inelastic constitutive model of cortical bone taking into account damage evolution. Stapp Car Crash J. 2005;49:133-156. SAE 2005-22-0007. |
2009 |
Garrison JG, Slaboch CL, Niebur GL. Density and architecture have greater effects on the toughness of trabecular bone than damage. Bone. May 2009;44(5):924-929. |
2014 |
Hernandez CJ, Lambers FM, Widjaja J, Chapa C, Rimnac CM. Quantitative relationships between microdamage and cancellous bone strength and stiffness. Bone. September 2014;66:205-213. |
2004 |
Doblaré M, García JM, Gomez MJ. Modelling bone tissue fracture and healing: a review. Eng Fract Mech. September 2004;71(13-14):1809-1840. |
2011 |
Garrison JG, Gargac JA, Niebur GL. Shear strength and toughness of trabecular bone are more sensitive to density than damage. J Biomech. November 10, 2011;44(16):2747-2754. |
2007 |
Fratzl P, Weinkamer R. Nature’s hierarchical materials. Prog Mater Sci. November 2007;52(8):1263-1334. |
2003 |
Bredbenner TL. Damage Modeling of Vertebral Trabecular Bone [PhD thesis]. Cleveland, OH: Case Western Reserve University; January 2003. |
2011 |
Garrison JG. The Relative Importance of Stress State, Microarchitecture, and Damage Burden in the Failure Behavior of Trabecular Bone [PhD thesis]. University of Notre Dame; April 2011. |
2011 |
Shin J. Injury and Response of Human Ankle and Subtalar Joints Under Complex Loading [PhD thesis]. Charlottesville, VA: University of Virginia; December 2011. |