轴向负荷及体位对腰椎管狭窄症的影响:一项使用新型轴向负荷装置的磁共振成像研究
Effects of axial loading and positions on lumbar spinal stenosis: an MRI study using a new axial loading device.
作者信息
Fang Xingyu, Cui Mengqiu, Wang Yingwei, Liu Lin, Lv Wei, Ye Huiyi, Liu Gang
机构信息
Medical School of Chinese PLA, Beijing, 100853, China.
Department of Radiology, The First Medical Center, Chinese PLA General Hospital, Beijing, 100853, China.
出版信息
Skeletal Radiol. 2025 Feb;54(2):199-208. doi: 10.1007/s00256-024-04720-5. Epub 2024 Jun 7.
OBJECTIVE
A new axial loading device was used to investigate the effects of axial loading and positions on lumbar structure and lumbar spinal stenosis.
METHODS
A total of 40 patients sequentially underwent 4 examinations: (1) the psoas-relaxed position MRI, (2) the extended position MRI, (3) the psoas-relaxed position axial loading MRI, (4) the extended position axial loading MRI. The dural sac cross-sectional area, sagittal vertebral canal diameter, disc height and ligamentum flavum thickness of L3-4, L4-5, L5-S1 and lumbar lordosis angle were measured and compared. A new device with pneumatic shoulder-hip compression mode was used for axial loading.
RESULTS
In the absence of axial loading, there was a significant reduction in dural sac cross-sectional area with extension only seen at the L3-4 (p = 0.033) relative to the dural sac area in the psoas-relaxed position. However, with axial loading, there was a significant reduction in dural sac cross-sectional area at all levels in both psoas-relaxed (L3-4, p = 0.041; L5-S1, p = 0.005; L4-5, p = 0.002) and extension (p < 0.001) positions. The sagittal vertebral canal diameter and disc height were significantly reduced at all lumbar levels with axial loading and extension (p < 0.001); however, in psoas-relaxed position, the sagittal vertebral canal diameter was only reduced with axial loading at L3-4 (p = 0.018) and L4-5 (p = 0.011), and the disc height was reduced with axial-loading at all levels (L3-4, p = 0.027; L5-S1, p = 0.001; L4-5, p < 0.001). The ligamentum flavum thickness and lumbar lordosis in extension position had a statistically significant increase compared to psoas-relaxed position with or without axial loading (p < 0.001).
CONCLUSION
Both axial loading and extension of lumbar may exacerbate lumbar spinal stenosis. Axial loading in extension position could maximally aggravate lumbar spinal stenosis, but may cause some patients intolerable. For those patients, axial loading MRI in psoas-relaxed position may be a good choice.
目的
使用一种新的轴向加载装置来研究轴向加载及体位对腰椎结构和腰椎管狭窄的影响。
方法
共有40例患者依次接受4项检查:(1)腰大肌放松位MRI;(2)伸展位MRI;(3)腰大肌放松位轴向加载MRI;(4)伸展位轴向加载MRI。测量并比较L3 - 4、L4 - 5、L5 - S1节段的硬脊膜囊横截面积、矢状位椎管直径、椎间盘高度及黄韧带厚度以及腰椎前凸角。采用一种具有气动肩髋压缩模式的新装置进行轴向加载。
结果
在无轴向加载时,仅在L3 - 4节段,相对于腰大肌放松位的硬脊膜囊面积,伸展位时硬脊膜囊横截面积有显著减小(p = 0.033)。然而,在有轴向加载时,腰大肌放松位(L3 - 4,p = 0.041;L5 - S1,p = 0.005;L4 - 5,p = 0.002)和伸展位(p < 0.001)所有节段的硬脊膜囊横截面积均显著减小。在有轴向加载和伸展位时,所有腰椎节段的矢状位椎管直径和椎间盘高度均显著减小(p < 0.001);然而,在腰大肌放松位,仅在L3 - 4(p = 0.018)和L4 - 5(p = 0.011)节段矢状位椎管直径随轴向加载而减小,所有节段的椎间盘高度随轴向加载而减小(L3 - 4,p = 0.027;L5 - S1,p = 0.001;L4 - 5,p < 0.001)。与有无轴向加载的腰大肌放松位相比,伸展位的黄韧带厚度和腰椎前凸在统计学上有显著增加(p < 0.001)。
结论
轴向加载和腰椎伸展均可加重腰椎管狭窄。伸展位轴向加载可最大程度加重腰椎管狭窄,但可能使部分患者无法耐受。对于那些患者,腰大肌放松位轴向加载MRI可能是一个不错的选择。
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