健康女性从儿童期到成年早期的骨折与后期初潮年龄以及峰值骨量时的骨微观结构受损有关。

Fractures in healthy females followed from childhood to early adulthood are associated with later menarcheal age and with impaired bone microstructure at peak bone mass.

机构信息

Division of Bone Diseases, Geneva University Hospitals and Faculty of Medicine, Rue Gabrielle Perret-Gentil 4, CH-1211 Geneva 14, Switzerland.

出版信息

J Clin Endocrinol Metab. 2012 Nov;97(11):4174-81. doi: 10.1210/jc.2012-2561. Epub 2012 Sep 4.

DOI:10.1210/jc.2012-2561

PMID:22948760

Abstract

BACKGROUND

Whether fractures observed in healthy children are associated with microstructural alterations and strength deficit that persists by the end of the growth period is not established. Considering the importance of pubertal timing in bone development, we also quantified the fracture risk related to later menarcheal age (MENA).

PARTICIPANTS AND METHODS

We followed 124 healthy girls from mean ± sd age 7.9 ± 0.5 to 20.4 ± 0.6 yr. Fractures, MENA, and radius areal bone mineral density (aBMD) were recorded at regular intervals. At a mean age of 20.4 yr, microstructural and strength variables of the distal radius were determined by high-resolution peripheral computerized tomography and micro-finite element analysis.

RESULTS

Sixty-one fractures occurred in 42 subjects. At 20.4 yr, subjects with fractures had lower aBMD at radial diaphysis (P = 0.005) and metaphysis (P = 0.008), lower distal radius trabecular volumetric density (vBMD) (P = 0.010) and thickness (P = 0.014), and reduction in stiffness (P = 0.013), failure load (P = 0.013), and apparent modulus (P = 0.046). Odds ratios revealed an increased risk of fracture for a 1-sd reduction in radial aBMD diaphysis [1.97 (P = 0.006)] and metaphysis [1.97 (P = 0.008)] and distal radius trabecular vBMD [1.89 (P = 0.011)], thickness [1.97 (P = 0.017)], stiffness [2.02 (P = 0.014)], failure load [2.00 (P = 0.014)], and apparent modulus [1.79 (P = 0.043)]. MENA occurred at a later age in subjects with fractures (P = 0.003). For MENA 1 sd (1.2 yr) later, the increase of fracture risk was 2.1 (P = 0.002).

CONCLUSIONS

In healthy young women, low trabecular vBMD and thickness in the distal radius are associated with reduced bone strength and increased fracture risk during growth. This study also documents that later pubertal timing is associated with increased incidence of fracture during childhood and adolescence.

摘要

背景

目前尚不清楚健康儿童中观察到的骨折是否与微观结构改变和生长期末的强度缺陷有关。考虑到青春期时机对骨骼发育的重要性，我们还量化了与月经初潮年龄较晚（MENA）相关的骨折风险。

参与者和方法

我们对 124 名健康女孩进行了随访，平均年龄为 7.9 ± 0.5 岁至 20.4 ± 0.6 岁。定期记录骨折、MENA 和桡骨面积骨密度（aBMD）。在平均 20.4 岁时，通过高分辨率外周计算机断层扫描和微有限元分析确定了桡骨远端的微观结构和强度变量。

结果

42 名受试者中发生了 61 例骨折。在 20.4 岁时，骨折患者的桡骨干骺端（P = 0.005）和干骺端（P = 0.008）的 aBMD 较低，桡骨远端小梁体积密度（vBMD）（P = 0.010）和厚度（P = 0.014）降低，刚度（P = 0.013）、失效负荷（P = 0.013）和表观模量（P = 0.046）降低。比值比显示，桡骨 aBMD 骨干[1.97（P = 0.006）]和干骺端[1.97（P = 0.008）]和桡骨远端小梁 vBMD 每降低 1 个标准差，骨折风险增加 1.89（P = 0.011）），厚度[1.97（P = 0.017）]、刚度[2.02（P = 0.014）]、失效负荷[2.00（P = 0.014）]和表观模量[1.79（P = 0.043）]。骨折患者的 MENA 年龄较晚（P = 0.003）。MENA 每延迟 1 个标准差（1.2 年），骨折风险增加 2.1（P = 0.002）。

结论

在健康的年轻女性中，桡骨远端小梁 vBMD 和厚度降低与生长期间骨强度降低和骨折风险增加有关。本研究还表明，青春期时机较晚与儿童和青少年时期骨折发生率增加有关。

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健康女性从儿童期到成年早期的骨折与后期初潮年龄以及峰值骨量时的骨微观结构受损有关。

Fractures in healthy females followed from childhood to early adulthood are associated with later menarcheal age and with impaired bone microstructure at peak bone mass.

机构信息

出版信息

BACKGROUND

PARTICIPANTS AND METHODS

RESULTS

CONCLUSIONS

背景

参与者和方法

结果

结论

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