TY - JOUR
T1 - Left–right differences in the proximal femur’s strength of post-menopausal women
T2 - a multicentric finite element study
AU - Taddei, F.
AU - Falcinelli, C.
AU - Balistreri, L.
AU - Henys, P.
AU - Baruffaldi, F.
AU - Sigurdsson, S.
AU - Gudnason, V.
AU - Harris, T. B.
AU - Dietzel, R.
AU - Armbrecht, G.
AU - Boutroy, S.
AU - Schileo, E.
N1 - Publisher Copyright:
© 2015, International Osteoporosis Foundation and National Osteoporosis Foundation.
PY - 2016/4/1
Y1 - 2016/4/1
N2 - Summary: The strength of both femurs was estimated in 198 post-menopausal women through subject-specific finite element models. Important random differences between contralateral femurs were found in a significant number of subjects, pointing to the usefulness of further studies to understand if strength-based classification of patients at risk of fracture can be affected by laterality issues. Introduction: Significant, although small, differences exist in mineral density and anatomy of contralateral proximal femurs. These differences, and their combined effect, may result in a side difference in femurs’ strength. However, this has never been tested on a large sample of a homogenous population. Methods: The strength of both femurs was estimated in 198 post-menopausal women through CT-derived finite element models, built using a validated procedure, in sideways fall conditions. The impact of the resulting asymmetry on the classification of subjects at risk of fracture was analysed. Results: The small difference observed between sides (the right femur on average 4 % stronger than the left) was statistically significant but mechanically negligible. In contrast, higher random differences (absolute difference between sides with respect to mean value) were found: on average close to 15 % (compared to 9.2 % for areal bone mineral density (aBMD) alone), with high scatter among the subjects. When using a threshold-based classification, the right and left femurs were discordant up to over 20 % of cases (K always lower than 0.60) but the left femur was concordant (mean K = 0.84) with the minimum strength between right and left. Conclusion: Considering both femurs may be important when trying to classify subjects at risk of failure with strength estimates. Future studies including fracture assessment would be necessary to quantify the real impact.
AB - Summary: The strength of both femurs was estimated in 198 post-menopausal women through subject-specific finite element models. Important random differences between contralateral femurs were found in a significant number of subjects, pointing to the usefulness of further studies to understand if strength-based classification of patients at risk of fracture can be affected by laterality issues. Introduction: Significant, although small, differences exist in mineral density and anatomy of contralateral proximal femurs. These differences, and their combined effect, may result in a side difference in femurs’ strength. However, this has never been tested on a large sample of a homogenous population. Methods: The strength of both femurs was estimated in 198 post-menopausal women through CT-derived finite element models, built using a validated procedure, in sideways fall conditions. The impact of the resulting asymmetry on the classification of subjects at risk of fracture was analysed. Results: The small difference observed between sides (the right femur on average 4 % stronger than the left) was statistically significant but mechanically negligible. In contrast, higher random differences (absolute difference between sides with respect to mean value) were found: on average close to 15 % (compared to 9.2 % for areal bone mineral density (aBMD) alone), with high scatter among the subjects. When using a threshold-based classification, the right and left femurs were discordant up to over 20 % of cases (K always lower than 0.60) but the left femur was concordant (mean K = 0.84) with the minimum strength between right and left. Conclusion: Considering both femurs may be important when trying to classify subjects at risk of failure with strength estimates. Future studies including fracture assessment would be necessary to quantify the real impact.
KW - Computed tomography
KW - Finite element
KW - Multicentric study
KW - Post-menopausal women
KW - Proximal femur’s strength
KW - Side differences
UR - http://www.scopus.com/inward/record.url?scp=84961056843&partnerID=8YFLogxK
U2 - 10.1007/s00198-015-3404-7
DO - 10.1007/s00198-015-3404-7
M3 - Article
C2 - 26576543
AN - SCOPUS:84961056843
SN - 0937-941X
VL - 27
SP - 1519
EP - 1528
JO - Osteoporosis International
JF - Osteoporosis International
IS - 4
ER -