STUDY DESIGN: Methodological reliability. OBJECTIVE: Develop a measurement technique to assess dynamic motion of the lumbar spine using enhanced digital fluoroscopic video (DFV) and a distortion compensated roentgen analysis (DCRA). SUMMARY OF BACKGROUND DATA: Controversy over both the definition and consequences of lumbar segmental instability persists. Information from static imaging has had limited success in providing an understanding of this disorder. DFV has the potential to provide further information about lumbar segmental instability; however, the image quality is poor and clinical application is limited. METHODS: DFV from 20 male subjects (11 with and nine without low back pain) were obtained during eccentric lumbar flexion (30 Hz). Each DFVs was enhanced with a series of filters to accentuate the vertebral edges. An adapted DCRA algorithm was applied to determine segmental angular and linear displacement. Both intraimage and interimage reliability were assessed using intraclass correlation coefficients (ICC) and standard error of the measurement (SEM). RESULTS.: Intraimage reliability yielded an average ICC of 0.986, and the SEM ranged from 0.4-0.7 degrees and 0.2-0.3 mm. Interimage reliability yielded an average ICC of 0.878, and the SEM ranged from 0.7-1.4 degrees and 0.4-0.7 mm. CONCLUSIONS: Enhanced DFV combined with a DCRA resulted in reliable assessment of lumbar spine kinematics. The error values associated with this technique were low and were comparable to published error measurements obtained when using a similar algorithm on hand-drawn outlines from static radiographs.
STUDY DESIGN: Methodological reliability. OBJECTIVE: Develop a measurement technique to assess dynamic motion of the lumbar spine using enhanced digital fluoroscopic video (DFV) and a distortion compensated roentgen analysis (DCRA). SUMMARY OF BACKGROUND DATA: Controversy over both the definition and consequences of lumbar segmental instability persists. Information from static imaging has had limited success in providing an understanding of this disorder. DFV has the potential to provide further information about lumbar segmental instability; however, the image quality is poor and clinical application is limited. METHODS:DFV from 20 male subjects (11 with and nine without low back pain) were obtained during eccentric lumbar flexion (30 Hz). Each DFVs was enhanced with a series of filters to accentuate the vertebral edges. An adapted DCRA algorithm was applied to determine segmental angular and linear displacement. Both intraimage and interimage reliability were assessed using intraclass correlation coefficients (ICC) and standard error of the measurement (SEM). RESULTS.: Intraimage reliability yielded an average ICC of 0.986, and the SEM ranged from 0.4-0.7 degrees and 0.2-0.3 mm. Interimage reliability yielded an average ICC of 0.878, and the SEM ranged from 0.7-1.4 degrees and 0.4-0.7 mm. CONCLUSIONS: Enhanced DFV combined with a DCRA resulted in reliable assessment of lumbar spine kinematics. The error values associated with this technique were low and were comparable to published error measurements obtained when using a similar algorithm on hand-drawn outlines from static radiographs.
Authors: Kristin D Zhao; Ephraim I Ben-Abraham; Dixon J Magnuson; Jon J Camp; Lawrence J Berglund; Kai-Nan An; Gert Bronfort; Ralph E Gay Journal: J Biomech Eng Date: 2016-05 Impact factor: 2.097
Authors: Roland Zemp; Renate List; Turgut Gülay; Jean Pierre Elsig; Jaroslav Naxera; William R Taylor; Silvio Lorenzetti Journal: PLoS One Date: 2014-04-18 Impact factor: 3.240