Differences in femoral neck structure between elderly Caucasian and Chinese populations: a cross-sectional study of Perth–Beijing cohorts

Summary Structural skeletal differences of the femoral neck of older Beijing-Chinese and Perth-Caucasian women were compared; adjusting for frame size-related differences, Beijing-Chinese have lower periosteal width; however, indices of internal bone distribution suggest that Beijing-Chinese may exh...

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Bibliographic Details
Published in:Archives of osteoporosis 2017-08, Vol.12 (1), p.72-72, Article 72
Main Authors: Wang, L., Khoo, B. C. C., Cheng, X. G., Brown, K., Lewis, J. R., Su, Y. B., Guo, Z., Li, K., Prince, R. L.
Format: Article
Language:English
Subjects:
Aged
Aged, 80 and over
Asian Continental Ancestry Group
Beijing - epidemiology
Bone Density
Cross-Sectional Studies
Endocrinology
European Continental Ancestry Group
Female
Femur Neck - anatomy & histology
Hip Fractures - epidemiology
Hip Fractures - ethnology
Humans
Incidence
Medicine
Medicine & Public Health
Original Article
Orthopedics
Western Australia - epidemiology
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Summary:Summary Structural skeletal differences of the femoral neck of older Beijing-Chinese and Perth-Caucasian women were compared; adjusting for frame size-related differences, Beijing-Chinese have lower periosteal width; however, indices of internal bone distribution suggest that Beijing-Chinese may exhibit increased resistance to fracture that may relate to the reduced hip fracture incidence. Introduction Ethnic differences in skeletal structure may relate to differences in hip fracture risk in Chinese and Caucasian populations. 2D mass, size, and structural biomechanics were compared in the two populations. Methods Quantitative computed tomography-derived geometric variables were compared in age-matched community-derived female populations, 196 Beijing-Chinese 76.5 ± 4.8 (mean ± SD) years and 237 Perth-Caucasians 77.1 ± 5.0 years. These included scanned area ( A ), periosteal width ( W ), bone mineral content (BMC), aBMD, bone cross-sectional area (bCSA), section modulus ( Z ) and buckling ratio (BR). Assumption-free measures included sigma ( σ ), related to the distribution of bone in the scanned image previously identified as a predictor of hip fracture, and delta ( δ ), the center-of-mass displacement from the geometric center. Results Compared to Beijing-Chinese, Perth-Caucasians were heavier (Beijing-Chinese 58.7 ± 11.8; Perth-Caucasians 66.1 ± 11.0 kg), taller (154.9 ± 16.7 vs 158.9 ± 6.0 cm), and had higher BMC, A , and W . After adjustment for frame size, BMC was not significantly different but W remained higher in Perth-Caucasians. Differences in variables aBMD, Z , BR, and σ favored higher resistance to failure with Beijing-Chinese before and after adjustment for frame size. δ was similar in both populations; bCSA was higher in Beijing-Chinese before adjustment for frame size but not after. Conclusions Bone mass differences in two populations were related to frame size differences. However, femoral neck width remained smaller in Beijing-Chinese suggesting effects of local genetic and environmental factors. In Beijing-Chinese participants compared to Perth-Caucasians, internal bone distribution suggests increased resistance to deformation if exposed to same force that may, in-part, relate to reduced incidence of hip fracture in Beijing-Chinese.
ISSN:1862-3522
1862-3514
DOI:10.1007/s11657-017-0366-8