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采用三维X线吸收法对人体椎骨进行体内三维重建。

In vivo 3D reconstruction of human vertebrae with the three-dimensional X-ray absorptiometry (3D-XA) method.

作者信息

Kolta S, Quiligotti S, Ruyssen-Witrand A, Amido A, Mitton D, Bras A Le, Skalli W, Roux C

机构信息

Paris-Descartes University, Medicine Faculty, UPRES-EA 4058, AP-HP, Cochin Hospital, Paris, France.

出版信息

Osteoporos Int. 2008 Feb;19(2):185-92. doi: 10.1007/s00198-007-0447-4. Epub 2007 Sep 11.

DOI:10.1007/s00198-007-0447-4

PMID:17846861

Abstract

UNLABELLED

We used a standard DXA device equipped with a C-arm to do in vivo reconstruction of human vertebrae from two orthogonal scans. This new technique, called 3D-XA (three-dimensional X-ray absorptiometry), allows the direct measurement of geometric parameters of the vertebrae with a good accuracy and precision.

INTRODUCTION

Geometric parameters are predictors of bone strength. A technique called three-dimensional X-ray absorptiometry (3D-XA) allows 3D reconstruction of bones from DXA scans. We used the 3D-XA method to reconstruct human vertebrae and to evaluate the method's in vitro accuracy and in vivo precision.

METHODS

A standard DXA device equipped with a C-arm was used. Calibration of its environment and identification of different anatomical landmarks of the vertebrae allows personalized 3D geometric reconstruction of vertebrae. Accuracy was calculated by reconstructing 16 dry human vertebrae by 3D-XA and CT scanner. In vivo inter-observer precision was calculated using 20 human spines.

RESULTS

The mean difference between 3D reconstruction by CT and 3D-XA was -0.2 +/- 1.3 mm. The in vivo mean difference of the 3D-XA method between the two rheumatologists was -0.1 +/- 0.8 mm. For geometric parameters, mean difference ranged from 0.4 to 0.9 mm. For cross-sectional area and vertebral body volume, it was 2.9% and 3.2%, respectively.

CONCLUSION

This study shows the good accuracy and precision of 3D-XA using a standard DXA device. It yields complementary information on bone geometry. Further studies are needed to evaluate if, coupled with bone density, it improves vertebral fracture risk prediction.

摘要

未标注

我们使用配备C型臂的标准双能X线吸收仪设备，通过两次正交扫描对人体椎骨进行体内重建。这种名为3D-XA（三维X线吸收测定法）的新技术能够以良好的准确度和精密度直接测量椎骨的几何参数。

引言

几何参数是骨强度的预测指标。一种名为三维X线吸收测定法（3D-XA）的技术可通过双能X线吸收仪扫描对骨骼进行三维重建。我们使用3D-XA方法重建人体椎骨，并评估该方法的体外准确度和体内精密度。

方法

使用配备C型臂的标准双能X线吸收仪设备。对其环境进行校准并识别椎骨的不同解剖标志，从而实现椎骨的个性化三维几何重建。通过3D-XA和CT扫描仪重建16个干燥人体椎骨来计算准确度。使用20个人体脊柱计算体内观察者间精密度。

结果

CT三维重建与3D-XA之间的平均差异为-0.2±1.3毫米。两位风湿病学家之间3D-XA方法的体内平均差异为-0.1±0.8毫米。对于几何参数，平均差异范围为0.4至0.9毫米。对于横截面积和椎体体积，分别为2.9%和3.2%。

结论

本研究表明使用标准双能X线吸收仪设备的3D-XA具有良好的准确度和精密度。它可提供有关骨几何形状的补充信息。需要进一步研究以评估其与骨密度结合是否能改善椎体骨折风险预测。

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采用三维X线吸收法对人体椎骨进行体内三维重建。

In vivo 3D reconstruction of human vertebrae with the three-dimensional X-ray absorptiometry (3D-XA) method.

作者信息

机构信息

出版信息

UNLABELLED

INTRODUCTION

METHODS

RESULTS

CONCLUSION

未标注

引言

方法

结果

结论

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