Automatic Cobb Angle Determination From Radiographic Images

Study Design. Automatic measurement of Cobb angle in patients with scoliosis. Objective. To test the accuracy of an automatic Cobb angle determination method from frontal radiographical images. Summary of Background Data. Thirty-six frontal radiographical images of patients with scoliosis. Methods. A modified charged particle model is used to determine the curvature on radiographical spinal images. Three curve fitting methods, piece-wise linear, splines, and polynomials, each with 3 variants were used and evaluated for the best fit. The Cobb angle was calculated out of these curve fit lines and compared with a manually determined Cobb angle. The best-automated method is determined on the basis of the lowest mean absolute error and standard deviation, and the highest R2. Results. The error of the manual Cobb angle determination among the 3 observers, determined as the mean of the standard deviations of all sets of measurements, was 3.37°. For the automatic method, the best piece-wise linear method is the 3-segments method. The best spline method is the 10-steps method. The best polynomial method is poly 6. Overall, the best automatic methods are the piece-wise linear method using 3 segments and the polynomial method using poly 6, with a mean absolute error of 4,26° and 3,91° a standard deviation of 3,44° and 3,60°, and a R2 of 0.9124 and 0.9175. The standard measurement error is significantly lower than the upper bound found in the literature (11.8°). Conclusion. The automatic Cobb angle method seemed to be better than the manual methods described in the literature. The piece-wise linear method using 3 segments and the polynomial method using poly 6 yield the 2 best results because the mean absolute error, standard deviation, and R2 are the best of all methods. Level of Evidence: 3

[1]  A. C. Kittleson,et al.  Measurement of scoliosis. , 1970, The American journal of roentgenology, radium therapy, and nuclear medicine.

[2]  C E Beekman,et al.  Variability of scoliosis measurement from spinal roentgenograms. , 1979, Physical therapy.

[3]  S J Dwyer,et al.  Computerized measurement and analysis of scoliosis: a more accurate representation of the shape of the curve. , 1980, Radiology.

[4]  H Labelle,et al.  Observer Variation in Assessing Spinal Curvature and Skeletal Development in Adolescent Idiopathic Scoliosis , 1988, Spine.

[5]  E. Hall,et al.  Measurement of the Cobb angle on radiographs of patients who have scoliosis. Evaluation of intrinsic error. , 1990, The Journal of bone and joint surgery. American volume.

[6]  J. Birch,et al.  Measurement of scoliosis and kyphosis radiographs. Intraobserver and interobserver variation. , 1990, The Journal of bone and joint surgery. American volume.

[7]  K. Shea,et al.  A Comparison of Manual Versus Computer‐Assisted Radiographic Measurement: Intraobserver Measurement Variability for Cobb Angles , 1998, Spine.

[8]  Curve progression and spinal growth in brace treated idiopathic scoliosis. , 2002, Studies in health technology and informatics.

[9]  K. Greiner,et al.  Adolescent idiopathic scoliosis: radiologic decision-making. , 2002, American family physician.

[10]  Michael H. F. Wilkinson,et al.  CPM: a deformable model for shape recovery and segmentation based on charged particles , 2004, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[11]  A. Mehbod,et al.  The Assessment of Intraobserver and Interobserver Error in the Measurement of Noncongenital Scoliosis in Children ≤ 10 Years of Age , 2004, Spine.

[12]  J. Pruijs,et al.  Variation in Cobb angle measurements in scoliosis , 1994, Skeletal Radiology.

[13]  Ian A. F. Stokes,et al.  Computer-Assisted Algorithms Improve Reliability of King Classification and Cobb Angle Measurement of Scoliosis , 2006, Spine.

[14]  C. Bach,et al.  Inter- and intraobserver reliability assessment of the Cobb angle: manual versus digital measurement tools , 2007, European Spine Journal.

[15]  M. G. Mini,et al.  A Mask Based Segmentation Algorithm for Automatic Measurement of Cobb Angle from Scoliosis X-Ray Image , 2012, 2012 International Conference on Advances in Computing and Communications.