Fabric and elastic principal directions of cancellous bone are closely related

A. Odgaard, J. Kabel, B. Rietbergen, van, M. Dalstra, H.W.J. Huiskes

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Samenvatting

Cancellous bone architecture and mechanics are intimately related. The trabecular architecture of cancellous bone is considered determined by its mechanical environment (Wolff's law), and the mechanical properties of cancellous bone are inversely determined by the trabecular architecture and material properties. Much effort has been spent in expressing these relations, but the techniques and variables necessary for this have not been fully identified. It is obvious, however, that some measure of architectural anisotropy (fabric) is needed. Within the last few years, volume-based measures of fabric have been introduced as alternatives to the mean intercept length method, which has some theoretical problems. This paper seeks to answer which of 4 different fabric measures best predicts finite element calculated mechanical anisotropy directions. Twenty-nine cancellous bone specimens were three-dimensionally (3D) reconstructed using the automated serial sectioning technique. A series of large-scale finite-element analyses were performed on each of the 3D reconstructions to calculate the compliance matrix for each specimen, from which the mechanical principal directions were derived. The architectural anisotropy was determined in 3D space for each specimen using mean intercept length (MIL), volume orientation (VO), star volume distribution (SVD) and star length distribution (SLD). Each of the architectural anisotropy results were expressed by a fabric tensor. Architectural main directions were determined from the fabric tensors and compared with the FE-calculated mechanical anisotropy directions. All architectural measures predicted the mechanical main directions rather well, which supports the assumption that mechanical anisotropy directions are aligned with fabric directions. MIL showed a significant, though very small (1.4 degrees ), deviation from the primary mechanical direction. VO had difficulty in determining secondary and tertiary mechanical directions; its mean deviation was 8.9 degrees . SVD and SLD provided marginally better predictors of mechanical anisotropy directions than MIL and VO
Originele taal-2Engels
Pagina's (van-tot)487-495
TijdschriftJournal of Biomechanics
Volume30
Nummer van het tijdschrift5
DOI's
StatusGepubliceerd - 1997

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  • Authors' Response

    Odgaard, A., Kabel, J., Rietbergen, van, B., Dalstra, M. & Huiskes, H. W. J., 1997, In: Journal of Biomechanics. 30, 11-12, blz. 1193 1 blz.

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