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Literature DB >> 25412197

Effect of intraspecimen spatial variation in tissue mineral density on the apparent stiffness of trabecular bone.

Narges Kaynia, Elaine Soohoo, Tony M Keaveny, Galateia J Kazakia.

Abstract

This study investigated the effects of intraspecimen variations in tissue mineral density(TMD) on the apparent-level stiffness of human trabecular bone. High-resolution finite element (FE) models were created for each of 12 human trabecular bone specimens,using both microcomputed tomography (lCT) and “gold-standard” synchrotron radiation lCT (SRlCT) data. Our results confirm that incorporating TMD spatial variation reduces the calculated apparent stiffness compared to homogeneous TMD models. This effect exists for both lCT- and SRlCT-based FE models, but is exaggerated in lCT based models. This study provides a direct comparison of lCT to SRlCT data and is thereby able to conclude that the influence of including TMD heterogeneity is overestimated in lCT-based models.

Entities: Chemical Disease Species

Mesh：

Year: 2015 PMID： 25412197 PMCID： PMC4290509 DOI： 10.1115/1.4029178

Source DB: PubMed Journal: J Biomech Eng ISSN： 0148-0731 Impact factor: 2.097

33 in total

1. The role of an effective isotropic tissue modulus in the elastic properties of cancellous bone.

Authors: J Kabel; B van Rietbergen; M Dalstra; A Odgaard; R Huiskes
Journal: J Biomech Date: 1999-07 Impact factor: 2.712

2. Accuracy of cancellous bone volume fraction measured by micro-CT scanning.

Authors: M Ding; A Odgaard; I Hvid
Journal: J Biomech Date: 1999-03 Impact factor: 2.712

Review 3. Bone quality: understanding what matters.

Authors: D B Burr
Journal: J Musculoskelet Neuronal Interact Date: 2004-06 Impact factor: 2.041

4. Accuracy of microCT in the quantitative determination of the degree and distribution of mineralization in developing bone.

Authors: L Mulder; J H Koolstra; T M G J Van Eijden
Journal: Acta Radiol Date: 2004-11 Impact factor: 1.990

5. Biomechanical effect of mineral heterogeneity in trabecular bone.

Authors: G A P Renders; L Mulder; G E J Langenbach; L J van Ruijven; T M G J van Eijden
Journal: J Biomech Date: 2008-08-22 Impact factor: 2.712

6. Finite-element modeling of trabecular bone: comparison with mechanical testing and determination of tissue modulus.

Authors: A J Ladd; J H Kinney; D L Haupt; S A Goldstein
Journal: J Orthop Res Date: 1998-09 Impact factor: 3.494

7. Biomechanical consequences of developmental changes in trabecular architecture and mineralization of the pig mandibular condyle.

Authors: Lars Mulder; Leo J van Ruijven; Jan Harm Koolstra; Theo M G J van Eijden
Journal: J Biomech Date: 2006-10-23 Impact factor: 2.712

8. The degree of bone mineralization is maintained with single intravenous bisphosphonates in aged estrogen-deficient rats and is a strong predictor of bone strength.

Authors: Wei Yao; Zhiqiang Cheng; Kurt J Koester; Joel W Ager; Mehdi Balooch; Aaron Pham; Solomon Chefo; Cheryl Busse; Robert O Ritchie; Nancy E Lane
Journal: Bone Date: 2007-07-10 Impact factor: 4.398

Effect of intraspecimen spatial variation in tissue mineral density on the apparent stiffness of trabecular bone.

1. The role of an effective isotropic tissue modulus in the elastic properties of cancellous bone.

2. Accuracy of cancellous bone volume fraction measured by micro-CT scanning.

Review 3. Bone quality: understanding what matters.

4. Accuracy of microCT in the quantitative determination of the degree and distribution of mineralization in developing bone.

5. Biomechanical effect of mineral heterogeneity in trabecular bone.

6. Finite-element modeling of trabecular bone: comparison with mechanical testing and determination of tissue modulus.

7. Biomechanical consequences of developmental changes in trabecular architecture and mineralization of the pig mandibular condyle.

8. The degree of bone mineralization is maintained with single intravenous bisphosphonates in aged estrogen-deficient rats and is a strong predictor of bone strength.

9. Quantitative assessment of bone tissue mineralization with polychromatic micro-computed tomography.

10. Quantitative micro-computed tomography: a non-invasive method to assess equivalent bone mineral density.

1. Homogenization of cortical bone reveals that the organization and shape of pores marginally affect elasticity.

2. High-precision method for cyclic loading of small-animal vertebrae to assess bone quality.