关节盂内、外圆周直径高度相关及其临床意义。

Shoulder and Elbow, Orthopaedics, Lindenhofspital, Bremgartenstrasse 117, 3001, Bern, Switzerland.

Henry Dunant Hospital, Athens, Greece.

Knee Surg Sports Traumatol Arthrosc. 2023 Jan;31(1):199-205. doi: 10.1007/s00167-022-07050-y. Epub 2022 Jul 9.

PURPOSE

The majority of methods for measuring glenoid bone loss in shoulder instability use the best-fit circle following the inferior glenoid rim. However, there is no precise method on how to draw this circle, particularly in case of a missing rim segment. Defining the radius is a source of substantial error. It was hypothesized that there is a relationship between the best-fit inferior circle (inner circle), defined by Sugaya, and the circle tangent to the supra- and infra-glenoid tubercles (outer circle), defined by Itoi, thus allowing a more consistent appreciation of the paleo-glenoid.

METHODS

Ninety-five normal dry scapulae were examined. The specimens were digitally photographed obtaining perpendicular images of the glenoid cavity. Using HOROS® imaging software, a best-fit inferior circle (inner circle) and a second circle fitting the most inferior and superior points of the glenoid (outer circle) were drawn by two investigators. The diameters and areas of the circles were recorded. Two-way random-effects intra-class correlation coefficients (ICC) were used to measure intra- and inter-observer agreement. A Bayesian measurement-error regression model was used to determine the relationship between outer and inner circle measurements.

RESULTS

The mean glenoid height was 35.1 mm and the glenoid width 25.6 mm. The mean diameter of the outer circle was 35.7 ± 4.2 mm and the mean diameter of the inner circle was 26.8 ± 3.2 mm. ICC showed excellent inter- and intra-observer agreement for both the outer circle diameter (ICC ≥ 0.95) and inner circle diameter (ICC ≥ 0.93). The two diameters demonstrated a very strong significant Pearson correlation (0.92, p < 0.001) and the regression showed excellent model fit R = 0.87. The areas of the two circles were also highly and significantly correlated (r = 0.94; p < 0.001). The ratio of inner circle to outer diameters was 0.74.

CONCLUSION

There is a strong correlation between the inner and outer glenoid circle diameters. This study sets the base for the use the combined outer and inner circle and its ratio to better appreciate the paleo-glenoid morphology and thus obtain a more reliable bone loss estimation. Application of this method aids in a more reliable estimation bone loss with potential benefit in surgical decision-making.

目的

在肩关节不稳定中，大多数测量肩胛盂骨丢失的方法都采用了沿肩胛盂下边缘拟合的最佳拟合圆。然而，如何绘制这个圆还没有精确的方法，尤其是在肩胛盂边缘缺失的情况下。定义半径是一个主要的误差源。假设 Sugaya 定义的最佳拟合下圆（内圆）与 Ito 定义的与肩胛盂上和下结节相切的圆（外圆）之间存在关系，从而可以更一致地评估古肩胛盂。

方法

检查了 95 个正常干燥肩胛骨。标本通过数字摄影获得肩胛盂腔的垂直图像。使用 HOROS®成像软件，由两位研究者绘制最佳拟合下圆（内圆）和拟合肩胛盂最下和最上点的第二圆（外圆）。记录圆的直径和面积。采用双向随机效应组内相关系数（ICC）来测量观察者内和观察者间的一致性。采用贝叶斯测量误差回归模型来确定外圆和内圆测量值之间的关系。

结果

平均肩胛盂高度为 35.1mm，肩胛盂宽度为 25.6mm。外圆的平均直径为 35.7±4.2mm，内圆的平均直径为 26.8±3.2mm。外圆直径的 ICC 为 0.95，内圆直径的 ICC 为 0.93，均显示出极好的观察者内和观察者间一致性。两个直径之间存在很强的显著 Pearson 相关性（0.92，p<0.001），回归显示出极好的模型拟合度 R=0.87。两个圆的面积也高度且显著相关（r=0.94，p<0.001）。内圆与外圆直径的比值为 0.74。

结论

内圆和外圆直径之间存在很强的相关性。本研究为使用外圆和内圆及其比值来更好地评估古肩胛盂形态并获得更可靠的骨丢失估计奠定了基础。该方法的应用有助于更可靠地估计骨丢失，从而可能有利于手术决策。

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