Original articleCorrelation between the compressive strength of iliac and vertebral trabecular bone in normal individuals
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2022, Journal of BiomechanicsCitation Excerpt :It is therefore likely that changes in the anisotropy of the trabecular structure correspond to loss of cell walls noted in these computational studies. Lacunarity (Zaia et al., 2006) and anisotropy (Ciarelli et al., 2000; Mosekilde et al., 1985) are understood to significantly change with age and osteoporosis. These variables have also been shown to be among those with the lowest measurement error (2.1% and 9.1%, respectively) (Yeni et al., 2018), further supporting their use.
Biomechanics of hip and vertebral fractures
2020, Marcus and Feldman’s OsteoporosisThe mechanical behavior of bone
2020, Marcus and Feldman’s OsteoporosisRole of disc area and trabecular bone density on lumbar spinal column fracture risk curves under vertical impact
2018, Journal of BiomechanicsCitation Excerpt :The present proximal forces of 4750 N, 5211 N, and 7223 N, at the 5%, 10%, and 50% probabilities, parametric HIPCs, provide more granular information on the human lumbar spinal column tolerance under inferior-to-superior impacts. The compressive fracture forces of lumbar vertebral bodies bear an inverse relationship with increasing age (Ebbesen et al., 1999; Hansson et al., 1980; Mosekilde and Mosekilde, 1986, 1990; Mosekilde et al., 1985). The strength of the L2 vertebral body decreases significantly (p < 0.05) with increasing age, in a group of specimens with age ranging from 15 to 91 years (Mosekilde and Mosekilde, 1990).
Overview of Bone Structure and Strength
2018, Genetics of Bone Biology and Skeletal Disease: Second Edition