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利用磁共振成像进行三维软骨体积和厚度测量的体内可重复性。

In vivo reproducibility of three-dimensional cartilage volume and thickness measurements with MR imaging.

作者信息

Eckstein F, Westhoff J, Sittek H, Maag K P, Haubner M, Faber S, Englmeier K H, Reiser M

机构信息

Institut für Radiologische Diagnostik, Klinikum Grosshadern, München, Germany.

出版信息

AJR Am J Roentgenol. 1998 Mar;170(3):593-7. doi: 10.2214/ajr.170.3.9490936.

DOI:10.2214/ajr.170.3.9490936
PMID:9490936
Abstract

OBJECTIVE

Previous studies suggest that MR imaging is capable of providing accurate data on knee joint cartilage volume and thickness in vitro, but the reproducibility of these data in living subjects has not been analyzed rigorously. Our aim was therefore to determine the in vivo reproducibility of volume and thickness measurements from replicated data sets, applying three-dimensional (3D) postprocessing methods.

SUBJECTS AND METHODS

Eight healthy volunteers were imaged six times at a resolution of 2 x 0.31 x 0.31 mm with a fat-suppressed fast low-angle shot 3D sequence, the knee being repositioned in between replicated examinations. Three-dimensional reconstructions of the articular cartilage surfaces were obtained from sagittal data sets, and the cartilage volumes were calculated. The thickness distribution was analyzed throughout the joint surfaces independent of the section orientation, using a previously validated 3D minimal-distance algorithm.

RESULTS

In the volunteers, the coefficient of variation for replicated volume measurements ranged from 1.3% (patella) to 3.4% (lateral tibia), and the standard deviation of the individual cartilage volumes ranged from +/- 16% (lateral tibia) to +/- 22% (femur). The intraclass correlation coefficient ranged from .959 (lateral tibia) to .995 (patella). The interobserver evaluation was similar to the interscan reproducibility. The mean interscan deviation of the maximal cartilage thickness interval ranged from 0.1 to 0.3 cartilage thickness intervals (of 0.5 mm); only in rare cases did we record deviations greater than one thickness interval.

CONCLUSION

MR imaging can be used to determine cartilage volume and thickness in the knee joints of living subjects with high precision, provided that a fat-suppressed gradient-echo sequence with adequate resolution and 3D digital image processing are used.

摘要

目的

先前的研究表明,磁共振成像(MR成像)能够在体外提供有关膝关节软骨体积和厚度的准确数据,但这些数据在活体受试者中的可重复性尚未得到严格分析。因此,我们的目的是应用三维(3D)后处理方法,确定来自重复数据集的体积和厚度测量值在体内的可重复性。

受试者与方法

8名健康志愿者以2×0.31×0.31mm的分辨率,采用脂肪抑制快速低角度激发3D序列进行6次成像,每次重复检查之间膝关节重新定位。从矢状数据集获得关节软骨表面的三维重建图像,并计算软骨体积。使用先前验证的3D最小距离算法,独立于切片方向分析整个关节表面的厚度分布。

结果

在志愿者中,重复体积测量的变异系数范围为1.

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