STUDY DESIGN: Prospective, patient controlled. OBJECTIVE: To compare Cobb angles in idiopathic scoliosis between standing radiographs and a nonradiographic procedure. SUMMARY OF BACKGROUND DATA: Repeated radiographic examinations at young age may increase the risk for breast cancer in adulthood. MRI images the spine satisfactorily but is cumbersome in standing. A harness supplying axial load to a lying subject simulates the standing radiograph appearance of the lumbar spine. METHODS: Thirty patients with idiopathic scoliosis greater than 20 degrees performed a routine posteroanterior and lateral standing thoracolumbar spine radiograph and an MRI in supine position without and with axial loading. RESULTS: Mean Cobb angle for the major curve was 31 degrees on standing radiographs, 23 degrees on nonloaded supine MRI, and 31 degrees on supine loaded MRI. Axially loaded, compared with nonloaded, MRI increased the Cobb angle by 8 degrees. The mean difference between standing radiograph and supine axially loaded MRI was 0 degrees, with an intermethodologic variation(s) of 3.4 degrees. Radiographic and MRI (axially loaded) Cobb angles correlated positively (r = 0.78). CONCLUSIONS: Axial loading on supine MRI produces coronal Cobb angles similar to standing radiographs. This is a way to acquire reliable Cobb angles without radiation in the monitoring of idiopathic scoliosis.
STUDY DESIGN: Prospective, patient controlled. OBJECTIVE: To compare Cobb angles in idiopathic scoliosis between standing radiographs and a nonradiographic procedure. SUMMARY OF BACKGROUND DATA: Repeated radiographic examinations at young age may increase the risk for breast cancer in adulthood. MRI images the spine satisfactorily but is cumbersome in standing. A harness supplying axial load to a lying subject simulates the standing radiograph appearance of the lumbar spine. METHODS: Thirty patients with idiopathic scoliosis greater than 20 degrees performed a routine posteroanterior and lateral standing thoracolumbar spine radiograph and an MRI in supine position without and with axial loading. RESULTS: Mean Cobb angle for the major curve was 31 degrees on standing radiographs, 23 degrees on nonloaded supine MRI, and 31 degrees on supine loaded MRI. Axially loaded, compared with nonloaded, MRI increased the Cobb angle by 8 degrees. The mean difference between standing radiograph and supine axially loaded MRI was 0 degrees, with an intermethodologic variation(s) of 3.4 degrees. Radiographic and MRI (axially loaded) Cobb angles correlated positively (r = 0.78). CONCLUSIONS: Axial loading on supine MRI produces coronal Cobb angles similar to standing radiographs. This is a way to acquire reliable Cobb angles without radiation in the monitoring of idiopathic scoliosis.
Authors: Jacob L Jaremko; Peter J MacMahon; Martin Torriani; Vanessa L Merker; Victor F Mautner; Scott R Plotkin; Miriam A Bredella Journal: Skeletal Radiol Date: 2011-12-07 Impact factor: 2.199
Authors: Z Anwar; E Zan; S K Gujar; D M Sciubba; L H Riley; Z L Gokaslan; D M Yousem Journal: AJNR Am J Neuroradiol Date: 2010-01-06 Impact factor: 3.825
Authors: Rosa Nguyen; Eva Dombi; Srivandana Akshintala; Andrea Baldwin; Brigitte C Widemann Journal: J Neurooncol Date: 2014-10-08 Impact factor: 4.130
Authors: Peter Bernstein; Susanne Hentschel; Ivan Platzek; Stefan Zwingenberger; Sebastian Weigel; Sebastian Hühne; Jens Seifert Journal: Eur Spine J Date: 2011-12-17 Impact factor: 3.134
Authors: Christian I Weber; Ching-Ting Hwang; Linda R van Dillen; Simon Y Tang Journal: Clin Biomech (Bristol, Avon) Date: 2019-04-16 Impact factor: 2.063
Authors: Tomasz Kotwicki; Stefano Negrini; Theodoros B Grivas; Manuel Rigo; Toru Maruyama; Jacek Durmala; Fabio Zaina Journal: Scoliosis Date: 2009-11-26