Journal
JOURNAL OF CLINICAL MEDICINE
Volume 11, Issue 16, Pages -Publisher
MDPI
DOI: 10.3390/jcm11164665
Keywords
MRI; low back pain; image registration; disc degeneration; disc deformation
Categories
Funding
- ALF-agreement [ALFGBG-965910, ALFGBG-965449, ALFGBG-965176]
- Swedish government
- country councils
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This study investigates the structural and mechanical behavior of intervertebral discs. A potential method for measuring the deformation of the discs under stress using MRI and image registration is presented. The results show that the largest deformation occurs in the lower lumbar spine, and there are regional differences in the behavior of individual discs. Regression analysis reveals that the degeneration grade and tilt angle are the main contributing factors to the deformation.
Degeneration alters the structural components of the disc and its mechanical behavior. Understanding this pathophysiological process is of great importance, as it may lead to back pain. However, non-invasive methods to characterize the disc mechanics in vivo are lacking. Here, a potential method for measurements of the intradiscal deformation under stress is presented. The method utilizes a standard MRI protocol, commercial loading equipment, and registration software. The lumbar spine (L1/L2-L5/S1) of 36 human subjects was imaged with and without axial loading of the spine. The resulting images were registered, and changes in the images during the registration were displayed pixel-by-pixel to visualize the internal deformation of the disc. The degeneration grade, disc height, disc angle and tilt angle were determined and correlated with the deformation using multivariate regression analysis. The largest deformation was found at the lower lumbar spine, and differences in regional behaviors between individual discs were found. Weak to moderate correlations between the deformation and different disc characteristics were found, where the degeneration grade and tilt angle were the main contributing factors. To conclude, the image-based method offers a potential tool to study the pathophysiological process of the disc.
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