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与正常体重对照组和神经性厌食症女孩相比,肥胖青少年女孩的骨微观结构不理想。

Suboptimal bone microarchitecure in adolescent girls with obesity compared to normal-weight controls and girls with anorexia nervosa.

机构信息

Neuroendocrine Unit, Massachusetts General Hospital and Harvard Medical School, United States of America; Division of Pediatric Endocrinology, Massachusetts General Hospital for Children, Harvard Medical School, United States of America; MGH Weight Center, United States of America.

Neuroendocrine Unit, Massachusetts General Hospital and Harvard Medical School, United States of America.

出版信息

Bone. 2019 May;122:246-253. doi: 10.1016/j.bone.2019.03.007. Epub 2019 Mar 7.

DOI:10.1016/j.bone.2019.03.007
PMID:30853658
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6636859/
Abstract

BACKGROUND

Despite their higher areal bone mineral density (aBMD), adolescents with obesity (OB) have an increase in fracture risk, particularly of the extremities, compared with normal-weight controls. Whereas bone parameters that increase fracture risk are well characterized in anorexia nervosa (AN), the other end of nutritional spectrum, these data are lacking in adolescents with obesity.

OBJECTIVE

Our objective was to compare bone parameters in adolescent girls across the nutritional spectrum, to determine whether suboptimal bone adaptation to increased body weight may explain the increased fracture risk in OB.

METHODS

We assessed bone endpoints in 153 adolescent girls 14-21 years old: 50 OB, 48 controls and 55 AN. We used (i) DXA to assess aBMD at the lumbar spine, proximal femur and whole body, and body composition, (ii) high resolution peripheral quantitative CT (HRpQCT) to assess bone geometry, microarchitecture and volumetric BMD (vBMD), and (iii) finite element analysis to assess failure load (a strength estimate) at the distal radius and tibia. All aBMD, microarchitecture and FEA analyses were controlled for age and race.

RESULTS

Groups did not differ for age or height. Areal BMD Z-scores at all sites were highest in OB, intermediate in controls and lowest in AN (p < 0.0001). At the radius, cortical area and thickness were higher in OB compared to AN and control groups (p = 0.001) while trabecular area did not differ across groups. Compared to controls, OB had higher cortical porosity (p = 0.003), higher trabecular thickness (p = 0.024), and higher total, cortical and trabecular vBMD and rod BV/TV (p < 0.04). Plate BV/TV did not differ in OB vs. controls, but was higher than in AN (p = 0.001). At the tibia, total, cortical, and trabecular area and cortical thickness were higher in OB vs. controls and AN (p < 0.005). OB also had higher cortical porosity (p < 0.007) and lower trabecular thickness (p < 0.02) than the other two groups. Trabecular number, total and trabecular vBMD, and rod BV/TV were higher in OB vs. controls and AN (p < 0.02), while cortical vBMD and plate BV/TV did not differ in OB vs. the other two groups. Finally, failure load (a strength estimate) was higher in OB at the radius and tibia compared to controls and AN (p < 0.004 for all). However, after adjusting for body weight, failure load was lower in OB vs. controls at both sites (p < 0.05), and lower than in AN at the distal tibia.

CONCLUSION

Not all bone parameters demonstrate appropriate adaptation to higher body weight. Cortical porosity and plate BV/TV at the radius and tibia, and cortical vBMD and trabecular thickness at the tibia are particularly at risk. These effects may contribute to the higher risk for fracture reported in OB vs. controls.

摘要

背景

尽管肥胖青少年(OB)的骨表面积骨密度(aBMD)较高,但与体重正常的对照组相比,他们的骨折风险增加,尤其是四肢骨折的风险增加。虽然在厌食症(AN)这种营养极端的情况下,已经很好地描述了增加骨折风险的骨骼参数,但在肥胖的青少年中,这些数据却很缺乏。

目的

我们的目的是比较不同营养状态下的青少年女孩的骨骼参数,以确定身体重量增加时骨骼适应不良是否可以解释 OB 中骨折风险增加的原因。

方法

我们评估了 153 名 14-21 岁的青少年女孩的骨骼终点:50 名 OB、48 名对照组和 55 名 AN。我们使用了(i)双能 X 线吸收仪(DXA)来评估腰椎、股骨近端和全身的 aBMD,以及身体成分;(ii)高分辨率外周定量 CT(HRpQCT)来评估骨几何形状、微观结构和体积骨密度(vBMD);(iii)有限元分析来评估桡骨和胫骨的失效负荷(一种强度估计)。所有的 aBMD、微观结构和 FEA 分析均根据年龄和种族进行了校正。

结果

各组之间的年龄和身高没有差异。所有部位的面积 BMD Z 评分均以 OB 最高,对照组次之,AN 最低(p<0.0001)。在桡骨上,OB 组的皮质面积和厚度均高于 AN 和对照组(p=0.001),而骨小梁面积在各组之间没有差异。与对照组相比,OB 组的皮质孔隙率更高(p=0.003),骨小梁厚度更厚(p=0.024),总、皮质和骨小梁 vBMD 以及杆 BV/TV 更高(p<0.04)。OB 组的板 BV/TV 与对照组没有差异,但高于 AN 组(p=0.001)。在胫骨上,与对照组和 AN 相比,OB 组的总、皮质和骨小梁面积以及皮质厚度更高(p<0.005)。OB 组的皮质孔隙率也更高(p<0.007),骨小梁厚度更薄(p<0.02)。与对照组和 AN 相比,OB 组的骨小梁数量、总骨小梁 vBMD 和杆 BV/TV 更高(p<0.02),而皮质 vBMD 和板 BV/TV 则没有差异。最后,桡骨和胫骨的失效负荷(强度估计)在 OB 组中均高于对照组和 AN 组(p<0.004)。然而,在调整体重后,桡骨和胫骨上的失效负荷在 OB 组中均低于对照组(p<0.05),且低于 AN 组。

结论

并非所有的骨骼参数都能很好地适应更高的体重。桡骨和胫骨的皮质孔隙率和板 BV/TV,以及胫骨的皮质 vBMD 和骨小梁厚度特别容易受到影响。这些影响可能导致 OB 组报告的骨折风险高于对照组。

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