手部掌指关节处关节软骨体积的量化：三维磁共振成像的准确性和精确性

Quantification of the volume of articular cartilage in the metacarpophalangeal joints of the hand: accuracy and precision of three-dimensional MR imaging.

作者信息

Peterfy C G, van Dijke C F, Lu Y, Nguyen A, Connick T J, Kneeland J B, Tirman P F, Lang P, Dent S, Genant H K

机构信息

Department of Radiology, University of California, San Francisco 94143-0628, USA.

出版信息

AJR Am J Roentgenol. 1995 Aug;165(2):371-5. doi: 10.2214/ajr.165.2.7618560.

DOI:10.2214/ajr.165.2.7618560

PMID:7618560

Abstract

OBJECTIVE

Cartilage loss is central to the development of joint failure in arthritis. However, radiographic assessment of cartilage loss is highly unreliable. This study examined the accuracy and reproducibility of a noninvasive technique for quantifying the volume of articular cartilage in the metacarpophalangeal joints of the hand by use of three-dimensional (3D) MR imaging.

SUBJECTS AND METHODS

Eight metacarpophalangeal joints (four normal, one rheumatoid arthritic, and three normal cadaveric) each were imaged three times with a 1.5-T clinical MR imaging scanner with a small partial volume coil and a fat-saturated 3D spoiled gradient-echo sequence optimized for delineating articular cartilage. The volumes of cartilage over the metacarpal and phalangeal surfaces were quantified by summing the voxels within segmented 3D reconstructions of the images. Cartilage volumes in the three cadaver joints also were estimated by scraping cartilage off the articular surfaces and measuring water displacement in graduated cylinders. These values were used as the gold standard for assessing the accuracy of cartilage volume quantification by MR imaging.

RESULTS

The fat-saturated sequence discriminated the articular cartilage from adjacent joint structures with high contrast and high spatial resolution. Cartilage volumes determined by MR imaging for the different subjects ranged from 115 microliters to 222 microliters for metacarpal cartilage and from 34 microliters to 86 microliters for proximal phalangeal cartilage. Accuracy errors for quantifying cartilage volume by MR imaging were -1.8% (95% confidence interval, -3.5% to -0.7%) for metacarpal cartilage and 9.1% (4.3% to 14.7%) for proximal phalangeal cartilage. Reproducibility errors were 5.2% (95% confidence interval, 2.9% to 7.6%) and 9.9% (5.4% to 15.1%), respectively.

CONCLUSION

Fat-suppressed T1-weighted 3D MR imaging provides sufficient contrast and spatial resolution to allow accurate and reproducible quantification of articular cartilage volume in the metacarpophalangeal joints of the hand. This technique may be useful for monitoring cartilage loss in patients with arthritis.

摘要

目的

软骨损伤是关节炎关节功能衰竭发展的核心问题。然而，通过X线片评估软骨损伤的可靠性很低。本研究采用三维（3D）磁共振成像技术，对手掌指关节的关节软骨体积进行无创定量分析，检测该技术的准确性和可重复性。

对象与方法

采用1.5T临床磁共振成像扫描仪及小部分容积线圈，利用脂肪饱和的三维扰相梯度回波序列，该序列针对关节软骨的描绘进行了优化，对8个掌指关节（4个正常关节、1个类风湿性关节炎关节和3个正常尸体关节）分别进行3次成像。通过对图像的三维重建分割后的体素求和，定量掌骨和指骨表面的软骨体积。还通过刮除尸体关节的关节表面软骨并测量量筒中的水排量来估计三个尸体关节的软骨体积。这些值被用作评估磁共振成像定量软骨体积准确性的金标准。

结果

脂肪饱和序列能以高对比度和高空间分辨率将关节软骨与相邻关节结构区分开来。不同受试者通过磁共振成像测定的掌骨软骨体积在115微升至222微升之间，近端指骨软骨体积在34微升至86微升之间。通过磁共振成像定量软骨体积的准确性误差，掌骨软骨为-1.8%（95%置信区间，-3.5%至-0.7%），近端指骨软骨为9.1%（4.3%至14.7%）。可重复性误差分别为5.2%（95%置信区间，2.9%至7.6%）和9.9%（5.4%至15.1%）。