放射学骨纹理分析与股骨头的 3D 微观结构相关，并且当与骨密度结合使用时，可以提高股骨颈骨折风险的评估。

Radiographic bone texture analysis is correlated with 3D microarchitecture in the femoral head, and improves the estimation of the femoral neck fracture risk when combined with bone mineral density.

机构信息

Aix-Marseille Université, CNRS, ISM UMR 7287, 13284 Marseille, France.

出版信息

Eur J Radiol. 2013 Sep;82(9):1494-8. doi: 10.1016/j.ejrad.2013.04.042. Epub 2013 Jun 10.

DOI:10.1016/j.ejrad.2013.04.042

PMID:23756323

Abstract

PURPOSE

Femoral neck fracture is a major public health problem in elderly persons, representing the main source of osteoporosis-related mortality and morbidity. In this study, we aimed at comparing radiographic texture analysis with three-dimensional (3D) microarchitecture in human femurs, and at evaluating whether bone texture analysis improved the assessment of the femoral neck fracture risk other than that obtainable by bone mineral density (BMD).

MATERIALS AND METHODS

Thirteen osteoporotic femoral heads from patients who fractured their femoral neck and twelve non-fractured femoral heads from osteoarthritic patients were studied using respectively (1) a new high-resolution digital X-ray device (BMA™, D3A Medical Systems) allowing for bone texture analysis with fractal parameter Hmean, and (2) a micro-computed tomograph (CT) for 3D microarchitecture. BMD was measured postoperatively by DXA in all patients in the contralateral femur.

RESULTS

In these femoral heads, we found that fractal parameter Hmean was correlated with 3D microarchitecture parameters: bone volume fraction (BV/TV), trabecular number (Tb.N), trabecular separation (Tb.Sp) and fractal dimension (FD) respectively (p<0.05). Then, fractal parameter Hmean was significantly lower in the femoral heads from the fractured group than from the non-fractured group (p<0.01). Finally, multiple regression analysis showed that combining bone texture analysis and total hip BMD significantly improved the estimation of the femoral neck fracture risk from adjusted r(2)=0.46 to adjusted r(2)=0.67 (p<0.05).

CONCLUSION

Radiographic bone texture analysis was correlated with 3D microarchitecture parameters in the femoral head, provided accurate discrimination between the femoral heads from the fractured and non-fractured groups, and significantly improved the estimation of the femoral neck fracture risk when combined with BMD.

摘要

目的

股骨颈骨折是老年人的一个主要公共卫生问题，是与骨质疏松症相关的死亡率和发病率的主要来源。在这项研究中，我们旨在比较人体股骨的放射学纹理分析与三维（3D）微结构，并评估骨纹理分析是否除了骨密度（BMD）之外，还能改善对股骨颈骨折风险的评估。

材料和方法

研究了 13 例因股骨颈骨折而接受治疗的骨质疏松症患者的股骨颈骨折头和 12 例来自骨关节炎患者的非骨折股骨颈头，分别使用（1）一种新的高分辨率数字 X 射线设备（BMA™，D3A Medical Systems），允许进行分形参数 Hmean 的骨纹理分析，和（2）一种微计算机断层扫描（CT）进行 3D 微结构分析。所有患者在对侧股骨中均进行了术后 DXA 测量 BMD。

结果

在这些股骨颈头中，我们发现分形参数 Hmean 与 3D 微结构参数（BV/TV、Tb.N、Tb.Sp 和 FD）分别相关（p<0.05）。然后，骨折组的股骨颈头的分形参数 Hmean 明显低于非骨折组（p<0.01）。最后，多元回归分析显示，将骨纹理分析和全髋关节 BMD 相结合，显著提高了股骨颈骨折风险的估计值，调整后的 r(2)值从 0.46 提高到 0.67（p<0.05）。

结论

放射学骨纹理分析与股骨颈头的 3D 微结构参数相关，能准确区分骨折组和非骨折组的股骨颈头，并在与 BMD 结合时显著提高股骨颈骨折风险的估计值。

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放射学骨纹理分析与股骨头的 3D 微观结构相关，并且当与骨密度结合使用时，可以提高股骨颈骨折风险的评估。

Radiographic bone texture analysis is correlated with 3D microarchitecture in the femoral head, and improves the estimation of the femoral neck fracture risk when combined with bone mineral density.

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料和方法

结果

结论

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