轴向负荷对腰椎生物力学影响的磁共振成像评估
Magnetic Resonance Imaging Evaluation of Biomechanical Effects of Axial Loading on the Lumbar Spine.
作者信息
Sehic Adnan, Julardzija Fuad, Bulja Deniz, Jusufbegovic Merim, Konjo Hadzan, Sefo Haso, Zubovic Sandra
机构信息
Department of Radiology Technologies, Faculty of Health Studies, University of Sarajevo, Sarajevo, Bosnia and Herzegovina.
Neuroradiology department, Radiology clinic, Clinical center of Sarajevo University, Sarajevo, Bosnia and Herzegovina.
出版信息
Acta Inform Med. 2022 Dec;30(4):312-317. doi: 10.5455/aim.2022.30.312-317.
BACKGROUND
MRI techniques of the lumbar spine have not provided data on the effect of gravity on the spine and on the relationship of anatomic structures during its action. Because conventional MRI examinations of the spine are usually performed in the supine position these are often exacerbated by standing upright and are not evident in the supine position the loading conditions differ from those known to cause symptoms in patients with lumbar instability. Axial loading imaging may improve diagnostics in the clinical management of LBP and lead to appropriate treatment decisions.
OBJECTIVE
The aim of this study is to determine the significance of alMRI in detecting the morphologic changes of the lumbar spine caused by axial loading and to compare it with conventional MRI images of the lumbar spine without loading.
METHODS
The study was conducted as a prospective, descriptive clinical trial. Imaging was performed with a MRI 1.5 T in the head-first supine position. Imaging was performed in two acts: without load and under load. Loading for alMRI was performed with the DynaWell L-Spine device. The onset of loading was 10 minutes before the start of alMRI. The loading continued throughout the imaging procedure. The height of the IV, AP and LL diameters of IV, IV disk surface area, DSCA and width of the IV foraminas before and under load was measured.
RESULTS
After evaluating the changes in the height and size of the lumbar disks, the size of the DSCA, and the narrowing of the intervertebral foramina significant differences were found between the images before and after axial loading.
CONCLUSION
alMRI provides information on morphological changes of all segments of the lumbar spine. This data represents significant information that can lead to more accurate and effective treatment of LBP.
背景
腰椎的MRI技术尚未提供重力对脊柱的影响以及在其作用过程中解剖结构关系的数据。由于脊柱的传统MRI检查通常在仰卧位进行,这些情况在直立时往往会加剧,而在仰卧位时并不明显,其负荷条件与已知导致腰椎不稳患者出现症状的条件不同。轴向负荷成像可能会改善腰痛临床管理中的诊断,并有助于做出适当的治疗决策。
目的
本研究的目的是确定轴向负荷MRI在检测腰椎形态学变化方面的意义,并将其与无负荷的腰椎传统MRI图像进行比较。
方法
该研究作为一项前瞻性、描述性临床试验进行。使用1.5T MRI在头先仰卧位进行成像。成像分两个阶段进行:无负荷和有负荷。轴向负荷MRI的负荷使用DynaWell L-Spine装置进行。负荷在轴向负荷MRI开始前10分钟开始。负荷在整个成像过程中持续。测量负荷前后椎间盘的高度、前后径和侧隐窝直径、椎间盘表面积、侧隐窝面积和椎间孔宽度。
结果
在评估腰椎间盘的高度和大小、侧隐窝面积的大小以及椎间孔狭窄的变化后,发现轴向负荷前后的图像之间存在显著差异。
结论
轴向负荷MRI提供了腰椎所有节段形态学变化的信息。这些数据代表了重要信息,可导致对腰痛更准确、有效的治疗。
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