Cancellous bone lamellae strongly affect microcrack propagation and apparent mechanical properties: separation of patients with osteoporotic fracture from normal controls using a 2D nonlinear finite element method (biomechanical stereology)
Wang X., Zauel R.R., Rao D.S., Fyhrie D.P. Cancellous bone lamellae strongly affect microcrack propagation and apparent mechanical properties: separation of patients with osteoporotic fracture from normal controls using a 2D nonlinear finite element method (biomechanical stereology). Bone 2008, 42:1184-1192.
Sexual dimorphism and age dependence of osteocyte lacunar density for human vertebral cancellous bone
Vashishth D., Gibson G.J., Fyhrie D.P. Sexual dimorphism and age dependence of osteocyte lacunar density for human vertebral cancellous bone. Anat Rec Part A 2005, 282A:157-162.
Decline in osteocyte lacunar density in human cortical bone is associated with accumulation of microcracks with age
Vashishth D., Verborgt O., Divine G., Schaffler M.B., Fyhrie D.P. Decline in osteocyte lacunar density in human cortical bone is associated with accumulation of microcracks with age. Bone 2000, 26:375-380.
The morphological association between microcracks and osteocyte lacunae in human cortical bone
Qiu S., Rao D.S., Fyhrie D.P., Palnitkar S., Parfitt A.M. The morphological association between microcracks and osteocyte lacunae in human cortical bone. Bone 2005, 37:10-15.
Age-related changes in porosity and mineralization and in-service damage accumulation
Norman T.L., Little T.M., Yeni Y.N. Age-related changes in porosity and mineralization and in-service damage accumulation. J Biomech 2008, 41:2868-2873.