Ito Masako, Ikeda Kyoji, Nishiguchi Masahiko, Shindo Hiroyuki, Uetani Masataka, Hosoi Takayuki, Orimo Hajime
Department of Radiology, Nagasaki University School of Medicine, Nagasaki, Japan.
J Bone Miner Res. 2005 Oct;20(10):1828-36. doi: 10.1359/JBMR.050610. Epub 2005 Jun 20.
We applied MDCT for in vivo evaluation of the microarchitecture of human vertebrae. Microstructure parameters, such as structure model index, Euler's number, and bone volume fraction, revealed higher relative risk for prevalent vertebral fracture than did BMD obtained by DXA. Thus, microstructure analysis by MDCT, together with simultaneously obtained volumetric BMD values, is useful for clinical assessment of fracture risk.
BMD measurement by DXA alone has limitations in predicting fracture, and methods for clinical assessment of bone quality, such as microstructure, are awaited. This study was undertaken to examine the applicability of multidetector row CT (MDCT) for in vivo evaluation of trabecular microstructure.
Optimal conditions for MDCT scanning were determined at a spatial resolution of 250 x 250 x 500 mum, using muCT data of excised human vertebra specimens as a reference. We analyzed the trabecular microstructure of the vertebrae of 82 postmenopausal women (55-76 years old), including 39 women with and 43 without a recent vertebral fracture.
Microstructure indices obtained by MDCT scanning revealed higher relative risk for prevalent vertebral fracture (OR: 16.0 for structure model index, 13.6 for bone volume fraction, and 13.1 for Euler's number) than did spinal BMD obtained by DXA (OR: 4.8). MDCT could also provide volumetric BMD data, which had higher diagnostic value (OR: 12.7) than did DXA.
Vertebral microarchitecture can be visualized by MDCT, and microstructure parameters obtained by MDCT, together with volumetric BMD, provided better diagnostic performance for assessing fracture risk than DXA measurement.
我们应用多层螺旋CT(MDCT)对人体椎骨的微观结构进行体内评估。微观结构参数,如结构模型指数、欧拉数和骨体积分数,显示出比双能X线吸收法(DXA)测得的骨密度(BMD)对椎体骨折的相对风险更高。因此,MDCT的微观结构分析以及同时获得的体积骨密度值,对于骨折风险的临床评估是有用的。
单独使用DXA测量骨密度在预测骨折方面存在局限性,人们期待用于临床评估骨质量(如微观结构)的方法。本研究旨在探讨多层螺旋CT(MDCT)在体内评估小梁微观结构的适用性。
以切除的人体椎骨标本的微计算机断层扫描(μCT)数据为参考,确定MDCT扫描的最佳条件,空间分辨率为250×250×500μm。我们分析了82名绝经后女性(55 - 76岁)椎骨的小梁微观结构,其中39名近期有椎体骨折,43名近期无椎体骨折。
MDCT扫描获得的微观结构指数显示出比DXA测得的脊柱骨密度对椎体骨折的相对风险更高(结构模型指数的比值比[OR]:16.0,骨体积分数的OR:13.6,欧拉数的OR:13.1)(DXA的OR:4.8)。MDCT还可以提供体积骨密度数据,其诊断价值(OR:12.7)高于DXA。
MDCT可以可视化椎体微观结构,MDCT获得的微观结构参数与体积骨密度一起,在评估骨折风险方面比DXA测量具有更好的诊断性能。
