Axial loading during supine MRI for improved assessment of lumbar spine: comparison with standing MRI
Background: There are no studies comparing the morphologic changes of lumbar spines between supine axial-loaded and 90° standing magnetic resonance imaging (MRI) examinations of patients with spinal stenosis. Purpose: To determine whether axial-loaded MRI using a compression device demonstrated simi...
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th-mahidol.771002022-08-04T18:03:48Z Axial loading during supine MRI for improved assessment of lumbar spine: comparison with standing MRI Jarruwat Charoensuk Jiraporn Laothamatas Witaya Sungkarat Ladawan Worapruekjaru Boonthida Hooncharoen Khaisang Chousangsuntorn Chulabhorn Royal Academy King Mongkut's Institute of Technology Ladkrabang Faculty of Medicine Ramathibodi Hospital, Mahidol University Mahidol University Health Professions Medicine Background: There are no studies comparing the morphologic changes of lumbar spines between supine axial-loaded and 90° standing magnetic resonance imaging (MRI) examinations of patients with spinal stenosis. Purpose: To determine whether axial-loaded MRI using a compression device demonstrated similar morphology of intervertebral disc, dural sac, and spinal curvature as those detected by 90° standing MRI in individuals with suspected spinal stenosis. Material and Methods: A total of 54 individuals suspected of having spinal stenosis underwent both axial-loaded and standing MRI studies. The outcome measures included seven radiologic parameters of the lumbar spine: measures of the intervertebral disc (i.e. cross-sectional area [DA], disc height [DH], and anteroposterior distance [DAP]), dural sac (cross-sectional area [DCSA]), spinal curvature (i.e. lumbar lordosis [LL] and L1-L3-L5 angle [LA]), and total lumbar spine height (LH). Results: For agreement between the two methods, intraclass correlation coefficient (ICC) ≥ 0.8 was found for all seven radiologic parameters. Supine axial-loaded MRI underestimated LL but remained correlated (ICC = 0.83) with standing MRI. Minor differences between the two methods (≤5.0%) were observed in DA, DCSA, DAP, LA, and LH, while a major difference was observed in LL (8.1%). Conclusion: Using a compression device with the conventional supine MRI to simulate weight-bearing on the lumbar spine generated MRI morphology, which was strongly correlated with those from a standing MRI. 2022-08-04T08:44:33Z 2022-08-04T08:44:33Z 2021-01-01 Article Acta Radiologica. (2021) 10.1177/02841851211068148 16000455 02841851 2-s2.0-85122157014 https://repository.li.mahidol.ac.th/handle/123456789/77100 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85122157014&origin=inward |
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Health Professions Medicine Jarruwat Charoensuk Jiraporn Laothamatas Witaya Sungkarat Ladawan Worapruekjaru Boonthida Hooncharoen Khaisang Chousangsuntorn Axial loading during supine MRI for improved assessment of lumbar spine: comparison with standing MRI |
| description |
Background: There are no studies comparing the morphologic changes of lumbar spines between supine axial-loaded and 90° standing magnetic resonance imaging (MRI) examinations of patients with spinal stenosis. Purpose: To determine whether axial-loaded MRI using a compression device demonstrated similar morphology of intervertebral disc, dural sac, and spinal curvature as those detected by 90° standing MRI in individuals with suspected spinal stenosis. Material and Methods: A total of 54 individuals suspected of having spinal stenosis underwent both axial-loaded and standing MRI studies. The outcome measures included seven radiologic parameters of the lumbar spine: measures of the intervertebral disc (i.e. cross-sectional area [DA], disc height [DH], and anteroposterior distance [DAP]), dural sac (cross-sectional area [DCSA]), spinal curvature (i.e. lumbar lordosis [LL] and L1-L3-L5 angle [LA]), and total lumbar spine height (LH). Results: For agreement between the two methods, intraclass correlation coefficient (ICC) ≥ 0.8 was found for all seven radiologic parameters. Supine axial-loaded MRI underestimated LL but remained correlated (ICC = 0.83) with standing MRI. Minor differences between the two methods (≤5.0%) were observed in DA, DCSA, DAP, LA, and LH, while a major difference was observed in LL (8.1%). Conclusion: Using a compression device with the conventional supine MRI to simulate weight-bearing on the lumbar spine generated MRI morphology, which was strongly correlated with those from a standing MRI. |
| author2 |
Chulabhorn Royal Academy |
| author_facet |
Chulabhorn Royal Academy Jarruwat Charoensuk Jiraporn Laothamatas Witaya Sungkarat Ladawan Worapruekjaru Boonthida Hooncharoen Khaisang Chousangsuntorn |
| format |
Article |
| author |
Jarruwat Charoensuk Jiraporn Laothamatas Witaya Sungkarat Ladawan Worapruekjaru Boonthida Hooncharoen Khaisang Chousangsuntorn |
| author_sort |
Jarruwat Charoensuk |
| title |
Axial loading during supine MRI for improved assessment of lumbar spine: comparison with standing MRI |
| title_short |
Axial loading during supine MRI for improved assessment of lumbar spine: comparison with standing MRI |
| title_full |
Axial loading during supine MRI for improved assessment of lumbar spine: comparison with standing MRI |
| title_fullStr |
Axial loading during supine MRI for improved assessment of lumbar spine: comparison with standing MRI |
| title_full_unstemmed |
Axial loading during supine MRI for improved assessment of lumbar spine: comparison with standing MRI |
| title_sort |
axial loading during supine mri for improved assessment of lumbar spine: comparison with standing mri |
| publishDate |
2022 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/77100 |
| _version_ |
1763495749020024832 |