骨转换标志物与较高的皮质骨孔隙率、较薄的皮质骨以及股骨近端较大的尺寸和非椎体骨折相关。

Bone turnover markers are associated with higher cortical porosity, thinner cortices, and larger size of the proximal femur and non-vertebral fractures.

作者信息

Shigdel Rajesh, Osima Marit, Ahmed Luai A, Joakimsen Ragnar M, Eriksen Erik F, Zebaze Roger, Bjørnerem Åshild

机构信息

Department of Health and Care Sciences, UiT-The Arctic University of Norway, Tromsø, Norway.

Department of Community Medicine, UiT-The Arctic University of Norway, Tromsø, Norway.

出版信息

Bone. 2015 Dec;81:1-6. doi: 10.1016/j.bone.2015.06.016. Epub 2015 Jun 22.

DOI:10.1016/j.bone.2015.06.016

PMID:26112819

Abstract

Bone turnover markers (BTM) predict bone loss and fragility fracture. Although cortical porosity and cortical thinning are important determinants of bone strength, the relationship between BTM and cortical porosity has, however, remained elusive. We therefore wanted to examine the relationship of BTM with cortical porosity and risk of non-vertebral fracture. In 211 postmenopausal women aged 54-94 years with non-vertebral fractures and 232 age-matched fracture-free controls from the Tromsø Study, Norway, we quantified femoral neck areal bone mineral density (FN aBMD), femoral subtrochanteric bone architecture, and assessed serum levels of procollagen type I N-terminal propeptide (PINP) and C-terminal cross-linking telopeptide of type I collagen (CTX). Fracture cases exhibited higher PINP and CTX levels, lower FN aBMD, larger total and medullary cross-sectional area (CSA), thinner cortices, and higher cortical porosity of the femoral subtrochanter than controls (p≤0.01). Each SD increment in PINP and CTX was associated with 0.21-0.26 SD lower total volumetric BMD, 0.10-0.14 SD larger total CSA, 0.14-0.18 SD larger medullary CSA, 0.13-0.18 SD thinner cortices, and 0.27-0.33 SD higher porosity of the total cortex, compact cortex, and transitional zone (all p≤0.01). Moreover, each SD of higher PINP and CTX was associated with increased odds for fracture after adjustment for age, height, and weight (ORs 1.49; 95% CI, 1.20-1.85 and OR 1.22; 95% CI, 1.00-1.49, both p<0.05). PINP, but not CTX, remained associated with fracture after accounting for FN aBMD, cortical porosity or cortical thickness (OR ranging from 1.31 to 1.39, p ranging from 0.005 to 0.028). In summary, increased BTM levels are associated with higher cortical porosity, thinner cortices, larger bone size and higher odds for fracture. We infer that this is produced by increased periosteal apposition, intracortical and endocortical remodeling; and that these changes in bone architecture are predisposing to fracture.

摘要

骨转换标志物（BTM）可预测骨质流失和脆性骨折。尽管皮质骨孔隙率和皮质骨变薄是骨强度的重要决定因素，但BTM与皮质骨孔隙率之间的关系却一直难以捉摸。因此，我们希望研究BTM与皮质骨孔隙率及非椎体骨折风险之间的关系。在挪威特罗姆瑟研究中，选取了211名年龄在54 - 94岁之间发生非椎体骨折的绝经后女性以及232名年龄匹配的无骨折对照者，我们对股骨颈骨面积密度（FN aBMD）、股骨转子下骨结构进行了量化，并评估了血清I型前胶原N端前肽（PINP）和I型胶原C端交联端肽（CTX）的水平。骨折病例的PINP和CTX水平更高，FN aBMD更低，总横截面积和髓腔横截面积（CSA）更大，皮质更薄，股骨转子下皮质骨孔隙率高于对照组（p≤0.01）。PINP和CTX每增加1个标准差，总骨体积密度就降低0.21 - 0.26个标准差，总CSA增大0.10 - 0.14个标准差，髓腔CSA增大0.14 - 0.18个标准差，皮质变薄0.13 - 0.18个标准差，全皮质、密质骨和过渡区孔隙率升高0.27 - 0.33个标准差（均p≤0.01）。此外，在调整年龄、身高和体重后，PINP和CTX每升高1个标准差，骨折几率增加（OR分别为1.49；95%CI，1.20 - 1.85和OR 1.22；95%CI，1.00 - 1.49，均p<0.05）。在考虑FN aBMD、皮质骨孔隙率或皮质厚度后，PINP而非CTX仍与骨折相关（OR范围为1.31至1.39，p范围为0.005至0.028）。总之，BTM水平升高与更高的皮质骨孔隙率、更薄的皮质、更大的骨尺寸以及更高的骨折几率相关。我们推断这是由骨膜附着增加、皮质内和皮质内重塑导致的；并且这些骨结构变化易引发骨折。

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骨转换标志物与较高的皮质骨孔隙率、较薄的皮质骨以及股骨近端较大的尺寸和非椎体骨折相关。

Bone turnover markers are associated with higher cortical porosity, thinner cortices, and larger size of the proximal femur and non-vertebral fractures.

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