The effect of trabecular micro-architecture on vertebra biomechanics: a finite element investigation

Abstract: 700,000 vertebral fractures occur each year in the United States alone, 85% of which are associated with osteoporosis. This study presents the development of a microstructural model of an entire lumbar vertebral body to investigate the effects of osteoporotic changes in bone micro-architecture on vertebral biomechanics, specifically, the change in stiffness, stresses and load sharing capacity of the core and cortex. A finite element model of a trabecular microstructure was created using a lattice of 3D beam el… Show more

“…Polikeit et al [14] suggested imitating osteoporosis by adjusting only the properties of the necessary material. McDonald et al [15] examined the microstructural model of the vertebra of the lumbar region to investigate the microarchitectural changes effects of the osteoporotic trabecular bone on the vertebral instability.…”

Finite element investigation osteoporotic lumbar L1 vertebra buckling in a presence of torsional load

“…Polikeit et al [14] suggested imitating osteoporosis by adjusting only the properties of the necessary material. McDonald et al [15] examined the microstructural model of the vertebra of the lumbar region to investigate the microarchitectural changes effects of the osteoporotic trabecular bone on the vertebral instability.…”

Finite element investigation osteoporotic lumbar L1 vertebra buckling in a presence of torsional load