Yeung Tsz Wai, Chan Chung Yan Grace, Chan Wun Cheung Samuel, Yeung Yuk Nam, Yuen Ming Keung
Department of Radiology, Tuen Mun Hospital, Tuen Mun, Hong Kong,
Skeletal Radiol. 2015 Jun;44(6):823-9. doi: 10.1007/s00256-015-2107-7. Epub 2015 Feb 12.
The purpose of this study is to explore the diagnostic accuracy of CT measurements in predicting syndesmosis instability of injured ankle, with correlation to operative findings.
From July 2006 to June 2013, 123 patients presented to a single tertiary hospital who received pre-operative CT for ankle fractures were retrospectively reviewed. All patients underwent open reduction and internal fixation for fractures and intra-operative syndesmosis integrity tests. The morphology of incisura fibularis was categorized as deep or shallow. The tibiofibular distance (TFD) between the medial border of the fibula and the nearest point of the lateral border of tibia were measured at anterior (aTFD), middle (mTFD), posterior (pTFD), and maximal (maxTFD) portions across the syndesmosis on axial CT images at 10 mm proximal to the tibial plafond. Statistical analysis was performed with independent samples t test and ROC curve analysis. Intraobserver reproducibility and inter-observers agreement were also evaluated.
Of the 123 patients, 39 (31.7%) were operatively diagnosed with syndesmosis instability. No significant difference of incisura fibularis morphology (deep or shallow) and TFDs was demonstrated respective to genders. The axial CT measurements were significantly higher in ankles diagnosed with syndesmosis instability than the group without (maxTFD means 7.2 ± 2.96 mm vs. 4.6 ± 1.4 mm, aTFD mean 4.9 ± 3.7 mm vs. 1.8 ± 1.4 mm, mTFD mean 5.3 ± 2.4 mm vs. 3.2 ± 1.6 mm, pTFD mean 5.3 ± 1.8 mm vs. 4.1 ± 1.3 mm, p < 0.05). Their respective cutoff values with best sensitivity and specificity were calculated; the aTFD (AUC 0.798) and maxTFD (AUC 0.794) achieved the highest diagnostic accuracy. The optimal cutoff levels were aTFD = mm (sensitivity, 56.4%; specificity, 91.7%) and maxTFD = 5.65 mm (sensitivity, 74.4%; specificity, 79.8%). The inter-observer agreement was good for all aTFD, mTFD, pTFD, and maxTFD measurements (ICC 0.959, 0.799, 0.783, and 0.865). The ICC for intraobserver agreement was also very good, ranging from 0.826 to 0.923.
Axial CT measurements of tibiofibular distance were useful predictors for syndesmosis instability in fractured ankles. The aTFD and maxTFD are the most powerful parameters to predict positive operative instability.
本研究旨在探讨CT测量在预测受伤踝关节下胫腓联合不稳方面的诊断准确性,并与手术结果进行相关性分析。
回顾性分析2006年7月至2013年6月期间在一家三级医院接受踝关节骨折术前CT检查的123例患者。所有患者均接受了骨折切开复位内固定术及术中下胫腓联合完整性测试。将腓骨切迹形态分为深或浅。在胫骨平台近端10 mm处的轴向CT图像上,测量腓骨内侧缘与胫骨外侧缘最近点之间的胫腓距离(TFD),包括前部(aTFD)、中部(mTFD)、后部(pTFD)及最大(maxTFD)部位。采用独立样本t检验和ROC曲线分析进行统计学分析。同时评估了观察者内重复性和观察者间一致性。
123例患者中,39例(31.7%)经手术诊断为下胫腓联合不稳。腓骨切迹形态(深或浅)和TFD在性别上无显著差异。诊断为下胫腓联合不稳的踝关节的轴向CT测量值显著高于未诊断为不稳的组(maxTFD均值为7.2±2.96 mm对4.6±1.4 mm,aTFD均值为4.9±3.7 mm对1.8±1.4 mm,mTFD均值为5.3±2.4 mm对3.2±1.6 mm,pTFD均值为5.3±1.8 mm对4.1±1.3 mm,p<0.05)。计算了它们各自具有最佳敏感性和特异性的截断值;aTFD(AUC 0.798)和maxTFD(AUC 0.794)具有最高的诊断准确性。最佳截断水平为aTFD = 3.15 mm(敏感性56.4%;特异性91.7%)和maxTFD = 5.65 mm(敏感性74.4%;特异性79.8%)。观察者间一致性在所有aTFD、mTFD、pTFD和maxTFD测量中均良好(ICC分别为0.959、0.799、0.783和0.865)。观察者内一致性的ICC也非常好,范围为0.826至0.923。
胫腓距离的轴向CT测量是骨折踝关节下胫腓联合不稳的有用预测指标。aTFD和maxTFD是预测手术阳性不稳的最有力参数。
