REFERENCES
- DuanCYEspinoza OríasAAShottSAnHSAnderssonGBJHuJZLuHBInoueN. 2011. In vivo measurement of the subchondral bone thickness of lumbar facet joint using magnetic resonance imaging. Osteoarthr Cartil. 19:96–102.
- JohnstonJDKontulainenSAMasriBAWilsonDR. 2011. Predicting subchondral bone stiffness using a depth-specific CT topographic mapping technique in normal and osteoarthritic proximal tibiae. Clin Biomech. 26:1012–1018.
- KatzJN. 2006. Lumbar disc disorders and low-back pain: socioeconomic factors and consequences. J Bone Joint Surg (American). 88:21–24.
- LengHDongXNWangX. 2009. Progressive post-yield behavior of human cortical bone in compression for middle-aged and elderly groups. J Biomech. 42:491–497.
- NiemeyerFWilkeHJSchmidtH. 2012. Geometry strongly influences the response of numerical models of the lumbar spine – a probabilistic finite element analysis. J Biomech. 45(8):1414–1423.
- OdgaardALindeF. 1991. The underestimation of Young's modulus in compressive testing of cancellous bone specimens. J Biomech. 24:691–698.
- RhoJY. 1996. An ultrasonic method for measuring the elastic properties of human tibial cortical and cancellous bone. Ultrasonics. 34:777–783.
- WangZLYuSHaughtonVM. 1989. Age-related changes in the lumbar facet joints. Clin Anat. 2:55–62.