Human Cancellous Bone
Contents |
MSF Model
Reference Figure
Digitized from Choi and Goldstein (1992).
References
Choi, K., and Goldstein, S. A., 1992, A comparison of the fatigue behavior of human trabecular and cortical bone tissue, J. Biomech., 25(12)1371-1381.
Goulet, R. W., Goldstein, S. A., Ciarelli, M. J., Kuhn, J. L., Brown, M. B., and Feldkamp, L. A., 1994, The relationship between the structural and orthogonal compressive properties of trabecular bone, J. Biomech., 27(4):375-389.
Rohl, L., Larsen, E., Linde, F., Odgaard, A., and Jorgensen, J., 1991, Tensile and compressive properties of cancellous bone, J. Biomech., 24(12)1143-149.
Rubin, M. A., Jasiuk, I., Taylor, J., Rubin, J., Ganey, T., and Apkarian, R. P., 2003, TEM analysis of the nanostructure of normal and osteoporotic human trabecular bone, Bone, 33:270-282. doi:10.1016/S8756-3282(03)00194-7
Wang, J., Zhou, B., Liu, X. S., Fields, A. J., Sanyal, A., Shi, X., Adams, M., Keaveny, T. M., and Guo, X. E., 2015, Trabecular plates and rods determine elastic modulus and yield strength of human trabecular bone, Bone, 72:71-80. [1]
Notes
1. Cancellous bone data mainly acquired from anlyses of the tibiae.
2. Particle size and grain orientation for the MSF calibration is based on the properties of apatite in human cancellous bone.
