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轴向扫描方向与胫骨结节-滑车沟距离:误差分析与校正。

Axial scan orientation and the tibial tubercle-trochlear groove distance: error analysis and correction.

机构信息

1 Department of Radiology and Imaging Sciences, NIH Clinical Center, 10 Center Dr, Bethesda, MD 20892.

出版信息

AJR Am J Roentgenol. 2014 Jun;202(6):1291-6. doi: 10.2214/AJR.13.11488.

DOI:10.2214/AJR.13.11488
PMID:24848827
Abstract

OBJECTIVE

The tibial tubercle (TT)-trochlear groove (TG) distance is an important metric in the assessment of patellofemoral dysfunction and is routinely measured on axial MRI and CT. This study examines error in measurements of the TT-TG distance related to variance in axial MRI scan orientation.

SUBJECTS AND METHODS

Isotropic 3D turbo spin-echo MRI of the extended knee was performed in 12 healthy subjects. The z-axis of the scanner defines the perpendicular to a routine axial plane, and the anatomic axial plane is parallel to the knee joint. Isotropic MRI was reformatted into routine and anatomic axial planes and in axial planes simulating 5° of femoral adduction and abduction relative to the anatomic plane. A method for correcting the TT-TG distance to account for variable axial scan orientation is presented.

RESULTS

Five degrees of simulated femoral abduction is associated with a mean increase in the TT-TG distance of 38% (SD = 17%), whereas 5° of simulated femoral adduction is associated with a mean decrease in the TT-TG distance of 51% (SD = 39%). The average deviation of the routine axial plane from the anatomic axial plane was 5.0° abduction (SD = 2.3°). The simplest correction method reduced the mean discrepancy in the observed TT-TG distance by 68% and 72% in simulated femoral abduction and adduction, respectively.

CONCLUSION

The TT-TG distance is sensitive to small changes in femoral alignment and should be interpreted with caution if axial image acquisition is not standardized. Knowing the vertical separation of the TT from the TG facilitates a simplified correction of the TT-TG distance, which is as effective as more complex corrections.

摘要

目的

胫骨结节(TT)-滑车沟(TG)距离是评估髌股功能障碍的重要指标,通常在轴位 MRI 和 CT 上进行测量。本研究探讨了与轴向 MRI 扫描方向变化相关的 TT-TG 距离测量误差。

受试者和方法

对 12 名健康受试者进行了膝关节扩展的各向同性 3D 涡轮自旋回波 MRI。扫描仪的 z 轴定义为垂直于常规轴面,解剖轴面平行于膝关节。各向同性 MRI 被重新格式化到常规和解剖轴面,以及模拟相对于解剖面内收和外展 5°的轴向平面。提出了一种校正 TT-TG 距离以考虑可变轴向扫描方向的方法。

结果

模拟 5°的股骨外展会导致 TT-TG 距离平均增加 38%(标准差=17%),而模拟 5°的股骨内收会导致 TT-TG 距离平均减少 51%(标准差=39%)。常规轴面与解剖轴面的平均偏差为 5.0°外展(标准差=2.3°)。最简单的校正方法分别减少了模拟股骨内收和外展时观察到的 TT-TG 距离的平均差异的 68%和 72%。

结论

TT-TG 距离对股骨对线的微小变化很敏感,如果没有标准化的轴向图像采集,应谨慎解释。了解 TT 与 TG 的垂直分离有助于简化 TT-TG 距离的校正,其效果与更复杂的校正方法一样有效。

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