Paulo R. Fernandes scite author profile

Julius Wolff originally proposed that trabecular bone was influenced by mechanical stresses during the formative processes of growth and repair such that trabeculae were required to intersect at right angles. In this work, we have developed an analytical parametric microstructural model, which captures this restriction. Using homogenisation theory, a global material model was obtained. An optimal structure constructed of the homogenised material could then be found by optimising a cost function accounting for both the structural stiffness and the biological cost associated with metabolic maintenance of the bone tissue. The formulation was applied to an example problem of the proximal femur. Optimal densities and orientations were obtained for single load cases. The situation of multiple loads was also considered. In this case, we observe that the alignment of principal strains with the material orthotropy direction is, in general, not possible for all load cases. Thus less restrictive microstructures (nonorthotropic) will yield higher structural stiffnesses than strictly orthotropic microstructures.

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Optimization of scaffold design for bone tissue engineering: A computational and experimental study

Dias¹,

Guedes²,

Flanagan³

et al. 2014

Medical Engineering & Physics

150

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Paulo R. Fernandes

Permeability analysis of scaffolds for bone tissue engineering

A hierarchical model for concurrent material and topology optimisation of three-dimensional structures

A Model of Bone Adaptation Using a Global Optimisation Criterion Based on the Trajectorial Theory of Wolff

Optimization of scaffold design for bone tissue engineering: A computational and experimental study

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