Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis

P. T. Yin; X. S. Liu; A. Cohen; E. Shane; J. M. Lappe; R. R. Recker; X. E. Guo

doi:10.1109/NEBC.2010.5458140

Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis

P. T. Yin, X. S. Liu, A. Cohen, E. Shane, J. M. Lappe, R. R. Recker, X. E. Guo

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

High-resolution peripheral quantitative computed tomography (HR-pQCT) is a promising in vivo imaging technique that can be used to assess the three-dimensional microstructure of the radius and tibia. Micro finite element models can also be constructed from these images to estimate the mechanical competence of these sites, giving this technique the potential in the clinical diagnosis of osteoporosis. However, the mechanical properties of the peripheral sites may not be predictive of the properties at the central sites. Image-based finite element analysis was performed on sixty-nine premenopausal women, 12 with idiopathic osteoporosis and 57 normal controls, who underwent HR-pQCT scans of the distal radius and distal tibia and central quantitative computed tomography scans of the proximal femur and lumbar spine. Significant correlations were found between the stiffness of the two peripheral sites (r=0.86), the two central sites (r=0.49) and also between the peripheral and central skeletal sites (r=0.56-0.70).

Original language	English (US)
Title of host publication	Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010
DOIs	https://doi.org/10.1109/NEBC.2010.5458140
State	Published - Jun 8 2010
Event	36th Annual Northeast Bioengineering Conference, NEBEC 2010 - New York, NY, United States Duration: Mar 26 2010 → Mar 28 2010

Publication series

Name	Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010

Other

Other	36th Annual Northeast Bioengineering Conference, NEBEC 2010
Country/Territory	United States
City	New York, NY
Period	3/26/10 → 3/28/10

All Science Journal Classification (ASJC) codes

Bioengineering

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10.1109/NEBC.2010.5458140

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Yin, P. T., Liu, X. S., Cohen, A., Shane, E., Lappe, J. M., Recker, R. R., & Guo, X. E. (2010). Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis. In Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010 [5458140] (Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010). https://doi.org/10.1109/NEBC.2010.5458140

Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis. / Yin, P. T.; Liu, X. S.; Cohen, A. et al.

Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010. 2010. 5458140 (Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Yin, PT, Liu, XS, Cohen, A, Shane, E, Lappe, JM , Recker, RR & Guo, XE 2010, Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis. in Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010., 5458140, Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010, 36th Annual Northeast Bioengineering Conference, NEBEC 2010, New York, NY, United States, 3/26/10. https://doi.org/10.1109/NEBC.2010.5458140

Yin PT, Liu XS, Cohen A, Shane E, Lappe JM , Recker RR et al. Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis. In Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010. 2010. 5458140. (Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010). doi: 10.1109/NEBC.2010.5458140

Yin, P. T. ; Liu, X. S. ; Cohen, A. et al. / Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis. Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010. 2010. (Proceedings of the 2010 IEEE 36th Annual Northeast Bioengineering Conference, NEBEC 2010).

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title = "Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis",

abstract = "High-resolution peripheral quantitative computed tomography (HR-pQCT) is a promising in vivo imaging technique that can be used to assess the three-dimensional microstructure of the radius and tibia. Micro finite element models can also be constructed from these images to estimate the mechanical competence of these sites, giving this technique the potential in the clinical diagnosis of osteoporosis. However, the mechanical properties of the peripheral sites may not be predictive of the properties at the central sites. Image-based finite element analysis was performed on sixty-nine premenopausal women, 12 with idiopathic osteoporosis and 57 normal controls, who underwent HR-pQCT scans of the distal radius and distal tibia and central quantitative computed tomography scans of the proximal femur and lumbar spine. Significant correlations were found between the stiffness of the two peripheral sites (r=0.86), the two central sites (r=0.49) and also between the peripheral and central skeletal sites (r=0.56-0.70).",

author = "Yin, {P. T.} and Liu, {X. S.} and A. Cohen and E. Shane and Lappe, {J. M.} and Recker, {R. R.} and Guo, {X. E.}",

year = "2010",

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AU - Yin, P. T.

AU - Liu, X. S.

AU - Cohen, A.

AU - Shane, E.

AU - Lappe, J. M.

AU - Recker, R. R.

AU - Guo, X. E.

PY - 2010/6/8

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N2 - High-resolution peripheral quantitative computed tomography (HR-pQCT) is a promising in vivo imaging technique that can be used to assess the three-dimensional microstructure of the radius and tibia. Micro finite element models can also be constructed from these images to estimate the mechanical competence of these sites, giving this technique the potential in the clinical diagnosis of osteoporosis. However, the mechanical properties of the peripheral sites may not be predictive of the properties at the central sites. Image-based finite element analysis was performed on sixty-nine premenopausal women, 12 with idiopathic osteoporosis and 57 normal controls, who underwent HR-pQCT scans of the distal radius and distal tibia and central quantitative computed tomography scans of the proximal femur and lumbar spine. Significant correlations were found between the stiffness of the two peripheral sites (r=0.86), the two central sites (r=0.49) and also between the peripheral and central skeletal sites (r=0.56-0.70).

AB - High-resolution peripheral quantitative computed tomography (HR-pQCT) is a promising in vivo imaging technique that can be used to assess the three-dimensional microstructure of the radius and tibia. Micro finite element models can also be constructed from these images to estimate the mechanical competence of these sites, giving this technique the potential in the clinical diagnosis of osteoporosis. However, the mechanical properties of the peripheral sites may not be predictive of the properties at the central sites. Image-based finite element analysis was performed on sixty-nine premenopausal women, 12 with idiopathic osteoporosis and 57 normal controls, who underwent HR-pQCT scans of the distal radius and distal tibia and central quantitative computed tomography scans of the proximal femur and lumbar spine. Significant correlations were found between the stiffness of the two peripheral sites (r=0.86), the two central sites (r=0.49) and also between the peripheral and central skeletal sites (r=0.56-0.70).

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Relationships between the stiffness of peripheral and central skeletal sites assessed by HR-pQCT- and cQCT-based finite element analysis

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