Barchilon Vidal S, Kotz Eugene, Barchilon Ben-Av Mercedes, Glazer Ernesto, Nyska Meir
Department of Orthopedic Surgery, Shoulder Service, Sapir Medical Center, 44281, Kfar-Saba, Israel.
Skeletal Radiol. 2008 Aug;37(8):731-6. doi: 10.1007/s00256-008-0506-8. Epub 2008 Jun 4.
The objective of this study was to describe and validate a simple method to quantitatively calculate the missing area of the anterior part of the glenoid in anterior glenohumeral instability.
The calculations were developed from three-dimensional (3D)-reconstructed computerized tomography en face images of the glenoid with "subtraction" of the humeral head in 13 consecutive cases with known anterior glenohumeral joint instability diagnosed by history and clinical examination. The inferior portion of the glenoid was approximated to a true circle whose center was determined by means of a femoral head gauge. The eroded anterior area was calculated as the ratio between the depth (a perpendicular line from the center of the circle to the eroded edge of the anterior glenoid) and the radius of the inferior glenoid circle. This data was then compared to the results obtained by two additional different methods: direct computerized measurements of the missing area and direct computerized measurement of the ratio between the radius and depth, on two dimensional computed tomography (CT) en face view reconstructions of the glenoid.
We provide a function that correlates the ratio between depth and radius of the inferior glenoid circle and the area of the missing anterior glenoid. The results obtained by three different methods were comparable. Simple trigonometric calculations showed that a 5% area defect corresponds to 0.8 (12.5%) of the radius of the inferior glenoid, while a 20% area defect corresponds to 0.5 (50%) of the same radius (Table 1). Table 1 Results according to each different method Patient Sex Side CA1 MA1 PAM1 R2 D2 PAM2 R3 D3 PAM3 1 M R 738 19.1 2.58 15.1 13.4 2.45 16 14 2.6 2 M R 462.6 30.5 6.59 11.9 9.7 4.83 16 10 12.97 3 F L 359 24.5 6.82 17 11.8 9.86 11.8 17 9.86 4 M L 522 59.4 11.37 12.7 9.1 8.95 16 10 12.97 5 M L 670 93.1 13.89 13.6 7.6 16.84 16 9 16.31 6 M R 659 137.5 20.8 14.3 7.1 20.10 20 8 25.23 7 M L 520 137 26.34 11.6 5.1 23.49 16 8 19.55 AVG 12.63 12.36 14.21 SD 8.46 7.92 7.20 CA1 Area of circle directly measured by MPR software, MA1 missing area of circle measured by MPR software, PAM1 calculated (100 x MA1/CA1) percentage area missing for method 1, R2 radius of the circle measured by MPR software, D2 depth from the missing edge to the center of the circle measured by MPR software, PAM2 calculated Percentage area missing from R2 and D2 using the function "q" (Appendix), R3 radius of the circle measured with a femoral gauge, D3 depth from the missing edge to the center of the circle measured with a femoral gauge, PAM3 calculated Percentage area missing from R3 and D3 using the function "q" (Appendix), AVG average, SD standard deviation
Using this simple method and the function provided, the eroded area of the anterior part of the glenoid in anterior glenohumeral instability can be calculated preoperatively using a 3D CT reconstruction of the glenoid with "subtraction" of the humeral head, obviating the need for sophisticated software to obtain this critical information for preoperative decision making.
本研究的目的是描述并验证一种简单的方法,用于定量计算前盂肱关节不稳时关节盂前部的缺损面积。
对13例经病史和临床检查确诊为前盂肱关节不稳的连续病例,利用三维(3D)重建的关节盂计算机断层扫描(CT)正位图像,通过“减去”肱骨头来进行计算。关节盂下部近似为一个真圆,其圆心通过股骨头测量仪确定。侵蚀的前部面积通过深度(从圆心到关节盂前部侵蚀边缘的垂线)与关节盂下部圆半径的比值来计算。然后将该数据与另外两种不同方法所得结果进行比较:在关节盂的二维CT正位视图重建上直接通过计算机测量缺损面积以及直接测量半径与深度的比值。
我们提供了一个函数,该函数将关节盂下部圆的深度与半径之比和关节盂前部缺损面积相关联。三种不同方法所得结果具有可比性。简单的三角计算表明,5%的面积缺损对应于关节盂下部半径的0.8(12.5%),而20%的面积缺损对应于同一半径的0.5(50%)(表1)。表1 各不同方法的结果 患者 性别 侧别 CA1 MA1 PAM1 R2 D2 PAM2 R3 D3 PAM3 1 男 右 738 19.1 2.58 15.1 13.4 2.45 16 14 2.6 2 男 右 462.6 30.5 6.59 11.9 9.7 4.83 16 10 12.97 3 女 左 359 24.5 6.82 17 11.8 9.86 11.8 17 9.86 4 男 左 522 59.4 11.37 12.7 9.1 8.95 16 10 12.97 5 男 左 670 93.1 13.89 13.6 7.6 16.84 16 9 16.31 6 男 右 659 137.5 20.8 14.3 7.1 20.10 20 8 25.23 7 男 左 520 137 26.34 11.6 5.1 23.49 16 8 19.55 平均值 12.63 12.36 14.21 标准差 8.46 7.92 7.20 CA1通过MPR软件直接测量的圆面积,MA1通过MPR软件测量的圆缺损面积,PAM1计算得出的方法1的缺损面积百分比(100×MA1/CA1),R2通过MPR软件测量的圆半径,D2通过MPR软件测量的从缺损边缘到圆心的深度,PAM2使用函数“q”(附录)根据R2和D2计算得出的缺损面积百分比,R3用股骨头测量仪测量的圆半径,D3用股骨头测量仪测量的从缺损边缘到圆心的深度,PAM3使用函数“q”(附录)根据R3和D3计算得出的缺损面积百分比,AVG平均值,SD标准差
使用这种简单方法和所提供的函数,在前盂肱关节不稳时,可通过对关节盂进行“减去”肱骨头的3D CT重建术前计算关节盂前部的侵蚀面积,无需复杂软件即可获取这一关键信息用于术前决策。
