The influence of age at menarche on cross-sectional geometry of bone in young adulthood

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• 作者：Maja &Scaron ; e&scaron ; elj^a ; ^{maja.seselj@wright.edu} ; Ramzi W. Nahhas^a ; Richard J. Sherwood^a ; ^b ; ^c ; Wm. Cameron Chumlea^a ; ^b ; ^d ; Bradford Towne^b ; ^d ; Dana L. Duren^a ; ^e
• 关键词：Bone geometry ; Children ; Menarche ; Bone strength ; BMI
• 刊名：Bone
• 出版年：2012
• 期刊代码：39_87563282
• 类别：med
• 出版时间：July, 2012
• 卷：51
• 期：1
• 页码：38-45
• 文件大小：834 K

摘要

Elucidating the somatic and maturational influences on the biomechanical properties of bone in children is crucial for a proper understanding of bone strength and quality in childhood and later life, and has significant potential for predicting adult fracture and osteoporosis risks. The ability of a long bone to resist bending and torsion is primarily a function of its cross-sectional geometric properties, and is negatively impacted by smaller external bone diameter. In pubescent girls, elevated levels of estrogen impede subperiosteal bone growth and increase endosteal bone deposition, resulting in bones averaging a smaller external and internal diameter relative to boys. In addition, given a well-documented secular trend for an earlier menarche, the age at which the rate of subperiosteal bone deposition decreases may also be younger in more recent cohorts of girls.

In this study we examined the relationship between pubertal timing and subsequent bone strength in girls. Specifically, we investigated the effects of age at menarche on bone strength indicators (polar moment of inertia and section modulus) determined from cross-sectional geometry of the second metacarpal (MC2) using data derived from serial hand-wrist radiographs of female participants (N = 223) in the Fels Longitudinal Study, with repeated measures of MC2 between the ages of 7 and 35 years. Using multivariate regression models, we evaluated the effects of age at menarche on associations between measures of bone strength in early adulthood and the same measures at a prepubertal age. Results indicate that later age at menarche is associated with stronger adult bone (in torsion and bending) when controlling for prepubertal bone strength (R² ranged between 0.54 and 0.70, p < 0.001). Since cross-sectional properties of bone in childhood may have long lasting implications, they should be considered along with pubertal timing in assessing risk for future fracture and in clinical recommendations.